[cmor-tables] 57/83: Changes include the following (note that for all tables, some information formerly appearing in the "comment" column has been moved to the "questions & notes" column, but these changes have not usually been highlighted by shading, which shows the other changes that have been recently made):

Alastair McKinstry mckinstry at moszumanska.debian.org
Sun Aug 30 08:06:12 UTC 2015


This is an automated email from the git hooks/post-receive script.

mckinstry pushed a commit to branch master
in repository cmor-tables.

commit 2f06624d407fe1641363ae3ec0c7ed783d844c09
Author: Charles Doutriaux <doutriaux1 at llnl.gov>
Date:   Thu Jan 6 15:47:28 2011 -0800

    Changes include the following (note that for all tables, some information formerly appearing in the "comment" column has been moved to the "questions & notes" column, but these changes have not usually been highlighted by shading, which shows the other changes that have been recently made):
    
    dims:
    1) units corrected for character string type coordinates.
    2) potential density dimension attributes corrected
    3) requested coordinate values and bounds corrected for scatratio
    4) typo corrected in "requested values of oline strings.
    
    fx:
    1) standard_name corrected for Amon surface_snow_and_ice_sublimation_flux
    2)  the upward geothermal heat flux has been added to this table, because it normally is independent of time.  Models where it depends on time, should see table Omon.
    
    Oclim, Oyr, and Omon:
    1) added request for depth of ocean layers, but only from models where this field cannot be calculated from the vertical coordinate information.
    
    Amon:
    1) standard name corrected for surface_snow_and_ice_sublimation_flux
    2) cell_methods added to hfgeou
    3) added request for 4 new bias-corrected fields, but only from decadal hindcast/prediction experiments.
    
    Lmon:
    1) LAI definition corrected
    
    OImon:
    1) long_names slightly modified for for rsdssi and rldssi
    
    aero:
    1) longname and standard_name modified for sdsdiff and rsdscsdiff
    2) standard_name defined for ec550aer
    
    3hr:
    1) CMOR dimensions corrected for uas and vas
    2) variable name corrected for surface_upwelling_shortwave_flux_in_air_assuming_clear_sky
    3) longname modified for rsdsdiff
    
    cfMon:
    1) relative_humidity added to this table
    2) cell_methods removed from lon and lat fields
---
 Lib/check_tables_okish.py |   2 +-
 RELEASE-NOTES             |  38 ++++++++++
 Tables/CMIP5_3hr          |  16 ++--
 Tables/CMIP5_6hrLev       |   6 +-
 Tables/CMIP5_6hrPlev      |  13 +++-
 Tables/CMIP5_Amon         | 141 ++++++++++++++++++++++++++---------
 Tables/CMIP5_LImon        |  22 +++---
 Tables/CMIP5_Lmon         |  39 ++++------
 Tables/CMIP5_OImon        |  74 +++++++++----------
 Tables/CMIP5_Oclim        |  64 ++++++++++------
 Tables/CMIP5_Omon         | 182 ++++++++++++++++++++++------------------------
 Tables/CMIP5_Oyr          |  68 ++++++++++-------
 Tables/CMIP5_aero         |  57 +++++++--------
 Tables/CMIP5_cf3hr        |  61 ++++++----------
 Tables/CMIP5_cfDay        |  23 +++---
 Tables/CMIP5_cfMon        |  70 ++++++++++++------
 Tables/CMIP5_cfOff        |  13 ++--
 Tables/CMIP5_cfSites      |  41 ++++-------
 Tables/CMIP5_day          |  39 ++++------
 Tables/CMIP5_fx           |  40 +++++++---
 Tables/md5s               |   2 +-
 Tables_csv/3hr.csv        |  14 ++--
 Tables_csv/6hrLev.csv     |  10 +--
 Tables_csv/6hrPlev.csv    |  10 +--
 Tables_csv/Amon.csv       |  97 ++++++++++++++----------
 Tables_csv/Amon_2D.csv    |  34 ++++-----
 Tables_csv/LImon.csv      |  22 +++---
 Tables_csv/Lmon.csv       |  56 +++++++-------
 Tables_csv/OImon.csv      |  74 +++++++++----------
 Tables_csv/Oclim.csv      |  55 ++++++++------
 Tables_csv/Omon.csv       | 157 ++++++++++++++++++++-------------------
 Tables_csv/Oyr.csv        |  59 ++++++++-------
 Tables_csv/Oyr_tracer.csv |  20 ++---
 Tables_csv/aero.csv       |  62 ++++++++--------
 Tables_csv/cf3hr.csv      |  44 +++++------
 Tables_csv/cfDay.csv      |  30 ++++----
 Tables_csv/cfMon.csv      |  56 +++++++-------
 Tables_csv/cfOff.csv      |  10 +--
 Tables_csv/cfSites.csv    |  20 ++---
 Tables_csv/day.csv        |  50 ++++++-------
 Tables_csv/dims.csv       |  28 +++----
 Tables_csv/fx.csv         |  27 +++----
 configure                 |  18 ++---
 configure.ac              |   2 +-
 44 files changed, 1065 insertions(+), 901 deletions(-)

diff --git a/Lib/check_tables_okish.py b/Lib/check_tables_okish.py
index 24ff72e..18539c6 100644
--- a/Lib/check_tables_okish.py
+++ b/Lib/check_tables_okish.py
@@ -2,7 +2,7 @@ import cmor,numpy
 from cmor.check_CMOR_compliant import readTable
 
 tables = """CMIP5_3hr     CMIP5_6hrPlev CMIP5_LImon   CMIP5_OImon   CMIP5_Omon    CMIP5_aero    CMIP5_cfDay   CMIP5_cfOff   CMIP5_day     CMIP5_grids CMIP5_6hrLev  CMIP5_Amon    CMIP5_Lmon    CMIP5_Oclim   CMIP5_Oyr     CMIP5_cf3hr   CMIP5_cfMon   CMIP5_cfSites CMIP5_fx"""
-tables = """CMIP5_3hr     CMIP5_6hrPlev CMIP5_LImon   CMIP5_OImon   CMIP5_Omon    CMIP5_aero    CMIP5_cfDay   CMIP5_cfOff   CMIP5_day      CMIP5_6hrLev  CMIP5_Amon    CMIP5_Lmon    CMIP5_Oclim   CMIP5_Oyr     CMIP5_cf3hr   CMIP5_cfMon    CMIP5_fx"""
+tables = """CMIP5_3hr     CMIP5_6hrPlev CMIP5_LImon   CMIP5_OImon   CMIP5_Omon    CMIP5_aero    CMIP5_cfDay   CMIP5_cfOff   CMIP5_day      CMIP5_6hrLev  CMIP5_Amon    CMIP5_Lmon    CMIP5_Oclim   CMIP5_Oyr    CMIP5_cfMon    CMIP5_fx"""
 
 for t in tables.split():
     print 'Table:',t
diff --git a/RELEASE-NOTES b/RELEASE-NOTES
index cfdaba7..4e97d91 100644
--- a/RELEASE-NOTES
+++ b/RELEASE-NOTES
@@ -1,3 +1,41 @@
+2011-01-06 : Changes include the following (note that for all tables, some information formerly appearing in the "comment" column has been moved to the "questions & notes" column, but these changes have not usually been highlighted by shading, which shows the other changes that have been recently made):
+
+dims:
+1) units corrected for character string type coordinates.
+2) potential density dimension attributes corrected
+3) requested coordinate values and bounds corrected for scatratio
+4) typo corrected in "requested values of oline strings.
+
+fx:
+1) standard_name corrected for Amon surface_snow_and_ice_sublimation_flux
+2)  the upward geothermal heat flux has been added to this table, because it normally is independent of time.  Models where it depends on time, should see table Omon.
+
+Oclim, Oyr, and Omon:
+1) added request for depth of ocean layers, but only from models where this field cannot be calculated from the vertical coordinate information.
+
+Amon:
+1) standard name corrected for surface_snow_and_ice_sublimation_flux
+2) cell_methods added to hfgeou
+3) added request for 4 new bias-corrected fields, but only from decadal hindcast/prediction experiments.
+
+Lmon:
+1) LAI definition corrected
+
+OImon:
+1) long_names slightly modified for for rsdssi and rldssi
+
+aero:
+1) longname and standard_name modified for sdsdiff and rsdscsdiff
+2) standard_name defined for ec550aer
+
+3hr:
+1) CMOR dimensions corrected for uas and vas
+2) variable name corrected for surface_upwelling_shortwave_flux_in_air_assuming_clear_sky
+3) longname modified for rsdsdiff
+
+cfMon:
+1) relative_humidity added to this table
+2) cell_methods removed from lon and lat fields
 2010-11-30 : edited min/maxs to be added only for monthly tables
 2010-11-30 : min/max are adjusted with greater of 5% or 3*std instead of just 3*std
 2010-11-30 : typos fixed by Karl
diff --git a/Tables/CMIP5_3hr b/Tables/CMIP5_3hr
index 65f1c53..d04c000 100644
--- a/Tables/CMIP5_3hr
+++ b/Tables/CMIP5_3hr
@@ -6,7 +6,7 @@ frequency: 3hr
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -258,7 +258,7 @@ units:             K
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Air Temperature
-comment:           near-surface (usually, 2 meter) air temperature, sampled synoptically.
+comment:           This is sampled synoptically.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -417,7 +417,7 @@ standard_name:     eastward_wind
 units:             m s-1
 cell_methods:      time: point
 long_name:         Eastward Near-Surface Wind Speed
-comment:           sampled synoptically.
+comment:           This is sampled synoptically.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -438,7 +438,7 @@ standard_name:     northward_wind
 units:             m s-1
 cell_methods:      time: point
 long_name:         Northward Near-Surface Wind Speed
-comment:           sampled synoptically.
+comment:           This is sampled synoptically.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -460,7 +460,7 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Near-Surface Specific Humidity
-comment:           near-surface (usually 2 m) specific humidity, sampled synoptically.
+comment:           This is sampled synoptically.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -481,8 +481,8 @@ standard_name:     moisture_content_of_soil_layer
 units:             kg m-2
 cell_methods:      time: point area: mean where land
 cell_measures:     area: areacella
-long_name:         Moisture in Upper 0.1 m of Soil Column
-comment:           Compute the mass of water in all phases in the upper 0.1 meters of soil.
+long_name:         Moisture in Upper Portion of Soil Column
+comment:           the mass of water in all phases in a thin surface soil layer.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -592,7 +592,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Total Runoff
-comment:           compute the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell, averaged over the 3-hour interval.
+comment:           the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell, averaged over the 3-hour interval.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_6hrLev b/Tables/CMIP5_6hrLev
index c2c8a55..d3d68e9 100644
--- a/Tables/CMIP5_6hrLev
+++ b/Tables/CMIP5_6hrLev
@@ -6,7 +6,7 @@ frequency: 6hr
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -499,7 +499,6 @@ standard_name:     air_temperature
 units:             K
 cell_measures:     area: areacella
 long_name:         Air Temperature
-comment:           on all model levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -519,7 +518,6 @@ modeling_realm:    atmos
 standard_name:     eastward_wind
 units:             m s-1
 long_name:         Eastward Wind
-comment:           on all model levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -539,7 +537,6 @@ modeling_realm:    atmos
 standard_name:     northward_wind
 units:             m s-1
 long_name:         Northward Wind
-comment:           on all model levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -560,7 +557,6 @@ standard_name:     specific_humidity
 units:             1
 cell_measures:     area: areacella
 long_name:         Specific Humidity
-comment:           on all model levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_6hrPlev b/Tables/CMIP5_6hrPlev
index 8c3ade5..89a0e7c 100644
--- a/Tables/CMIP5_6hrPlev
+++ b/Tables/CMIP5_6hrPlev
@@ -6,7 +6,7 @@ frequency: 6hr
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -161,13 +161,14 @@ modeling_realm:    atmos
 standard_name:     eastward_wind
 units:             m s-1
 long_name:         Eastward Wind
-comment:           on the following pressure levels: 850, 500, 250 hPa
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
 dimensions:        longitude latitude plev3 time1
 out_name:          ua
 type:              real
+valid_min:         -90.0
+valid_max:         145.0
 !----------------------------------
 !
 
@@ -181,13 +182,14 @@ modeling_realm:    atmos
 standard_name:     northward_wind
 units:             m s-1
 long_name:         Northward Wind
-comment:           on the following pressure levels: 850, 500, 250 hPa
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
 dimensions:        longitude latitude plev3 time1
 out_name:          va
 type:              real
+valid_min:         -80.0
+valid_max:         80.0
 !----------------------------------
 !
 
@@ -202,13 +204,14 @@ standard_name:     air_temperature
 units:             K
 cell_measures:     area: areacella
 long_name:         Air Temperature
-comment:           on the following pressure levels: 850, 500, 250 hPa
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
 dimensions:        longitude latitude plev3 time1
 out_name:          ta
 type:              real
+valid_min:         144.0
+valid_max:         330.0
 !----------------------------------
 !
 
@@ -229,6 +232,8 @@ long_name:         Sea Level Pressure
 dimensions:        longitude latitude time1
 out_name:          psl
 type:              real
+valid_min:         92500.0
+valid_max:         113000.0
 !----------------------------------
 !
 
diff --git a/Tables/CMIP5_Amon b/Tables/CMIP5_Amon
index 8a4d9a3..fdb2785 100644
--- a/Tables/CMIP5_Amon
+++ b/Tables/CMIP5_Amon
@@ -6,7 +6,7 @@ frequency: mon
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -596,7 +596,6 @@ units:             K
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Near-Surface Air Temperature
-comment:           near-surface (usually, 2 meter) air temperature.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -648,7 +647,7 @@ units:             K
 cell_methods:      time: minimum within days time: mean over days
 cell_measures:     area: areacella
 long_name:         Daily Minimum Near-Surface Air Temperature
-comment:           monthly mean of the daily-minimum near-surface (usually, 2 meter) air temperature.
+comment:           monthly mean of the daily-minimum near-surface air temperature.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -674,7 +673,7 @@ units:             K
 cell_methods:      time: maximum within days time: mean over days
 cell_measures:     area: areacella
 long_name:         Daily Maximum Near-Surface Air Temperature
-comment:           monthly mean of the daily-maximum near-surface (usually, 2 meter) air temperature.
+comment:           monthly mean of the daily-maximum near-surface air temperature.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -751,7 +750,6 @@ standard_name:     eastward_wind
 units:             m s-1
 cell_methods:      time: mean
 long_name:         Eastward Near-Surface Wind
-comment:           near-surface (usually, 10 meters) eastward component of wind.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -776,7 +774,6 @@ standard_name:     northward_wind
 units:             m s-1
 cell_methods:      time: mean
 long_name:         Northward Near-Surface Wind
-comment:           near-surface (usually, 10 meters) northward component of wind.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -801,7 +798,7 @@ standard_name:     wind_speed
 units:             m s-1
 cell_methods:      time: mean
 long_name:         Near-Surface Wind Speed
-comment:           near-surface (usually, 10 meters) wind speed.  This is the mean of the speed, not the speed computed from the mean u and v components of wind
+comment:           This is the mean of the speed, not the speed computed from the mean u and v components of wind
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -823,7 +820,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Near-Surface Relative Humidity
-comment:           near-surface (usually, 2meters) relative humidity expressed as a percentage.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
+comment:           This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -845,7 +842,6 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Near-Surface Specific Humidity
-comment:           near-surface (usually, 2 meters) specific humidity.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -971,7 +967,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Snow and Ice Sublimation Flux
-comment:           The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. This differs from sbl appearing in table Limon in that the flux is averaged over the entire grid cell, not just the land portion.
+comment:           The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1282,7 +1278,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         TOA Incident Shortwave Radiation
-comment:           incident shortwave at the top of the atmosphere
+comment:           at the top of the atmosphere
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1467,7 +1463,7 @@ units:             kg m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Condensed Water Path
-comment:           calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1493,7 +1489,7 @@ units:             kg m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Ice Water Path
-comment:           calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1519,7 +1515,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Net Downward Flux at Top of Model
-comment:           i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. Report only if this differs from the net downward radiative flux at the top of the atmosphere.
+comment:           i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1610,7 +1606,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Fraction of Time Shallow Convection Occurs
-comment:           Fraction of time that shallow convection occurs in the grid cell. ( For models with a distinct shallow convection scheme only)
+comment:           Fraction of time that shallow convection occurs in the grid cell. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1632,7 +1628,7 @@ units:             kg  m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2
-comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Do not include natural fire sources, but include all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.
+comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1655,7 +1651,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2
-comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Report the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)
+comment:           This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1678,7 +1674,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources
-comment:           Report from all simulations (both emission-driven and concentration-driven) performed by models with fully interactive and responsive carbon cycles.  This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ""net ecosystem biospheric productivity"", for land, and ""ai [...]
+comment:            This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ""net ecosystem biospheric productivity"", for land, and ""air to sea CO2 flux"", for ocean.)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1701,7 +1697,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Cloud Area Fraction
-comment:           Report on model layers (not standard pressures).  Include both large-scale and convective cloud.
+comment:            Includes both large-scale and convective cloud.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1727,7 +1723,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Cloud Liquid Water
-comment:           Report on model layers (not standard pressures).  Include both large-scale and convective cloud.  Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Includes both large-scale and convective cloud.  Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1749,7 +1745,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Cloud Ice
-comment:           Report on model layers (not standard pressures).  Include both large-scale and convective cloud.  Calculate as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Includes both large-scale and convective cloud.  This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1771,7 +1767,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Convective Mass Flux
-comment:           Report on model half-levels (i.e., model layer bounds and not standard pressures).  The net mass flux should represent the difference between the updraft and downdraft components.  The flux is computed as the mass divided by the area of the grid cell.  
+comment:           The net mass flux should represent the difference between the updraft and downdraft components.  The flux is computed as the mass divided by the area of the grid cell.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1969,7 +1965,6 @@ units:             1e-9
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mole Fraction of O3
-comment:           If this does not change over time (except possibly to vary identically over each annual cycle), report instead the variable described in the next table entry. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1995,7 +1990,6 @@ units:             1e-9
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacella
 long_name:         Mole Fraction of O3
-comment:           If O3 does not vary from one year to the next, report 12 months, starting with January.   (Note: include all 12 months even if the values don't vary seasonally.)  When calling CMOR, identify this variable as tro3Clim, not tro3. If the O3 varies from one year to the next,  then report instead the field described in the previous table entry.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2017,7 +2011,6 @@ units:             1e-6
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mole Fraction of CO2
-comment:           For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If spatially uniform, omit this field, but report Total Atmospheric Mass of CO2 (see the table entry after the next one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2039,7 +2032,6 @@ units:             1e-6
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacella
 long_name:         Mole Fraction of CO2
-comment:           Report only for simulations (e.g., prescribed concentration pi-control run), in which the CO2 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as co2Clim, not co2.   If  CO2 is spatially uniform, omit this field, but report Total Atmospheric Mass of CO2 (see the table entry after the next).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2060,7 +2052,6 @@ standard_name:     atmosphere_mass_of_carbon_dioxide
 units:             kg
 cell_methods:      time: mean
 long_name:         Total Atmospheric Mass of CO2
-comment:           For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CO2 is spatially nonuniform, omit this field, but report Mole Fraction of CO2 (see the table entry before the previous one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2081,7 +2072,6 @@ standard_name:     atmosphere_mass_of_carbon_dioxide
 units:             kg
 cell_methods:      time: mean within years time: mean over years
 long_name:         Total Atmospheric Mass of CO2
-comment:           Report only for simulations (e.g., prescribed concentration pi-control run), in which the CO2 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as co2massClim, not co2mass.  If CO2 is spatially nonuniform, omit this field, but report Mole Fraction of CO2 (see the table entry before the previous one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2103,7 +2093,6 @@ units:             1e-9
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mole Fraction of CH4
-comment:           For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CH4 is spatially uniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry after the next one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2125,7 +2114,6 @@ units:             1e-9
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacella
 long_name:         Mole Fraction of CH4
-comment:           Report only for simulations (e.g., prescribed concentration pi-control run), in which the CH4 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4global, not ch4.   If  CH4 is spatially uniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry after the next).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2146,7 +2134,6 @@ standard_name:     mole_fraction_of_methane_in_air
 units:             1e-9
 cell_methods:      time: mean
 long_name:         Global Mean Mole Fraction of CH4
-comment:           For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CH4 is spatially nonuniform, omit this field, but report Mole Fraction of CH4 (see the table entry before the previous one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2167,7 +2154,6 @@ standard_name:     mole_fraction_of_methane_in_air
 units:             1e-9
 cell_methods:      time: mean within years time: mean over years
 long_name:         Global Mean Mole Fraction of CH4
-comment:           Report only for simulations (e.g., prescribed concentration pi-control run), in which the CH4 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4globalClim, not ch4global.  If CH4 is spatially nonuniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry before the previous one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2189,7 +2175,6 @@ units:             1e-9
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mole Fraction of N2O
-comment:           For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If N2O is spatially uniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry after the next one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2211,7 +2196,6 @@ units:             1e-9
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacella
 long_name:         Mole Fraction of N2O
-comment:           Report only for simulations (e.g., prescribed concentration pi-control run), in which the N2O does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as n2oglobal, not n2o.   If  N2O is spatially uniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry after the next).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2232,7 +2216,6 @@ standard_name:     mole_fraction_of_nitrous_oxide_in_air
 units:             1e-9
 cell_methods:      time: mean
 long_name:         Global Mean Mole Fraction of N2O
-comment:           For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If N2O is spatially nonuniform, omit this field, but report Mole Fraction of N2O (see the table entry before the previous one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2253,7 +2236,6 @@ standard_name:     mole_fraction_of_nitrous_oxide_in_air
 units:             1e-9
 cell_methods:      time: mean within years time: mean over years
 long_name:         Global Mean Mole Fraction of N2O
-comment:           Report only for simulations (e.g., prescribed concentration pi-control run), in which the N2O does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4globalClim, not ch4global.  If N2O is spatially nonuniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry before the previous one). 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2386,3 +2368,90 @@ type:              real
 !----------------------------------
 !
 
+!============
+variable_entry:    tasAdjust
+!============
+modeling_realm:    atmos
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     air_temperature
+units:             K
+cell_methods:      time: mean
+cell_measures:     area: areacella
+long_name:         Bias-Corrected Near-Surface Air Temperature
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude time height2m
+out_name:          tasAdjust
+type:              real
+!----------------------------------
+!
+
+!============
+variable_entry:    tsAdjust
+!============
+modeling_realm:    atmos
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     surface_temperature
+units:             K
+cell_methods:      time: mean
+cell_measures:     area: areacella
+long_name:         Bias-Corrected Surface Temperature
+comment:           ""skin"" temperature (i.e., SST for open ocean)
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude time
+out_name:          tsAdjust
+type:              real
+!----------------------------------
+!
+
+!============
+variable_entry:    pslAdjust
+!============
+modeling_realm:    atmos
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     air_pressure_at_sea_level
+units:             Pa
+cell_methods:      time: mean
+cell_measures:     area: areacella
+long_name:         Bias-Corrected Sea Level Pressure
+comment:           not, in general, the same as surface pressure
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude time
+out_name:          pslAdjust
+type:              real
+!----------------------------------
+!
+
+!============
+variable_entry:    prAdjust
+!============
+modeling_realm:    atmos
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     precipitation_flux
+units:             kg m-2 s-1
+cell_methods:      time: mean
+cell_measures:     area: areacella
+long_name:         Bias-Corrected Precipitation
+comment:           at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective)
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude time
+out_name:          prAdjust
+type:              real
+!----------------------------------
+!
+
diff --git a/Tables/CMIP5_LImon b/Tables/CMIP5_LImon
index 8ee9629..a9650cf 100644
--- a/Tables/CMIP5_LImon
+++ b/Tables/CMIP5_LImon
@@ -6,7 +6,7 @@ frequency: mon
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -189,7 +189,7 @@ units:             kg m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Surface Snow Amount
-comment:           Compute as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 where the land fraction is 0; exclude snow on vegetation canopy or on sea ice.
+comment:           Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -215,7 +215,7 @@ units:             m
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Snow Depth
-comment:           where land over land.  Compute the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction.  Report as 0.0 where the land fraction is 0.
+comment:           where land over land, this is computed as the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction).  Reported as 0.0 where the land fraction is 0.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -241,7 +241,7 @@ units:             kg m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Liquid Water Content of Snow Layer
-comment:           where land over land: compute the total mass of liquid water contained interstitially within the snow layer of the land portion of a grid cell divided by the area of the land portion of the cell.
+comment:           where land over land: this is computed as the total mass of liquid water contained interstitially within the snow layer of the land portion of a grid cell divided by the area of the land portion of the cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -263,7 +263,7 @@ units:             kg m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Snow Soot Content
-comment:           Consider the entire land portion of the grid cell, with snow soot content set to 0.0 in regions free of snow.
+comment:           the entire land portion of the grid cell is considered, with snow soot content set to 0.0 in regions free of snow.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -285,7 +285,7 @@ units:             day
 cell_methods:      time: mean (with samples weighted by snow mass) area: mean where land
 cell_measures:     area: areacella
 long_name:         Snow Age
-comment:           When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing in regions free of snow on land.
+comment:           When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing in regions free of snow on land.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -307,7 +307,7 @@ units:             K
 cell_methods:      time: mean (with samples weighted by snow mass) area: mean where land
 cell_measures:     area: areacella
 long_name:         Snow Internal Temperature
-comment:           This temperature is averaged over all the snow in the grid cell that rests on land or land ice.  When computing the time-mean here, the time samples, the weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.   Report as ""missing in regions free of snow on land.
+comment:           This temperature is averaged over all the snow in the grid cell that rests on land or land ice.  When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.   Reported as ""missing in regions free of snow on land.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -329,7 +329,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Surface Snow Melt
-comment:           Compute as the total surface melt water on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.
+comment:           Computed as the total surface melt water on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -355,7 +355,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Surface Snow and Ice Sublimation Flux
-comment:           The snow and ice sublimation flux is the loss of snow and ice mass resulting from their conversion to water vapor.  Compute as the total sublimation on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.
+comment:           The snow and ice sublimation flux is the loss of snow and ice mass resulting from their conversion to water vapor.  Computed as the total sublimation on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 for snow-free land regions; reported as 0.0 where the land fraction is 0.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -381,7 +381,7 @@ units:             W m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Downward Heat Flux into Snow Where Land over Land
-comment:           Compute the net downward heat flux from the atmosphere into the snow that lies on land divided by the land area in the grid cell; report as 0.0 for snow-free land regions or where the land fraction is 0.
+comment:           the net downward heat flux from the atmosphere into the snow that lies on land divided by the land area in the grid cell; reported as 0.0 for snow-free land regions or where the land fraction is 0.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -404,7 +404,7 @@ units:             m
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Permafrost Layer Thickness
-comment:           where land over land. Compute the mean thickness of the permafrost layer in the land portion of the grid cell.  Report as 0.0 in permafrost-free regions.
+comment:           where land over land: This is the mean thickness of the permafrost layer in the land portion of the grid cell.  Reported as 0.0 in permafrost-free regions.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_Lmon b/Tables/CMIP5_Lmon
index 860073f..6e66293 100644
--- a/Tables/CMIP5_Lmon
+++ b/Tables/CMIP5_Lmon
@@ -6,7 +6,7 @@ frequency: mon
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -185,7 +185,6 @@ axis_entry: vegtype
 ! Axis attributes:
 !----------------------------------
 standard_name:    area_type
-units:            1
 long_name:        plant functional type
 !----------------------------------
 ! Additional axis information:
@@ -205,7 +204,6 @@ axis_entry: typebare
 ! Axis attributes:
 !----------------------------------
 standard_name:    area_type
-units:            1
 long_name:        surface type
 !----------------------------------
 ! Additional axis information:
@@ -226,7 +224,6 @@ axis_entry: typepdec
 ! Axis attributes:
 !----------------------------------
 standard_name:    area_type
-units:            1
 long_name:        surface type
 !----------------------------------
 ! Additional axis information:
@@ -247,7 +244,6 @@ axis_entry: typepever
 ! Axis attributes:
 !----------------------------------
 standard_name:    area_type
-units:            1
 long_name:        surface type
 !----------------------------------
 ! Additional axis information:
@@ -268,7 +264,6 @@ axis_entry: typesdec
 ! Axis attributes:
 !----------------------------------
 standard_name:    area_type
-units:            1
 long_name:        surface type
 !----------------------------------
 ! Additional axis information:
@@ -289,7 +284,6 @@ axis_entry: typesever
 ! Axis attributes:
 !----------------------------------
 standard_name:    area_type
-units:            1
 long_name:        surface type
 !----------------------------------
 ! Additional axis information:
@@ -310,7 +304,6 @@ axis_entry: typec3pft
 ! Axis attributes:
 !----------------------------------
 standard_name:    area_type
-units:            1
 long_name:        surface type
 !----------------------------------
 ! Additional axis information:
@@ -331,7 +324,6 @@ axis_entry: typec4pft
 ! Axis attributes:
 !----------------------------------
 standard_name:    area_type
-units:            1
 long_name:        surface type
 !----------------------------------
 ! Additional axis information:
@@ -355,8 +347,8 @@ standard_name:     moisture_content_of_soil_layer
 units:             kg m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
-long_name:         Moisture in Upper 0.1 m of Soil Column
-comment:           Compute the mass of water in all phases in the upper 0.1 meters of soil.
+long_name:         Moisture in Upper Portion of Soil Column
+comment:           the mass of water in all phases in a thin surface soil layer.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -382,7 +374,7 @@ units:             kg m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Total Soil Moisture Content
-comment:           Compute the mass per unit area  (summed over all soil layers) of water in all phases.
+comment:           the mass per unit area  (summed over all soil layers) of water in all phases.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -408,7 +400,7 @@ units:             kg m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Soil Frozen Water Content 
-comment:           Compute the mass (summed over all all layers) of frozen water.
+comment:           the mass (summed over all all layers) of frozen water.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -434,7 +426,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Surface Runoff
-comment:           Compute the total surface runoff leaving the land portion of the grid cell.
+comment:           the total surface runoff leaving the land portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -460,7 +452,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Total Runoff
-comment:           "compute the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell."
+comment:           "the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell."
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -486,7 +478,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Precipitation onto Canopy
-comment:           Report the precipitation flux that is intercepted by the vegetation canopy (if present in model) before reaching the ground.
+comment:           the precipitation flux that is intercepted by the vegetation canopy (if present in model) before reaching the ground.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -508,7 +500,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Evaporation from Canopy
-comment:           Report the canopy evaporation+sublimation (if present in model).
+comment:           the canopy evaporation+sublimation (if present in model).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -576,7 +568,7 @@ units:             kg m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:          Water Content of Soil Layer
-comment:           in each soil layer, the mass of water in all phases, including ice.
+comment:           in each soil layer, the mass of water in all phases, including ice.  Reported as ""missing"" for grid cells occupied entirely by ""sea""
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -598,7 +590,7 @@ units:             K
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Temperature of Soil
-comment:           "Temperature of each soil layer.  Report as ""missing"" for grid cells occupied entirely by ""sea""."
+comment:           "Temperature of each soil layer.  Reported as ""missing"" for grid cells occupied entirely by ""sea""."
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -880,7 +872,7 @@ units:             1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Leaf Area Index
-comment:           projected leaf area per unit of ground area (i.e., only the land portion of the grid cell), expressed as a proper fraction (not a percentage)
+comment:           a ratio obtained by dividing the total upper leaf surface area of vegetation by the (horizontal) surface area of the land on which it grows.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -946,7 +938,6 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux out of Atmosphere due to Net Primary Production on Land
-comment:           needed for models that do not compute GPP (if any)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1384,7 +1375,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Plant Functional Type Grid Fraction
-comment:           using each individual ESM PFT definition.   This includes natural PFTs, anthropogenic PFTs, bare soil, lakes, urban areas, etc.   Sum of all should equal the fraction of the grid-cell that is land.  Note that the ""types"" will be model dependent and for each type there should be a full description of the PFT (plant functional type).   To facilitate model comparison, it is also requested that the aggregated land cover types called for in lines 28 to 35 be archived (but [...]
+comment:           The categories may differ from model to model, depending on their  PFT definitions.   This may include natural PFTs, anthropogenic PFTs, bare soil, lakes, urban areas, etc.   Sum of all should equal the fraction of the grid-cell that is land.     
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1406,7 +1397,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Total Primary Deciduous Tree Fraction
-comment:           "Agregation of model PFTs as defined in 1st priority to aid model intercomparison.  This is the fraction of the entire grid cell  that is covered by ""total primary deciduous trees.""    "
+comment:           "This is the fraction of the entire grid cell  that is covered by ""total primary deciduous trees."""
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1538,7 +1529,6 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux into Atmosphere due to Growth Autotrophic Respiration on Land
-comment:           "This flux and the one in the following row provide a breakdown of the higher priority ""Autotrophic (Plant) Respiration"" in an earlier row of this table; thus the sum should be identical to that."
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1561,7 +1551,6 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux into Atmosphere due to Maintenance Autotrophic Respiration on Land
-comment:           "This flux and the one in the previous row provide a breakdown of the higher priority ""Autotrophic (Plant) Respiration"" in an earlier row of this table; thus the sum should be identical to that."
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_OImon b/Tables/CMIP5_OImon
index 97cc803..2364d48 100644
--- a/Tables/CMIP5_OImon
+++ b/Tables/CMIP5_OImon
@@ -6,7 +6,7 @@ frequency: mon
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -165,7 +165,7 @@ units:             m
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Sea Ice Thickness
-comment:           Compute the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Report as 0.0 in regions free of sea ice.
+comment:           the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Reported as 0.0 in regions free of sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -191,7 +191,7 @@ units:             kg m-2
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Sea Ice Plus Surface Snow Amount
-comment:           Compute the  mass per unit area of sea ice plus snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Report as 0.0 in regions free of sea ice.
+comment:           the  mass per unit area of sea ice plus snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Reported as 0.0 in regions free of sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -213,7 +213,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Water Evaporation Flux from Sea Ice
-comment:           Compute the average rate that water mass evaporates (or sublimates) from the sea ice surface (i.e., kg/s) divided by the area of the ocean (i.e., open ocean + sea ice) portion of the grid cell. This quantity multiplied both by the oean area of the grid cell and by the length of the month should yield the total mass of water evaporated (or sublimated) from the sea ice.  Report as 0.0 in regions free of sea ice.  [This was computed differently in CMIP3
+comment:           the average rate that water mass evaporates (or sublimates) from the sea ice surface (i.e., kg/s) divided by the area of the ocean (i.e., open ocean + sea ice) portion of the grid cell. This quantity, multiplied both by the oean area of the grid cell and by the length of the month, should yield the total mass of water evaporated (or sublimated) from the sea ice.  Reported as 0.0 in regions free of sea ice.  [This was computed differently in CMIP3.]
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -236,7 +236,7 @@ units:             m
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Snow Depth
-comment:           Compute the mean thickness of snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the snow-free ocean fraction).  Report as 0.0 in regions free of snow-covered sea ice.
+comment:           the mean thickness of snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the snow-free ocean fraction).  Reported as 0.0 in regions free of snow-covered sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -280,7 +280,7 @@ units:             1
 cell_methods:      time: mean area: mean where sea_ice
 cell_measures:     area: areacello
 long_name:         Sea Ice Albedo
-comment:           "Report as ""missing"" if there is no sunlight or if a region is free of sea ice. "
+comment:           "Reported as ""missing"" if there is no sunlight or if a region is free of sea ice. "
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -302,7 +302,7 @@ units:             psu
 cell_methods:      time: mean (weighted by mass of sea ice)
 cell_measures:     area: areacello
 long_name:         Sea Ice Salinity
-comment:           When computing the time-mean here, the time-samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time-samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -324,7 +324,7 @@ units:             K
 cell_methods:      time: mean (weighted by area of sea ice)
 cell_measures:     area: areacello
 long_name:         Surface Temperature of Sea Ice
-comment:           When computing the time-mean here, the time-samples, weighted by the area of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing"" in regions free of sea ice.  Note this will be the surface snow temperature in regions where snow covers the sea ice.
+comment:           When computing the time-mean here, the time-samples, weighted by the area of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing"" in regions free of sea ice.  Note this will be the surface snow temperature in regions where snow covers the sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -346,7 +346,7 @@ units:             K
 cell_methods:      time: mean (weighted by area of snow-covered sea ice)
 cell_measures:     area: areacello
 long_name:         Temperature at Interface Between Sea Ice and Snow
-comment:           When computing the time-mean here, the time-samples, weighted by the area of snow-covered sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing"" in regions free of snow-covered sea ice. 
+comment:           When computing the time-mean here, the time-samples, weighted by the area of snow-covered sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing"" in regions free of snow-covered sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -368,7 +368,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Surface Rainfall Rate into the Sea Ice Portion of the Grid Cell
-comment:           where sea ice over sea: compute the the water mass per unit time falling as rain onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions).  Report as 0. in regions free of sea ice.
+comment:           where sea ice over sea: this is the the water mass per unit time falling as rain onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions).  Reported as 0. in regions free of sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -390,7 +390,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell
-comment:           where sea ice over sea: compute the the water mass per unit time falling as snow onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions).  Report as 0. in regions free of sea ice.
+comment:           where sea ice over sea: this is computed as the the water mass per unit time falling as snow onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions).  Reported as 0. in regions free of sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -412,7 +412,7 @@ units:             years
 cell_methods:      time: mean (weighted b mass of sea ice)
 cell_measures:     area: areacello
 long_name:         Age of Sea Ice
-comment:           When computing the time-mean here, the time samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -434,7 +434,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Frazil Sea Ice Growth (Leads) Rate
-comment:           Compute the rate of change of sea ice mass due to frazil sea ice formation divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice.
+comment:           the rate of change of sea ice mass due to frazil sea ice formation divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -456,7 +456,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Congelation Sea Ice Growth Rate
-comment:           Compute the rate of change of sea ice mass due to congelation sea ice divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice.
+comment:           the rate of change of sea ice mass due to congelation sea ice divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -478,7 +478,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Lateral Sea Ice Growth Rate
-comment:           Compute the rate of change of sea ice mass due to lateral growth alone of the sea ice divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice.
+comment:           the rate of change of sea ice mass due to lateral growth alone of the sea ice divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -500,7 +500,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Snow-Ice Formation Rate
-comment:           Compute the rate of change of sea ice mass due to transformation of snow to sea ice, divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of snow-covered sea ice.
+comment:           the rate of change of sea ice mass due to transformation of snow to sea ice, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of snow-covered sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -522,7 +522,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Snow Melt Rate
-comment:           Compute the rate of change of snow mass  due to melting, divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice.  Include falling snow that melts on impact with the surface. 
+comment:           the rate of change of snow mass  due to melting, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.  Includes falling snow that melts on impact with the surface. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -544,7 +544,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Rate of Melt at Upper Surface of Sea Ice
-comment:           Compute the rate of change of sea ice mass due to melting at its upper surface, divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice. Do not include rate of change of snow mass.
+comment:           the rate of change of sea ice mass due to melting at its upper surface, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice. Does not include rate of change of snow mass.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -566,7 +566,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Rate of Melt at Sea Ice Base
-comment:           Compute the rate of change of sea ice mass due to melting at its lower surface, divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice. 
+comment:           the rate of change of sea ice mass due to melting at its lower surface, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -588,7 +588,7 @@ units:             J m-2
 cell_methods:      time: mean (weighted by mass of sea ice)
 cell_measures:     area: areacello
 long_name:         Sea Ice Heat Content
-comment:           Ice at 0 Celsius is assumed taken to have a heat content of 0 J.  When averaging over time, this quantity is weighted by the mass of sea ice.   Report as ""missing in regions free of sea ice.  Do not include heat content of snow.
+comment:           Ice at 0 Celsius is assumed taken to have a heat content of 0 J.  When averaging over time, this quantity is weighted by the mass of sea ice.   Reported as ""missing in regions free of sea ice.  Does not include heat content of snow.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -610,7 +610,7 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Downwelling Shortwave over Sea Ice
-comment:           Compute the downwelling shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
+comment:           the downwelling shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -633,7 +633,7 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Upward Shortwave over Sea Ice
-comment:           Compute the upward shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
+comment:           the upward shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -656,7 +656,7 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Downwelling Long Wave over Sea Ice
-comment:           Compute the downwelling longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
+comment:           the downwelling longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -679,7 +679,7 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Upward Long Wave over Sea Ice
-comment:           Compute the upward longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
+comment:           the upward longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -702,7 +702,7 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Surface Upward Sensible Heat Flux over Sea Ice
-comment:           Compute the upward sensible heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
+comment:           the upward sensible heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -725,7 +725,7 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Surface Upward Latent Heat Flux over Sea Ice
-comment:           Compute the upward latent heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
+comment:           the upward latent heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -748,7 +748,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea_ice over sea
 cell_measures:     area: areacello
 long_name:         Sublimation over Sea Ice
-comment:           Compute the upward flux of water vapor to the atmosphere due to sublimation of snow and sea  ice in regions of sea ice divided by the area of the ocean portion of the grid cell.
+comment:           the upward flux of water vapor to the atmosphere due to sublimation of snow and sea  ice in regions of sea ice divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -770,7 +770,7 @@ standard_name:     sea_ice_x_transport
 units:             kg s-1
 cell_methods:      time: mean
 long_name:         X-Component of Sea Ice Mass Transport
-comment:           The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Include snow in calculation of mass.
+comment:           The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Snow is included in calculation of mass.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -791,7 +791,7 @@ standard_name:     sea_ice_y_transport
 units:             kg s-1
 cell_methods:      time: mean
 long_name:         Y-Component of Sea Ice Mass Transport
-comment:           The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Include snow in calculation of mass.
+comment:           The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Snow is included in calculation of mass.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -832,7 +832,7 @@ standard_name:     surface_downward_x_stress
 units:             N m-2
 cell_methods:      time: mean (weighted by area of sea ice)
 long_name:         X-Component of Atmospheric Stress On Sea Ice
-comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -854,7 +854,7 @@ standard_name:     surface_downward_y_stress
 units:             N m-2
 cell_methods:      time: mean (weighted by area of sea ice)
 long_name:         Y-Component of Atmospheric Stress On Sea Ice
-comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -897,7 +897,7 @@ standard_name:     upward_y_stress_at_sea_ice_base
 units:             N m-2
 cell_methods:      time: mean (weighted by area of sea ice)
 long_name:         Y-Component of Ocean Stress On Sea Ice
-comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -919,7 +919,7 @@ units:             N m-1
 cell_methods:      time: mean (weighted by area of sea ice)
 cell_measures:     area: areacello
 long_name:         Compressive Sea Ice Strength
-comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -941,7 +941,7 @@ units:             s-1
 cell_methods:      time: mean (weighted by area of sea ice)
 cell_measures:     area: areacello
 long_name:         Strain Rate Divergence of Sea Ice
-comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -963,7 +963,7 @@ units:             s-1
 cell_methods:      time: mean (weighted by area of sea ice)
 cell_measures:     area: areacello
 long_name:         Eastward Derivative of Northward Sea Ice Velocity
-comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -985,7 +985,7 @@ units:             s-1
 cell_methods:      time: mean (weighted by area of sea ice)
 cell_measures:     area: areacello
 long_name:         Northward Derivative of Eastward Sea Ice Velocity
-comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1007,7 +1007,7 @@ units:             s-1
 cell_methods:      time: mean (weighted by area of sea ice)
 cell_measures:     area: areacello
 long_name:         Sea Ice Ridging Rate
-comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. 
+comment:           When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_Oclim b/Tables/CMIP5_Oclim
index c61d651..4c6c929 100644
--- a/Tables/CMIP5_Oclim
+++ b/Tables/CMIP5_Oclim
@@ -6,7 +6,7 @@ frequency: monClim
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -779,7 +779,6 @@ units:             m2 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Tracer Bolus Laplacian Diffusivity 
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -801,7 +800,6 @@ units:             m4 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Tracer Bolus Biharmonic Diffusivity 
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -823,7 +821,6 @@ units:             m2 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Tracer Epineutral Laplacian Diffusivity 
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -845,7 +842,6 @@ units:             m4 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Tracer Epineutral Biharmonic Diffusivity 
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -867,7 +863,6 @@ units:             m2 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Tracer XY Laplacian Diffusivity 
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -889,7 +884,6 @@ units:             m4 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Tracer XY Biharmonic Diffusivity 
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -911,7 +905,6 @@ units:             W m-2
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport 
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -933,7 +926,6 @@ units:             m2 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Momentum XY Laplacian Diffusivity
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -955,7 +947,6 @@ units:             m4 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Momentum XY Biharmonic Diffusivity
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -977,7 +968,6 @@ units:             W m-2
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello volume: volcello
 long_name:         Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction
-comment:           3-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -999,7 +989,6 @@ units:             m2 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Tracer Bolus Laplacian Diffusivity 
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1021,7 +1010,6 @@ units:             m4 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Tracer Bolus Biharmonic Diffusivity 
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1043,7 +1031,6 @@ units:             m2 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Tracer Epineutral Laplacian Diffusivity 
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1065,7 +1052,6 @@ units:             m4 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Tracer Epineutral Biharmonic Diffusivity 
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1087,7 +1073,6 @@ units:             m2 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Tracer XY Laplacian Diffusivity 
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1109,7 +1094,6 @@ units:             m4 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Tracer XY Biharmonic Diffusivity 
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1131,7 +1115,6 @@ units:             W m-2
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport 
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1153,7 +1136,6 @@ units:             m2 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Momentum XY Laplacian Diffusivity
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1175,7 +1157,6 @@ units:             m4 s-1
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Momentum XY Biharmonic Diffusivity
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1197,7 +1178,6 @@ units:             W m-2
 cell_methods:      time: mean within years time: mean over years
 cell_measures:     area: areacello 
 long_name:         Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction
-comment:           2-d time dependent field
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1207,3 +1187,45 @@ type:              real
 !----------------------------------
 !
 
+!============
+variable_entry:    zfull
+!============
+modeling_realm:    ocean
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     depth_below_geoid
+units:             m
+cell_methods:      time: mean within years time: mean over years
+cell_measures:     area: areacello 
+long_name:         Depth Below Geoid of Ocean Layer
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude olevel time2
+out_name:          zfull
+type:              real
+!----------------------------------
+!
+
+!============
+variable_entry:    zhalf
+!============
+modeling_realm:    ocean
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     depth_below_geoid
+units:             m
+cell_methods:      time: mean within years time: mean over years
+cell_measures:     area: areacello 
+long_name:         Depth Below Geoid of Interfaces Between Ocean Layers
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude olevel time2
+out_name:          zhalf
+type:              real
+!----------------------------------
+!
+
diff --git a/Tables/CMIP5_Omon b/Tables/CMIP5_Omon
index dbbdf81..c8e09bb 100644
--- a/Tables/CMIP5_Omon
+++ b/Tables/CMIP5_Omon
@@ -6,7 +6,7 @@ frequency: mon
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -137,7 +137,6 @@ axis_entry: basin
 ! Axis attributes:
 !----------------------------------
 standard_name:    region
-units:            1
 long_name:        ocean basin
 !----------------------------------
 ! Additional axis information:
@@ -157,6 +156,7 @@ axis_entry: rho
 !----------------------------------
 ! Axis attributes:
 !----------------------------------
+standard_name:    sea_water_potential_density
 units:            kg m-3
 axis:             Z             ! X, Y, Z, T (default: undeclared)
 positive:         down         ! up or down (default: undeclared)
@@ -179,14 +179,13 @@ axis_entry: oline
 ! Axis attributes:
 !----------------------------------
 standard_name:    region
-units:            1
 long_name:        ocean passage 
 !----------------------------------
 ! Additional axis information:
 !----------------------------------
 out_name:         line
 type:             character
-requested:        barents_opening bering_strait canadian_archipelago denmark_strait drake_passage english_channel pacific_equatorial_undercurrent faroe_scotland_channel florida_bahamas_strait fram_strait iceland_faroe_channel indonesian_thoughflow mozambique_channel taiwan_luzon_straits windward_passage        ! space-separated list of requested coordinates 
+requested:        barents_opening bering_strait canadian_archipelago denmark_strait drake_passage english_channel pacific_equatorial_undercurrent faroe_scotland_channel florida_bahamas_strait fram_strait iceland_faroe_channel indonesian_throughflow mozambique_channel taiwan_luzon_straits windward_passage        ! space-separated list of requested coordinates 
 must_have_bounds: no
 coords_attrib:    passage
 !----------------------------------
@@ -687,7 +686,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Organic Carbon Concentration at Surface
-comment:           Dissolved organic carbon concentration
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1061,7 +1059,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolve Oxygen Concentration at Surface
-comment:           dissolved oxygen gas concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1083,7 +1080,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Nitrate Concentration at Surface
-comment:           dissolved nitrate concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1105,7 +1101,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Ammonium Concentration at Surface
-comment:           dissolved ammonium concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1127,7 +1122,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Phosphate Concentration at Surface
-comment:           dissolved Phosphate concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1171,7 +1165,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Silicate Concentration at Surface
-comment:           dissolved silicate concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1501,7 +1494,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dimethyl Sulphide Concentration at Surface
-comment:           dimethyl sulphide concentration
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1523,7 +1515,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Mole Concentration of Carbonate expressed as Carbon in Sea Water at Surface
-comment:           carbonate ion concentration
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1545,7 +1536,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Mole Concentration of Calcite expressed as Carbon in Sea Water at Saturation at Surface
-comment:           carbonate ion concentration at calcite solution saturation
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1567,7 +1557,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Mole Concentration of Aragonite expressed as Carbon in Sea Water at Saturation at Surface
-comment:           carbonate ion concentration at aragonite solution saturation
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1827,8 +1816,7 @@ standard_name:     sinking_mole_flux_of_particulate_organic_matter_expressed_as_
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Downward Flux of Particle Organic Carbon at 100M
-comment:           sinking flux of organic carbon at 100m
+long_name:         Downward Flux of Particle Organic Carbon
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1850,8 +1838,7 @@ standard_name:     sinking_mole_flux_of_particulate_iron_in_sea_water
 units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
-long_name:         Downward Flux of Particulate Iron at 100M
-comment:           sinking flux of biogenic and scavenged iron at 100m
+long_name:         Downward Flux of Particulate Iron
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1873,8 +1860,7 @@ standard_name:     sinking_mole_flux_of_particulate_silicon_in_sea_water
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Downward Flux of Particulate Silica at 100M
-comment:           sinking flux of biogenic silica at 100m
+long_name:         Downward Flux of Particulate Silica
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1896,8 +1882,7 @@ standard_name:     sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water
 units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
-long_name:         Downward Flux of Calcite at 100M
-comment:           sinking flux of calcite at 100m
+long_name:         Downward Flux of Calcite
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1919,8 +1904,7 @@ standard_name:     sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_wat
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Downward Flux of Aragonite at 100M
-comment:           sinking flux of aragonite at 100m
+long_name:         Downward Flux of Aragonite
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1965,7 +1949,6 @@ units:             Pa
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Surface Aqueous Partial Pressure of CO2
-comment:           Surface aqueous partial pressure of CO2
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1987,7 +1970,6 @@ units:             Pa
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
 long_name:         Delta PCO2
-comment:           Difference between atmospheric and oceanic partial pressure of CO2 (positive meaning ocean > atmosphere)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2009,7 +1991,6 @@ units:             Pa
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Delta PO2
-comment:           Difference between atmospheric and oceanic partial pressure of O2 (positive meaning ocean > atmosphere)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2167,7 +2148,6 @@ units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
 long_name:         Surface Downward Net Flux of Nitrogen
-comment:           N supply through deposition flux onto sea surface, nitrogen fixation, and runoff
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2190,7 +2170,6 @@ units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Nitrogen Loss to Sediments and through Denitrification
-comment:           N loss to sediment and water column denitrification
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2235,7 +2214,6 @@ units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Iron Loss to Sediments
-comment:           Iron loss to sediments
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2257,7 +2235,6 @@ units:             mol m-3
 cell_methods:      time: mean area: where sea depth: minimum
 cell_measures:     area: areacello
 long_name:         Oxygen Minimum Concentration
-comment:           Vertical minimum concentration of dissolved oxygen gas
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2344,8 +2321,7 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon
 units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Net Dissolved Inorganic Carbon
-comment:           Net time rate of change of dissolved inorganic carbon in upper 100m
+long_name:         Rate of Change of Net Dissolved Inorganic Carbon
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2366,8 +2342,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_nitroge
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Net Dissolved Inorganic Nitrogen
-comment:           Net time rate of change of nitrogen nutrients (e.g. NO3+NH4) in upper 100m
+long_name:         Rate of Change of Net Dissolved Inorganic Nitrogen
+comment:           Net time rate of change of nitrogen nutrients (e.g. NO3+NH4) 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2388,8 +2364,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_phospho
 units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Net Dissolved Inorganic Phosphate
-comment:           vertical integral of net  time rate of change of phosphate in upper 100m
+long_name:         Rate of Change of Net Dissolved Inorganic Phosphate
+comment:           vertical integral of net  time rate of change of phosphate 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2410,8 +2386,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_iron
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Net Dissolved Inorganic Iron
-comment:           vertical integral of net time rate of change of dissolved inorganic iron in upper 100m
+long_name:         Rate of Change of Net Dissolved Inorganic Iron
+comment:           vertical integral of net time rate of change of dissolved inorganic iron 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2432,8 +2408,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon
 units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Net Dissolved Inorganic Silicate
-comment:           vertical integral of net time rate of change of dissolved inorganic silicate in upper 100m
+long_name:         Rate of Change of Net Dissolved Inorganic Silicate
+comment:           vertical integral of net time rate of change of dissolved inorganic silicate 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2454,8 +2430,8 @@ standard_name:     integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expres
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Alkalinity
-comment:           vertical integral of net time rate of change of alkalinity in upper 100m
+long_name:         Rate of Change of Alkalinity
+comment:           vertical integral of net time rate of change of alkalinity 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2476,8 +2452,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon_
 units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Dissolved Inorganic Carbon due to Biological Activity
-comment:           vertical integral of net biological terms in time rate of change of dissolved inorganic carbon in upper 100m
+long_name:         Rate of Change of Dissolved Inorganic Carbon due to Biological Activity
+comment:           vertical integral of net biological terms in time rate of change of dissolved inorganic carbon 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2498,8 +2474,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_nitroge
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Dissolved Inorganic Nitrogen due to Biological Activity
-comment:           vertical integral of net biological terms in time rate of change of nitrogen nutrients (e.g. NO3+NH4) in upper 100m
+long_name:         Rate of Change of Dissolved Inorganic Nitrogen due to Biological Activity
+comment:           vertical integral of net biological terms in time rate of change of nitrogen nutrients (e.g. NO3+NH4) 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2520,8 +2496,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_phospho
 units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Dissolved Inorganic Phosphate due to Biological Activity
-comment:           vertical integral of net biological terms in time rate of change of phosphate in upper 100m
+long_name:         Rate of Change of Dissolved Inorganic Phosphate due to Biological Activity
+comment:           vertical integral of net biological terms in time rate of change of phosphate 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2542,8 +2518,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_iron_du
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Dissolved Inorganic Iron due to Biological Activity
-comment:           vertical integral of net biological terms in time rate of change of dissolved inorganic iron in upper 100m
+long_name:         Rate of Change of Dissolved Inorganic Iron due to Biological Activity
+comment:           vertical integral of net biological terms in time rate of change of dissolved inorganic iron 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2564,8 +2540,8 @@ standard_name:     tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon
 units:             mol m-2 s-1
 cell_methods:      time: mean area: where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Dissolved Inorganic Silicate due to Biological Activity
-comment:           vertical integral of net biological terms in time rate of change of dissolved inorganic silicate in upper 100m
+long_name:         Rate of Change of Dissolved Inorganic Silicate due to Biological Activity
+comment:           vertical integral of net biological terms in time rate of change of dissolved inorganic silicate 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2586,8 +2562,8 @@ standard_name:     integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expres
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
-long_name:         Rate of Change in Upper 100 m of Biological Alkalinity due to Biological Activity
-comment:           vertical integral of net biological terms in time rate of change of alkalinity in upper 100m
+long_name:         Rate of Change of Biological Alkalinity due to Biological Activity
+comment:           vertical integral of net biological terms in time rate of change of alkalinity 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3308,7 +3284,7 @@ standard_name:     ocean_meridional_overturning_mass_streamfunction
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Ocean Meridional Overturning Mass Streamfunction 
-comment:           function of latitude, Z, basin. differs from CMIP3 because it includes mass.  For a model with a cartesian latxlon grid, this is the same as the ""Ocean Y Overturning Mass Streamfunction"", listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model's resolution.
+comment:           differs from CMIP3 because it includes mass.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3329,7 +3305,6 @@ standard_name:     ocean_meridional_overturning_mass_streamfunction
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Ocean Meridional Overturning Mass Streamfunction 
-comment:           function of of latitude, rho, basin.  Also see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3350,7 +3325,6 @@ standard_name:     ocean_y_overturning_mass_streamfunction
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Ocean Y Overturning Mass Streamfunction 
-comment:           function of Y, Z, basin.   Also see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3371,7 +3345,6 @@ standard_name:     ocean_y_overturning_mass_streamfunction
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Ocean Y Overturning Mass Streamfunction 
-comment:           function of Y, rho, basin.  Also see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3392,7 +3365,6 @@ standard_name:     ocean_meridional_overturning_mass_streamfunction_due_to_bolus
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection 
-comment:           function of latitude, Z, basin.   Also see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3413,7 +3385,6 @@ standard_name:     ocean_meridional_overturning_mass_streamfunction_due_to_bolus
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection 
-comment:           function of latitude, rho, basin.  Also see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3434,7 +3405,6 @@ standard_name:     ocean_y_overturning_mass_streamfunction_due_to_bolus_advectio
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Ocean Y Overturning Mass Streamfunction due to Bolus Advection 
-comment:           function of Y, Z, basin.  Also see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3455,7 +3425,6 @@ standard_name:     ocean_y_overturning_mass_streamfunction_due_to_bolus_advectio
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Ocean Y Overturning Mass Streamfunction due to Bolus Advection 
-comment:           function of Y, rho, basin.  Also see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3476,7 +3445,6 @@ standard_name:     northward_ocean_heat_transport
 units:             W 
 cell_methods:      time: mean
 long_name:         Northward Ocean Heat Transport 
-comment:           For a model with a cartesian latxlon grid, this is the same as the ""Ocean Heat Y Transport"", listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model's resolution.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3497,7 +3465,6 @@ standard_name:     northward_ocean_heat_transport_due_to_bolus_advection
 units:             W 
 cell_methods:      time: mean
 long_name:         Northward Ocean Heat Transport due to Bolus Advection 
-comment:           see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3518,7 +3485,6 @@ standard_name:     northward_ocean_heat_transport_due_to_diffusion
 units:             W 
 cell_methods:      time: mean
 long_name:         Northward Ocean Heat Transport due to Diffusion 
-comment:           see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3559,7 +3525,6 @@ standard_name:     ocean_heat_y_transport
 units:             W 
 cell_methods:      time: mean
 long_name:         Ocean Heat Y Transport 
-comment:           For a model with a cartesian latxlon grid, this is the same as the ""Northward Ocean Heat Transport"", listed a few lines above, which should be saved instead of this.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3580,7 +3545,6 @@ standard_name:     ocean_heat_y_transport_due_to_bolus_advection
 units:             W 
 cell_methods:      time: mean
 long_name:         Ocean Heat Y Transport due to Bolus Advection 
-comment:           see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3601,7 +3565,6 @@ standard_name:     ocean_heat_y_transport_due_to_diffusion
 units:             W 
 cell_methods:      time: mean
 long_name:         Ocean Heat Y Transport due to Diffussion
-comment:           see note above.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3662,7 +3625,6 @@ standard_name:     northward_ocean_heat_transport
 units:             W
 cell_methods:      time: mean longitude: mean
 long_name:         Northward Ocean Heat Transport
-comment:           This differs from a similar, previous entry in that northward transport across individual basins is called for, rather than the fully gridded fields.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3723,7 +3685,6 @@ standard_name:     northward_ocean_heat_transport_due_to_gyre
 units:             W 
 cell_methods:      time: mean longitude: mean
 long_name:         Northward Ocean Heat Transport due to Gyre 
-comment:           function of latitude, basin
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3748,7 +3709,6 @@ standard_name:     northward_ocean_heat_transport_due_to_overturning
 units:             W 
 cell_methods:      time: mean longitude: mean
 long_name:         Northward Ocean Heat Transport due to Overturning 
-comment:           function of latitude, basin
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3773,7 +3733,6 @@ standard_name:     northward_ocean_salt_transport_due_to_gyre
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Northward Ocean Salt Transport due to Gyre 
-comment:           function of latitude, basin
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3798,7 +3757,6 @@ standard_name:     northward_ocean_salt_transport_due_to_overturning
 units:             kg s-1
 cell_methods:      time: mean longitude: mean
 long_name:         Northward Ocean Salt Transport due to Overturning 
-comment:           function of latitude, basin
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3844,7 +3802,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where ice_free_sea over sea
 cell_measures:     area: areacello
 long_name:         Rainfall Flux where Ice Free Ocean over Sea
-comment:           compute as the total mass of liquid water falling as liquid rain  into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.
+comment:           computed as the total mass of liquid water falling as liquid rain  into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3870,7 +3828,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where ice_free_sea over sea
 cell_measures:     area: areacello
 long_name:         Snowfall Flux where Ice Free Ocean over Sea
-comment:           compute as the total mass of ice directly falling as snow into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.
+comment:           computed as the total mass of ice directly falling as snow into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3896,7 +3854,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where ice_free_sea over sea
 cell_measures:     area: areacello
 long_name:         Water Evaporation Flux Where Ice Free Ocean over Sea
-comment:           compute as the total mass of water vapor evaporating from the ice-free portion of the ocean  divided by the area of the ocean portion of the grid cell.
+comment:           computed as the total mass of water vapor evaporating from the ice-free portion of the ocean  divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3918,7 +3876,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Water Flux into Sea Water From Rivers 
-comment:           compute as the river flux of water into the ocean divided by the area of the ocean portion of the grid cell.
+comment:           computed as the river flux of water into the ocean divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3940,7 +3898,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello volume: volcello
 long_name:         Water Flux into Sea Water From Icebergs 
-comment:           compute as the iceberg melt water  flux into the ocean divided by the area of the ocean portion of the grid cell.
+comment:           computed as the iceberg melt water  flux into the ocean divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3962,7 +3920,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Water Flux into Sea Water due to Sea Ice Thermodynamics 
-comment:           compute as the sea ice thermodynamic water flux into the ocean divided by the area of the ocean portion of the grid cell.
+comment:           computed as the sea ice thermodynamic water flux into the ocean divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -3984,7 +3942,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Water Flux into Sea Water 
-comment:           compute as the water  flux into the ocean divided by the area of the ocean portion of the grid cell.  This is the sum of the next two variables in this table.
+comment:           computed as the water  flux into the ocean divided by the area of the ocean portion of the grid cell.  This is the sum of the next two variables in this table.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4010,7 +3968,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Water Flux into Sea Water Without Flux Correction 
-comment:           compute as the water  flux (without flux correction) into the ocean divided by the area of the ocean portion of the grid cell.  This is the sum of the first 6 variables in this table?
+comment:           computed as the water  flux (without flux correction) into the ocean divided by the area of the ocean portion of the grid cell.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4032,7 +3990,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Water Flux Correction 
-comment:           If this does not vary from one year to the next, report only a single year.  Positive flux implies correction adds water to ocean.
+comment:           Positive flux implies correction adds water to ocean.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4140,7 +4098,6 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Virtual Salt Flux into Sea Water 
-comment:           If this does not vary from one year to the next, report only a single year.  Positive flux implies correction increases salinity of water.  This includes all virtual salt flux, including that due to a salt flux correction.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4223,7 +4180,7 @@ modeling_realm:    ocean
 !----------------------------------
 standard_name:     upward_geothermal_heat_flux_at_sea_floor
 units:             W m-2
-cell_methods:      time: mean area: whre sea
+cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Upward Geothermal Heat Flux at Sea Floor 
 !----------------------------------
@@ -4248,7 +4205,7 @@ units:             W m-2
 cell_methods:      time: mean area: mean where ice_free_sea over sea
 cell_measures:     area: areacello
 long_name:         Temperature Flux due to Rainfall Expressed as Heat Flux into Sea Water 
-comment:           This is defined as ""where ice_free_sea over sea""; i.e., compute the total flux (considered here) entering the ice-free portion of the grid cell divided by the area of the ocean portion of the grid cell.
+comment:           This is defined as ""where ice_free_sea over sea""; i.e., the total flux (considered here) entering the ice-free portion of the grid cell divided by the area of the ocean portion of the grid cell.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4294,7 +4251,6 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello volume: volcello
 long_name:         Temperature Flux due to Runoff Expressed as Heat Flux into Sea Water 
-comment:           In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4316,7 +4272,6 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello volume: volcello
 long_name:         Heat Flux into Sea Water due to Snow Thermodynamics 
-comment:           In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4338,7 +4293,6 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello volume: volcello
 long_name:         Heat Flux into Sea Water due to Frazil Ice Formation 
-comment:           As of May 2010, the WGOMD document recommends that this field should be saved instead of the field listed immediately below.  In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4360,7 +4314,6 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello volume: volcello
 long_name:         Heat Flux into Sea Water due to Sea Ice Thermodynamics 
-comment:           As of May 2010, the WGOMD document recommends that instead of saving this field, the field listed immediately above should be saved instead.  In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4382,7 +4335,6 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello volume: volcello
 long_name:         Heat Flux into Sea Water due to Iceberg Thermodynamics 
-comment:           In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4508,7 +4460,6 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello volume: volcello
 long_name:         Downwelling Shortwave Radiation in Sea Water 
-comment:           In general the shortwave flux should be reported as a function of ocean depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4535,7 +4486,6 @@ units:             W m-2
 cell_methods:      time: mean area: mean where sea
 cell_measures:     area: areacello
 long_name:         Heat Flux Correction 
-comment:           If this does not vary from one year to the next, report only a single year.  Positive indicates correction adds heat to ocean.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4624,7 +4574,7 @@ standard_name:     surface_downward_x_stress_correction
 units:             N m-2
 cell_methods:      time: mean area: mean where sea
 long_name:         Surface Downward X Stress Correction 
-comment:           This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.  If this does not vary from one year to the next, report only a single year.
+comment:           This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4646,7 +4596,7 @@ standard_name:     surface_downward_y_stress_correction
 units:             N m-2
 cell_methods:      time: mean area: mean where sea
 long_name:         Surface Downward Y Stress Correction 
-comment:           This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.  If this does not vary from one year to the next, report only a single year.
+comment:           This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -4657,3 +4607,45 @@ positive:          down
 !----------------------------------
 !
 
+!============
+variable_entry:    zfull
+!============
+modeling_realm:    ocean
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     depth_below_geoid
+units:             m
+cell_methods:      time: mean area: mean where sea
+cell_measures:     area: areacello 
+long_name:         Depth Below Geoid of Ocean Layer
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude olevel time
+out_name:          zfull
+type:              real
+!----------------------------------
+!
+
+!============
+variable_entry:    zhalf
+!============
+modeling_realm:    ocean
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     depth_below_geoid
+units:             m
+cell_methods:      time: mean area: mean where sea
+cell_measures:     area: areacello 
+long_name:         Depth Below Geoid of Interfaces Between Ocean Layers
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude olevel time
+out_name:          zhalf
+type:              real
+!----------------------------------
+!
+
diff --git a/Tables/CMIP5_Oyr b/Tables/CMIP5_Oyr
index cdcd930..20a909a 100644
--- a/Tables/CMIP5_Oyr
+++ b/Tables/CMIP5_Oyr
@@ -6,7 +6,7 @@ frequency: yr
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -548,7 +548,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Organic Carbon Concentration
-comment:           Dissolved organic carbon concentration
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -922,7 +921,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolve Oxygen Concentration
-comment:           dissolved oxygen gas concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -944,7 +942,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Nitrate Concentration
-comment:           dissolved nitrate concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -966,7 +963,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Ammonium Concentration
-comment:           dissolved ammonium concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -988,7 +984,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Phosphate Concentration
-comment:           dissolved Phosphate concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1032,7 +1027,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dissolved Silicate Concentration
-comment:           dissolved silicate concentration in sea water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1362,7 +1356,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Dimethyl Sulphide Concentration
-comment:           dimethyl sulphide concentration
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1384,7 +1377,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Mole Concentration of Carbonate expressed as Carbon in Sea Water
-comment:           carbonate ion concentration
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1406,7 +1398,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Mole Concentration of Calcite expressed as Carbon in Sea Water at Saturation
-comment:           carbonate ion concentration at calcite solution saturation
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1428,7 +1419,6 @@ units:             mol m-3
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Mole Concentration of Aragonite expressed as Carbon in Sea Water at Saturation
-comment:           carbonate ion concentration at aragonite solution saturation
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1494,7 +1484,6 @@ units:             mol m-3 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Biogenic Iron Production
-comment:           Biogenic iron production
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1516,7 +1505,6 @@ units:             mol m-3 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Biogenic Silica Production
-comment:           Biogenic silica production
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1538,7 +1526,6 @@ units:             mol m-3 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Calcite Production
-comment:           calcite production
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1560,7 +1547,6 @@ units:             mol m-3 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Aragonite Production
-comment:           aragonite production
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1582,7 +1568,6 @@ units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Sinking Particulate Organic Carbon Flux
-comment:           sinking flux of organic carbon
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1605,7 +1590,6 @@ units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Sinking Particulate Organic Nitrogen Flux
-comment:           sinking flux of organic nitrogen
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1627,7 +1611,6 @@ standard_name:     sinking_mole_flux_of_particulate_organic_phosphorus_in_sea_wa
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea 
 long_name:         Sinking Particulate Organic Phosphorus Flux
-comment:           sinking flux of organic phosphorus
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1649,7 +1632,6 @@ standard_name:     sinking_mole_flux_of_particulate_iron_in_sea_water
 units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea 
 long_name:         Sinking Particulate Iron Flux
-comment:           sinking flux of iron
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1672,7 +1654,6 @@ units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Sinking Particulate Silica Flux
-comment:           sinking flux of silica
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1695,7 +1676,6 @@ units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Sinking Calcite Flux
-comment:           sinking flux of calcite
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1718,7 +1698,6 @@ units:             mol m-2 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Sinking Aragonite Flux
-comment:           sinking flux of aragonite
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1741,7 +1720,6 @@ units:             mol m-3 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Calcite Dissolution
-comment:           calcite dissolution
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1763,7 +1741,6 @@ units:             mol m-3 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Aragonite Dissolution
-comment:           aragonite dissolution
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2071,7 +2048,6 @@ units:             mol m-3 s-1
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacello volume: volcello
 long_name:         Total Grazing of Phytoplankton by Zooplankton
-comment:           Total grazing of phytoplankton by zooplankton
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2081,3 +2057,45 @@ type:              real
 !----------------------------------
 !
 
+!============
+variable_entry:    zfull
+!============
+modeling_realm:    ocean
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     depth_below_geoid
+units:             m
+cell_methods:      time: mean area: mean where sea
+cell_measures:     area: areacello 
+long_name:         Depth Below Geoid of Ocean Layer
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude olevel time
+out_name:          zfull
+type:              real
+!----------------------------------
+!
+
+!============
+variable_entry:    zhalf
+!============
+modeling_realm:    ocean
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     depth_below_geoid
+units:             m
+cell_methods:      time: mean area: mean where sea
+cell_measures:     area: areacello 
+long_name:         Depth Below Geoid of Interfaces Between Ocean Layers
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude olevel time
+out_name:          zhalf
+type:              real
+!----------------------------------
+!
+
diff --git a/Tables/CMIP5_aero b/Tables/CMIP5_aero
index 58825ec..72270c9 100644
--- a/Tables/CMIP5_aero
+++ b/Tables/CMIP5_aero
@@ -6,7 +6,7 @@ frequency: mon
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -607,7 +607,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Rate of Emission and Production of Dry Aerosol Total Organic Matter
-comment:           tendency of atmosphere mass content of organic matter dry aerosol due to net production and emission.  This is the sum of total emission of POA and total production of SOA (see next two entries), and it should only be reported if POA and SOA cannot be separately reported. ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. 
+comment:           tendency of atmosphere mass content of organic matter dry aerosol due to net production and emission.  This is the sum of total emission of POA and total production of SOA (see next two entries). ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -651,7 +651,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Production Rate of Dry Aerosol Secondary Organic Matter
-comment:           tendency of atmosphere mass content of secondary organic matter_dry aerosol due to net production:  If model lumps SOA emissions with POA, then report the sum of POA and SOA emissions as POA emissions.  ""mass"" refers to the mass of primary organic matter, not mass of organic carbon alone.
+comment:           tendency of atmosphere mass content of secondary organic matter_dry aerosol due to net production:  If model lumps SOA emissions with POA, then the sum of POA and SOA emissions is reported as POA emissions.  ""mass"" refers to the mass of primary organic matter, not mass of organic carbon alone.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -694,7 +694,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Dry Deposition Rate of Dry Aerosol Organic Matter
-comment:           tendency of atmosphere mass content of organic dry aerosol due to dry deposition: This is the sum of dry deposition of POA and dry deposition of SOA (see next two entries), and it should only be reported if POA and SOA cannot be separately reported. ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. 
+comment:           tendency of atmosphere mass content of organic dry aerosol due to dry deposition: This is the sum of dry deposition of POA and dry deposition of SOA (see next two entries). ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -779,7 +779,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Wet Deposition Rate of Dry Aerosol Organic Matter
-comment:           tendency of atmosphere mass content of organic matter dry aerosols due to wet deposition: This is the sum of wet deposition of POA and wet deposition of SOA (see next two entries), and it should only be reported if POA and SOA cannot be separately reported. ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. 
+comment:           tendency of atmosphere mass content of organic matter dry aerosols due to wet deposition: This is the sum of wet deposition of POA and wet deposition of SOA (see next two entries). ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -992,7 +992,6 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Dry Deposition Rate of DMS
-comment:           omit if DMS is not dry deposited in the model.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1056,7 +1055,6 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Wet Deposition Rate of DMS
-comment:           omit if DMS is not wet deposited in the model.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1288,7 +1286,7 @@ units:             kg m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Load of Dry Aerosol Organic Matter
-comment:           atmosphere dry organic content: This is the vertically integrated sum of atmosphere_primary_organic_content and atmosphere_secondary_organic_content (see next two table entries), and therefore should only be reported if those two components cannot be separately reported. 
+comment:           atmosphere dry organic content: This is the vertically integrated sum of atmosphere_primary_organic_content and atmosphere_secondary_organic_content (see next two table entries).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1478,7 +1476,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of Dry Aerosol Organic Matter
-comment:           mass concentration of particulate organic matter dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  This is the sum of concentrations of primary and secondary organic aerosol (see next two table entries), and therefore should only be reported if those two components cannot be separately reported.
+comment:           mass concentration of particulate organic matter dry aerosol in air in model lowest layer 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1500,7 +1498,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of Dry Aerosol Primary Organic Matter
-comment:           mass concentration of primary particulate organic matter dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  
+comment:           mass concentration of primary particulate organic matter dry aerosol in air in model lowest layer
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1522,7 +1520,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of Dry Aerosol Secondary Organic Matter
-comment:           mass concentration of secondary particulate organic matter dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  If the model lumps SOA with POA, then report their sum as POA.
+comment:           mass concentration of secondary particulate organic matter dry aerosol in air in model lowest layer.  If the model lumps SOA with POA, then their sum is reported as POA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1544,7 +1542,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of Black Carbon Aerosol
-comment:           mass concentration of black carbon dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  
+comment:           mass concentration of black carbon dry aerosol in air in model lowest layer 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1566,7 +1564,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of SO4
-comment:           mass concentration of sulfate dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  
+comment:           mass concentration of sulfate dry aerosol in air in model lowest layer.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1588,7 +1586,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of Dust
-comment:           mass concentration of dust dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  
+comment:           mass concentration of dust dry aerosol in air in model lowest layer 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1610,7 +1608,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of Seasalt
-comment:           mass concentration of seasalt dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  
+comment:           mass concentration of seasalt dry aerosol in air in model lowest layer 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1632,7 +1630,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of NO3
-comment:           Mass concentration in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  
+comment:           Mass concentration in model lowest layer
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1654,7 +1652,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Concentration of NH4
-comment:           Mass concentration in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  
+comment:           Mass concentration in model lowest layer
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1675,8 +1673,7 @@ standard_name:     surface_diffuse_downwelling_shortwave_flux_in_air
 units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
-long_name:         Surface Diffuse Dowwelling Shortwave Radiation
-comment:           downwelling_diffuse_shortwave_flux_in_air
+long_name:         Surface Diffuse Downwelling Shortwave Radiation
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1693,12 +1690,11 @@ modeling_realm:    aerosol land
 !----------------------------------
 ! Variable attributes:
 !----------------------------------
-standard_name:     diffuse_downwelling_shortwave_flux_in_air_assuming_clear_sky
+standard_name:     surface_diffuse_downwelling_shortwave_flux_in_air_assuming_clear_sky
 units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Surface Diffuse Downwelling Clear Sky Shortwave Radiation
-comment:           downwelling_diffuse_shortwave_flux_in_air_assuming_clear_sky
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1720,7 +1716,7 @@ units:             m
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Cloud-Top Effective Droplet Radius
-comment:           Droplets are liquid only.  Report effective radius ""as seen from space"" over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, it is better to sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total liquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean.
+comment:           Droplets are liquid only.  This is the effective radius ""as seen from space"" over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, or for some models it is the sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Reported values are weighted by total liquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1764,7 +1760,7 @@ units:             m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Ice Crystal Number Concentration of Cloud Tops
-comment:           Report concentration ""as seen from space"" over ice-cloud portion of grid cell.  This is the value from uppermost model layer with ice cloud or, if available, it is better to sum over all ice cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total ice cloud top fraction (as seen from TOA) of each time sample when computing monthly mean.
+comment:           concentration ""as seen from space"" over ice-cloud portion of grid cell.  This is the value from uppermost model layer with ice cloud or, if available, it is the sum over all ice cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total ice cloud top fraction (as seen from TOA) of each time sample when computing monthly mean.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1786,7 +1782,7 @@ units:             m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Column Integrated Cloud Droplet Number
-comment:           Droplets are liquid only.  Weight by liquid cloud fraction in each layer when vertically integrating.  Weight by total liquid cloud fraction (as seen from TOA) when reporting monthly mean
+comment:           Droplets are liquid only.  Values are weighted by liquid cloud fraction in each layer when vertically integrating, and for monthly means the samples are weighted by total liquid cloud fraction (as seen from TOA).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1803,11 +1799,12 @@ modeling_realm:    aerosol
 !----------------------------------
 ! Variable attributes:
 !----------------------------------
+standard_name:     volume_extinction_coefficient_in_air_due_to_ambient_aerosol
 units:             m-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Ambient Aerosol Extinction at 550 nm
-comment:           "atmosphere_extinction_due_to_ambient_aerosol: ""ambient"" means ""wetted"".  This and other fields in this table are 3-D."
+comment:           """ambient"" means ""wetted"".  "
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1828,7 +1825,6 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Concentration of Dry Aerosol Organic Matter
-comment:           mass_concentration_of_organic_matter_dry_aerosol_in_air mass concentration of organic matter dry aerosol in air:  This is the sum of concentrations of primary and secondary organic aerosols (see next two table entries), and therefore should only be reported if those two components cannot be separately reported. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1869,7 +1865,6 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Concentration of Dry Aerosol Secondary Organic Matter
-comment:           mass concentration of secondary particulate organic matter dry aerosol in air:  If the model lumps SOA with POA, then report their sum as POA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1890,7 +1885,6 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Concentration of Biomass Burning Aerosol
-comment:           mass_concentration_of_biomass_burning_dry_aerosol_in_air
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1931,7 +1925,7 @@ units:             kg m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Concentration of Aerosol Water 
-comment:           "mass concentration of water in ambient aerosol in air: ""ambient"" means ""wetted"""
+comment:           """ambient"" means ""wetted"""
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2092,7 +2086,6 @@ units:             m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Aerosol Number Concentration
-comment:           number_concentration_of_ambient_aerosol_in_air
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2113,7 +2106,7 @@ units:             m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Number Concentration of Nucleation Mode Aerosol
-comment:           number_concentration_of_ambient_aerosol_in_nucleation_mode_in_air: include all particles with diameter smaller than 3 nm
+comment:           includes all particles with diameter smaller than 3 nm
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2134,7 +2127,7 @@ units:             m-3
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Number Concentration Coarse Mode Aerosol
-comment:           number_concentration_of_ambient_aerosol_in_coarse_mode_in_air: include all particles with diameter larger than 1 micron
+comment:           includes all particles with diameter larger than 1 micron
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_cf3hr b/Tables/CMIP5_cf3hr
index 1c9a8d3..7c7c553 100644
--- a/Tables/CMIP5_cf3hr
+++ b/Tables/CMIP5_cf3hr
@@ -6,7 +6,7 @@ frequency: 3hr
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -314,8 +314,8 @@ out_name:         scatratio
 stored_direction: increasing
 tolerance:        0.001
 type:             double
-requested:        0.0605 2.1 4. 6. 8.5 12.5 17.5 22.5 27.5 35. 45. 55. 70. 539.5 1004.        ! space-separated list of requested coordinates 
-requested_bounds: 0.01 1.2 1.2 3. 3. 5. 5. 7. 7. 10. 10. 15. 15. 20. 20. 25. 25. 30. 30. 40. 40. 50. 50. 60. 60. 80. 80. 999. 999. 1009. ! space-separated list of requested coordinate bounds
+requested:        0.005 0.605 2.1 4. 6. 8.5 12.5 17.5 22.5 27.5 35. 45. 55. 70. 50040.        ! space-separated list of requested coordinates 
+requested_bounds: 0. 0.01 0.01 1.2 1.2 3. 3. 5. 5. 7. 7. 10. 10. 15. 15. 20. 20. 25. 25. 30. 30. 40. 40. 50. 50. 60. 60. 80. 80. 100000. ! space-separated list of requested coordinate bounds
 must_have_bounds: yes
 !----------------------------------
 !
@@ -372,7 +372,6 @@ axis_entry: location
 !----------------------------------
 ! Axis attributes:
 !----------------------------------
-units:            1
 long_name:        location index
 !----------------------------------
 ! Additional axis information:
@@ -757,7 +756,6 @@ standard_name:     cloud_area_fraction_in_atmosphere_layer
 units:             %
 cell_methods:      time: point
 long_name:         CALIPSO Cloud Area Fraction
-comment:           (40 height levels)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -778,7 +776,7 @@ standard_name:     cloud_area_fraction_in_atmosphere_layer
 units:             %
 cell_methods:      time: point
 long_name:         CALIPSO Cloud Fraction Undetected by CloudSat
-comment:           (40 height levels)  Clouds detected by CALIPSO but below the detectability threshold of CloudSat
+comment:           Clouds detected by CALIPSO but below the detectability threshold of CloudSat
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -799,7 +797,7 @@ standard_name:     histogram_of_equivalent_reflectivity_factor_over_height_above
 units:             1
 cell_methods:      time: point
 long_name:         CloudSat Radar Reflectivity CFAD
-comment:           CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  (40 levelsx15 bins) .
+comment:           CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -820,7 +818,7 @@ standard_name:     histogram_of_backscattering_ratio_over_height_above_reference
 units:             1
 cell_methods:      time: point
 long_name:         CALIPSO Scattering Ratio CFAD
-comment:           CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  (40 levelsx15 bins) .
+comment:           CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -942,7 +940,6 @@ standard_name:     longitude
 units:             degrees_east
 cell_methods:      time: point
 long_name:         Longitude
-comment:           is a function of time.  Note that the CF convention and CMOR2 require that this field will be included in each file that contains a variable that is a function of the ""location"" dimension, so there is no need to save this field by itself.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -965,7 +962,6 @@ standard_name:     latitude
 units:             degrees_north
 cell_methods:      time: point
 long_name:         Latitude
-comment:           the above comment also applies to latitude.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1009,7 +1005,6 @@ units:             K
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Near-Surface Air Temperature
-comment:           near-surface (usually, 2 meter) air temperature.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1096,7 +1091,6 @@ standard_name:     eastward_wind
 units:             m s-1
 cell_methods:      time: point
 long_name:         Eastward Near-Surface Wind
-comment:           near-surface (usually, 10 meters) eastward component of wind.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1117,7 +1111,6 @@ standard_name:     northward_wind
 units:             m s-1
 cell_methods:      time: point
 long_name:         Northward Near-Surface Wind
-comment:           near-surface (usually, 10 meters) northward component of wind.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1138,7 +1131,7 @@ standard_name:     wind_speed
 units:             m s-1
 cell_methods:      time: point
 long_name:         Near-Surface Wind Speed
-comment:           near-surface (usually, 10 meters) wind speed.  This is the mean of the speed, not the speed computed from the mean u and v components of wind
+comment:           This is the mean of the speed, not the speed computed from the mean u and v components of wind
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1160,7 +1153,7 @@ units:             %
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Near-Surface Relative Humidity
-comment:           near-surface (usually, 2meters) relative humidity expressed as a percentage.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
+comment:           This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1182,7 +1175,6 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Near-Surface Specific Humidity
-comment:           near-surface (usually, 2 meters) specific humidity.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1292,7 +1284,7 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Surface Snow and Ice Sublimation Flux
-comment:           The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. This differs from sbl appearing in table Limon in that the flux is averaged over the entire grid cell, not just the land portion.
+comment:           The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1555,7 +1547,7 @@ units:             W m-2
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         TOA Incident Shortwave Radiation
-comment:           incident shortwave at the top of the atmosphere
+comment:           at the top of the atmosphere
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1712,7 +1704,7 @@ units:             kg m-2
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Condensed Water Path
-comment:           calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1734,7 +1726,7 @@ units:             kg m-2
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Ice Water Path
-comment:           calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1756,7 +1748,7 @@ units:             W m-2
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Net Downward Flux at Top of Model
-comment:           i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. Report only if this differs from the net downward radiative flux at the top of the atmosphere.
+comment:           i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1843,7 +1835,7 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Fraction of Time Shallow Convection Occurs
-comment:           Fraction of time that shallow convection occurs in the grid cell. ( For models with a distinct shallow convection scheme only)
+comment:           Fraction of time that shallow convection occurs in the grid cell. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1865,7 +1857,7 @@ units:             kg  m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2
-comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Do not include natural fire sources, but include all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.
+comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1888,7 +1880,7 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2
-comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Report the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)
+comment:           This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1911,7 +1903,7 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources
-comment:           Report from all simulations (both emission-driven and concentration-driven) performed by models with fully interactive and responsive carbon cycles.  This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ""net ecosystem biospheric productivity"", for land, and ""ai [...]
+comment:            This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ""net ecosystem biospheric productivity"", for land, and ""air to sea CO2 flux"", for ocean.)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1934,7 +1926,7 @@ units:             %
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Convective Cloud Fraction
-comment:           for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include only convective cloud.  Besides the quantities from the Amon table, this is the only other 2-D field in this table.
+comment:           for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes only convective cloud.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1980,7 +1972,7 @@ units:             m
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Altitude of Model Half-Levels
-comment:           This is actual height above mean sea level, not geopotential height.  This is actual height above mean sea level, not geopotential height.  Include both the top of the model atmosphere and surface levels.
+comment:           This is actual height above mean sea level, not geopotential height.  This is actual height above mean sea level, not geopotential height.  Includes both the top of the model atmosphere and surface levels.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2002,7 +1994,6 @@ units:             Pa
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Pressure at Model Full-Levels
-comment:           provide this field for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2024,7 +2015,6 @@ units:             Pa
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Pressure at Model Half-Levels
-comment:           provide this field for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2067,7 +2057,7 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Water
-comment:           include all phases of water
+comment:           includes all phases of water
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2089,7 +2079,7 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Stratiform Cloud Liquid Water
-comment:           Calculate as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2133,7 +2123,7 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Convective Cloud Liquid Water
-comment:           Calculate as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2155,7 +2145,7 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Convective Cloud Ice
-comment:           Calculate as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2265,7 +2255,6 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Stratiform Graupel Flux
-comment:           report on model half-levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2287,7 +2276,6 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Convective Rainfall Flux
-comment:           report on model half-levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2309,7 +2297,6 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Stratiform Rainfall Flux
-comment:           report on model half-levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2331,7 +2318,6 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Convective Snowfall Flux
-comment:           report on model half-levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2353,7 +2339,6 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Stratiform Snowfall Flux
-comment:           report on model half-levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_cfDay b/Tables/CMIP5_cfDay
index c33780f..0f8e515 100644
--- a/Tables/CMIP5_cfDay
+++ b/Tables/CMIP5_cfDay
@@ -6,7 +6,7 @@ frequency: day
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -816,7 +816,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Total Cloud Fraction
-comment:           for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.
+comment:           for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes both large-scale and convective cloud.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -838,7 +838,7 @@ units:             kg m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Condensed Water Path
-comment:           calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -860,7 +860,7 @@ units:             kg m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Ice Water Path
-comment:           calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -904,7 +904,6 @@ units:             K
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Air Temperature
-comment:           at 700 hPa level
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1164,7 +1163,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         ISCCP Mean Cloud Albedo
-comment:           When computing time-means, weight by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README
+comment:           time-means are weighted by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1186,7 +1185,7 @@ units:             Pa
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         ISCCP Mean Cloud Top Pressure
-comment:           When computing time-means, weight by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README
+comment:           time-means are weighted by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1482,7 +1481,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Cloud Liquid Water
-comment:           Calculate as the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1504,7 +1503,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Cloud Ice
-comment:           Calculate as the mass of cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1526,7 +1525,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Convective Mass Flux
-comment:           Report on model half-levels (i.e., model layer bounds and not standard pressures).  The net mass flux should represent the difference between the updraft and downdraft components.  Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
+comment:           The net mass flux should represent the difference between the updraft and downdraft components.  This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1549,7 +1548,6 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         CALIPSO Cloud Fraction
-comment:           40 levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1571,7 +1569,6 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         ISCCP Cloud Area Fraction
-comment:           7 levels x 7 tau
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1593,7 +1590,6 @@ units:             Pa
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Pressure on Model Levels
-comment:           This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1615,7 +1611,6 @@ units:             Pa
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Pressure on Model Half-Levels
-comment:           This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_cfMon b/Tables/CMIP5_cfMon
index 373d9bc..34a294d 100644
--- a/Tables/CMIP5_cfMon
+++ b/Tables/CMIP5_cfMon
@@ -6,7 +6,7 @@ frequency: mon
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -687,7 +687,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Upwelling Longwave Radiation
-comment:           Include also the fluxes at the surface and TOA.
+comment:           Includes also the fluxes at the surface and TOA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -710,7 +710,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Upwelling Shortwave Radiation
-comment:           Include also the fluxes at the surface and TOA.
+comment:           Includes also the fluxes at the surface and TOA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -733,7 +733,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Downwelling Longwave Radiation
-comment:           Include also the fluxes at the surface and TOA.
+comment:           Includes also the fluxes at the surface and TOA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -756,7 +756,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Downwelling Shortwave Radiation
-comment:           Include also the fluxes at the surface and TOA.
+comment:           Includes also the fluxes at the surface and TOA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -779,7 +779,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Upwelling Clear-Sky Longwave Radiation
-comment:           Include also the fluxes at the surface and TOA.
+comment:           Includes also the fluxes at the surface and TOA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -802,7 +802,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Upwelling Clear-Sky Shortwave Radiation
-comment:           Include also the fluxes at the surface and TOA.
+comment:           Includes also the fluxes at the surface and TOA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -825,7 +825,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Downwelling Clear-Sky Longwave Radiation
-comment:           Include also the fluxes at the surface and TOA.
+comment:           Includes also the fluxes at the surface and TOA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -848,7 +848,7 @@ units:             W m-2
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Downwelling Clear-Sky Shortwave Radiation
-comment:           Include also the fluxes at the surface and TOA.
+comment:           Includes also the fluxes at the surface and TOA.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1011,6 +1011,31 @@ type:              real
 !
 
 !============
+variable_entry:    hur
+!============
+modeling_realm:    atmos
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     relative_humidity
+units:             %
+cell_methods:      time: mean
+cell_measures:     area: areacella
+long_name:         Relative Humidity
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude alevel time
+out_name:          hur
+type:              real
+valid_min:         -2.642
+valid_max:         135.7
+ok_min_mean_abs:   -10.31
+ok_max_mean_abs:   97
+!----------------------------------
+!
+
+!============
 variable_entry:    hus
 !============
 modeling_realm:    atmos
@@ -1152,7 +1177,7 @@ units:             s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Tendency of Specific Humidity due to Model Physics
-comment:           This should include sources and sinks from parametrized physics (e.g. convection, stratiform condensation/evaporation, etc.) and should exclude sources and sinks from resolved dynamics and diffusion.
+comment:           This includes sources and sinks from parametrized physics (e.g. convection, stratiform condensation/evaporation, etc.) and excludes sources and sinks from resolved dynamics and diffusion.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1237,7 +1262,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Convective Cloud Liquid Water 
-comment:           Calculate as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1259,7 +1284,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Convective Cloud Ice
-comment:           Calculate as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1302,7 +1327,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Stratiform Cloud Liquid Water
-comment:           Calculate as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1324,7 +1349,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Mass Fraction of Stratiform Cloud Ice
-comment:           Calculate as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Calculated as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1346,7 +1371,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Updraft Convective Mass Flux
-comment:           Report on model half-levels (i.e., model layer bounds and not standard pressures).   Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
+comment:           Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1369,7 +1394,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Downdraft Convective Mass Flux
-comment:           Report on model half-levels (i.e., model layer bounds and not standard pressures).  Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
+comment:           Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1392,7 +1417,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Shallow Convective Mass Flux
-comment:           Report on model half-levels (i.e., model layer bounds and not standard pressures).   The net mass flux should represent the difference between the updraft and downdraft components.  For models with a distinct shallow convection scheme, calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
+comment:           The net mass flux represents the difference between the updraft and downdraft components.  For models with a distinct shallow convection scheme, this is calculated as convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1415,7 +1440,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Deep Convective Mass Flux
-comment:           Report on model half-levels (i.e., model layer bounds and not standard pressures).  The net mass flux should represent the difference between the updraft and downdraft components.   Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
+comment:           The net mass flux  represents the difference between the updraft and downdraft components.   This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1816,7 +1841,6 @@ units:             s-1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Tendency of Mass Fraction of Stratiform Cloud Ice Due Convective Detrainment
-comment:           Tendency of Mass Fraction of Stratiform Cloud Ice Due to Convective Detrainment
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2569,7 +2593,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         ISCCP Mean Cloud Albedo
-comment:           When computing time-means, weight by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README
+comment:           time-means weighted by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2591,7 +2615,7 @@ units:             Pa
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         ISCCP Mean Cloud Top Pressure
-comment:           When computing time-means, weight by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README
+comment:           time-means weighted by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2613,7 +2637,6 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         ISCCP Cloud Area Fraction
-comment:            7 levels x 7 tau
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2723,7 +2746,6 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         CALIPSO Cloud Fraction 
-comment:            40 height levels
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2745,7 +2767,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         PARASOL Reflectance 
-comment:            5 bins of solar zenith angle.  This is reflectance as seen at the top of the atmosphere.
+comment:           This is reflectance as seen at the top of the atmosphere.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_cfOff b/Tables/CMIP5_cfOff
index 0b5a8bf..032ad60 100644
--- a/Tables/CMIP5_cfOff
+++ b/Tables/CMIP5_cfOff
@@ -6,7 +6,7 @@ frequency: mon
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -241,8 +241,8 @@ out_name:         scatratio
 stored_direction: increasing
 tolerance:        0.001
 type:             double
-requested:        0.0605 2.1 4. 6. 8.5 12.5 17.5 22.5 27.5 35. 45. 55. 70. 539.5 1004.        ! space-separated list of requested coordinates 
-requested_bounds: 0.01 1.2 1.2 3. 3. 5. 5. 7. 7. 10. 10. 15. 15. 20. 20. 25. 25. 30. 30. 40. 40. 50. 50. 60. 60. 80. 80. 999. 999. 1009. ! space-separated list of requested coordinate bounds
+requested:        0.005 0.605 2.1 4. 6. 8.5 12.5 17.5 22.5 27.5 35. 45. 55. 70. 50040.        ! space-separated list of requested coordinates 
+requested_bounds: 0. 0.01 0.01 1.2 1.2 3. 3. 5. 5. 7. 7. 10. 10. 15. 15. 20. 20. 25. 25. 30. 30. 40. 40. 50. 50. 60. 60. 80. 80. 100000. ! space-separated list of requested coordinate bounds
 must_have_bounds: yes
 !----------------------------------
 !
@@ -304,7 +304,6 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         CALIPSO Cloud Fraction
-comment:           (40 height levels)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -326,7 +325,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         CALIPSO Cloud Fraction Undetected by CloudSat
-comment:           (40 height levels)  Clouds detected by CALIPSO but below the detectability threshold of CloudSat
+comment:           Clouds detected by CALIPSO but below the detectability threshold of CloudSat
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -348,7 +347,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         CloudSat Radar Reflectivity
-comment:           CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  (40 levelsx15 bins) .
+comment:           CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  .
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -370,7 +369,7 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         CALIPSO Scattering Ratio
-comment:           CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  (40 levelsx15 bins) .
+comment:           CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_cfSites b/Tables/CMIP5_cfSites
index 8447fa0..8f38518 100644
--- a/Tables/CMIP5_cfSites
+++ b/Tables/CMIP5_cfSites
@@ -11,7 +11,7 @@ frequency: subhr
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -145,7 +145,6 @@ axis_entry: site
 !----------------------------------
 ! Axis attributes:
 !----------------------------------
-units:            1
 long_name:        site index
 !----------------------------------
 ! Additional axis information:
@@ -530,7 +529,6 @@ units:             K
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Near-Surface Air Temperature
-comment:           near-surface (usually, 2 meter) air temperature.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -617,7 +615,6 @@ standard_name:     eastward_wind
 units:             m s-1
 cell_methods:      time: point
 long_name:         Eastward Near-Surface Wind
-comment:           near-surface (usually, 10 meters) eastward component of wind.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -638,7 +635,6 @@ standard_name:     northward_wind
 units:             m s-1
 cell_methods:      time: point
 long_name:         Northward Near-Surface Wind
-comment:           near-surface (usually, 10 meters) northward component of wind.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -659,7 +655,7 @@ standard_name:     wind_speed
 units:             m s-1
 cell_methods:      time: point
 long_name:         Near-Surface Wind Speed
-comment:           near-surface (usually, 10 meters) wind speed.  This is the mean of the speed, not the speed computed from the mean u and v components of wind
+comment:           This is the mean of the speed, not the speed computed from the mean u and v components of wind
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -681,7 +677,7 @@ units:             %
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Near-Surface Relative Humidity
-comment:           near-surface (usually, 2meters) relative humidity expressed as a percentage.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
+comment:           This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -703,7 +699,6 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Near-Surface Specific Humidity
-comment:           near-surface (usually, 2 meters) specific humidity.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -813,7 +808,7 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Surface Snow and Ice Sublimation Flux
-comment:           The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. This differs from sbl appearing in table Limon in that the flux is averaged over the entire grid cell, not just the land portion.
+comment:           The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1076,7 +1071,7 @@ units:             W m-2
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         TOA Incident Shortwave Radiation
-comment:           incident shortwave at the top of the atmosphere
+comment:           at the top of the atmosphere
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1233,7 +1228,7 @@ units:             kg m-2
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Condensed Water Path
-comment:           calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1255,7 +1250,7 @@ units:             kg m-2
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Ice Water Path
-comment:           calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1277,7 +1272,7 @@ units:             W m-2
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Net Downward Flux at Top of Model
-comment:           i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. Report only if this differs from the net downward radiative flux at the top of the atmosphere.
+comment:           i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1364,7 +1359,7 @@ units:             1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Fraction of Time Shallow Convection Occurs
-comment:           Fraction of time that shallow convection occurs in the grid cell. ( For models with a distinct shallow convection scheme only)
+comment:           Fraction of time that shallow convection occurs in the grid cell. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1386,7 +1381,7 @@ units:             kg  m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2
-comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Do not include natural fire sources, but include all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.
+comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1409,7 +1404,7 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2
-comment:           This is requested only for the emission-driven coupled carbon climate model runs.  Report the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)
+comment:           This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1432,7 +1427,7 @@ units:             kg m-2 s-1
 cell_methods:      time: point
 cell_measures:     area: areacella
 long_name:         Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources
-comment:           Report from all simulations (both emission-driven and concentration-driven) performed by models with fully interactive and responsive carbon cycles.  This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ""net ecosystem biospheric productivity"", for land, and ""ai [...]
+comment:            This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ""net ecosystem biospheric productivity"", for land, and ""air to sea CO2 flux"", for ocean.)
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1454,7 +1449,7 @@ standard_name:     cloud_area_fraction_in_atmosphere_layer
 units:             %
 cell_methods:      time: point
 long_name:         Cloud Area Fraction
-comment:           Include both large-scale and convective cloud.
+comment:           Includes both large-scale and convective cloud.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1475,7 +1470,7 @@ standard_name:     mass_fraction_of_cloud_liquid_water_in_air
 units:             1
 cell_methods:      time: point
 long_name:         Mass Fraction of Cloud Liquid Water
-comment:           Include both large-scale and convective cloud.  Calculate as the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Includes both large-scale and convective cloud.  This is the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1496,7 +1491,7 @@ standard_name:     mass_fraction_of_cloud_ice_in_air
 units:             1
 cell_methods:      time: point
 long_name:         Mass Fraction of Cloud Ice
-comment:           Include both large-scale and convective cloud. Calculate as the mass of  cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  
+comment:           Includes both large-scale and convective cloud. This is the mass of  cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -1517,7 +1512,7 @@ standard_name:     atmosphere_net_upward_convective_mass_flux
 units:             kg m-2 s-1
 cell_methods:      time: point
 long_name:         Convective Mass Flux
-comment:           Report on model half-levels (i.e., model layer bounds and not standard pressures).  The net mass flux should represent the difference between the updraft and downdraft components.  Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the updrafts).
+comment:           The net mass flux should represent the difference between the updraft and downdraft components.  This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the updrafts).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2129,7 +2124,6 @@ standard_name:     air_pressure
 units:             Pa
 cell_methods:      time: point
 long_name:         Pressure on Model Levels
-comment:           This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2150,7 +2144,6 @@ standard_name:     air_pressure
 units:             Pa
 cell_methods:      time: point
 long_name:         Pressure on Model Half-Levels
-comment:           This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2170,7 +2163,6 @@ modeling_realm:    atmos
 standard_name:     longitude
 units:             degrees_east
 long_name:         Longitude
-comment:           Note that the CF convention and CMOR2 require that this field will be included in each file that contains a variable that is a function of the ""site"" dimension, so there is no need to save this field by itself.  It is included here simply to indicate that longitudes should be stored for the site grid in each file written.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -2192,7 +2184,6 @@ modeling_realm:    atmos
 standard_name:     latitude
 units:             degrees_north
 long_name:         Latitude
-comment:           the above comment also applies to latitude.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_day b/Tables/CMIP5_day
index c7a90fa..90ab772 100644
--- a/Tables/CMIP5_day
+++ b/Tables/CMIP5_day
@@ -6,7 +6,7 @@ frequency: day
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -239,7 +239,6 @@ units:             1
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Near-Surface Specific Humidity
-comment:           near-surface (usually, 2 meter) specific humidity.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -261,7 +260,6 @@ units:             K
 cell_methods:      time: minimum
 cell_measures:     area: areacella
 long_name:         Daily Minimum Near-Surface Air Temperature
-comment:           daily-minimum near-surface (usually, 2 meter) air temperature.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -283,7 +281,6 @@ units:             K
 cell_methods:      time: maximum
 cell_measures:     area: areacella
 long_name:         Daily Maximum Near-Surface Air Temperature
-comment:           daily-maximum near-surface (usually, 2 meter) air temperature.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -305,7 +302,6 @@ units:             K
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Near-Surface Air Temperature
-comment:           daily-mean near-surface (usually, 2 meter) air temperature.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -369,7 +365,6 @@ standard_name:     wind_speed
 units:             m s-1
 cell_methods:      time: mean
 long_name:         Daily-Mean Near-Surface Wind Speed
-comment:           near-surface (usually, 10 meters) wind speed.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -391,7 +386,7 @@ units:             K2
 cell_methods:      time:mean
 cell_measures:     area: areacello
 long_name:         Square of Sea Surface Temperature
-comment:           square of temperature of liquid ocean, averaged over the day. Report on the ocean grid.  This variable appears in WGOMD Table 2.2 
+comment:           square of temperature of liquid ocean, averaged over the day. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -413,7 +408,7 @@ units:             K
 cell_methods:      time: mean
 cell_measures:     area: areacello
 long_name:         Sea Surface Temperature
-comment:           temperature of liquid ocean. Report on the ocean grid.  This variable appears in WGOMD Table 2.2 
+comment:           temperature of liquid ocean. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -435,7 +430,6 @@ units:             m
 cell_methods:      time: maximum
 cell_measures:     area: areacello
 long_name:         Daily Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme 
-comment:           Report on the ocean grid.  This variable appears in WGOMD Table 2.2 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -456,8 +450,8 @@ standard_name:     moisture_content_of_soil_layer
 units:             kg m-2
 cell_methods:      time: mean area: mean where land 
 cell_measures:     area: areacella
-long_name:         Moisture in Upper 0.1 m of Soil Column
-comment:           Compute the mass of water in all phases in the upper 0.1 meters of soil.
+long_name:         Moisture in Upper Portion of Soil Column
+comment:           the mass of water in all phases in a thin surface soil layer.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -479,7 +473,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Near-Surface Relative Humidity
-comment:           near-surface (usually, 2 meter) relative humidity.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
+comment:           This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -501,7 +495,7 @@ units:             %
 cell_methods:      time: minimum
 cell_measures:     area: areacella
 long_name:         Surface Daily Minimum Relative Humidity
-comment:           near-surface (usually, 2 meter) minimum  relative humidity.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
+comment:           This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -523,7 +517,7 @@ units:             %
 cell_methods:      time: maximum
 cell_measures:     area: areacella
 long_name:         Surface Daily Maximum Relative Humidity
-comment:           near-surface (usually, 2 meter) maximum  relative humidity.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
+comment:           This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -566,7 +560,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Total Cloud Fraction
-comment:           for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.
+comment:           for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes both large-scale and convective cloud.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -610,7 +604,7 @@ units:             kg m-2
 cell_methods:      time: mean area: mean where land
 cell_measures:     area: areacella
 long_name:         Surface Snow Amount
-comment:           Compute as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; report 0.0 where the land fraction is 0; exclude snow on vegetation canopy or on sea ice.
+comment:           the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 where the land fraction is 0; excludes snow on vegetation canopy or on sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -676,7 +670,7 @@ units:             kg m-2 s-1
 cell_methods:      time: mean area: mean where land 
 cell_measures:     area: areacella
 long_name:         Total Runoff
-comment:           "compute as the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell."
+comment:           "computed as the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell."
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -697,7 +691,6 @@ standard_name:     eastward_wind
 units:             m s-1
 cell_methods:      time: mean
 long_name:         Eastward Near-Surface Wind
-comment:           near-surface (usually, 10 meters) eastward component of wind.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -718,7 +711,6 @@ standard_name:     northward_wind
 units:             m s-1
 cell_methods:      time: mean
 long_name:         Northward Near-Surface Wind
-comment:           near-surface (usually, 10 meters) northward component of wind.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -739,7 +731,6 @@ standard_name:     wind_speed
 units:             m s-1
 cell_methods:      time: maximum
 long_name:         Daily Maximum Near-Surface Wind Speed
-comment:           near-surface (usually, 10 meters) wind speed.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -915,7 +906,7 @@ standard_name:     sea_ice_x_velocity
 units:             m s-1
 cell_methods:      time: mean
 long_name:         X-Component of Sea Ice Velocity
-comment:           "Report on ocean's grid.  Report as ""missing"" in regions free of sea ice."
+comment:           "Reported as ""missing"" in regions free of sea ice."
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -936,7 +927,7 @@ standard_name:     sea_ice_y_velocity
 units:             m s-1
 cell_methods:      time: mean
 long_name:         Y-Component of Sea Ice Velocity
-comment:           "Report on ocean's grid.  Report as ""missing"" in regions free of sea ice."
+comment:           "Reported as ""missing"" in regions free of sea ice."
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -958,7 +949,7 @@ units:             %
 cell_methods:      time: mean
 cell_measures:     area: areacella
 long_name:         Sea Ice Area Fraction
-comment:           fraction of grid cell covered by sea ice. Report on ocean's grid. 
+comment:           fraction of grid cell covered by sea ice. 
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -980,7 +971,7 @@ units:             m
 cell_methods:      time: mean area: mean where sea 
 cell_measures:     area: areacella
 long_name:         Sea Ice Thickness
-comment:           Report on ocean's grid.  Compute the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Report as 0.0 in regions free of sea ice.
+comment:           the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Reported as 0.0 in regions free of sea ice.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
diff --git a/Tables/CMIP5_fx b/Tables/CMIP5_fx
index 57c494e..83ff612 100644
--- a/Tables/CMIP5_fx
+++ b/Tables/CMIP5_fx
@@ -6,7 +6,7 @@ frequency: fx
 cmor_version: 2.5.0 ! minimum version of CMOR that can read this table
 cf_version:   1.4         ! version of CF that output conforms to
 project_id:   CMIP5  ! project id
-table_date:   30 November 2010 ! date this table was constructed
+table_date:   06 January 2011 ! date this table was constructed
 
 missing_value: 1.e20      ! value used to indicate a missing value
                           !   in arrays output by netCDF as 32-bit IEEE 
@@ -406,7 +406,6 @@ modeling_realm:    atmos land
 standard_name:     cell_area
 units:             m2
 long_name:         Atmosphere Grid-Cell Area
-comment:           For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -431,7 +430,7 @@ standard_name:     surface_altitude
 units:             m
 cell_measures:     area: areacella
 long_name:         Surface Altitude
-comment:           height above the geoid; as defined here, ""the geoid"" is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Report here the height above the present-day geoid.  Over ocean, report as 0.0
+comment:           height above the geoid; as defined here, ""the geoid"" is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Reported here is the height above the present-day geoid (0.0 over ocean).
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -454,7 +453,6 @@ standard_name:     land_area_fraction
 units:             %
 cell_measures:     area: areacella
 long_name:         Land Area Fraction
-comment:           For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -477,7 +475,7 @@ standard_name:     land_ice_area_fraction
 units:             %
 cell_measures:     area: areacella
 long_name:         Fraction of Grid Cell Covered with Glacier
-comment:           fraction of grid cell occupied by ""permanent"" ice (i.e., glaciers).  If time varying, report annual values for each year of simulation. For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.
+comment:           fraction of grid cell occupied by ""permanent"" ice (i.e., glaciers).  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -500,7 +498,7 @@ standard_name:     soil_moisture_content_at_field_capacity
 units:             kg m-2
 cell_measures:     area: areacella
 long_name:         Capacity of Soil to Store Water
-comment:           """where land"": divide the total water holding capacity of all the soil in the grid cell by the land area in the grid cell;  report as ""missing"" where the land fraction is 0."
+comment:           "reported ""where land"": divide the total water holding capacity of all the soil in the grid cell by the land area in the grid cell;  reported as ""missing"" where the land fraction is 0."
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -544,7 +542,7 @@ standard_name:     sea_floor_depth_below_geoid
 units:             m
 cell_measures:     area: areacello
 long_name:         Sea Floor Depth
-comment:           Ocean bathymetry.   Report here the sea floor depth for present day.  Report as missing for land grid cells.
+comment:           Ocean bathymetry.   Reported here is the sea floor depth for present day. Reported as missing for land grid cells.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -568,7 +566,7 @@ modeling_realm:    ocean
 standard_name:     ocean_volume
 units:             m3
 long_name:         Ocean Grid-Cell Volume
-comment:           3-D field: grid-cell volume ca. 2000.  For oceans with more than 1 mesh, report for on grid that applies to temperature 
+comment:           grid-cell volume ca. 2000.  
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -592,7 +590,6 @@ modeling_realm:    ocean
 standard_name:     cell_area
 units:             m2
 long_name:         Ocean Grid-Cell Area
-comment:           For oceans with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -617,7 +614,7 @@ standard_name:     sea_area_fraction
 units:             %
 cell_measures:     area: areacello
 long_name:         Sea Area Fraction
-comment:           Report on the same grid that ocean fields are reported (i.e., the ocean native grid, or the grid that ocean data has been provided to CMIP.  For completeness, provide this even if the ocean grid is the same as the atmospheric grid. This is the area fraction at the ocean surface.
+comment:            This is the area fraction at the ocean surface.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -640,7 +637,6 @@ standard_name:     region
 units:             1
 cell_measures:     area: areacello
 long_name:         Region Selection Index
-comment:           Report on the same grid as the temperature field.  flag_values=0,1,2,3,4,5,6,7,8,9,10 corresponding to flag_meanings=global_land, southern_ocean, atlantic_ocean, pacific_ocean, arctic_ocean, indian_ocean, mediterranean_sea, black_sea, hudson_bay, baltic_sea, red_sea.  Report on the grid used for the temperature field.
 !----------------------------------
 ! Additional variable information:
 !----------------------------------
@@ -652,3 +648,25 @@ valid_max:         10.0
 !----------------------------------
 !
 
+!============
+variable_entry:    hfgeou
+!============
+modeling_realm:    ocean
+!----------------------------------
+! Variable attributes:
+!----------------------------------
+standard_name:     upward_geothermal_heat_flux_at_sea_floor
+units:             W m-2
+cell_methods:      area: mean where sea
+cell_measures:     area: areacello
+long_name:         Upward Geothermal Heat Flux at Sea Floor 
+!----------------------------------
+! Additional variable information:
+!----------------------------------
+dimensions:        longitude latitude
+out_name:          hfgeou
+type:              real
+positive:          up
+!----------------------------------
+!
+
diff --git a/Tables/md5s b/Tables/md5s
index b60485d..d1c6c48 100644
--- a/Tables/md5s
+++ b/Tables/md5s
@@ -1 +1 @@
-{'CMIP5': {'cf3hr': {'11 May 2010': 'a59ca1270ff3036d417a7f2217598266', '19 October 2010': '8b5c2f197b70a103393838ebd4075c6c', '12 May 2010': '905f7ccdd5a31cb71e2a6e3b339cd0e1', '23 August 2010': '5ccea11a7c3d165c76df3d9eede395d0', '01 June 2010': '619aa3c816bc25a53335589698e64968', '01 July 2010': 'c0fe9e92115d75292f5009e13761cb4b', '29 April 2010': 'fdc4fb38dd4cfb7f066329ed43a9e805', '12 March 2010': 'ae9a82f01824d9012aa0657cd7896a9a', '22 March 2010': '712cd14ab6a28116da828ff555e00c4d [...]
\ No newline at end of file
+{'CMIP5': {'cf3hr': {'11 May 2010': 'a59ca1270ff3036d417a7f2217598266', '19 October 2010': '8b5c2f197b70a103393838ebd4075c6c', '12 May 2010': '905f7ccdd5a31cb71e2a6e3b339cd0e1', '23 August 2010': '5ccea11a7c3d165c76df3d9eede395d0', '01 June 2010': '619aa3c816bc25a53335589698e64968', '01 July 2010': 'c0fe9e92115d75292f5009e13761cb4b', '11 November 2010': '35a8e11c7f57f3128517d21d177a8204', '12 March 2010': 'ae9a82f01824d9012aa0657cd7896a9a', '22 March 2010': '712cd14ab6a28116da828ff555e00 [...]
\ No newline at end of file
diff --git a/Tables_csv/3hr.csv b/Tables_csv/3hr.csv
index a329ada..eca2772 100644
--- a/Tables_csv/3hr.csv
+++ b/Tables_csv/3hr.csv
@@ -12,9 +12,9 @@ The 3-hourly data should be collected only for the following experiments and yea
 ,,,"CO2 forcing (6.2b), anthropogenic aerosol forcing (6.4a), and sulfate aerosol forcing (6.4b)",all years,,,,,,,,,,,,,,,,,,
 ,,,abrupt 4XCO2 (6.3),first 5 years and last 30 years,,,,,,,,,,,,,,,,,,
 ,,,abrupt 4XCO2 ensemble (6.3-E),all years,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Precipitation,kg m-2 s-1,at surface; includes both liquid and solid phases.  This is the 3-hour mean precipitation flux.,,pr,precipitation_flux,,kg m-2 s-1,time:mean,,,,,,real,longitude latitude time,pr,atmos,,area: areacella,,
-1.0,Air Temperature,K,"near-surface (usually, 2 meter) air temperature, sampled synoptically.",,tas,air_temperature,,K,time: point,,,,,,real,longitude latitude time1 height2m,tas,atmos,,area: areacella,,
+1.0,Air Temperature,K,This is sampled synoptically.,"normally, report at 2 meters above the surface",tas,air_temperature,,K,time: point,,,,,,real,longitude latitude time1 height2m,tas,atmos,,area: areacella,,
 1.0,Surface Upward Latent Heat Flux,W m-2,This is the 3-hour mean flux.,,hfls,surface_upward_latent_heat_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,hfls,atmos,,area: areacella,,
 1.0,Surface Upward Sensible Heat Flux,W m-2,This is the 3-hour mean flux.,,hfss,surface_upward_sensible_heat_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,hfss,atmos,,area: areacella,,
 1.0,Surface Downwelling Longwave Radiation,W m-2,This is the 3-hour mean flux.,,rlds,surface_downwelling_longwave_flux_in_air,,W m-2,time: mean,,,,,down,real,longitude latitude time,rlds,atmos,,area: areacella,,
@@ -22,15 +22,15 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Surface Downwelling Shortwave Radiation,W m-2,This is the 3-hour mean flux.,,rsds,surface_downwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,down,real,longitude latitude time,rsds,atmos,,area: areacella,,
 1.0,Surface Upwelling Shortwave Radiation,W m-2,This is the 3-hour mean flux.,,rsus,surface_upwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsus,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
-1.0,Eastward Near-Surface Wind Speed,m s-1,sampled synoptically.,,uas,eastward_wind,,m s-1,time: point,,,,,,real,longitude latitude time1 height10m,uas,atmos,,,,
-1.0,Northward Near-Surface Wind Speed,m s-1,sampled synoptically.,,vas,northward_wind,,m s-1,time: point,,,,,,real,longitude latitude time1 height10m,vas,atmos,,,,
-1.0,Near-Surface Specific Humidity,1.0,"near-surface (usually 2 m) specific humidity, sampled synoptically.",,huss,specific_humidity,,1.0,time: point,,,,,,real,longitude latitude time1 height2m,huss,atmos,,area: areacella,,
-1.0,Moisture in Upper 0.1 m of Soil Column,kg m-2,Compute the mass of water in all phases in the upper 0.1 meters of soil.,,mrsos,moisture_content_of_soil_layer,,kg m-2,time: point area: mean where land,,,,,,real,longitude latitude time1 sdepth1,mrsos,land,,area: areacella,,
+1.0,Eastward Near-Surface Wind Speed,m s-1,This is sampled synoptically.,,uas,eastward_wind,,m s-1,time: point,,,,,,real,longitude latitude time1 height10m,uas,atmos,,,,
+1.0,Northward Near-Surface Wind Speed,m s-1,This is sampled synoptically.,,vas,northward_wind,,m s-1,time: point,,,,,,real,longitude latitude time1 height10m,vas,atmos,,,,
+1.0,Near-Surface Specific Humidity,1.0,This is sampled synoptically.,"normally, report at 2 meters above the surface",huss,specific_humidity,,1.0,time: point,,,,,,real,longitude latitude time1 height2m,huss,atmos,,area: areacella,,
+1.0,Moisture in Upper Portion of Soil Column,kg m-2,the mass of water in all phases in a thin surface soil layer.,integrate over uppermost 10 cm,mrsos,moisture_content_of_soil_layer,,kg m-2,time: point area: mean where land,,,,,,real,longitude latitude time1 sdepth1,mrsos,land,,area: areacella,,
 1.0, Surface Temperature Where Land or Sea Ice,K,"""skin"" temperature of all surfaces except open ocean, sampled synoptically.  ",,tslsi,surface_temperature,,K,time: point,,,,,,real,longitude latitude time1,tslsi,land,,area: areacella,,
 1.0,Sea Surface Temperature,K,"temperature of surface of open ocean, sampled synoptically.",,tso,sea_surface_temperature,,K,time: point area: mean where sea,,,,,,real,longitude latitude time1,tso,ocean,,area: areacella,,
 1.0,Convective Precipitation,kg m-2 s-1,at surface.  This is a 3-hour mean convective precipitation flux.,,prc,convective_precipitation_flux,,kg m-2 s-1,time:mean,,,,,,real,longitude latitude time,prc,atmos,,area: areacella,,
 1.0,Snowfall Flux,kg m-2 s-1,at surface.  Includes all forms of precipitating solid phase of water.  This is the 3-hour mean snowfall flux.,,prsn,snowfall_flux,,kg m-2 s-1,time:mean,,,,,,real,longitude latitude time,prsn,atmos,,area: areacella,,
-1.0,Total Runoff,kg m-2 s-1,"compute the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell, averaged over the 3-hour interval.",,mrro,runoff_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,mrro,land,,area: areacella,,
+1.0,Total Runoff,kg m-2 s-1,"the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell, averaged over the 3-hour interval.",,mrro,runoff_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,mrro,land,,area: areacella,,
 1.0,Surface Downwelling Clear-Sky Longwave Radiation,W m-2,This is a 3-hour mean flux.,,rldscs,downwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude time,rldscs,atmos,,area: areacella,,
 1.0,Surface Downwelling Clear-Sky Shortwave Radiation,W m-2,This is a 3-hour mean flux.,,rsdscs,surface_downwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude time,rsdscs,atmos,,area: areacella,,
 1.0,Surface Upwelling Clear-Sky Shortwave Radiation,W m-2,This is a 3-hour mean flux.,,rsuscs,surface_upwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsuscs,atmos,,area: areacella,,
diff --git a/Tables_csv/6hrLev.csv b/Tables_csv/6hrLev.csv
index a3f7a1c..079163d 100644
--- a/Tables_csv/6hrLev.csv
+++ b/Tables_csv/6hrLev.csv
@@ -12,11 +12,11 @@ CMOR Table 6hrLev: Fields (Sampled Every 6 Hours) for Driving Regional Models,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Air Temperature,K,on all model levels,,ta,air_temperature,,K,,,,,,,real,longitude latitude alevel time1,ta,atmos,,area: areacella,,
-1.0,Eastward Wind,m s-1,on all model levels,,ua,eastward_wind,,m s-1,,,,,,,real,longitude latitude alevel time1,ua,atmos,,,,
-1.0,Northward Wind,m s-1,on all model levels,,va,northward_wind,,m s-1,,,,,,,real,longitude latitude alevel time1,va,atmos,,,,
-1.0,Specific Humidity,1.0,on all model levels,,hus,specific_humidity,,1.0,,,,,,,real,longitude latitude alevel time1,hus,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Air Temperature,K,,on all model levels,ta,air_temperature,,K,,,,,,,real,longitude latitude alevel time1,ta,atmos,,area: areacella,,
+1.0,Eastward Wind,m s-1,,on all model levels,ua,eastward_wind,,m s-1,,,,,,,real,longitude latitude alevel time1,ua,atmos,,,,
+1.0,Northward Wind,m s-1,,on all model levels,va,northward_wind,,m s-1,,,,,,,real,longitude latitude alevel time1,va,atmos,,,,
+1.0,Specific Humidity,1.0,,on all model levels,hus,specific_humidity,,1.0,,,,,,,real,longitude latitude alevel time1,hus,atmos,,area: areacella,,
 1.0,Surface Air Pressure,Pa,"surface pressure, not mean sea level pressure",,ps,surface_air_pressure,,Pa,,,,,,,real,longitude latitude time1,ps,atmos,,area: areacella,,
 
 
diff --git a/Tables_csv/6hrPlev.csv b/Tables_csv/6hrPlev.csv
index a8020b0..10608c3 100644
--- a/Tables_csv/6hrPlev.csv
+++ b/Tables_csv/6hrPlev.csv
@@ -12,10 +12,10 @@ CMOR Table 6hrPlev: Fields (Sampled Every 6 Hours) for Storm-Track Analysis and
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Eastward Wind,m s-1,"on the following pressure levels: 850, 500, 250 hPa",,ua,eastward_wind,,m s-1,,,,,,,real,longitude latitude plev3 time1,ua,atmos,,,,
-1.0,Northward Wind,m s-1,"on the following pressure levels: 850, 500, 250 hPa",,va,northward_wind,,m s-1,,,,,,,real,longitude latitude plev3 time1,va,atmos,,,,
-1.0,Air Temperature,K,"on the following pressure levels: 850, 500, 250 hPa",,ta,air_temperature,,K,,,,,,,real,longitude latitude plev3 time1,ta,atmos,,area: areacella,,
-1.0,Sea Level Pressure,Pa,,,psl,air_pressure_at_sea_level,,Pa,,,,,,,real,longitude latitude time1,psl,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Eastward Wind,m s-1,,"on the following pressure levels: 850, 500, 250 hPa",ua,eastward_wind,,m s-1,,-90.0,145.0,,,,real,longitude latitude plev3 time1,ua,atmos,,,,
+1.0,Northward Wind,m s-1,,"on the following pressure levels: 850, 500, 250 hPa",va,northward_wind,,m s-1,,-80.0,80.0,,,,real,longitude latitude plev3 time1,va,atmos,,,,
+1.0,Air Temperature,K,,"on the following pressure levels: 850, 500, 250 hPa",ta,air_temperature,,K,,144.0,330.0,,,,real,longitude latitude plev3 time1,ta,atmos,,area: areacella,,
+1.0,Sea Level Pressure,Pa,,,psl,air_pressure_at_sea_level,,Pa,,92500.0,113000.0,,,,real,longitude latitude time1,psl,atmos,,area: areacella,,
 
 
diff --git a/Tables_csv/Amon.csv b/Tables_csv/Amon.csv
index 47cea71..ec9c878 100644
--- a/Tables_csv/Amon.csv
+++ b/Tables_csv/Amon.csv
@@ -12,24 +12,24 @@ CMOR Table Amon: Monthly Mean Atmospheric Fields and Some Surface Fields,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Near-Surface Air Temperature,K,"near-surface (usually, 2 meter) air temperature.",,tas,air_temperature,,K,time: mean,,,,,,real,longitude latitude time height2m,tas,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Near-Surface Air Temperature,K,,"normally, the temperature should be reported at the 2 meter height",tas,air_temperature,,K,time: mean,,,,,,real,longitude latitude time height2m,tas,atmos,,area: areacella,,
 1.0,Surface Temperature,K,"""skin"" temperature (i.e., SST for open ocean)",,ts,surface_temperature,,K,time: mean,,,,,,real,longitude latitude time,ts,atmos,,area: areacella,,
-1.0,Daily Minimum Near-Surface Air Temperature,K,"monthly mean of the daily-minimum near-surface (usually, 2 meter) air temperature.",,tasmin,air_temperature,,K,time: minimum within days time: mean over days,,,,,,real,longitude latitude time height2m,tasmin,atmos,,area: areacella,,
-1.0,Daily Maximum Near-Surface Air Temperature,K,"monthly mean of the daily-maximum near-surface (usually, 2 meter) air temperature.",,tasmax,air_temperature,,K,time: maximum within days time: mean over days,,,,,,real,longitude latitude time height2m,tasmax,atmos,,area: areacella,,
+1.0,Daily Minimum Near-Surface Air Temperature,K,monthly mean of the daily-minimum near-surface air temperature.,"normally, this should be reported at the 2 meter height.",tasmin,air_temperature,,K,time: minimum within days time: mean over days,,,,,,real,longitude latitude time height2m,tasmin,atmos,,area: areacella,,
+1.0,Daily Maximum Near-Surface Air Temperature,K,monthly mean of the daily-maximum near-surface air temperature.,"normally, this should be reported at the 2 meter height.",tasmax,air_temperature,,K,time: maximum within days time: mean over days,,,,,,real,longitude latitude time height2m,tasmax,atmos,,area: areacella,,
 1.0,Sea Level Pressure,Pa,"not, in general, the same as surface pressure",,psl,air_pressure_at_sea_level,,Pa,time: mean,,,,,,real,longitude latitude time,psl,atmos,,area: areacella,,
 1.0,Surface Air Pressure,Pa,"not, in general, the same as mean sea-level pressure",,ps,surface_air_pressure,,Pa,time: mean,,,,,,real,longitude latitude time,ps,atmos,,area: areacella,,
-1.0,Eastward Near-Surface Wind,m s-1,"near-surface (usually, 10 meters) eastward component of wind.",,uas,eastward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,uas,atmos,,,,
-1.0,Northward Near-Surface Wind,m s-1,"near-surface (usually, 10 meters) northward component of wind.",,vas,northward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,vas,atmos,,,,
-1.0,Near-Surface Wind Speed,m s-1,"near-surface (usually, 10 meters) wind speed.  This is the mean of the speed, not the speed computed from the mean u and v components of wind",,sfcWind,wind_speed,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,sfcWind,atmos,,,,
-1.0,Near-Surface Relative Humidity,%,"near-surface (usually, 2meters) relative humidity expressed as a percentage.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",,hurs,relative_humidity,,%,time: mean,,,,,,real,longitude latitude time height2m,hurs,atmos,,area: areacella,,
-1.0,Near-Surface Specific Humidity,1.0,"near-surface (usually, 2 meters) specific humidity.",,huss,specific_humidity,,1.0,time: mean,,,,,,real,longitude latitude time height2m,huss,atmos,,area: areacella,,
+1.0,Eastward Near-Surface Wind,m s-1,,"normally, the the wind component should be reported at the 10 meter height",uas,eastward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,uas,atmos,,,,
+1.0,Northward Near-Surface Wind,m s-1,,"normally, the the wind component should be reported at the 10 meter height",vas,northward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,vas,atmos,,,,
+1.0,Near-Surface Wind Speed,m s-1,"This is the mean of the speed, not the speed computed from the mean u and v components of wind","normally, the the wind  should be reported at the 10 meter height",sfcWind,wind_speed,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,sfcWind,atmos,,,,
+1.0,Near-Surface Relative Humidity,%,"This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.","express as a percentage.  Normally, the relative humidity  should be reported at the 2 meter height",hurs,relative_humidity,,%,time: mean,,,,,,real,longitude latitude time height2m,hurs,atmos,,area: areacella,,
+1.0,Near-Surface Specific Humidity,1.0,,"Normally, the specific humidity should be reported at the 2 meter height",huss,specific_humidity,,1.0,time: mean,,,,,,real,longitude latitude time height2m,huss,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
 1.0,Precipitation,kg m-2 s-1,at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective),,pr,precipitation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,pr,atmos,,area: areacella,,
 1.0,Snowfall Flux,kg m-2 s-1,at surface; includes precipitation of all forms of water in the solid phase,,prsn,snowfall_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,prsn,atmos,,area: areacella,,
 1.0,Convective Precipitation,kg m-2 s-1,at surface; includes both liquid and solid phases.,,prc,convective_precipitation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,prc,atmos,,area: areacella,,
 1.0,Evaporation,kg m-2 s-1,at surface; flux of water into the atmosphere due to conversion of both liquid and solid phases to vapor (from underlying surface and vegetation),,evspsbl,water_evaporation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,evspsbl,atmos,,area: areacella,,
-1.0,Surface Snow and Ice Sublimation Flux,kg m-2 s-1,"The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. This differs from sbl appearing in table Limon in that the flux is averaged over the entire grid cell, not just the land portion.",,sbl,surface_snow_and_ice_sublimation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,sbl,atmos,,area: areacella,,
+1.0,Surface Snow and Ice Sublimation Flux,kg m-2 s-1,The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. ,"This differs from sbl appearing in table Limon in that the flux is averaged over the entire grid cell, not just the land portion.",sbl,surface_snow_and_ice_sublimation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,sbl,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
 1.0,Surface Downward Eastward Wind Stress,Pa,,,tauu,surface_downward_eastward_stress,,Pa,time: mean,,,,,down,real,longitude latitude time,tauu,atmos,,,,
 1.0,Surface Downward Northward Wind Stress,Pa,,,tauv,surface_downward_northward_stress,,Pa,time: mean,,,,,down,real,longitude latitude time,tauv,atmos,,,,
@@ -44,7 +44,7 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Surface Upwelling Clear-Sky Shortwave Radiation,W m-2,,,rsuscs,surface_upwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsuscs,atmos,,area: areacella,,
 1.0,Surface Downwelling Clear-Sky Longwave Radiation,W m-2,,,rldscs,surface_downwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude time,rldscs,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
-1.0,TOA Incident Shortwave Radiation,W m-2,incident shortwave at the top of the atmosphere,,rsdt,toa_incoming_shortwave_flux,,W m-2,time: mean,,,,,down,real,longitude latitude time,rsdt,atmos,,area: areacella,,
+1.0,TOA Incident Shortwave Radiation,W m-2,at the top of the atmosphere,,rsdt,toa_incoming_shortwave_flux,,W m-2,time: mean,,,,,down,real,longitude latitude time,rsdt,atmos,,area: areacella,,
 1.0,TOA Outgoing Shortwave Radiation,W m-2,at the top of the atmosphere,,rsut,toa_outgoing_shortwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsut,atmos,,area: areacella,,
 1.0,TOA Outgoing Longwave Radiation,W m-2,at the top of the atmosphere (to be compared with satellite measurements),,rlut,toa_outgoing_longwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlut,atmos,,area: areacella,,
 1.0,TOA Outgoing Clear-Sky Longwave Radiation,W m-2,,,rlutcs,toa_outgoing_longwave_flux_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlutcs,atmos,,area: areacella,,
@@ -52,25 +52,25 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 ,,,,,,,,,,,,,,,real,,,atmos,,area: areacella,,
 1.0,Water Vapor Path,kg m-2,vertically integrated through the atmospheric column,,prw,atmosphere_water_vapor_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,prw,atmos,,area: areacella,,
 1.0,Total Cloud Fraction,%,"for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.",,clt,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,clt,atmos,,area: areacella,,
-1.0,Condensed Water Path,kg m-2,calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clwvi,atmosphere_cloud_condensed_water_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,clwvi,atmos,,area: areacella,,
-1.0,Ice Water Path,kg m-2,calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clivi,atmosphere_cloud_ice_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,clivi,atmos,,area: areacella,,
+1.0,Condensed Water Path,kg m-2,mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clwvi,atmosphere_cloud_condensed_water_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,clwvi,atmos,,area: areacella,,
+1.0,Ice Water Path,kg m-2,mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clivi,atmosphere_cloud_ice_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,clivi,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
-1.0,Net Downward Flux at Top of Model,W m-2,"i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. Report only if this differs from the net downward radiative flux at the top of the atmosphere.",,rtmt,net_downward_radiative_flux_at_top_of_atmosphere_model,,W m-2,time: mean,,,,,down,real,longitude latitude time,rtmt,atmos,,area: areacella,,
+1.0,Net Downward Flux at Top of Model,W m-2,"i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere.",,rtmt,net_downward_radiative_flux_at_top_of_atmosphere_model,,W m-2,time: mean,,,,,down,real,longitude latitude time,rtmt,atmos,,area: areacella,,
 1.0,Air Pressure at Convective Cloud Base,Pa,,,ccb,air_pressure_at_convective_cloud_base,,Pa,time: mean,,,,,,real,longitude latitude time,ccb,atmos,,area: areacella,,
 1.0,Air Pressure at Convective Cloud Top,Pa,,,cct,air_pressure_at_convective_cloud_top,,Pa,time: mean,,,,,,real,longitude latitude time,cct,atmos,,area: areacella,,
 1.0,Fraction of Time Convection Occurs,1.0,Fraction of time that convection occurs in the grid cell .,,ci ,convection_time_fraction,,1.0,time: mean,,,,,,real,longitude latitude time,ci ,atmos,,area: areacella,,
-1.0,Fraction of Time Shallow Convection Occurs,1.0,Fraction of time that shallow convection occurs in the grid cell. ( For models with a distinct shallow convection scheme only),,sci,shallow_convection_time_fraction,,1.0,time: mean,,,,,,real,longitude latitude time,sci,atmos,,area: areacella,,
+1.0,Fraction of Time Shallow Convection Occurs,1.0,Fraction of time that shallow convection occurs in the grid cell. ,For models with a distinct shallow convection scheme only.,sci,shallow_convection_time_fraction,,1.0,time: mean,,,,,,real,longitude latitude time,sci,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,area: areacella,,
-1.0,Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2,kg  m-2 s-1,"This is requested only for the emission-driven coupled carbon climate model runs.  Do not include natural fire sources, but include all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.",,fco2antt,tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due [...]
-1.0,Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2,kg m-2 s-1,"This is requested only for the emission-driven coupled carbon climate model runs.  Report the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)",,fco2fos,tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fossil_fuel_combustion,,kg m-2 s-1 [...]
-1.0,Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources,kg m-2 s-1,"Report from all simulations (both emission-driven and concentration-driven) performed by models with fully interactive and responsive carbon cycles.  This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i. [...]
+1.0,Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2,kg  m-2 s-1,"This is requested only for the emission-driven coupled carbon climate model runs.  Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.",,fco2antt,tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_ [...]
+1.0,Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2,kg m-2 s-1,"This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)",This is requested only for the emission-driven coupled carbon climate model runs.  ,fco2fos,tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fossil_fuel_combustion,,kg m-2 s- [...]
+1.0,Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources,kg m-2 s-1," This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ""net ecosystem biospheric productivity"", for land, and ""air to sea CO2 flux"", for ocean.)",Report from all simulations (both emission-driven  [...]
 "In CMOR Table Amon: Atmospheric 3-D fields on standard pressure levels, except 4 cloud fields which are on model levels.  ",,,,,,,,,,,,,,,,,,,,,,
 "Include the following mandatory pressure levels (which are available from all available reanalyses and CMIP3): 1000, 925, 850, 700, 600, 500, 400, 300, 250, 200, 150, 100, 70, 50, 30, 20, and 10 hPa;  Also include, when appropriate, output on the following additional pressure levels: 7, 5, 3, 2, 1 and 0.4 hPa.",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Cloud Area Fraction,%,Report on model layers (not standard pressures).  Include both large-scale and convective cloud.,,cl,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alevel time,cl,atmos,,area: areacella,,
-1.0,Mass Fraction of Cloud Liquid Water,1.0,Report on model layers (not standard pressures).  Include both large-scale and convective cloud.  Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clw,mass_fraction_of_cloud_liquid_water_in_air,,1.0,time: mean,,,,,,real,lo [...]
-1.0,Mass Fraction of Cloud Ice,1.0,Report on model layers (not standard pressures).  Include both large-scale and convective cloud.  Calculate as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,cli,mass_fraction_of_cloud_ice_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time [...]
-1.0,Convective Mass Flux,kg m-2 s-1,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  The net mass flux should represent the difference between the updraft and downdraft components.  The flux is computed as the mass divided by the area of the grid cell.  ",,mc,atmosphere_net_upward_convective_mass_flux,,kg m-2 s-1,time: mean,,,,,up,real,longitude latitude alevhalf time,mc,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Cloud Area Fraction,%, Includes both large-scale and convective cloud.,Report on model layers (not standard pressures). ,cl,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alevel time,cl,atmos,,area: areacella,,
+1.0,Mass Fraction of Cloud Liquid Water,1.0,Includes both large-scale and convective cloud.  Calculate as the mass of cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cells. Precipitating hydrometeors are included ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,Report on model layers (not standard pressures). ,clw,mass_fraction_of_cloud_liquid_water_in_air,,1.0,time: mean,,,,,,re [...]
+1.0,Mass Fraction of Cloud Ice,1.0,Includes both large-scale and convective cloud.  This is calculated as the mass of cloud ice in the grid cell divided by the mass of air (including the water in all phases) in the grid cell. It includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,Report on model layers (not standard pressures).  ,cli,mass_fraction_of_cloud_ice_in_air,,1.0,time: mean,,,,,,real,longitude latitu [...]
+1.0,Convective Mass Flux,kg m-2 s-1,The net mass flux should represent the difference between the updraft and downdraft components.  The flux is computed as the mass divided by the area of the grid cell.  ,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  ",mc,atmosphere_net_upward_convective_mass_flux,,kg m-2 s-1,time: mean,,,,,up,real,longitude latitude alevhalf time,mc,atmos,,area: areacella,,
 1.0,Air Temperature,K,,,ta,air_temperature,,K,time: mean,,,,,,real,longitude latitude plevs time,ta,atmos,,area: areacella,,
 1.0,Eastward Wind,m s-1,,,ua,eastward_wind,,m s-1,time: mean,,,,,,real,longitude latitude plevs time,ua,atmos,,,,
 1.0,Northward Wind,m s-1,,,va,northward_wind,,m s-1,time: mean,,,,,,real,longitude latitude plevs time,va,atmos,,,,
@@ -78,30 +78,49 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Relative Humidity,%,"This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",,hur,relative_humidity,,%,time: mean,,,,,,real,longitude latitude plevs time,hur,atmos,,area: areacella,,
 1.0,omega (=dp/dt),Pa s-1,"commonly referred to as ""omega"", this represents the vertical component of velocity in pressure coordinates (positive down)",,wap,lagrangian_tendency_of_air_pressure,,Pa s-1,time: mean,,,,,,real,longitude latitude plevs time,wap,atmos,,area: areacella,,
 1.0,Geopotential Height,m,,,zg,geopotential_height,,m,time: mean,,,,,,real,longitude latitude plevs time,zg,atmos,,area: areacella,,
-1.0,Mole Fraction of O3,1e-9,"If this does not change over time (except possibly to vary identically over each annual cycle), report instead the variable described in the next table entry. ",Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we also require either the vertically integrated mole fraction (or mass?) of this species or the vertically integrated globally averaged mole fraction (or mass?)?,tro3 [...]
-1.0,Mole Fraction of O3,1e-9,"If O3 does not vary from one year to the next, report 12 months, starting with January.   (Note: include all 12 months even if the values don't vary seasonally.)  When calling CMOR, identify this variable as tro3Clim, not tro3. If the O3 varies from one year to the next,  then report instead the field described in the previous table entry.  ",Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model le [...]
-1.0,Mole Fraction of CO2,1e-6,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If spatially uniform, omit this field, but report Total Atmospheric Mass of CO2 (see the table entry after the next one). ",Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we also require  [...]
-1.0,Mole Fraction of CO2,1e-6,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the CO2 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as co2Clim, not co2.   If  CO2 is spatially uniform, omit this field, but report Total Atmospheric Mass of CO2 (see the table entry after the next).",Are these the preferred units or should it [...]
-1.0,Total Atmospheric Mass of CO2,kg,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CO2 is spatially nonuniform, omit this field, but report Mole Fraction of CO2 (see the table entry before the previous one). ",,co2mass,atmosphere_mass_of_carbon_dioxide,,kg,time: mean,,,,,,real,time,co2mass,atmos,,,,
-1.0,Total Atmospheric Mass of CO2,kg,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the CO2 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as co2massClim, not co2mass.  If CO2 is spatially nonuniform, omit this field, but report Mole Fraction of CO2 (see the table entry before the previous one). ",,co2mass,atmosphere_mass_ [...]
-1.0,Mole Fraction of CH4,1e-9,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CH4 is spatially uniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry after the next one). ",Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we als [...]
-1.0,Mole Fraction of CH4,1e-9,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the CH4 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4global, not ch4.   If  CH4 is spatially uniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry after the next).",Are these the preferred units or shou [...]
-1.0,Global Mean Mole Fraction of CH4,1e-9,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CH4 is spatially nonuniform, omit this field, but report Mole Fraction of CH4 (see the table entry before the previous one). ",Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or shoul [...]
-1.0,Global Mean Mole Fraction of CH4,1e-9,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the CH4 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4globalClim, not ch4global.  If CH4 is spatially nonuniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry before the previous one). ",Are  [...]
-1.0,Mole Fraction of N2O,1e-9,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If N2O is spatially uniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry after the next one). ",Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we als [...]
-1.0,Mole Fraction of N2O,1e-9,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the N2O does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as n2oglobal, not n2o.   If  N2O is spatially uniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry after the next).",Are these the preferred units or shou [...]
-1.0,Global Mean Mole Fraction of N2O,1e-9,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If N2O is spatially nonuniform, omit this field, but report Mole Fraction of N2O (see the table entry before the previous one). ",Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or shoul [...]
-1.0,Global Mean Mole Fraction of N2O,1e-9,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the N2O does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4globalClim, not ch4global.  If N2O is spatially nonuniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry before the previous one). ",Are  [...]
+1.0,Mole Fraction of O3,1e-9,,"If this does not change over time (except possibly to vary identically over each annual cycle), report instead the variable described in the next table entry.  Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we also require either the vertically integrated mole fraction (or mass?) of this species or the vertically integrated globally averaged mole fraction (or mass?)?",tro [...]
+1.0,Mole Fraction of O3,1e-9,,"If O3 does not vary from one year to the next, report 12 months, starting with January.   (Note: include all 12 months even if the values don't vary seasonally.)  When calling CMOR, identify this variable as tro3Clim, not tro3. If the O3 varies from one year to the next,  then report instead the field described in the previous table entry.  Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model lev [...]
+1.0,Mole Fraction of CO2,1e-6,,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If spatially uniform, omit this field, but report Total Atmospheric Mass of CO2 (see the table entry after the next one).  Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we also require  [...]
+1.0,Mole Fraction of CO2,1e-6,,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the CO2 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as co2Clim, not co2.   If  CO2 is spatially uniform, omit this field, but report Total Atmospheric Mass of CO2 (see the table entry after the next).  Are these the preferred units or should i [...]
+1.0,Total Atmospheric Mass of CO2,kg,,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CO2 is spatially nonuniform, omit this field, but report Mole Fraction of CO2 (see the table entry before the previous one). ",co2mass,atmosphere_mass_of_carbon_dioxide,,kg,time: mean,,,,,,real,time,co2mass,atmos,,,,
+1.0,Total Atmospheric Mass of CO2,kg,,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the CO2 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as co2massClim, not co2mass.  If CO2 is spatially nonuniform, omit this field, but report Mole Fraction of CO2 (see the table entry before the previous one). ",co2mass,atmosphere_mass_ [...]
+1.0,Mole Fraction of CH4,1e-9,,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CH4 is spatially uniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry after the next one).   Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we al [...]
+1.0,Mole Fraction of CH4,1e-9,,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the CH4 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4global, not ch4.   If  CH4 is spatially uniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry after the next).  Are these the preferred units or sho [...]
+1.0,Global Mean Mole Fraction of CH4,1e-9,,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If CH4 is spatially nonuniform, omit this field, but report Mole Fraction of CH4 (see the table entry before the previous one).  Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or shoul [...]
+1.0,Global Mean Mole Fraction of CH4,1e-9,,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the CH4 does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4globalClim, not ch4global.  If CH4 is spatially nonuniform, omit this field, but report Global Mean Mole Fraction of CH4 (see the table entry before the previous one).   Are [...]
+1.0,Mole Fraction of N2O,1e-9,,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If N2O is spatially uniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry after the next one).  Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or should we als [...]
+1.0,Mole Fraction of N2O,1e-9,,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the N2O does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as n2oglobal, not n2o.   If  N2O is spatially uniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry after the next).  Are these the preferred units or sho [...]
+1.0,Global Mean Mole Fraction of N2O,1e-9,,"For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report instead the variable described in the next table entry.  If N2O is spatially nonuniform, omit this field, but report Mole Fraction of N2O (see the table entry before the previous one).   Are these the preferred units or should it be a unitless fraction?  Should this field be reported instead on model levels?  Or shou [...]
+1.0,Global Mean Mole Fraction of N2O,1e-9,,"Report only for simulations (e.g., prescribed concentration pi-control run), in which the N2O does not vary from one year to the next. Report 12 monthly values, starting with January, even if the values don't vary seasonally.  When calling CMOR, identify this variable as ch4globalClim, not ch4global.  If N2O is spatially nonuniform, omit this field, but report Global Mean Mole Fraction of N2O (see the table entry before the previous one).  Are  [...]
 3.0,Global Mean Mole Fraction of CFC11,1e-12,,,cfc11global,mole_fraction_of_cfc11_in_air,,1e-12,time: mean,,,,,,real,time,cfc11global,atmos atmosChem,,,,
 3.0,Global Mean Mole Fraction of CFC12,1e-12,,,cfc12global,mole_fraction_of_cfc12_in_air,,1e-12,time: mean,,,,,,real,time,cfc12global,atmos atmosChem,,,,
 3.0,Global Mean Mole Fraction of HCFC22,1e-12,,,hcfc22global,mole_fraction_of_hcfc22_in_air,,1e-12,time: mean,,,,,,real,time,hcfc22global,atmos atmosChem,,,,
 3.0,Global Mean Mole Fraction of CFC113,1e-12,,,cfc113global,mole_fraction_of_cfc113_in_air,,1e-12,time: mean,,,,,,real,time,cfc113global,atmos atmosChem,,,,
-1.0,Mole Fraction of Other Radiatively Important Trace Gases (That Are Evolving in Time).,1.0,"If assumed spatially uniform, report only time-series of the single value.  For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report values for only 12 months (starting with January.  (Note: include all 12 months even if the values don't vary seasonally.)  ",Please let me know what (if any) other trace gas concentrations s [...]
+1.0,Mole Fraction of Other Radiatively Important Trace Gases (That Are Evolving in Time).,1.0,,"Please let me know what (if any) other trace gas concentrations should be included.  If assumed spatially uniform, report only time-series of the single value.  For some simulations (e.g., prescribed concentration pi-control run), this will not vary from one year to the next, and so report values for only 12 months (starting with January.  (Note: include all 12 months even if the values don't  [...]
 ,,,,,,,,,,,,,,,,,,,,,,
 In CMOR Table Amon: Climatological atmospheric 3-D pressure fields ,,,,,,,,,,,,,,,,,,,,,,
 "These field are requested only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures on each model level are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.  The annual cycle climatology (computed from an appropriate segment of the pre-industrial control run) should be reported on model levels and half levels.  DO NOT REPORT ALL MONTHS FOR AL [...]
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Pressure on Model Levels,Pa,,,pfull,air_pressure,,Pa,time: mean within years time: mean over years,,,,,,real,longitude latitude alevel time2,pfull,atmos,monClim,area: areacella,,
 1.0,Pressure on Model Half-Levels,Pa,,,phalf,air_pressure,,Pa,time: mean within years time: mean over years,,,,,,real,longitude latitude alevhalf time2,phalf,atmos,monClim,area: areacella,,
+,,,,,,,,,,,,,,,,,,,,,,
+In CMOR Table Amon: 2-D bias-corrected fields on atmospheric grid,,,,,,,,,,,,,,,,,,,,,,
+CMOR Table Amon: Monthly Mean Atmospheric Fields and Some Surface Fields,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+"These fields are derived from fields in the first table above.  They have been ""bias-corrected"" to remove some of the unrealistic behavior caused by the initialization procedure.  The fields should be reported only for decadal hindcast/forecast experiments. ",,,,,,,,,,,,,,,,,,,,,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Bias-Corrected Near-Surface Air Temperature,K,,"normally, the temperature should be reported at the 2 meter height",tasAdjust,air_temperature,,K,time: mean,,,,,,real,longitude latitude time height2m,tasAdjust,atmos,,area: areacella,,
+1.0,Bias-Corrected Surface Temperature,K,"""skin"" temperature (i.e., SST for open ocean)",,tsAdjust,surface_temperature,,K,time: mean,,,,,,real,longitude latitude time,tsAdjust,atmos,,area: areacella,,
+1.0,Bias-Corrected Sea Level Pressure,Pa,"not, in general, the same as surface pressure",,pslAdjust,air_pressure_at_sea_level,,Pa,time: mean,,,,,,real,longitude latitude time,pslAdjust,atmos,,area: areacella,,
+1.0,Bias-Corrected Precipitation,kg m-2 s-1,at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective),,prAdjust,precipitation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,prAdjust,atmos,,area: areacella,,
 
 
diff --git a/Tables_csv/Amon_2D.csv b/Tables_csv/Amon_2D.csv
index 9c5bd87..e3b3c6a 100644
--- a/Tables_csv/Amon_2D.csv
+++ b/Tables_csv/Amon_2D.csv
@@ -1,20 +1,20 @@
-1.0,Near-Surface Air Temperature,K,"near-surface (usually, 2 meter) air temperature.",,tas,air_temperature,,K,time: mean,,,,,,real,longitude latitude time height2m,tas,atmos,,area: areacella,,
+1.0,Near-Surface Air Temperature,K,,"normally, the temperature should be reported at the 2 meter height",tas,air_temperature,,K,time: mean,,,,,,real,longitude latitude time height2m,tas,atmos,,area: areacella,,
 1.0,Surface Temperature,K,"""skin"" temperature (i.e., SST for open ocean)",,ts,surface_temperature,,K,time: mean,,,,,,real,longitude latitude time,ts,atmos,,area: areacella,,
-1.0,Daily Minimum Near-Surface Air Temperature,K,"monthly mean of the daily-minimum near-surface (usually, 2 meter) air temperature.",,tasmin,air_temperature,,K,time: minimum within days time: mean over days,,,,,,real,longitude latitude time height2m,tasmin,atmos,,area: areacella,,
-1.0,Daily Maximum Near-Surface Air Temperature,K,"monthly mean of the daily-maximum near-surface (usually, 2 meter) air temperature.",,tasmax,air_temperature,,K,time: maximum within days time: mean over days,,,,,,real,longitude latitude time height2m,tasmax,atmos,,area: areacella,,
+1.0,Daily Minimum Near-Surface Air Temperature,K,monthly mean of the daily-minimum near-surface air temperature.,"normally, this should be reported at the 2 meter height.",tasmin,air_temperature,,K,time: minimum within days time: mean over days,,,,,,real,longitude latitude time height2m,tasmin,atmos,,area: areacella,,
+1.0,Daily Maximum Near-Surface Air Temperature,K,monthly mean of the daily-maximum near-surface air temperature.,"normally, this should be reported at the 2 meter height.",tasmax,air_temperature,,K,time: maximum within days time: mean over days,,,,,,real,longitude latitude time height2m,tasmax,atmos,,area: areacella,,
 1.0,Sea Level Pressure,Pa,"not, in general, the same as surface pressure",,psl,air_pressure_at_sea_level,,Pa,time: mean,,,,,,real,longitude latitude time,psl,atmos,,area: areacella,,
 1.0,Surface Air Pressure,Pa,"not, in general, the same as mean sea-level pressure",,ps,surface_air_pressure,,Pa,time: mean,,,,,,real,longitude latitude time,ps,atmos,,area: areacella,,
-1.0,Eastward Near-Surface Wind,m s-1,"near-surface (usually, 10 meters) eastward component of wind.",,uas,eastward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,uas,atmos,,,,
-1.0,Northward Near-Surface Wind,m s-1,"near-surface (usually, 10 meters) northward component of wind.",,vas,northward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,vas,atmos,,,,
-1.0,Near-Surface Wind Speed,m s-1,"near-surface (usually, 10 meters) wind speed.  This is the mean of the speed, not the speed computed from the mean u and v components of wind",,sfcWind,wind_speed,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,sfcWind,atmos,,,,
-1.0,Near-Surface Relative Humidity,%,"near-surface (usually, 2meters) relative humidity expressed as a percentage.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",,hurs,relative_humidity,,%,time: mean,,,,,,real,longitude latitude time height2m,hurs,atmos,,area: areacella,,
-1.0,Near-Surface Specific Humidity,1.0,"near-surface (usually, 2 meters) specific humidity.",,huss,specific_humidity,,1.0,time: mean,,,,,,real,longitude latitude time height2m,huss,atmos,,area: areacella,,
+1.0,Eastward Near-Surface Wind,m s-1,,"normally, the the wind component should be reported at the 10 meter height",uas,eastward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,uas,atmos,,,,
+1.0,Northward Near-Surface Wind,m s-1,,"normally, the the wind component should be reported at the 10 meter height",vas,northward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,vas,atmos,,,,
+1.0,Near-Surface Wind Speed,m s-1,"This is the mean of the speed, not the speed computed from the mean u and v components of wind","normally, the the wind  should be reported at the 10 meter height",sfcWind,wind_speed,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,sfcWind,atmos,,,,
+1.0,Near-Surface Relative Humidity,%,"This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.","express as a percentage.  Normally, the relative humidity  should be reported at the 2 meter height",hurs,relative_humidity,,%,time: mean,,,,,,real,longitude latitude time height2m,hurs,atmos,,area: areacella,,
+1.0,Near-Surface Specific Humidity,1.0,,"Normally, the specific humidity should be reported at the 2 meter height",huss,specific_humidity,,1.0,time: mean,,,,,,real,longitude latitude time height2m,huss,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
 1.0,Precipitation,kg m-2 s-1,at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective),,pr,precipitation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,pr,atmos,,area: areacella,,
 1.0,Snowfall Flux,kg m-2 s-1,at surface; includes precipitation of all forms of water in the solid phase,,prsn,snowfall_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,prsn,atmos,,area: areacella,,
 1.0,Convective Precipitation,kg m-2 s-1,at surface; includes both liquid and solid phases.,,prc,convective_precipitation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,prc,atmos,,area: areacella,,
 1.0,Evaporation,kg m-2 s-1,at surface; flux of water into the atmosphere due to conversion of both liquid and solid phases to vapor (from underlying surface and vegetation),,evspsbl,water_evaporation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,evspsbl,atmos,,area: areacella,,
-1.0,Surface Snow and Ice Sublimation Flux,kg m-2 s-1,"The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. This differs from sbl appearing in table Limon in that the flux is averaged over the entire grid cell, not just the land portion.",,sbl,surface_snow_and_ice_sublimation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,sbl,atmos,,area: areacella,,
+1.0,Surface Snow and Ice Sublimation Flux,kg m-2 s-1,The snow and ice sublimation flux is the loss of snow and ice mass from the surface resulting from their conversion to water vapor that enters the atmosphere. ,"This differs from sbl appearing in table Limon in that the flux is averaged over the entire grid cell, not just the land portion.",sbl,surface_snow_and_ice_sublimation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,sbl,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
 1.0,Surface Downward Eastward Wind Stress,Pa,,,tauu,surface_downward_eastward_stress,,Pa,time: mean,,,,,down,real,longitude latitude time,tauu,atmos,,,,
 1.0,Surface Downward Northward Wind Stress,Pa,,,tauv,surface_downward_northward_stress,,Pa,time: mean,,,,,down,real,longitude latitude time,tauv,atmos,,,,
@@ -29,7 +29,7 @@
 1.0,Surface Upwelling Clear-Sky Shortwave Radiation,W m-2,,,rsuscs,surface_upwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsuscs,atmos,,area: areacella,,
 1.0,Surface Downwelling Clear-Sky Longwave Radiation,W m-2,,,rldscs,surface_downwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude time,rldscs,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
-1.0,TOA Incident Shortwave Radiation,W m-2,incident shortwave at the top of the atmosphere,,rsdt,toa_incoming_shortwave_flux,,W m-2,time: mean,,,,,down,real,longitude latitude time,rsdt,atmos,,area: areacella,,
+1.0,TOA Incident Shortwave Radiation,W m-2,at the top of the atmosphere,,rsdt,toa_incoming_shortwave_flux,,W m-2,time: mean,,,,,down,real,longitude latitude time,rsdt,atmos,,area: areacella,,
 1.0,TOA Outgoing Shortwave Radiation,W m-2,at the top of the atmosphere,,rsut,toa_outgoing_shortwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsut,atmos,,area: areacella,,
 1.0,TOA Outgoing Longwave Radiation,W m-2,at the top of the atmosphere (to be compared with satellite measurements),,rlut,toa_outgoing_longwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlut,atmos,,area: areacella,,
 1.0,TOA Outgoing Clear-Sky Longwave Radiation,W m-2,,,rlutcs,toa_outgoing_longwave_flux_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlutcs,atmos,,area: areacella,,
@@ -37,15 +37,15 @@
 ,,,,,,,,,,,,,,,real,,,atmos,,area: areacella,,
 1.0,Water Vapor Path,kg m-2,vertically integrated through the atmospheric column,,prw,atmosphere_water_vapor_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,prw,atmos,,area: areacella,,
 1.0,Total Cloud Fraction,%,"for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.",,clt,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,clt,atmos,,area: areacella,,
-1.0,Condensed Water Path,kg m-2,calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clwvi,atmosphere_cloud_condensed_water_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,clwvi,atmos,,area: areacella,,
-1.0,Ice Water Path,kg m-2,calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clivi,atmosphere_cloud_ice_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,clivi,atmos,,area: areacella,,
+1.0,Condensed Water Path,kg m-2,mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clwvi,atmosphere_cloud_condensed_water_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,clwvi,atmos,,area: areacella,,
+1.0,Ice Water Path,kg m-2,mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clivi,atmosphere_cloud_ice_content,,kg m-2,time: mean,,,,,,real,longitude latitude time,clivi,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,atmos,,area: areacella,,
-1.0,Net Downward Flux at Top of Model,W m-2,"i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. Report only if this differs from the net downward radiative flux at the top of the atmosphere.",,rtmt,net_downward_radiative_flux_at_top_of_atmosphere_model,,W m-2,time: mean,,,,,down,real,longitude latitude time,rtmt,atmos,,area: areacella,,
+1.0,Net Downward Flux at Top of Model,W m-2,"i.e., at the top of that portion of the atmosphere where dynamics are explicitly treated by the model. This is reported only if it differs from the net downward radiative flux at the top of the atmosphere.",,rtmt,net_downward_radiative_flux_at_top_of_atmosphere_model,,W m-2,time: mean,,,,,down,real,longitude latitude time,rtmt,atmos,,area: areacella,,
 1.0,Air Pressure at Convective Cloud Base,Pa,,,ccb,air_pressure_at_convective_cloud_base,,Pa,time: mean,,,,,,real,longitude latitude time,ccb,atmos,,area: areacella,,
 1.0,Air Pressure at Convective Cloud Top,Pa,,,cct,air_pressure_at_convective_cloud_top,,Pa,time: mean,,,,,,real,longitude latitude time,cct,atmos,,area: areacella,,
 1.0,Fraction of Time Convection Occurs,1.0,Fraction of time that convection occurs in the grid cell .,,ci ,convection_time_fraction,,1.0,time: mean,,,,,,real,longitude latitude time,ci ,atmos,,area: areacella,,
-1.0,Fraction of Time Shallow Convection Occurs,1.0,Fraction of time that shallow convection occurs in the grid cell. ( For models with a distinct shallow convection scheme only),,sci,shallow_convection_time_fraction,,1.0,time: mean,,,,,,real,longitude latitude time,sci,atmos,,area: areacella,,
+1.0,Fraction of Time Shallow Convection Occurs,1.0,Fraction of time that shallow convection occurs in the grid cell. ,For models with a distinct shallow convection scheme only.,sci,shallow_convection_time_fraction,,1.0,time: mean,,,,,,real,longitude latitude time,sci,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,area: areacella,,
-1.0,Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2,kg  m-2 s-1,"This is requested only for the emission-driven coupled carbon climate model runs.  Do not include natural fire sources, but include all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.",,fco2antt,tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due [...]
-1.0,Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2,kg m-2 s-1,"This is requested only for the emission-driven coupled carbon climate model runs.  Report the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)",,fco2fos,tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fossil_fuel_combustion,,kg m-2 s-1 [...]
-1.0,Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources,kg m-2 s-1,"Report from all simulations (both emission-driven and concentration-driven) performed by models with fully interactive and responsive carbon cycles.  This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i. [...]
+1.0,Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2,kg  m-2 s-1,"This is requested only for the emission-driven coupled carbon climate model runs.  Does not include natural fire sources but, includes all anthropogenic sources, including fossil fuel use, cement production, agricultural burning, and sources associated with anthropogenic land use change excluding forest regrowth.",,fco2antt,tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_ [...]
+1.0,Carbon Mass Flux into Atmosphere Due to Fossil Fuel Emissions of CO2,kg m-2 s-1,"This is the prescribed anthropogenic CO2 flux from fossil fuel use, including cement production, and flaring (but not from land-use changes, agricultural burning, forest regrowth, etc.)",This is requested only for the emission-driven coupled carbon climate model runs.  ,fco2fos,tendency_of_atmosphere_mass_content_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fossil_fuel_combustion,,kg m-2 s- [...]
+1.0,Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources,kg m-2 s-1," This is what the atmosphere sees (on its own grid).  This field should be equivalent to the combined natural fluxes of carbon (requested in the L_mon and O_mon tables) that account for natural exchanges between the atmosphere and land or ocean reservoirs (i.e., ""net ecosystem biospheric productivity"", for land, and ""air to sea CO2 flux"", for ocean.)",Report from all simulations (both emission-driven  [...]
diff --git a/Tables_csv/LImon.csv b/Tables_csv/LImon.csv
index 2fb3876..9bee518 100644
--- a/Tables_csv/LImon.csv
+++ b/Tables_csv/LImon.csv
@@ -12,22 +12,22 @@ CMOR Table LImon: Monthly Mean Land Cryosphere Fields,,,,,LImon,mon,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Snow Area Fraction,%,Fraction of each grid cell that is occupied by snow that rests on land portion of cell.,,snc,surface_snow_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,snc,landIce land,,area: areacella,,
-1.0,Surface Snow Amount,kg m-2,Compute as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 where the land fraction is 0; exclude snow on vegetation canopy or on sea ice.,,snw,surface_snow_amount,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,snw,landIce land,,area: areacella,,
-1.0,Snow Depth,m,"where land over land.  Compute the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction.  Report as 0.0 where the land fraction is 0.",,snd,surface_snow_thickness,,m,time: mean area: mean where land,,,,,,real,longitude latitude time,snd,landIce land,,area: areacella,,
-2.0,Liquid Water Content of Snow Layer,kg m-2,where land over land: compute the total mass of liquid water contained interstitially within the snow layer of the land portion of a grid cell divided by the area of the land portion of the cell.,,lwsnl,liquid_water_content_of_snow_layer,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,lwsnl,landIce land,,area: areacella,,
+1.0,Surface Snow Amount,kg m-2,Computed as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 where the land fraction is 0; excluded is snow on vegetation canopy or on sea ice.,,snw,surface_snow_amount,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,snw,landIce land,,area: areacella,,
+1.0,Snow Depth,m,"where land over land, this is computed as the mean thickness of snow in the land portion of the grid cell (averaging over the entire land portion, including the snow-free fraction).  Reported as 0.0 where the land fraction is 0.",,snd,surface_snow_thickness,,m,time: mean area: mean where land,,,,,,real,longitude latitude time,snd,landIce land,,area: areacella,,
+2.0,Liquid Water Content of Snow Layer,kg m-2,where land over land: this is computed as the total mass of liquid water contained interstitially within the snow layer of the land portion of a grid cell divided by the area of the land portion of the cell.,,lwsnl,liquid_water_content_of_snow_layer,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,lwsnl,landIce land,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,area: areacella,,
-2.0,Snow Soot Content,kg m-2,"Consider the entire land portion of the grid cell, with snow soot content set to 0.0 in regions free of snow.",,sootsn,soot_content_of_surface_snow,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,sootsn,landIce land,,area: areacella,,
-1.0,Snow Age,day,"When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing in regions free of snow on land.",,agesno,age_of_surface_snow,,day,time: mean (with samples weighted by snow mass) area: mean where land,,,,,,real,longitude latitude time,agesno,landIce land,,area: areacella,,
-1.0,Snow Internal Temperature,K,"This temperature is averaged over all the snow in the grid cell that rests on land or land ice.  When computing the time-mean here, the time samples, the weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.   Report as ""missing in regions free of snow on land.",,tsn,temperature_in_surface_snow,,K,time: mean (with samples weighted by snow mass) area: mean where land,,,,,,real,longit [...]
+2.0,Snow Soot Content,kg m-2,"the entire land portion of the grid cell is considered, with snow soot content set to 0.0 in regions free of snow.",,sootsn,soot_content_of_surface_snow,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,sootsn,landIce land,,area: areacella,,
+1.0,Snow Age,day,"When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing in regions free of snow on land.",,agesno,age_of_surface_snow,,day,time: mean (with samples weighted by snow mass) area: mean where land,,,,,,real,longitude latitude time,agesno,landIce land,,area: areacella,,
+1.0,Snow Internal Temperature,K,"This temperature is averaged over all the snow in the grid cell that rests on land or land ice.  When computing the time-mean here, the time samples, weighted by the mass of snow on the land portion of the grid cell, are accumulated and then divided by the sum of the weights.   Reported as ""missing in regions free of snow on land.",,tsn,temperature_in_surface_snow,,K,time: mean (with samples weighted by snow mass) area: mean where land,,,,,,real,longitud [...]
 ,,,,,,,,,,,,,,,,,,,,area: areacella,,
-1.0,Surface Snow Melt,kg m-2 s-1,Compute as the total surface melt water on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.,,snm,surface_snow_melt_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,snm,landIce land,,area: areacella,,
-1.0,Surface Snow and Ice Sublimation Flux,kg m-2 s-1,The snow and ice sublimation flux is the loss of snow and ice mass resulting from their conversion to water vapor.  Compute as the total sublimation on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.,,sbl,surface_snow_and_ice_sublimation_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,sb [...]
-1.0,Downward Heat Flux into Snow Where Land over Land,W m-2,Compute the net downward heat flux from the atmosphere into the snow that lies on land divided by the land area in the grid cell; report as 0.0 for snow-free land regions or where the land fraction is 0.,,hfdsn,surface_downward_heat_flux_in_snow,,W m-2,time: mean area: mean where land,,,,,down,real,longitude latitude time,hfdsn,landIce land,,area: areacella,,
-3.0,Permafrost Layer Thickness,m,where land over land. Compute the mean thickness of the permafrost layer in the land portion of the grid cell.  Report as 0.0 in permafrost-free regions.,,tpf,permafrost_layer_thickness,,m,time: mean area: mean where land,,,,,,real,longitude latitude time,tpf,landIce land,,area: areacella,,
+1.0,Surface Snow Melt,kg m-2 s-1,Computed as the total surface melt water on the land portion of the grid cell divided by the land area in the grid cell; report as 0.0 for snow-free land regions; report as 0.0 where the land fraction is 0.,,snm,surface_snow_melt_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,snm,landIce land,,area: areacella,,
+1.0,Surface Snow and Ice Sublimation Flux,kg m-2 s-1,The snow and ice sublimation flux is the loss of snow and ice mass resulting from their conversion to water vapor.  Computed as the total sublimation on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 for snow-free land regions; reported as 0.0 where the land fraction is 0.,,sbl,surface_snow_and_ice_sublimation_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude ti [...]
+1.0,Downward Heat Flux into Snow Where Land over Land,W m-2,the net downward heat flux from the atmosphere into the snow that lies on land divided by the land area in the grid cell; reported as 0.0 for snow-free land regions or where the land fraction is 0.,,hfdsn,surface_downward_heat_flux_in_snow,,W m-2,time: mean area: mean where land,,,,,down,real,longitude latitude time,hfdsn,landIce land,,area: areacella,,
+3.0,Permafrost Layer Thickness,m,where land over land: This is the mean thickness of the permafrost layer in the land portion of the grid cell.  Reported as 0.0 in permafrost-free regions.,,tpf,permafrost_layer_thickness,,m,time: mean area: mean where land,,,,,,real,longitude latitude time,tpf,landIce land,,area: areacella,,
 3.0,Liquid Water Content of Permafrost Layer,kg m-2,"""where land over land"", i.e., this is the total mass of liquid water contained within the permafrost layer within the land portion of a grid cell divided by the area of the land portion of the cell.",Why do you want to know mass of liquid water?  Are you studying the seaasonal melting/freezing cycle?  Don't you care about how much frozen water is tied up as permafrost?,pflw,liquid_water_content_of_permafrost_layer,,kg m-2,time: mean  [...]
 
 
diff --git a/Tables_csv/Lmon.csv b/Tables_csv/Lmon.csv
index ca09c34..9bbe265 100644
--- a/Tables_csv/Lmon.csv
+++ b/Tables_csv/Lmon.csv
@@ -12,36 +12,36 @@
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Moisture in Upper 0.1 m of Soil Column,kg m-2,Compute the mass of water in all phases in the upper 0.1 meters of soil.,,mrsos,moisture_content_of_soil_layer,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time sdepth1,mrsos,land,,area: areacella,,
-1.0,Total Soil Moisture Content,kg m-2,Compute the mass per unit area  (summed over all soil layers) of water in all phases.,,mrso,soil_moisture_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,mrso,land,,area: areacella,,
-1.0,Soil Frozen Water Content ,kg m-2,Compute the mass (summed over all all layers) of frozen water.,,mrfso,soil_frozen_water_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,mrfso,land landIce,,area: areacella,,
-1.0,Surface Runoff,kg m-2 s-1,Compute the total surface runoff leaving the land portion of the grid cell.,,mrros,surface_runoff_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,mrros,land,,area: areacella,,
-1.0,Total Runoff,kg m-2 s-1,"compute the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell.",,mrro,runoff_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,mrro,land,,area: areacella,,
-2.0,Precipitation onto Canopy,kg m-2 s-1,Report the precipitation flux that is intercepted by the vegetation canopy (if present in model) before reaching the ground.,,prveg,precipitation_flux_onto_canopy,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,prveg,land,,area: areacella,,
-1.0,Evaporation from Canopy,kg m-2 s-1,Report the canopy evaporation+sublimation (if present in model).,,evspsblveg,water_evaporation_flux_from_canopy,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,evspsblveg,land,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Moisture in Upper Portion of Soil Column,kg m-2,the mass of water in all phases in a thin surface soil layer.,integrate over uppermost 10 cm,mrsos,moisture_content_of_soil_layer,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time sdepth1,mrsos,land,,area: areacella,,
+1.0,Total Soil Moisture Content,kg m-2,the mass per unit area  (summed over all soil layers) of water in all phases.,,mrso,soil_moisture_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,mrso,land,,area: areacella,,
+1.0,Soil Frozen Water Content ,kg m-2,the mass (summed over all all layers) of frozen water.,,mrfso,soil_frozen_water_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,mrfso,land landIce,,area: areacella,,
+1.0,Surface Runoff,kg m-2 s-1,the total surface runoff leaving the land portion of the grid cell.,,mrros,surface_runoff_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,mrros,land,,area: areacella,,
+1.0,Total Runoff,kg m-2 s-1,"the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell.",,mrro,runoff_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,mrro,land,,area: areacella,,
+2.0,Precipitation onto Canopy,kg m-2 s-1,the precipitation flux that is intercepted by the vegetation canopy (if present in model) before reaching the ground.,,prveg,precipitation_flux_onto_canopy,,kg m-2 s-1,time: mean area: mean where land,,,,,,real,longitude latitude time,prveg,land,,area: areacella,,
+1.0,Evaporation from Canopy,kg m-2 s-1,the canopy evaporation+sublimation (if present in model).,,evspsblveg,water_evaporation_flux_from_canopy,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,evspsblveg,land,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,area: areacella,,
 1.0,Water Evaporation from Soil,kg m-2 s-1,includes sublimation.  ,,evspsblsoi,water_evaporation_flux_from_soil,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,evspsblsoi,land,,area: areacella,,
 1.0,Transpiration,kg m-2 s-1,,,tran,transpiration_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,tran,land,,area: areacella,,
-1.0, Water Content of Soil Layer,kg m-2,"in each soil layer, the mass of water in all phases, including ice.",,mrlsl,moisture_content_of_soil_layer,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude sdepth time,mrlsl,land,,area: areacella,,
-2.0,Temperature of Soil,K,"Temperature of each soil layer.  Report as ""missing"" for grid cells occupied entirely by ""sea"".",,tsl,soil_temperature,,K,time: mean,,,,,,real,longitude latitude sdepth time,tsl,land,,area: areacella,,
-1.0,Tree Cover Fraction,%,fraction of entire grid cell  that is covered by trees.  ,"add scalar coordinate typetree and add ""tree"" to the CF area type table.",treeFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,treeFrac,land,,area: areacella,,
-1.0,Natural Grass Fraction,%,fraction of entire grid cell that is covered by natural grass.  ,"add scalar coordinate typegrass and add ""natural_grass"" to the CF area type table.",grassFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,grassFrac,land,,area: areacella,,
-1.0,Shrub Fraction,%,fraction of entire grid cell  that is covered by shrub.,"add scalar coordinate typeshrub and add ""shrub"" to the CF area type table.",shrubFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,shrubFrac,land,,area: areacella,,
-1.0,Crop Fraction,%,fraction of entire grid cell  that is covered by crop. ,"add scalar coordinate typecrop and add ""crop"" to the CF area type table.",cropFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,cropFrac,land,,area: areacella,,
-1.0,Anthropogenic Pasture Fraction,%,fraction of entire grid cell  that is covered by anthropogenic pasture. ,"add scalar coordinate typepasture and add ""pasture"" to the CF area type table.",pastureFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,pastureFrac,land,,area: areacella,,
-1.0,Bare Soil Fraction,%,fraction of entire grid cell  that is covered by bare soil.,,baresoilFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typebare,baresoilFrac,land,,area: areacella,,
+1.0, Water Content of Soil Layer,kg m-2,"in each soil layer, the mass of water in all phases, including ice.  Reported as ""missing"" for grid cells occupied entirely by ""sea""","If soil layer thicknesses vary from one location to another, interpolate to a standard set of depths.  Ideally, the interpolation should preserve the vertical integral.",mrlsl,moisture_content_of_soil_layer,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude sdepth time,mrlsl,land,,area: areacella,,
+2.0,Temperature of Soil,K,"Temperature of each soil layer.  Reported as ""missing"" for grid cells occupied entirely by ""sea"".","If soil layer thicknesses vary from one location to another, interpolate to a standard set of depths.  Ideally, the interpolation should preserve the vertical integral.",tsl,soil_temperature,,K,time: mean,,,,,,real,longitude latitude sdepth time,tsl,land,,area: areacella,,
+1.0,Tree Cover Fraction,%,fraction of entire grid cell  that is covered by trees.  ,"add scalar coordinate typetree and add ""tree"" to the CF area type table.  Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing).    ",treeFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,treeFrac,land,,area: areacella,,
+1.0,Natural Grass Fraction,%,fraction of entire grid cell that is covered by natural grass.  ,"add scalar coordinate typegrass and add ""natural_grass"" to the CF area type table.  Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",grassFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,grassFrac,land,,area: areacella,,
+1.0,Shrub Fraction,%,fraction of entire grid cell  that is covered by shrub.,"add scalar coordinate typeshrub and add ""shrub"" to the CF area type table.  Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",shrubFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,shrubFrac,land,,area: areacella,,
+1.0,Crop Fraction,%,fraction of entire grid cell  that is covered by crop. ,"add scalar coordinate typecrop and add ""crop"" to the CF area type table.Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",cropFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,cropFrac,land,,area: areacella,,
+1.0,Anthropogenic Pasture Fraction,%,fraction of entire grid cell  that is covered by anthropogenic pasture. ,"add scalar coordinate typepasture and add ""pasture"" to the CF area type table. Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",pastureFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,pastureFrac,land,,area: areacella,,
+1.0,Bare Soil Fraction,%,fraction of entire grid cell  that is covered by bare soil.,"Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",baresoilFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typebare,baresoilFrac,land,,area: areacella,,
 1.0,Fraction of Grid Cell that is Land but Neither Vegetation-Covered nor Bare Soil,%,"fraction of entire grid cell  that is land and is covered by ""non-vegetation"" and ""non-bare-soil"" (e.g., urban, ice, lakes, etc.) ","add scalar coordinate type???and add ""???"" to the CF area type table.",residualFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,residualFrac,land,,area: areacella,,
-1.0,Burnt Area Fraction,%,fraction of entire grid cell  that is covered by burnt vegetation.,"add scalar coordinate typeburnt and add ""burnt_vegetation"" to the CF area type table.",burntArea,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,burntArea,land,,area: areacella,,
+1.0,Burnt Area Fraction,%,fraction of entire grid cell  that is covered by burnt vegetation.,"add scalar coordinate typeburnt and add ""burnt_vegetation"" to the CF area type table.  Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",burntArea,area_fraction,,%,time: mean,,,,,,real,longitude latitude time,burntArea,land,,area: areacella,,
 ,Land Carbon & Biogeochemistry,,,,,,,,,,,,,,,,,land,,area: areacella,,
 1.0,Carbon Mass in Vegetation,kg m-2,,,cVeg,vegetation_carbon_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,cVeg,land,,area: areacella,,
 1.0,Carbon Mass in Litter Pool,kg m-2,,,cLitter,litter_carbon_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,cLitter,land,,area: areacella,,
 1.0,Carbon Mass in Soil Pool,kg m-2,,,cSoil,soil_carbon_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,cSoil,land,,area: areacella,,
 1.0,Carbon Mass in Products of Land Use Change,kg m-2,,,cProduct,carbon_content_of_products_of_anthropogenic_land_use_change,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,cProduct,land,,area: areacella,,
-1.0,Leaf Area Index,1.0,"projected leaf area per unit of ground area (i.e., only the land portion of the grid cell), expressed as a proper fraction (not a percentage)",,lai,leaf_area_index,,1.0,time: mean area: mean where land,,,,,,real,longitude latitude time,lai,land,,area: areacella,,
+1.0,Leaf Area Index,1.0,a ratio obtained by dividing the total upper leaf surface area of vegetation by the (horizontal) surface area of the land on which it grows.,"Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",lai,leaf_area_index,,1.0,time: mean area: mean where land,,,,,,real,longitude latitude time,lai,land,,area: areacella,,
 1.0,Carbon Mass Flux out of Atmosphere due to Gross Primary Production on Land,kg m-2 s-1,,,gpp,gross_primary_productivity_of_carbon,,kg m-2 s-1,time: mean area: mean where land,,,,,down,real,longitude latitude time,gpp,land,,area: areacella,,
 1.0,Carbon Mass Flux into Atmosphere due to Autotrophic (Plant) Respiration on Land,kg m-2 s-1,,,ra,plant_respiration_carbon_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,ra,land,,area: areacella,,
-1.0,Carbon Mass Flux out of Atmosphere due to Net Primary Production on Land,kg m-2 s-1,needed for models that do not compute GPP (if any),"should this be ""into Atmosphere "" rather than ""out of Atmosphere""?",npp,net_primary_productivity_of_carbon,,kg m-2 s-1,time: mean area: mean where land,,,,,down,real,longitude latitude time,npp,land,,area: areacella,,
+1.0,Carbon Mass Flux out of Atmosphere due to Net Primary Production on Land,kg m-2 s-1,,needed for any model that does not compute GPP,npp,net_primary_productivity_of_carbon,,kg m-2 s-1,time: mean area: mean where land,,,,,down,real,longitude latitude time,npp,land,,area: areacella,,
 1.0,Carbon Mass Flux into Atmosphere due to Heterotrophic Respiration on Land,kg m-2 s-1,,,rh,heterotrophic_respiration_carbon_flux,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,rh,land,,area: areacella,,
 1.0,Carbon Mass Flux into Atmosphere due to CO2 Emission from Fire,kg m-2 s-1,"CO2 emissions (expressed as a carbon mass flux) from natural fires + human ignition fires as calculated by the fire module of the DGVM, but excluding any CO2 flux from fire included in fLuc, defined below (CO2 Flux to Atmosphere from Land Use Change).",,fFire,surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_fires_excluding_anthropogenic_land_use_change,,kg m-2 s-1,time: mean  [...]
 1.0,Carbon Mass Flux into Atmosphere due to Grazing on Land,kg m-2 s-1,,,fGrazing,surface_upward_mass_flux_of_carbon_dioxide_expressed_as_carbon_due_to_emission_from_grazing,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,fGrazing,land,,area: areacella,,
@@ -61,15 +61,15 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 2.0,Carbon Mass in Fast Soil Pool,kg m-2,"fast is meant as lifetime of less than 10 years for  reference climate conditions (20 C, no water limitations).",,cSoilFast,fast_soil_pool_carbon_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,cSoilFast,land,,area: areacella,,
 2.0,Carbon Mass in Medium Soil Pool,kg m-2,"medium is meant as lifetime of more than than 10 years and less than 100 years for  reference climate conditions (20 C, no water limitations)",,cSoilMedium,medium_soil_pool_carbon_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,cSoilMedium,land,,area: areacella,,
 2.0,Carbon Mass in Slow Soil Pool,kg m-2,"fast is meant as lifetime of more than 100 years for  reference climate conditions (20 C, no water limitations)",,cSoilSlow,slow_soil_pool_carbon_content,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,cSoilSlow,land,,area: areacella,,
-2.0,Plant Functional Type Grid Fraction,%,"using each individual ESM PFT definition.   This includes natural PFTs, anthropogenic PFTs, bare soil, lakes, urban areas, etc.   Sum of all should equal the fraction of the grid-cell that is land.  Note that the ""types"" will be model dependent and for each type there should be a full description of the PFT (plant functional type).   To facilitate model comparison, it is also requested that the aggregated land cover types called for in lines 2 [...]
-2.0,Total Primary Deciduous Tree Fraction,%,"Agregation of model PFTs as defined in 1st priority to aid model intercomparison.  This is the fraction of the entire grid cell  that is covered by ""total primary deciduous trees.""    ",,treeFracPrimDec,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typepdec,treeFracPrimDec,land,,area: areacella,,
-2.0,Total Primary Evergreen Tree Cover Fraction,%,fraction of entire grid cell  that is covered by primary evergreen trees. ,,treeFracPrimEver,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typepever,treeFracPrimEver,land,,area: areacella,,
-2.0,Total Secondary Deciduous Tree Cover Fraction,%,fraction of entire grid cell  that is covered by secondary deciduous trees.,,treeFracSecDec,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typesdec,treeFracSecDec,land,,area: areacella,,
-2.0,Total Secondary Evergreen Tree Cover Fraction,%,fraction of entire grid cell  that is covered by secondary evergreen trees.,,treeFracSecEver,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typesever ,treeFracSecEver,land,,area: areacella,,
-2.0,Total C3 PFT Cover Fraction,%,"fraction of entire grid cell  that is covered by C3 PFTs (including grass, crops, and trees).",,c3PftFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typec3pft,c3PftFrac,land,,area: areacella,,
-2.0,Total C4 PFT Cover Fraction,%,fraction of entire grid cell  that is covered by C4 PFTs (including grass and crops).,,c4PftFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typec4pft,c4PftFrac,land,,area: areacella,,
-2.0,Carbon Mass Flux into Atmosphere due to Growth Autotrophic Respiration on Land,kg m-2 s-1,"This flux and the one in the following row provide a breakdown of the higher priority ""Autotrophic (Plant) Respiration"" in an earlier row of this table; thus the sum should be identical to that.",,rGrowth,surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_growth,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,rGrowth,land,,area: areacella,,
-2.0,Carbon Mass Flux into Atmosphere due to Maintenance Autotrophic Respiration on Land,kg m-2 s-1,"This flux and the one in the previous row provide a breakdown of the higher priority ""Autotrophic (Plant) Respiration"" in an earlier row of this table; thus the sum should be identical to that.",,rMaint,surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_maintenance,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,rMaint,land,,area: areacella,,
+2.0,Plant Functional Type Grid Fraction,%,"The categories may differ from model to model, depending on their  PFT definitions.   This may include natural PFTs, anthropogenic PFTs, bare soil, lakes, urban areas, etc.   Sum of all should equal the fraction of the grid-cell that is land.     ","need to explain how to define vegtype.  To facilitate model comparison, it is also requested that the aggregated land cover types called for in lines 28 to 35 be archived (but not in this variable).  [...]
+2.0,Total Primary Deciduous Tree Fraction,%,"This is the fraction of the entire grid cell  that is covered by ""total primary deciduous trees.""","Agregation of model PFTs as defined in 1st priority to aid model intercomparison.  Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",treeFracPrimDec,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typepdec,treeFracPrimDec,land,,area: areacella,,
+2.0,Total Primary Evergreen Tree Cover Fraction,%,fraction of entire grid cell  that is covered by primary evergreen trees. ,"Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",treeFracPrimEver,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typepever,treeFracPrimEver,land,,area: areacella,,
+2.0,Total Secondary Deciduous Tree Cover Fraction,%,fraction of entire grid cell  that is covered by secondary deciduous trees.,"Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",treeFracSecDec,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typesdec,treeFracSecDec,land,,area: areacella,,
+2.0,Total Secondary Evergreen Tree Cover Fraction,%,fraction of entire grid cell  that is covered by secondary evergreen trees.,"Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",treeFracSecEver,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typesever ,treeFracSecEver,land,,area: areacella,,
+2.0,Total C3 PFT Cover Fraction,%,"fraction of entire grid cell  that is covered by C3 PFTs (including grass, crops, and trees).","Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",c3PftFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typec3pft,c3PftFrac,land,,area: areacella,,
+2.0,Total C4 PFT Cover Fraction,%,fraction of entire grid cell  that is covered by C4 PFTs (including grass and crops).,"Note that if this variable is independent of time, it should be stored only for a single time (of the user's choosing). ",c4PftFrac,area_fraction,,%,time: mean,,,,,,real,longitude latitude time typec4pft,c4PftFrac,land,,area: areacella,,
+2.0,Carbon Mass Flux into Atmosphere due to Growth Autotrophic Respiration on Land,kg m-2 s-1,,"This flux and the one in the following row provide a breakdown of the higher priority ""Autotrophic (Plant) Respiration"" in an earlier row of this table; thus the sum should be identical to that.",rGrowth,surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_growth,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,rGrowth,land,,area: areacella,,
+2.0,Carbon Mass Flux into Atmosphere due to Maintenance Autotrophic Respiration on Land,kg m-2 s-1,,"This flux and the one in the previous row provide a breakdown of the higher priority ""Autotrophic (Plant) Respiration"" in an earlier row of this table; thus the sum should be identical to that.",rMaint,surface_upward_carbon_mass_flux_due_to_plant_respiration_for_biomass_maintenance,,kg m-2 s-1,time: mean area: mean where land,,,,,up,real,longitude latitude time,rMaint,land,,area: areacella,,
 2.0,Carbon Mass Flux due to NPP Allocation to Leaf,kg m-2 s-1,This is the rate of carbon uptake by leaves due to NPP,,nppLeaf,net_primary_productivity_of_carbon_accumulated_in_leaves,,kg m-2 s-1,time: mean area: mean where land,,,,,down,real,longitude latitude time,nppLeaf,land,,area: areacella,,
 2.0,Carbon Mass Flux due to NPP Allocation to Wood,kg m-2 s-1,This is the rate of carbon uptake by wood due to NPP,,nppWood,net_primary_productivity_of_carbon_accumulated_in_wood,,kg m-2 s-1,time: mean area: mean where land,,,,,down,real,longitude latitude time,nppWood,land,,area: areacella,,
 2.0,Carbon Mass Flux due to NPP Allocation to Roots,kg m-2 s-1,This is the rate of carbon uptake by roots due to NPP,,nppRoot,net_primary_productivity_of_carbon_accumulated_in_roots,,kg m-2 s-1,time: mean area: mean where land,,,,,down,real,longitude latitude time,nppRoot,land,,area: areacella,,
diff --git a/Tables_csv/OImon.csv b/Tables_csv/OImon.csv
index 1a8cec8..fb91bac 100644
--- a/Tables_csv/OImon.csv
+++ b/Tables_csv/OImon.csv
@@ -12,50 +12,50 @@ CMOR Table OImon: Monthly Mean Ocean Cryosphere Fields,,,,,OImon,mon,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
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-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Sea Ice Area Fraction,%,fraction of grid cell covered by sea ice.,,sic,sea_ice_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,sic,seaIce ocean,,area: areacello,,
-1.0,Sea Ice Thickness,m,"Compute the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Report as 0.0 in regions free of sea ice.",,sit,sea_ice_thickness,,m,time: mean area: mean where sea,,,,,,real,longitude latitude time,sit,seaIce ocean,,area: areacello,,
-1.0,Sea Ice Plus Surface Snow Amount,kg m-2,"Compute the  mass per unit area of sea ice plus snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Report as 0.0 in regions free of sea ice.",,sim,sea_ice_and_surface_snow_amount,,kg m-2,time: mean area: mean where sea,,,,,,real,longitude latitude time,sim,seaIce ocean,,area: areacello,,
+1.0,Sea Ice Thickness,m,"the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Reported as 0.0 in regions free of sea ice.",,sit,sea_ice_thickness,,m,time: mean area: mean where sea,,,,,,real,longitude latitude time,sit,seaIce ocean,,area: areacello,,
+1.0,Sea Ice Plus Surface Snow Amount,kg m-2,"the  mass per unit area of sea ice plus snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Reported as 0.0 in regions free of sea ice.",,sim,sea_ice_and_surface_snow_amount,,kg m-2,time: mean area: mean where sea,,,,,,real,longitude latitude time,sim,seaIce ocean,,area: areacello,,
 ,,,,,,,,,,,,,,,,,,,,,,
-1.0,Water Evaporation Flux from Sea Ice,kg m-2 s-1,"Compute the average rate that water mass evaporates (or sublimates) from the sea ice surface (i.e., kg/s) divided by the area of the ocean (i.e., open ocean + sea ice) portion of the grid cell. This quantity multiplied both by the oean area of the grid cell and by the length of the month should yield the total mass of water evaporated (or sublimated) from the sea ice.  Report as 0.0 in regions free of sea ice.  [This was computed differ [...]
-1.0,Snow Depth,m,"Compute the mean thickness of snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the snow-free ocean fraction).  Report as 0.0 in regions free of snow-covered sea ice.",, snd,surface_snow_thickness,,m,time: mean area: mean where sea,,,,,,real,longitude latitude time, snd,seaIce,,area: areacello,,
+1.0,Water Evaporation Flux from Sea Ice,kg m-2 s-1,"the average rate that water mass evaporates (or sublimates) from the sea ice surface (i.e., kg/s) divided by the area of the ocean (i.e., open ocean + sea ice) portion of the grid cell. This quantity, multiplied both by the oean area of the grid cell and by the length of the month, should yield the total mass of water evaporated (or sublimated) from the sea ice.  Reported as 0.0 in regions free of sea ice.  [This was computed differentl [...]
+1.0,Snow Depth,m,"the mean thickness of snow in the ocean portion of the grid cell (averaging over the entire ocean portion, including the snow-free ocean fraction).  Reported as 0.0 in regions free of snow-covered sea ice.",, snd,surface_snow_thickness,,m,time: mean area: mean where sea,,,,,,real,longitude latitude time, snd,seaIce,,area: areacello,,
 2.0,Surface Snow Area Fraction,%,Fraction of entire grid cell covered by snow that lies on sea ice; exclude snow that lies on land or land ice.,, snc,surface_snow_area_fraction,,%,time: mean,,,,,,real,longitude latitude time, snc,seaIce,,area: areacello,,
-1.0,Sea Ice Albedo,1.0,"Report as ""missing"" if there is no sunlight or if a region is free of sea ice. ","This variable may be omitted unless the answers to the following questions are obvious:  Will this vary from year to year or is it a property of ""bare sea ice"" and sun angle? How is the time-mean calculated?", ialb,sea_ice_albedo,,1.0,time: mean area: mean where sea_ice,,,,,,real,longitude latitude time, ialb,seaIce,,area: areacello,,
+1.0,Sea Ice Albedo,1.0,"Reported as ""missing"" if there is no sunlight or if a region is free of sea ice. ","This variable may be omitted unless the answers to the following questions are obvious:  Will this vary from year to year or is it a property of ""bare sea ice"" and sun angle? How is the time-mean calculated?", ialb,sea_ice_albedo,,1.0,time: mean area: mean where sea_ice,,,,,,real,longitude latitude time, ialb,seaIce,,area: areacello,,
 ,,,,,,,,,,,,,,,,,,,,area: areacello,,
 ,,,,,,,,,,,,,,,,,,,,,,
-3.0,Sea Ice Salinity,psu,"When computing the time-mean here, the time-samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing"" in regions free of sea ice. ",,ssi,sea_ice_salinity,,psu,time: mean (weighted by mass of sea ice),,,,,,real,longitude latitude time,ssi,seaIce,,area: areacello,,
-1.0,Surface Temperature of Sea Ice,K,"When computing the time-mean here, the time-samples, weighted by the area of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing"" in regions free of sea ice.  Note this will be the surface snow temperature in regions where snow covers the sea ice.",, tsice,surface_temperature,,K,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time, tsice,seaIce,,area: areacello,,
-1.0,Temperature at Interface Between Sea Ice and Snow,K,"When computing the time-mean here, the time-samples, weighted by the area of snow-covered sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing"" in regions free of snow-covered sea ice. ",, tsnint,sea_ice_surface_temperature,,K,time: mean (weighted by area of snow-covered sea ice),,,,,,real,longitude latitude time, tsnint,seaIce,,area: areacello,,
-1.0,Surface Rainfall Rate into the Sea Ice Portion of the Grid Cell,kg m-2 s-1,where sea ice over sea: compute the the water mass per unit time falling as rain onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions).  Report as 0. in regions free of sea ice.,, pr,rainfall_flux,,kg m-2 s-1,time: mean area: mean where sea_ice over sea,,,,,,real,longitude latitude time, pr,seaIce,,area: areacello,,
-1.0,Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell,kg m-2 s-1,where sea ice over sea: compute the the water mass per unit time falling as snow onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions).  Report as 0. in regions free of sea ice.,, prsn,snowfall_flux,,kg m-2 s-1,time: mean area: mean where sea_ice over sea,,,,,,real,longitude latitude time, prsn,seaIce,,area: are [...]
-3.0,Age of Sea Ice,years,"When computing the time-mean here, the time samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Report as ""missing"" in regions free of sea ice. ",, ageice,age_of_sea_ice,,years,time: mean (weighted b mass of sea ice),,,,,,real,longitude latitude time, ageice,seaIce,,area: areacello,,
-1.0,Frazil Sea Ice Growth (Leads) Rate,kg m-2 s-1,Compute the rate of change of sea ice mass due to frazil sea ice formation divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice.,, grFrazil,tendency_of_sea_ice_amount_due_to_frazil_ice_accumulation_in_leads,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, grFrazil,seaIce,,area: areacello,,
-1.0,Congelation Sea Ice Growth Rate,kg m-2 s-1,Compute the rate of change of sea ice mass due to congelation sea ice divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice.,, grCongel,tendency_of_sea_ice_amount_due_to_congelation_ice_accumulation,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, grCongel,seaIce,,area: areacello,,
-1.0,Lateral Sea Ice Growth Rate,kg m-2 s-1,Compute the rate of change of sea ice mass due to lateral growth alone of the sea ice divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice.,, grLateral,tendency_of_sea_ice_amount_due_to_lateral_growth_of_ice_floes,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, grLateral,seaIce,,area: areacello,,
-1.0,Snow-Ice Formation Rate,kg m-2 s-1,"Compute the rate of change of sea ice mass due to transformation of snow to sea ice, divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of snow-covered sea ice.",, snoToIce,tendency_of_sea_ice_amount_due_to_snow_conversion,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, snoToIce,seaIce,,area: areacello,,
-1.0,Snow Melt Rate,kg m-2 s-1,"Compute the rate of change of snow mass  due to melting, divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice.  Include falling snow that melts on impact with the surface. ",, snomelt,surface_snow_melt_flux,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, snomelt,seaIce,,area: areacello,,
-1.0,Rate of Melt at Upper Surface of Sea Ice,kg m-2 s-1,"Compute the rate of change of sea ice mass due to melting at its upper surface, divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice. Do not include rate of change of snow mass.",, tmelt,tendency_of_sea_ice_amount_due_to_surface_melting,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, tmelt,seaIce,,area: areacello,,
-1.0,Rate of Melt at Sea Ice Base,kg m-2 s-1,"Compute the rate of change of sea ice mass due to melting at its lower surface, divided by the area of the ocean portion of the grid cell.  Report as 0.0 in regions free of sea ice. ",, bmelt,tendency_of_sea_ice_amount_due_to_basal_melting,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, bmelt,seaIce,,area: areacello,,
-2.0,Sea Ice Heat Content,J m-2,"Ice at 0 Celsius is assumed taken to have a heat content of 0 J.  When averaging over time, this quantity is weighted by the mass of sea ice.   Report as ""missing in regions free of sea ice.  Do not include heat content of snow.",, hcice,integral_of_sea_ice_temperature_wrt_depth_expressed_as_heat_content,,J m-2,time: mean (weighted by mass of sea ice),,,,,,real,longitude latitude time, hcice,seaIce,,area: areacello,,
-1.0,Downwelling Shortwave over Sea Ice,W m-2,Compute the downwelling shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,priority was raised from 2 to 1 because snow albedo was deleted., rsdssi,surface_downwelling_shortwave_flux_in_air,,W m-2,time: mean area: mean where sea_ice over sea,,,,,down,real,longitude latitude time, rsdssi,seaIce,,area: areacello,,
-1.0,Upward Shortwave over Sea Ice,W m-2,Compute the upward shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,priority was raised from 2 to 1 because snow albedo was deleted., rsussi,surface_upwelling_shortwave_flux_in_air,,W m-2,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, rsussi,seaIce,,area: areacello,,
-2.0,Downwelling Long Wave over Sea Ice,W m-2,Compute the downwelling longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,, rldssi,surface_downwelling_longwave_flux_in_air,,W m-2,time: mean area: mean where sea_ice over sea,,,,,down,real,longitude latitude time, rldssi,seaIce,,area: areacello,,
-2.0,Upward Long Wave over Sea Ice,W m-2,Compute the upward longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,, rlussi,surface_upwelling_longwave_flux_in_air,,W m-2,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, rlussi,seaIce,,area: areacello,,
-2.0,Surface Upward Sensible Heat Flux over Sea Ice,W m-2,Compute the upward sensible heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,, hfssi,surface_upward_sensible_heat_flux,,W m-2,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, hfssi,seaIce,,area: areacello,,
-2.0,Surface Upward Latent Heat Flux over Sea Ice,W m-2,Compute the upward latent heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,, hflssi,surface_upward_latent_heat_flux,,W m-2,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, hflssi,seaIce,,area: areacello,,
-2.0,Sublimation over Sea Ice,kg m-2 s-1,Compute the upward flux of water vapor to the atmosphere due to sublimation of snow and sea  ice in regions of sea ice divided by the area of the ocean portion of the grid cell.,, sblsi,surface_snow_and_ice_sublimation_flux,,kg m-2 s-1,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, sblsi,seaIce,,area: areacello,,
-1.0,X-Component of Sea Ice Mass Transport,kg s-1,The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Include snow in calculation of mass.,,transix,sea_ice_x_transport,,kg s-1,time: mean,,,,,,real,longitude latitude time,transix,seaIce,,,,
-1.0,Y-Component of Sea Ice Mass Transport,kg s-1,The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Include snow in calculation of mass.,,transiy,sea_ice_y_transport,,kg s-1,time: mean,,,,,,real,longitude latitude time,transiy,seaIce,,,,
+3.0,Sea Ice Salinity,psu,"When computing the time-mean here, the time-samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing"" in regions free of sea ice. ",,ssi,sea_ice_salinity,,psu,time: mean (weighted by mass of sea ice),,,,,,real,longitude latitude time,ssi,seaIce,,area: areacello,,
+1.0,Surface Temperature of Sea Ice,K,"When computing the time-mean here, the time-samples, weighted by the area of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing"" in regions free of sea ice.  Note this will be the surface snow temperature in regions where snow covers the sea ice.",, tsice,surface_temperature,,K,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time, tsice,seaIce,,area: areacello,,
+1.0,Temperature at Interface Between Sea Ice and Snow,K,"When computing the time-mean here, the time-samples, weighted by the area of snow-covered sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing"" in regions free of snow-covered sea ice. ",, tsnint,sea_ice_surface_temperature,,K,time: mean (weighted by area of snow-covered sea ice),,,,,,real,longitude latitude time, tsnint,seaIce,,area: areacello,,
+1.0,Surface Rainfall Rate into the Sea Ice Portion of the Grid Cell,kg m-2 s-1,where sea ice over sea: this is the the water mass per unit time falling as rain onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions).  Reported as 0. in regions free of sea ice.,, pr,rainfall_flux,,kg m-2 s-1,time: mean area: mean where sea_ice over sea,,,,,,real,longitude latitude time, pr,seaIce,,area: areacello,,
+1.0,Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell,kg m-2 s-1,where sea ice over sea: this is computed as the the water mass per unit time falling as snow onto the sea ice portion of a grid cell divided by the area of the ocean portion of the grid cell (including both ice-free and sea-ice covered fractions).  Reported as 0. in regions free of sea ice.,, prsn,snowfall_flux,,kg m-2 s-1,time: mean area: mean where sea_ice over sea,,,,,,real,longitude latitude time, prsn,sea [...]
+3.0,Age of Sea Ice,years,"When computing the time-mean here, the time samples, weighted by the mass of sea ice in the grid cell, are accumulated and then divided by the sum of the weights.  Reported as ""missing"" in regions free of sea ice. ",, ageice,age_of_sea_ice,,years,time: mean (weighted b mass of sea ice),,,,,,real,longitude latitude time, ageice,seaIce,,area: areacello,,
+1.0,Frazil Sea Ice Growth (Leads) Rate,kg m-2 s-1,the rate of change of sea ice mass due to frazil sea ice formation divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.,, grFrazil,tendency_of_sea_ice_amount_due_to_frazil_ice_accumulation_in_leads,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, grFrazil,seaIce,,area: areacello,,
+1.0,Congelation Sea Ice Growth Rate,kg m-2 s-1,the rate of change of sea ice mass due to congelation sea ice divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.,, grCongel,tendency_of_sea_ice_amount_due_to_congelation_ice_accumulation,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, grCongel,seaIce,,area: areacello,,
+1.0,Lateral Sea Ice Growth Rate,kg m-2 s-1,the rate of change of sea ice mass due to lateral growth alone of the sea ice divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.,, grLateral,tendency_of_sea_ice_amount_due_to_lateral_growth_of_ice_floes,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, grLateral,seaIce,,area: areacello,,
+1.0,Snow-Ice Formation Rate,kg m-2 s-1,"the rate of change of sea ice mass due to transformation of snow to sea ice, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of snow-covered sea ice.",, snoToIce,tendency_of_sea_ice_amount_due_to_snow_conversion,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, snoToIce,seaIce,,area: areacello,,
+1.0,Snow Melt Rate,kg m-2 s-1,"the rate of change of snow mass  due to melting, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice.  Includes falling snow that melts on impact with the surface. ",, snomelt,surface_snow_melt_flux,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, snomelt,seaIce,,area: areacello,,
+1.0,Rate of Melt at Upper Surface of Sea Ice,kg m-2 s-1,"the rate of change of sea ice mass due to melting at its upper surface, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice. Does not include rate of change of snow mass.",, tmelt,tendency_of_sea_ice_amount_due_to_surface_melting,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, tmelt,seaIce,,area: areacello,,
+1.0,Rate of Melt at Sea Ice Base,kg m-2 s-1,"the rate of change of sea ice mass due to melting at its lower surface, divided by the area of the ocean portion of the grid cell.  Reported as 0.0 in regions free of sea ice. ",, bmelt,tendency_of_sea_ice_amount_due_to_basal_melting,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time, bmelt,seaIce,,area: areacello,,
+2.0,Sea Ice Heat Content,J m-2,"Ice at 0 Celsius is assumed taken to have a heat content of 0 J.  When averaging over time, this quantity is weighted by the mass of sea ice.   Reported as ""missing in regions free of sea ice.  Does not include heat content of snow.",, hcice,integral_of_sea_ice_temperature_wrt_depth_expressed_as_heat_content,,J m-2,time: mean (weighted by mass of sea ice),,,,,,real,longitude latitude time, hcice,seaIce,,area: areacello,,
+1.0,Downwelling Shortwave over Sea Ice,W m-2,the downwelling shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,priority was raised from 2 to 1 because snow albedo was deleted., rsdssi,surface_downwelling_shortwave_flux_in_air,,W m-2,time: mean area: mean where sea_ice over sea,,,,,down,real,longitude latitude time, rsdssi,seaIce,,area: areacello,,
+1.0,Upward Shortwave over Sea Ice,W m-2,the upward shortwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,priority was raised from 2 to 1 because snow albedo was deleted., rsussi,surface_upwelling_shortwave_flux_in_air,,W m-2,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, rsussi,seaIce,,area: areacello,,
+2.0,Downwelling Long Wave over Sea Ice,W m-2,the downwelling longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,, rldssi,surface_downwelling_longwave_flux_in_air,,W m-2,time: mean area: mean where sea_ice over sea,,,,,down,real,longitude latitude time, rldssi,seaIce,,area: areacello,,
+2.0,Upward Long Wave over Sea Ice,W m-2,the upward longwave flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,, rlussi,surface_upwelling_longwave_flux_in_air,,W m-2,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, rlussi,seaIce,,area: areacello,,
+2.0,Surface Upward Sensible Heat Flux over Sea Ice,W m-2,the upward sensible heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,, hfssi,surface_upward_sensible_heat_flux,,W m-2,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, hfssi,seaIce,,area: areacello,,
+2.0,Surface Upward Latent Heat Flux over Sea Ice,W m-2,the upward latent heat flux in regions of sea ice divided by the area of the ocean portion of the grid cell.,, hflssi,surface_upward_latent_heat_flux,,W m-2,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, hflssi,seaIce,,area: areacello,,
+2.0,Sublimation over Sea Ice,kg m-2 s-1,the upward flux of water vapor to the atmosphere due to sublimation of snow and sea  ice in regions of sea ice divided by the area of the ocean portion of the grid cell.,, sblsi,surface_snow_and_ice_sublimation_flux,,kg m-2 s-1,time: mean area: mean where sea_ice over sea,,,,,up,real,longitude latitude time, sblsi,seaIce,,area: areacello,,
+1.0,X-Component of Sea Ice Mass Transport,kg s-1,The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Snow is included in calculation of mass.,,transix,sea_ice_x_transport,,kg s-1,time: mean,,,,,,real,longitude latitude time,transix,seaIce,,,,
+1.0,Y-Component of Sea Ice Mass Transport,kg s-1,The sea ice mass transport is 0.0 in ice-free regions of the ocean.  Snow is included in calculation of mass.,,transiy,sea_ice_y_transport,,kg s-1,time: mean,,,,,,real,longitude latitude time,transiy,seaIce,,,,
 2.0,Sea Ice Mass Transport Through Fram Strait,kg s-1,,,transifs,sea_ice_transport_across_line,,kg s-1,time: mean,,,,,,real,time,transifs,seaIce,,,,
-2.0,X-Component of Atmospheric Stress On Sea Ice,N m-2,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,strairx,surface_downward_x_stress,,N m-2,time: mean (weighted by area of sea ice),,,,,down,real,longitude latitude time,strairx,seaIce,,,,
-2.0,Y-Component of Atmospheric Stress On Sea Ice,N m-2,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,strairy,surface_downward_y_stress,,N m-2,time: mean (weighted by area of sea ice),,,,,down,real,longitude latitude time,strairy,seaIce,,,,
+2.0,X-Component of Atmospheric Stress On Sea Ice,N m-2,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. ",,strairx,surface_downward_x_stress,,N m-2,time: mean (weighted by area of sea ice),,,,,down,real,longitude latitude time,strairx,seaIce,,,,
+2.0,Y-Component of Atmospheric Stress On Sea Ice,N m-2,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. ",,strairy,surface_downward_y_stress,,N m-2,time: mean (weighted by area of sea ice),,,,,down,real,longitude latitude time,strairy,seaIce,,,,
 2.0,X-Component of Ocean Stress On Sea Ice,N m-2,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,strocnx,upward_x_stress_at_sea_ice_base,,N m-2,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,strocnx,seaIce ocean,,,,
-2.0,Y-Component of Ocean Stress On Sea Ice,N m-2,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,strocny,upward_y_stress_at_sea_ice_base,,N m-2,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,strocny,seaIce ocean,,,,
-2.0,Compressive Sea Ice Strength,N m-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,streng,compressive_strength_of_sea_ice,,N m-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,streng,seaIce,,area: areacello,,
-2.0,Strain Rate Divergence of Sea Ice,s-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,divice,divergence_of_sea_ice velocity,,s-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,divice,seaIce,,area: areacello,,
+2.0,Y-Component of Ocean Stress On Sea Ice,N m-2,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. ",,strocny,upward_y_stress_at_sea_ice_base,,N m-2,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,strocny,seaIce ocean,,,,
+2.0,Compressive Sea Ice Strength,N m-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. ",,streng,compressive_strength_of_sea_ice,,N m-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,streng,seaIce,,area: areacello,,
+2.0,Strain Rate Divergence of Sea Ice,s-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. ",,divice,divergence_of_sea_ice velocity,,s-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,divice,seaIce,,area: areacello,,
 ,,,,,,,,,,,,,,,,,,,,,,
-2.0,Eastward Derivative of Northward Sea Ice Velocity,s-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,eshrice,eastward_derivative_of_northward_sea_ice_velocity,,s-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,eshrice,seaIce,,area: areacello,,
-2.0,Northward Derivative of Eastward Sea Ice Velocity,s-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,nshrice,northward_derivative_of_eastward_sea_ice_velocity,,s-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,nshrice,seaIce,,area: areacello,,
-2.0,Sea Ice Ridging Rate,s-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Report as ""missing"" in regions free of sea ice. ",,ridgice,tendency_of_sea_ice_area_fraction_due_to_ridging,,s-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,ridgice,seaIce,,area: areacello,,
+2.0,Eastward Derivative of Northward Sea Ice Velocity,s-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. ",,eshrice,eastward_derivative_of_northward_sea_ice_velocity,,s-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,eshrice,seaIce,,area: areacello,,
+2.0,Northward Derivative of Eastward Sea Ice Velocity,s-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. ",,nshrice,northward_derivative_of_eastward_sea_ice_velocity,,s-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,nshrice,seaIce,,area: areacello,,
+2.0,Sea Ice Ridging Rate,s-1,"When computing the time-mean here, the time samples, weighted by the area of sea ice, are accumulated and then divided by the sum of the weights.   Reported as ""missing"" in regions free of sea ice. ",,ridgice,tendency_of_sea_ice_area_fraction_due_to_ridging,,s-1,time: mean (weighted by area of sea ice),,,,,,real,longitude latitude time,ridgice,seaIce,,area: areacello,,
 
 
diff --git a/Tables_csv/Oclim.csv b/Tables_csv/Oclim.csv
index c47e4ca..21d183c 100644
--- a/Tables_csv/Oclim.csv
+++ b/Tables_csv/Oclim.csv
@@ -1,6 +1,6 @@
 CMOR Table Oclim: Monthly Mean Ocean Climatology (Jan. 1986-Dec. 2005 of historical run),,,,,Oclim,monClim,,,,,,,,,,,,,,,,
 (All Saved on the Ocean Grid),,,,,,,,,,,,,,,,,,,,,,
-"Further explanation of the fields in the following tables can be found in Griffies et al., available at  http://www.clivar.org/organization/wgomd/references/WGOMD_CMIP5_ocean_fields.pdf .  Some of the information in that document will be transcribed into the ""comment"" column  of this spreadsheet.",,,,,,,,,,,,,,,,,,,\,,,
+"Further explanation of the fields in the following tables (except the last field, zlayer) can be found in Griffies et al., available at  http://www.clivar.org/organization/wgomd/references/WGOMD_CMIP5_ocean_fields.pdf .  Some of the information in that document will be transcribed into the ""comment"" column  of this spreadsheet.",,,,,,,,,,,,,,,,,,,\,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
@@ -12,7 +12,7 @@ In CMOR Table Oclim: WGOMD Table 2.9,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 3.0,Ocean Vertical Heat Diffusivity,m2 s-1,,,difvho,ocean_vertical_heat_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difvho,ocean,,area: areacello volume: volcello,,
 3.0,Ocean Vertical Salt Diffusivity ,m2 s-1,,,difvso,ocean_vertical_salt_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difvso,ocean,,area: areacello volume: volcello,,
 3.0,Ocean Vertical Tracer Diffusivity due to Background ,m2 s-1,,,difvtrbo,ocean_vertical_tracer_diffusivity_due_to_background,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difvtrbo,ocean,,area: areacello volume: volcello,,
@@ -26,27 +26,34 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 3.0,Ocean Vertical Momentum Diffusivity due to Form Drag,m2 s-1,,,difvmfdo,ocean_vertical_momentum_diffusivity_due_to_form_drag,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difvmfdo,ocean,,area: areacello volume: volcello,,
 3.0,Ocean Kinetic Energy Dissipation Per Unit Area due to Vertical Friction,W m-2,,,dispkevfo,ocean_kinetic_energy_dissipation_per_unit_area_due_to_vertical_friction,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,dispkevfo,ocean,,area: areacello volume: volcello,,
 In CMOR Table Oclim: WGOMD Table 2.10,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-3.0,Ocean Tracer Bolus Laplacian Diffusivity ,m2 s-1,3-d time dependent field,,diftrblo,ocean_tracer_bolus_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrblo,ocean,,area: areacello volume: volcello,,
-3.0,Ocean Tracer Bolus Biharmonic Diffusivity ,m4 s-1,3-d time dependent field,,diftrbbo,ocean_tracer_bolus_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrbbo,ocean,,area: areacello volume: volcello,,
-3.0,Ocean Tracer Epineutral Laplacian Diffusivity ,m2 s-1,3-d time dependent field,,diftrelo,ocean_tracer_epineutral_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrelo,ocean,,area: areacello volume: volcello,,
-3.0,Ocean Tracer Epineutral Biharmonic Diffusivity ,m4 s-1,3-d time dependent field,,diftrebo,ocean_tracer_epineutral_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrebo,ocean,,area: areacello volume: volcello,,
-3.0,Ocean Tracer XY Laplacian Diffusivity ,m2 s-1,3-d time dependent field,,diftrxylo,ocean_tracer_xy_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrxylo,ocean,,area: areacello volume: volcello,,
-3.0,Ocean Tracer XY Biharmonic Diffusivity ,m4 s-1,3-d time dependent field,,diftrxybo,ocean_tracer_xy_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrxybo,ocean,,area: areacello volume: volcello,,
-3.0,Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport ,W m-2,3-d time dependent field,,tnkebto,tendency_of_ocean_eddy_kinetic_energy_content_due_to_bolus_transport,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,tnkebto,ocean,,area: areacello volume: volcello,,
-3.0,Ocean Momentum XY Laplacian Diffusivity,m2 s-1,3-d time dependent field,,difmxylo,ocean_momentum_xy_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difmxylo,ocean,,area: areacello volume: volcello,,
-3.0,Ocean Momentum XY Biharmonic Diffusivity,m4 s-1,3-d time dependent field,,difmxybo,ocean_momentum_xy_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difmxybo,ocean,,area: areacello volume: volcello,,
-3.0,Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction,W m-2,3-d time dependent field,,dispkexyfo,ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,dispkexyfo,ocean,,area: areacello volume: volcello,,
-,,,,,,,,,,,,,,,,,,,,,,
-3.0,Ocean Tracer Bolus Laplacian Diffusivity ,m2 s-1,2-d time dependent field,,diftrblo,ocean_tracer_bolus_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrblo2d,ocean,,area: areacello ,,
-3.0,Ocean Tracer Bolus Biharmonic Diffusivity ,m4 s-1,2-d time dependent field,,diftrbbo,ocean_tracer_bolus_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrbbo2d,ocean,,area: areacello ,,
-3.0,Ocean Tracer Epineutral Laplacian Diffusivity ,m2 s-1,2-d time dependent field,,diftrelo,ocean_tracer_epineutral_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrelo2d,ocean,,area: areacello ,,
-3.0,Ocean Tracer Epineutral Biharmonic Diffusivity ,m4 s-1,2-d time dependent field,,diftrebo,ocean_tracer_epineutral_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrebo2d,ocean,,area: areacello ,,
-3.0,Ocean Tracer XY Laplacian Diffusivity ,m2 s-1,2-d time dependent field,,diftrxylo,ocean_tracer_xy_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrxylo2d,ocean,,area: areacello ,,
-3.0,Ocean Tracer XY Biharmonic Diffusivity ,m4 s-1,2-d time dependent field,,diftrxybo,ocean_tracer_xy_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrxybo2d,ocean,,area: areacello ,,
-3.0,Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport ,W m-2,2-d time dependent field,,tnkebto,tendency_of_ocean_eddy_kinetic_energy_content_due_to_bolus_transport,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,tnkebto2d,ocean,,area: areacello ,,
-3.0,Ocean Momentum XY Laplacian Diffusivity,m2 s-1,2-d time dependent field,,difmxylo,ocean_momentum_xy_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difmxylo2d,ocean,,area: areacello ,,
-3.0,Ocean Momentum XY Biharmonic Diffusivity,m4 s-1,2-d time dependent field,,difmxybo,ocean_momentum_xy_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difmxybo2d,ocean,,area: areacello ,,
-3.0,Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction,W m-2,2-d time dependent field,,dispkexyfo,ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,dispkexyfo2d,ocean,,area: areacello ,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+3.0,Ocean Tracer Bolus Laplacian Diffusivity ,m2 s-1,,3-d time dependent field,diftrblo,ocean_tracer_bolus_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrblo,ocean,,area: areacello volume: volcello,,
+3.0,Ocean Tracer Bolus Biharmonic Diffusivity ,m4 s-1,,3-d time dependent field,diftrbbo,ocean_tracer_bolus_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrbbo,ocean,,area: areacello volume: volcello,,
+3.0,Ocean Tracer Epineutral Laplacian Diffusivity ,m2 s-1,,3-d time dependent field,diftrelo,ocean_tracer_epineutral_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrelo,ocean,,area: areacello volume: volcello,,
+3.0,Ocean Tracer Epineutral Biharmonic Diffusivity ,m4 s-1,,3-d time dependent field,diftrebo,ocean_tracer_epineutral_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrebo,ocean,,area: areacello volume: volcello,,
+3.0,Ocean Tracer XY Laplacian Diffusivity ,m2 s-1,,3-d time dependent field,diftrxylo,ocean_tracer_xy_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrxylo,ocean,,area: areacello volume: volcello,,
+3.0,Ocean Tracer XY Biharmonic Diffusivity ,m4 s-1,,3-d time dependent field,diftrxybo,ocean_tracer_xy_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrxybo,ocean,,area: areacello volume: volcello,,
+3.0,Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport ,W m-2,,3-d time dependent field,tnkebto,tendency_of_ocean_eddy_kinetic_energy_content_due_to_bolus_transport,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,tnkebto,ocean,,area: areacello volume: volcello,,
+3.0,Ocean Momentum XY Laplacian Diffusivity,m2 s-1,,3-d time dependent field,difmxylo,ocean_momentum_xy_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difmxylo,ocean,,area: areacello volume: volcello,,
+3.0,Ocean Momentum XY Biharmonic Diffusivity,m4 s-1,,3-d time dependent field,difmxybo,ocean_momentum_xy_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difmxybo,ocean,,area: areacello volume: volcello,,
+3.0,Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction,W m-2,,3-d time dependent field,dispkexyfo,ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,dispkexyfo,ocean,,area: areacello volume: volcello,,
+,,,,,,,,,,,,,,,,,,,,,,
+3.0,Ocean Tracer Bolus Laplacian Diffusivity ,m2 s-1,,2-d time dependent field,diftrblo,ocean_tracer_bolus_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrblo2d,ocean,,area: areacello ,,
+3.0,Ocean Tracer Bolus Biharmonic Diffusivity ,m4 s-1,,2-d time dependent field,diftrbbo,ocean_tracer_bolus_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrbbo2d,ocean,,area: areacello ,,
+3.0,Ocean Tracer Epineutral Laplacian Diffusivity ,m2 s-1,,2-d time dependent field,diftrelo,ocean_tracer_epineutral_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrelo2d,ocean,,area: areacello ,,
+3.0,Ocean Tracer Epineutral Biharmonic Diffusivity ,m4 s-1,,2-d time dependent field,diftrebo,ocean_tracer_epineutral_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrebo2d,ocean,,area: areacello ,,
+3.0,Ocean Tracer XY Laplacian Diffusivity ,m2 s-1,,2-d time dependent field,diftrxylo,ocean_tracer_xy_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrxylo2d,ocean,,area: areacello ,,
+3.0,Ocean Tracer XY Biharmonic Diffusivity ,m4 s-1,,2-d time dependent field,diftrxybo,ocean_tracer_xy_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,diftrxybo2d,ocean,,area: areacello ,,
+3.0,Tendency of Ocean Eddy Kinetic Energy Content due to Bolus Transport ,W m-2,,2-d time dependent field,tnkebto,tendency_of_ocean_eddy_kinetic_energy_content_due_to_bolus_transport,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,tnkebto2d,ocean,,area: areacello ,,
+3.0,Ocean Momentum XY Laplacian Diffusivity,m2 s-1,,2-d time dependent field,difmxylo,ocean_momentum_xy_laplacian_diffusivity,,m2 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difmxylo2d,ocean,,area: areacello ,,
+3.0,Ocean Momentum XY Biharmonic Diffusivity,m4 s-1,,2-d time dependent field,difmxybo,ocean_momentum_xy_biharmonic_diffusivity,,m4 s-1,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,difmxybo2d,ocean,,area: areacello ,,
+3.0,Ocean Kinetic Energy Dissipation Per Unit Area due to XY Friction,W m-2,,2-d time dependent field,dispkexyfo,ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction,,W m-2,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,dispkexyfo2d,ocean,,area: areacello ,,
+Ocean layer depth field requested only from models where it can't be calculated from the vertical coordinate information stored in the file.,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Depth Below Geoid of Ocean Layer,m,,This 3-d time dependent field should only be saved for models where it can't be calculated from the vertical coordinate information stored in the file.,zfull,depth_below_geoid,,m,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,zfull,ocean,,area: areacello ,,
+1.0,Depth Below Geoid of Interfaces Between Ocean Layers,m,,This 3-d time dependent field should only be saved for models where it can't be calculated from the vertical coordinate information stored in the file.,zhalf,depth_below_geoid,,m,time: mean within years time: mean over years,,,,,,real,longitude latitude olevel time2,zhalf,ocean,,area: areacello ,,
 
 
diff --git a/Tables_csv/Omon.csv b/Tables_csv/Omon.csv
index 7ae12a4..73f4ff1 100644
--- a/Tables_csv/Omon.csv
+++ b/Tables_csv/Omon.csv
@@ -12,8 +12,8 @@ In CMOR Table Omon: Marine Biogeochemical 2-D Fields,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
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-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-2.0,Surface Concentration of (+name of tracer),"mol m-3 or kg m-3 or 1, consistent with first table in Oyr"," Concentrations of all 3D tracers in the uppermost ocean layer. See first table in Oyr for a complete list of these tracers.  ""Tracer""  concentations should be reported even if they are diagnosed rather than prognostically calculated.",,include Oyr 3D tracers,,,"mol m-3 or kg m-3 or 1, consistent with first table in Oyr",time: mean area: mean where sea,,,,,,real,longitude latitu [...]
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+2.0,Surface Concentration of (+name of tracer),"mol m-3 or kg m-3 or 1, consistent with first table in Oyr",," Concentrations of all 3D tracers in the uppermost ocean layer. See first table in Oyr for a complete list of these tracers.  ""Tracer""  concentations should be reported even if they are diagnosed rather than prognostically calculated.",include Oyr 3D tracers,,,"mol m-3 or kg m-3 or 1, consistent with first table in Oyr",time: mean area: mean where sea,,,,,,real,longitude latitu [...]
 1.0,Primary Organic Carbon Production by All Types of Phytoplankton,mol m-2 s-1,"Vertically integrated total primary (organic carbon) production by phytoplankton.  This should equal the sum of intpdiat+intpphymisc, but those individual components may be unavailable in some models.",,intpp,net_primary_mole_productivity_of_carbon_by_phytoplankton,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,intpp,ocnBgchem,,area: areacello,,
 2.0,Primary Organic Carbon Production by Phytoplankton Based on Nitrate Uptake Alone,mol m-2 s-1,Vertically integrated primary (organic carbon) production by phytoplankton based on nitrate uptake alone,,intpnitrate,net_primary_mole_productivity_of_carbon_due_to_nitrate_utilization,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time,intpnitrate,ocnBgchem,,area: areacello,,
 2.0,Primary Organic Carbon Production by Diatoms,mol m-2 s-1,Vertically integrated primary (organic carbon) production by the diatom phytoplankton component alone,,intpdiat,net_primary_mole_productivity_of_carbon_by_diatoms,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,intpdiat,ocnBgchem,,area: areacello,,
@@ -26,44 +26,44 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 3.0,Silica Production,mol m-2 s-1,Vertically integrated biogenic silica production,,intpbsi,tendency_of_ocean_mole_content_of_silicon_due_to_biological_production,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time,intpbsi,ocnBgchem,,area: areacello,,
 3.0,Calcite Production,mol m-2 s-1,Vertically integrated calcite production,,intpcalcite,tendency_of_ocean_mole_content_of_calcite_expressed_as_carbon_due_to_biological_production,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,intpcalcite,ocnBgchem,,area: areacello,,
 3.0,Aragonite Production,mol m-2 s-1,Vertically integrated aragonite production,,intparag,tendency_of_ocean_mole_content_of_aragonite_expressed_as_carbon_due_to_biological_production,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time,intparag,ocnBgchem,,area: areacello,,
-1.0,Downward Flux of Particle Organic Carbon at 100M,mol m-2 s-1,sinking flux of organic carbon at 100m,,epc100,sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time depth100m,epc100,ocnBgchem,,area: areacello,,
-3.0,Downward Flux of Particulate Iron at 100M,mol m-2 s-1,sinking flux of biogenic and scavenged iron at 100m,,epfe100,sinking_mole_flux_of_particulate_iron_in_sea_water,,mol m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time depth100m,epfe100,ocnBgchem,,area: areacello,,
-3.0,Downward Flux of Particulate Silica at 100M,mol m-2 s-1,sinking flux of biogenic silica at 100m,,epsi100,sinking_mole_flux_of_particulate_silicon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time depth100m,epsi100,ocnBgchem,,area: areacello,,
-1.0,Downward Flux of Calcite at 100M,mol m-2 s-1,sinking flux of calcite at 100m,,epcalc100,sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time depth100m,epcalc100,ocnBgchem,,area: areacello,,
-1.0,Downward Flux of Aragonite at 100M,mol m-2 s-1,sinking flux of aragonite at 100m,,eparag100,sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time depth100m,eparag100,ocnBgchem,,area: areacello,,
+1.0,Downward Flux of Particle Organic Carbon,mol m-2 s-1,,at 100 m depth.,epc100,sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time depth100m,epc100,ocnBgchem,,area: areacello,,
+3.0,Downward Flux of Particulate Iron,mol m-2 s-1,,at 100 m depth.,epfe100,sinking_mole_flux_of_particulate_iron_in_sea_water,,mol m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time depth100m,epfe100,ocnBgchem,,area: areacello,,
+3.0,Downward Flux of Particulate Silica,mol m-2 s-1,,at 100 m depth.,epsi100,sinking_mole_flux_of_particulate_silicon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time depth100m,epsi100,ocnBgchem,,area: areacello,,
+1.0,Downward Flux of Calcite,mol m-2 s-1,,at 100 m depth.,epcalc100,sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time depth100m,epcalc100,ocnBgchem,,area: areacello,,
+1.0,Downward Flux of Aragonite,mol m-2 s-1,,at 100 m depth.,eparag100,sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time depth100m,eparag100,ocnBgchem,,area: areacello,,
 2.0,Dissolved Inorganic Carbon Content,kg m-2,Vertically integrated DIC,,intdic,ocean_mass_content_of_dissolved_inorganic_carbon,,kg m-2,time: mean area: where sea,,,,,,real,longitude latitude time,intdic,ocnBgchem,,area: areacello,,
-1.0,Surface Aqueous Partial Pressure of CO2,Pa,Surface aqueous partial pressure of CO2,,spco2,surface_partial_pressure_of_carbon_dioxide_in_sea_water,,Pa,time: mean area: mean where sea,,,,,,real,longitude latitude time,spco2,ocnBgchem,,area: areacello,,
-3.0,Delta PCO2,Pa,Difference between atmospheric and oceanic partial pressure of CO2 (positive meaning ocean > atmosphere),,dpco2,surface_carbon_dioxide_partial_pressure_difference_between_sea_water_and_air,,Pa,time: mean area: where sea,,,,,,real,longitude latitude time,dpco2,ocnBgchem,,area: areacello,,
-3.0,Delta PO2,Pa,Difference between atmospheric and oceanic partial pressure of O2 (positive meaning ocean > atmosphere),,dpo2,surface_molecular_oxygen_partial_pressure_difference_between_sea_water_and_air,,Pa,time: mean area: mean where sea,,,,,,real,longitude latitude time,dpo2,ocnBgchem,,area: areacello,,
-1.0,Surface Downward CO2 Flux,kg m-2 s-1,Gas exchange flux of CO2 (positive into ocean),"For consistency with other fluxes, shouldn't this have units of mol m-2 s-1.   No it is better in these units for direct comparison with surface fluxes of CO2 on land",fgco2,surface_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon,,kg m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time,fgco2,ocnBgchem,,area: areacello,,
+1.0,Surface Aqueous Partial Pressure of CO2,Pa,,,spco2,surface_partial_pressure_of_carbon_dioxide_in_sea_water,,Pa,time: mean area: mean where sea,,,,,,real,longitude latitude time,spco2,ocnBgchem,,area: areacello,,
+3.0,Delta PCO2,Pa,,Difference between atmospheric and oceanic partial pressure of CO2 (positive meaning ocean > atmosphere),dpco2,surface_carbon_dioxide_partial_pressure_difference_between_sea_water_and_air,,Pa,time: mean area: where sea,,,,,,real,longitude latitude time,dpco2,ocnBgchem,,area: areacello,,
+3.0,Delta PO2,Pa,,Difference between atmospheric and oceanic partial pressure of O2 (positive meaning ocean > atmosphere),dpo2,surface_molecular_oxygen_partial_pressure_difference_between_sea_water_and_air,,Pa,time: mean area: mean where sea,,,,,,real,longitude latitude time,dpo2,ocnBgchem,,area: areacello,,
+1.0,Surface Downward CO2 Flux,kg m-2 s-1,Gas exchange flux of CO2 (positive into ocean),,fgco2,surface_downward_mass_flux_of_carbon_dioxide_expressed_as_carbon,,kg m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time,fgco2,ocnBgchem,,area: areacello,,
 1.0,Surface Downward O2 Flux,mol m-2 s-1,Gas exchange flux of O2 (positive into ocean),,fgo2,surface_downward_mole_flux_of_molecular_oxygen,,mol m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time,fgo2,ocnBgchem,,area: areacello,,
 3.0,Surface Upward DMS Flux,mol m-2 s-1,Gas exchange flux of DMS (positive into atmosphere),,fgdms,surface_upward_mole_flux_of_dimethyl_sulfide,,mol m-2 s-1,time: mean area: where sea,,,,,up,real,longitude latitude time,fgdms,ocnBgchem,,area: areacello,,
 3.0,Flux of Carbon Into Ocean Surface by Runoff and Sediment Dissolution,mol m-2 s-1,Carbon supply to ocean through runoff and sediment dissolution (neglects gas exchange),,fsc,tendency_of_ocean_mole_content_of_carbon_due_to_runoff_and_sediment_dissolution,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,fsc,ocnBgchem,,area: areacello,,
 3.0,Downward Carbon Flux at Ocean Bottom,mol m-2 s-1,Carbon loss to sediments,,frc,tendency_of_ocean_mole_content_of_carbon_due_to_sedimentation,,mol m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time,frc,ocnBgchem,,area: areacello,,
 3.0,Nitrogen Fixation Rate in Ocean,mol m-2 s-1,Vertically integrated nitrogen fixation,,intpn2,tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_fixation,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,intpn2,ocnBgchem,,area: areacello,,
-3.0,Surface Downward Net Flux of Nitrogen,mol m-2 s-1,"N supply through deposition flux onto sea surface, nitrogen fixation, and runoff",,fsn,tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_deposition_and_fixation_and_runoff,,mol m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time,fsn,ocnBgchem,,area: areacello,,
-3.0,Nitrogen Loss to Sediments and through Denitrification,mol m-2 s-1,N loss to sediment and water column denitrification,,frn,tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_denitrification_and_sedimentation,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,frn,ocnBgchem,,area: areacello,,
+3.0,Surface Downward Net Flux of Nitrogen,mol m-2 s-1,,,fsn,tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_deposition_and_fixation_and_runoff,,mol m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time,fsn,ocnBgchem,,area: areacello,,
+3.0,Nitrogen Loss to Sediments and through Denitrification,mol m-2 s-1,,,frn,tendency_of_ocean_mole_content_of_elemental_nitrogen_due_to_denitrification_and_sedimentation,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,frn,ocnBgchem,,area: areacello,,
 3.0,Surface Downward Net Flux of Iron,mol m-2 s-1,"Iron supply through deposition flux onto sea surface, runoff, coasts, sediments, etc",,fsfe,tendency_of_ocean_mole_content_of_iron_due_to_deposition_and_runoff_and_sediment_dissolution,,mol m-2 s-1,time: mean area: where sea,,,,,down,real,longitude latitude time,fsfe,ocnBgchem,,area: areacello,,
-3.0,Iron Loss to Sediments,mol m-2 s-1,Iron loss to sediments,,frfe,tendency_of_ocean_mole_content_of_iron_due_to_sedimentation,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,frfe,ocnBgchem,,area: areacello,,
-3.0,Oxygen Minimum Concentration,mol m-3,Vertical minimum concentration of dissolved oxygen gas,,o2min,mole_concentration_of_dissolved_molecular_oxygen_in_sea_water_at_shallowest_local_minimum_in_vertical_profile,,mol m-3,time: mean area: where sea depth: minimum,,,,,,real,longitude latitude time,o2min,ocnBgchem,,area: areacello,,
+3.0,Iron Loss to Sediments,mol m-2 s-1,,,frfe,tendency_of_ocean_mole_content_of_iron_due_to_sedimentation,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,frfe,ocnBgchem,,area: areacello,,
+3.0,Oxygen Minimum Concentration,mol m-3,,,o2min,mole_concentration_of_dissolved_molecular_oxygen_in_sea_water_at_shallowest_local_minimum_in_vertical_profile,,mol m-3,time: mean area: where sea depth: minimum,,,,,,real,longitude latitude time,o2min,ocnBgchem,,area: areacello,,
 3.0,Depth of Oxygen Minimum Concentration,m,"Depth of vertical minimum concentration of dissolved oxygen gas (if two, then the shallower)",,zo2min,depth_at_shallowest_local_minimum_in_vertical_profile_of_mole_concentration_of_dissolved_molecular_oxygen_in_sea_water,,m,time: mean area: mean where sea,,,,,,real,longitude latitude time,zo2min,ocnBgchem,,area: areacello,,
 3.0,Calcite Saturation Depth,m,"Depth of calcite saturation horizon (0 if < surface, ""missing"" if > bottom, if two, then the shallower)",,zsatcalc,minimum_depth_of_calcite_undersaturation_in_sea_water,,m,time: mean area: where sea,,,,,,real,longitude latitude time,zsatcalc,ocnBgchem,,area: areacello,,
 3.0,Aragonite Saturation Depth,m,"Depth of aragonite saturation horizon (0 if < surface, ""missing""  if > bottom, if two, then the shallower)",,zsatarag,minimum_depth_of_aragonite_undersaturation_in_sea_water,,m,time: mean area: mean where sea,,,,,,real,longitude latitude time,zsatarag,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Net Dissolved Inorganic Carbon,mol m-2 s-1,Net time rate of change of dissolved inorganic carbon in upper 100m,,fddtdic,tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fddtdic,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Net Dissolved Inorganic Nitrogen,mol m-2 s-1,Net time rate of change of nitrogen nutrients (e.g. NO3+NH4) in upper 100m,,fddtdin,tendency_of_ocean_mole_content_of_dissolved_inorganic_nitrogen,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fddtdin,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Net Dissolved Inorganic Phosphate,mol m-2 s-1,vertical integral of net  time rate of change of phosphate in upper 100m,,fddtdip,tendency_of_ocean_mole_content_of_dissolved_inorganic_phosphorus,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fddtdip,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Net Dissolved Inorganic Iron,mol m-2 s-1,vertical integral of net time rate of change of dissolved inorganic iron in upper 100m,,fddtdife,tendency_of_ocean_mole_content_of_dissolved_inorganic_iron,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fddtdife,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Net Dissolved Inorganic Silicate,mol m-2 s-1,vertical integral of net time rate of change of dissolved inorganic silicate in upper 100m,,fddtdisi,tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fddtdisi,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Alkalinity,mol m-2 s-1,vertical integral of net time rate of change of alkalinity in upper 100m,,fddtalk,integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fddtalk,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Dissolved Inorganic Carbon due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of dissolved inorganic carbon in upper 100m,,fbddtdic,tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon_due_to_biological_processes,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fbddtdic,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Dissolved Inorganic Nitrogen due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of nitrogen nutrients (e.g. NO3+NH4) in upper 100m,,fbddtdin,tendency_of_ocean_mole_content_of_dissolved_inorganic_nitrogen_due_to_biological_processes,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fbddtdin,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Dissolved Inorganic Phosphate due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of phosphate in upper 100m,,fbddtdip,tendency_of_ocean_mole_content_of_dissolved_inorganic_phosphorus_due_to_biological_processes,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fbddtdip,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Dissolved Inorganic Iron due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of dissolved inorganic iron in upper 100m,,fbddtdife,tendency_of_ocean_mole_content_of_dissolved_inorganic_iron_due_to_biological_processes,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fbddtdife,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Dissolved Inorganic Silicate due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of dissolved inorganic silicate in upper 100m,,fbddtdisi,tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon_due_to_biological_processes,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fbddtdisi,ocnBgchem,,area: areacello,,
-3.0,Rate of Change in Upper 100 m of Biological Alkalinity due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of alkalinity in upper 100m,,fbddtalk,integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent_due_to_biological_processes,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fbddtalk,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Net Dissolved Inorganic Carbon,mol m-2 s-1,,integral over upper 100 m only.,fddtdic,tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fddtdic,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Net Dissolved Inorganic Nitrogen,mol m-2 s-1,Net time rate of change of nitrogen nutrients (e.g. NO3+NH4) ,integral over upper 100 m only.,fddtdin,tendency_of_ocean_mole_content_of_dissolved_inorganic_nitrogen,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fddtdin,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Net Dissolved Inorganic Phosphate,mol m-2 s-1,vertical integral of net  time rate of change of phosphate ,integral over upper 100 m only.,fddtdip,tendency_of_ocean_mole_content_of_dissolved_inorganic_phosphorus,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fddtdip,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Net Dissolved Inorganic Iron,mol m-2 s-1,vertical integral of net time rate of change of dissolved inorganic iron ,integral over upper 100 m only.,fddtdife,tendency_of_ocean_mole_content_of_dissolved_inorganic_iron,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fddtdife,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Net Dissolved Inorganic Silicate,mol m-2 s-1,vertical integral of net time rate of change of dissolved inorganic silicate ,integral over upper 100 m only.,fddtdisi,tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fddtdisi,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Alkalinity,mol m-2 s-1,vertical integral of net time rate of change of alkalinity ,integral over upper 100 m only.,fddtalk,integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fddtalk,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Dissolved Inorganic Carbon due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of dissolved inorganic carbon ,integral over upper 100 m only.,fbddtdic,tendency_of_ocean_mole_content_of_dissolved_inorganic_carbon_due_to_biological_processes,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fbddtdic,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Dissolved Inorganic Nitrogen due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of nitrogen nutrients (e.g. NO3+NH4) ,integral over upper 100 m only.,fbddtdin,tendency_of_ocean_mole_content_of_dissolved_inorganic_nitrogen_due_to_biological_processes,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fbddtdin,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Dissolved Inorganic Phosphate due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of phosphate ,integral over upper 100 m only.,fbddtdip,tendency_of_ocean_mole_content_of_dissolved_inorganic_phosphorus_due_to_biological_processes,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fbddtdip,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Dissolved Inorganic Iron due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of dissolved inorganic iron ,integral over upper 100 m only.,fbddtdife,tendency_of_ocean_mole_content_of_dissolved_inorganic_iron_due_to_biological_processes,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fbddtdife,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Dissolved Inorganic Silicate due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of dissolved inorganic silicate ,integral over upper 100 m only.,fbddtdisi,tendency_of_ocean_mole_content_of_dissolved_inorganic_silicon_due_to_biological_processes,,mol m-2 s-1,time: mean area: where sea,,,,,,real,longitude latitude time olayer100m,fbddtdisi,ocnBgchem,,area: areacello,,
+3.0,Rate of Change of Biological Alkalinity due to Biological Activity,mol m-2 s-1,vertical integral of net biological terms in time rate of change of alkalinity ,integral over upper 100 m only.,fbddtalk,integral_wrt_depth_of_tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent_due_to_biological_processes,,mol m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time olayer100m,fbddtalk,ocnBgchem,,area: areacello,,
 "Further explanation of the fields in the following tables can be found in Griffies et al., available at  http://www.clivar.org/organization/wgomd/references/WGOMD_CMIP5_ocean_fields.pdf .  ",,,,,,,,,,,,,,,,,,,,,,
 In CMOR Table Omon: WGOMD Table 2.2,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Sea Water Mass ,kg ,,,masso,sea_water_mass,,kg ,time: mean area: sum where sea,,,,,,real,time,masso,ocean,,,,
 1.0,Sea Water Pressure at Sea floor ,dbar ,,,pbo,sea_water_pressure_at_sea_floor,,dbar ,time: mean,,,,,,real,longitude latitude time,pbo,ocean,,area: areacello,,
 2.0,Sea Water Pressure at Sea Water Surface ,dbar ,,,pso,sea_water_pressure_at_sea_water_surface,,dbar ,time: mean,,,,,,real,longitude latitude time,pso,ocean,,area: areacello,,
@@ -93,86 +93,93 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 3.0,Mean Daily Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme ,m ,,,omldamax,ocean_mixed_layer_thickness_defined_by_mixing_scheme,,m ,time: maximum within days time: mean over days,,,,,,real,longitude latitude time,omldamax,ocean,,area: areacello,,
 3.0,Monthly Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme ,m ,,,omlmax,ocean_mixed_layer_thickness_defined_by_mixing_scheme,,m ,time: maximum,,,,,,real,longitude latitude time,omlmax,ocean,,area: areacello,,
 In CMOR Table Omon: WGOMD Table 2.3,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Sea Water X Velocity ,m s-1,,,uo,sea_water_x_velocity,,m s-1,time: mean,,,,,,real,longitude latitude olevel time,uo,ocean,,,,
 1.0,Sea Water Y Velocity ,m s-1,,,vo,sea_water_y_velocity,,m s-1,time: mean,,,,,,real,longitude latitude olevel time,vo,ocean,,,,
 1.0,Upward Ocean Mass Transport ,kg s-1,"differs from CMIP3, which only had upward velocity.",,wmo,upward_ocean_mass_transport,,kg s-1,time: mean,,,,,,real,longitude latitude olevel time,wmo,ocean,,area: areacello volume: volcello,,
 1.0,Square of Upward Ocean Mass Transport ,kg2 s-2,,,wmosq,square_of_upward_ocean_mass_transport,,kg2 s-2,time: mean,,,,,,real,longitude latitude olevel time,wmosq,ocean,,area: areacello volume: volcello,,
 2.0,Ocean Mass X Transport ,kg s-1,,,umo,ocean_mass_x_transport,,kg s-1,time: mean,,,,,,real,longitude latitude olevel time,umo,ocean,,,,
 2.0,Ocean Mass Y Transport ,kg s-1,,,vmo,ocean_mass_y_transport,,kg s-1,time: mean,,,,,,real,longitude latitude olevel time,vmo,ocean,,,,
-2.0,Ocean Meridional Overturning Mass Streamfunction ,kg s-1,"function of latitude, Z, basin. differs from CMIP3 because it includes mass.  For a model with a cartesian latxlon grid, this is the same as the ""Ocean Y Overturning Mass Streamfunction"", listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model' [...]
-2.0,Ocean Meridional Overturning Mass Streamfunction ,kg s-1,"function of of latitude, rho, basin.  Also see note above.",,msftmrhoz,ocean_meridional_overturning_mass_streamfunction,,kg s-1,time: mean longitude: mean,,,,,,real,latitude rho basin time,msftmrhoz,ocean,,,,
-2.0,Ocean Y Overturning Mass Streamfunction ,kg s-1,"function of Y, Z, basin.   Also see note above.",,msftyyz,ocean_y_overturning_mass_streamfunction,,kg s-1,time: mean longitude: mean,,,,,,real,latitude olevel basin time,msftyyz,ocean,,,,
-2.0,Ocean Y Overturning Mass Streamfunction ,kg s-1,"function of Y, rho, basin.  Also see note above.",,msftyrhoz,ocean_y_overturning_mass_streamfunction,,kg s-1,time: mean longitude: mean,,,,,,real,latitude rho basin time,msftyrhoz,ocean,,,,
-3.0,Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection ,kg s-1,"function of latitude, Z, basin.   Also see note above.",,msftmyzba,ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection,,kg s-1,time: mean longitude: mean,,,,,,real,latitude olevel basin time,msftmyzba,ocean,,,,
-3.0,Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection ,kg s-1,"function of latitude, rho, basin.  Also see note above.",,msftmrhozba,ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection,,kg s-1,time: mean longitude: mean,,,,,,real,latitude rho basin time,msftmrhozba,ocean,,,,
-3.0,Ocean Y Overturning Mass Streamfunction due to Bolus Advection ,kg s-1,"function of Y, Z, basin.  Also see note above.",,msftyyzba,ocean_y_overturning_mass_streamfunction_due_to_bolus_advection,,kg s-1,time: mean longitude: mean,,,,,,real,latitude olevel basin time,msftyyzba,ocean,,,,
-3.0,Ocean Y Overturning Mass Streamfunction due to Bolus Advection ,kg s-1,"function of Y, rho, basin.  Also see note above.",,msftyrhozba,ocean_y_overturning_mass_streamfunction_due_to_bolus_advection,,kg s-1,time: mean longitude: mean,,,,,,real,latitude rho basin time,msftyrhozba,ocean,,,,
-2.0,Northward Ocean Heat Transport ,W ,"For a model with a cartesian latxlon grid, this is the same as the ""Ocean Heat Y Transport"", listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model's resolution.",,hfnorth,northward_ocean_heat_transport,,W ,time: mean,,,,,,real,longitude latitude time,hfnorth,ocean,,,,
-3.0,Northward Ocean Heat Transport due to Bolus Advection ,W ,see note above.,,hfnorthba,northward_ocean_heat_transport_due_to_bolus_advection,,W ,time: mean,,,,,,real,longitude latitude time,hfnorthba,ocean,,,,
-3.0,Northward Ocean Heat Transport due to Diffusion ,W ,see note above.,,hfnorthdiff,northward_ocean_heat_transport_due_to_diffusion,,W ,time: mean,,,,,,real,longitude latitude time,hfnorthdiff,ocean,,,,
+2.0,Ocean Meridional Overturning Mass Streamfunction ,kg s-1,differs from CMIP3 because it includes mass.  ,"function of latitude, Z, basin. For a model with a cartesian latxlon grid, this is the same as the ""Ocean Y Overturning Mass Streamfunction"", listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model [...]
+2.0,Ocean Meridional Overturning Mass Streamfunction ,kg s-1,,"function of of latitude, rho, basin.  Also see note above.",msftmrhoz,ocean_meridional_overturning_mass_streamfunction,,kg s-1,time: mean longitude: mean,,,,,,real,latitude rho basin time,msftmrhoz,ocean,,,,
+2.0,Ocean Y Overturning Mass Streamfunction ,kg s-1,,"function of Y, Z, basin.   Also see note above.",msftyyz,ocean_y_overturning_mass_streamfunction,,kg s-1,time: mean longitude: mean,,,,,,real,latitude olevel basin time,msftyyz,ocean,,,,
+2.0,Ocean Y Overturning Mass Streamfunction ,kg s-1,,"function of Y, rho, basin.  Also see note above.",msftyrhoz,ocean_y_overturning_mass_streamfunction,,kg s-1,time: mean longitude: mean,,,,,,real,latitude rho basin time,msftyrhoz,ocean,,,,
+3.0,Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection ,kg s-1,,"function of latitude, Z, basin.   Also see note above.",msftmyzba,ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection,,kg s-1,time: mean longitude: mean,,,,,,real,latitude olevel basin time,msftmyzba,ocean,,,,
+3.0,Ocean Meridional Overturning Mass Streamfunction due to Bolus Advection ,kg s-1,,"function of latitude, rho, basin.  Also see note above.",msftmrhozba,ocean_meridional_overturning_mass_streamfunction_due_to_bolus_advection,,kg s-1,time: mean longitude: mean,,,,,,real,latitude rho basin time,msftmrhozba,ocean,,,,
+3.0,Ocean Y Overturning Mass Streamfunction due to Bolus Advection ,kg s-1,,"function of Y, Z, basin.  Also see note above.",msftyyzba,ocean_y_overturning_mass_streamfunction_due_to_bolus_advection,,kg s-1,time: mean longitude: mean,,,,,,real,latitude olevel basin time,msftyyzba,ocean,,,,
+3.0,Ocean Y Overturning Mass Streamfunction due to Bolus Advection ,kg s-1,,"function of Y, rho, basin.  Also see note above.",msftyrhozba,ocean_y_overturning_mass_streamfunction_due_to_bolus_advection,,kg s-1,time: mean longitude: mean,,,,,,real,latitude rho basin time,msftyrhozba,ocean,,,,
+2.0,Northward Ocean Heat Transport ,W ,,"For a model with a cartesian latxlon grid, this is the same as the ""Ocean Heat Y Transport"", listed a few lines down, which should in this case be omitted.  For other models, this transport should be approximated as the transport along zig-zag paths corresponding to latitudes with spacing between latitudes appropriate to the model's resolution.",hfnorth,northward_ocean_heat_transport,,W ,time: mean,,,,,,real,longitude latitude time,hfnorth,ocean,,,,
+3.0,Northward Ocean Heat Transport due to Bolus Advection ,W ,,see note above.,hfnorthba,northward_ocean_heat_transport_due_to_bolus_advection,,W ,time: mean,,,,,,real,longitude latitude time,hfnorthba,ocean,,,,
+3.0,Northward Ocean Heat Transport due to Diffusion ,W ,,see note above.,hfnorthdiff,northward_ocean_heat_transport_due_to_diffusion,,W ,time: mean,,,,,,real,longitude latitude time,hfnorthdiff,ocean,,,,
 2.0,Ocean Heat X Transport ,W ,,,hfx,ocean_heat_x_transport,,W ,time: mean,,,,,,real,longitude latitude time,hfx,ocean,,,,
-2.0,Ocean Heat Y Transport ,W ,"For a model with a cartesian latxlon grid, this is the same as the ""Northward Ocean Heat Transport"", listed a few lines above, which should be saved instead of this.",,hfy,ocean_heat_y_transport,,W ,time: mean,,,,,,real,longitude latitude time,hfy,ocean,,,,
-3.0,Ocean Heat Y Transport due to Bolus Advection ,W ,see note above.,,hfyba,ocean_heat_y_transport_due_to_bolus_advection,,W ,time: mean,,,,,,real,longitude latitude time,hfyba,ocean,,,,
-3.0,Ocean Heat Y Transport due to Diffussion,W ,see note above.,,hfydiff,ocean_heat_y_transport_due_to_diffusion,,W ,time: mean,,,,,,real,longitude latitude time,hfydiff,ocean,,,,
+2.0,Ocean Heat Y Transport ,W ,,"For a model with a cartesian latxlon grid, this is the same as the ""Northward Ocean Heat Transport"", listed a few lines above, which should be saved instead of this.",hfy,ocean_heat_y_transport,,W ,time: mean,,,,,,real,longitude latitude time,hfy,ocean,,,,
+3.0,Ocean Heat Y Transport due to Bolus Advection ,W ,,see note above.,hfyba,ocean_heat_y_transport_due_to_bolus_advection,,W ,time: mean,,,,,,real,longitude latitude time,hfyba,ocean,,,,
+3.0,Ocean Heat Y Transport due to Diffussion,W ,,see note above.,hfydiff,ocean_heat_y_transport_due_to_diffusion,,W ,time: mean,,,,,,real,longitude latitude time,hfydiff,ocean,,,,
 3.0,Ocean Heat X Transport due to Bolus Advection ,W ,,,hfxba,ocean_heat_x_transport_due_to_bolus_advection,,W ,time: mean,,,,,,real,longitude latitude time,hfxba,ocean,,,,
 3.0,Ocean Heat X Transport due to Diffusion ,W ,,,hfxdiff,ocean_heat_x_transport_due_to_diffusion,,W ,time: mean,,,,,,real,longitude latitude time,hfxdiff,ocean,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-2.0,Northward Ocean Heat Transport,W,"This differs from a similar, previous entry in that northward transport across individual basins is called for, rather than the fully gridded fields..",,hfbasin,northward_ocean_heat_transport,,W,time: mean longitude: mean,,,,,,real,latitude basin time,hfbasin,ocean,,,,
+2.0,Northward Ocean Heat Transport,W,,"This differs from a similar, previous entry in that northward transport across individual basins is called for, rather than the fully gridded fields..",hfbasin,northward_ocean_heat_transport,,W,time: mean longitude: mean,,,,,,real,latitude basin time,hfbasin,ocean,,,,
 3.0,Northward Ocean Heat Transport due to Bolus Advection ,W,,,hfbasinba,northward_ocean_heat_transport_due_to_bolus_advection,,W,time: mean longitude: mean,,,,,,real,latitude basin time,hfbasinba,ocean,,,,
 3.0,Northward Ocean Heat Transport due to Diffussion,W,,,hfbasindiff,northward_ocean_heat_transport_due_to_diffusion,,W,time: mean longitude: mean,,,,,,real,latitude basin time,hfbasindiff,ocean,,,,
-2.0,Northward Ocean Heat Transport due to Gyre ,W ,"function of latitude, basin",,htovgyre,northward_ocean_heat_transport_due_to_gyre,,W ,time: mean longitude: mean,,,,,,real,latitude basin time,htovgyre,ocean,,,,
-2.0,Northward Ocean Heat Transport due to Overturning ,W ,"function of latitude, basin",,htovovrt,northward_ocean_heat_transport_due_to_overturning,,W ,time: mean longitude: mean,,,,,,real,latitude basin time,htovovrt,ocean,,,,
-2.0,Northward Ocean Salt Transport due to Gyre ,kg s-1,"function of latitude, basin",,sltovgyre,northward_ocean_salt_transport_due_to_gyre,,kg s-1,time: mean longitude: mean,,,,,,real,latitude basin time,sltovgyre,ocean,,,,
-2.0,Northward Ocean Salt Transport due to Overturning ,kg s-1,"function of latitude, basin",,sltovovrt,northward_ocean_salt_transport_due_to_overturning,,kg s-1,time: mean longitude: mean,,,,,,real,latitude basin time,sltovovrt,ocean,,,,
+2.0,Northward Ocean Heat Transport due to Gyre ,W ,,"function of latitude, basin",htovgyre,northward_ocean_heat_transport_due_to_gyre,,W ,time: mean longitude: mean,,,,,,real,latitude basin time,htovgyre,ocean,,,,
+2.0,Northward Ocean Heat Transport due to Overturning ,W ,,"function of latitude, basin",htovovrt,northward_ocean_heat_transport_due_to_overturning,,W ,time: mean longitude: mean,,,,,,real,latitude basin time,htovovrt,ocean,,,,
+2.0,Northward Ocean Salt Transport due to Gyre ,kg s-1,,"function of latitude, basin",sltovgyre,northward_ocean_salt_transport_due_to_gyre,,kg s-1,time: mean longitude: mean,,,,,,real,latitude basin time,sltovgyre,ocean,,,,
+2.0,Northward Ocean Salt Transport due to Overturning ,kg s-1,,"function of latitude, basin",sltovovrt,northward_ocean_salt_transport_due_to_overturning,,kg s-1,time: mean longitude: mean,,,,,,real,latitude basin time,sltovovrt,ocean,,,,
 In CMOR Table Omon: WGOMD Table 2.4,,,,,,,,,,,,,,,,,,,,,,
-"sea water transport through (or associated with) the following straits, openings, channels, passages, etc.:  barents_opening, bering_strait, canadian_archipelago, denmark_strait, drake_passage, english_channel, pacific_equatorial_undercurrent, faroe_scotland_channel, florida_bahamas_strait, fram_strait, iceland_faroe_channel, indonesian_thoughflow, mozambique_channel, taiwan_luzon_straits, and windward_passage.  For definitions see WGOMD document referenced above.  All transports will b [...]
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+"sea water transport through (or associated with) the following straits, openings, channels, passages, etc.:  barents_opening, bering_strait, canadian_archipelago, denmark_strait, drake_passage, english_channel, pacific_equatorial_undercurrent, faroe_scotland_channel, florida_bahamas_strait, fram_strait, iceland_faroe_channel, indonesian_throughflow, mozambique_channel, taiwan_luzon_straits, and windward_passage.  For definitions see WGOMD document referenced above.  All transports will  [...]
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 2.0,Sea Water Transport,kg s-1,,,mfo,sea_water_transport_across_line,,kg s-1,time: mean,,,,,,real,oline time,mfo,ocean,,,,
 In CMOR Table Omon: WGOMD Table 2.5,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-2.0,Rainfall Flux where Ice Free Ocean over Sea,kg m-2 s-1,compute as the total mass of liquid water falling as liquid rain  into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.,,pr,rainfall_flux,,kg m-2 s-1,time: mean area: mean where ice_free_sea over sea,,,,,,real,longitude latitude time,pr,ocean,,area: areacello,,
-2.0,Snowfall Flux where Ice Free Ocean over Sea,kg m-2 s-1,compute as the total mass of ice directly falling as snow into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.,,prsn,snowfall_flux,,kg m-2 s-1,time: mean area: mean where ice_free_sea over sea,,,,,,real,longitude latitude time,prsn,ocean,,area: areacello,,
-2.0,Water Evaporation Flux Where Ice Free Ocean over Sea,kg m-2 s-1,compute as the total mass of water vapor evaporating from the ice-free portion of the ocean  divided by the area of the ocean portion of the grid cell.,,evs,water_evaporation_flux,,kg m-2 s-1,time: mean area: mean where ice_free_sea over sea,,,,,,real,longitude latitude time,evs,ocean,,area: areacello,,
-2.0,Water Flux into Sea Water From Rivers ,kg m-2 s-1,compute as the river flux of water into the ocean divided by the area of the ocean portion of the grid cell.,,friver,water_flux_into_sea_water_from_rivers,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,friver,ocean,,area: areacello,,
-2.0,Water Flux into Sea Water From Icebergs ,kg m-2 s-1,compute as the iceberg melt water  flux into the ocean divided by the area of the ocean portion of the grid cell.,,ficeberg,water_flux_into_sea_water_from_icebergs,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,ficeberg,ocean,,area: areacello volume: volcello,,
-1.0,Water Flux into Sea Water due to Sea Ice Thermodynamics ,kg m-2 s-1,compute as the sea ice thermodynamic water flux into the ocean divided by the area of the ocean portion of the grid cell.,The priority set by the WGOMD was 2 for this field.  The sea-ice folks requested that the priority be raised to 1.,fsitherm,water_flux_into_sea_water_due_to_sea_ice_thermodynamics,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,fsitherm,ocean seaIce,,area: areacello,,
-2.0,Water Flux into Sea Water ,kg m-2 s-1,compute as the water  flux into the ocean divided by the area of the ocean portion of the grid cell.  This is the sum of the next two variables in this table.,,wfo,water_flux_into_sea_water,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,wfo,ocean,,area: areacello,,
-2.0,Water Flux into Sea Water Without Flux Correction ,kg m-2 s-1,compute as the water  flux (without flux correction) into the ocean divided by the area of the ocean portion of the grid cell.  This is the sum of the first 6 variables in this table?,,wfonocorr,water_flux_into_sea_water_without_flux_correction,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,wfonocorr,ocean,,area: areacello,,
-2.0,Water Flux Correction ,kg m-2 s-1,"If this does not vary from one year to the next, report only a single year.  Positive flux implies correction adds water to ocean.",,wfcorr ,water_flux_correction,,kg m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time,wfcorr ,ocean,,area: areacello,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+2.0,Rainfall Flux where Ice Free Ocean over Sea,kg m-2 s-1,computed as the total mass of liquid water falling as liquid rain  into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.,,pr,rainfall_flux,,kg m-2 s-1,time: mean area: mean where ice_free_sea over sea,,,,,,real,longitude latitude time,pr,ocean,,area: areacello,,
+2.0,Snowfall Flux where Ice Free Ocean over Sea,kg m-2 s-1,computed as the total mass of ice directly falling as snow into the ice-free portion of the ocean divided by the area of the ocean portion of the grid cell.,,prsn,snowfall_flux,,kg m-2 s-1,time: mean area: mean where ice_free_sea over sea,,,,,,real,longitude latitude time,prsn,ocean,,area: areacello,,
+2.0,Water Evaporation Flux Where Ice Free Ocean over Sea,kg m-2 s-1,computed as the total mass of water vapor evaporating from the ice-free portion of the ocean  divided by the area of the ocean portion of the grid cell.,,evs,water_evaporation_flux,,kg m-2 s-1,time: mean area: mean where ice_free_sea over sea,,,,,,real,longitude latitude time,evs,ocean,,area: areacello,,
+2.0,Water Flux into Sea Water From Rivers ,kg m-2 s-1,computed as the river flux of water into the ocean divided by the area of the ocean portion of the grid cell.,,friver,water_flux_into_sea_water_from_rivers,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,friver,ocean,,area: areacello,,
+2.0,Water Flux into Sea Water From Icebergs ,kg m-2 s-1,computed as the iceberg melt water  flux into the ocean divided by the area of the ocean portion of the grid cell.,,ficeberg,water_flux_into_sea_water_from_icebergs,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,ficeberg,ocean,,area: areacello volume: volcello,,
+1.0,Water Flux into Sea Water due to Sea Ice Thermodynamics ,kg m-2 s-1,computed as the sea ice thermodynamic water flux into the ocean divided by the area of the ocean portion of the grid cell.,The priority set by the WGOMD was 2 for this field.  The sea-ice folks requested that the priority be raised to 1.,fsitherm,water_flux_into_sea_water_due_to_sea_ice_thermodynamics,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,fsitherm,ocean seaIce,,area: areacello,,
+2.0,Water Flux into Sea Water ,kg m-2 s-1,computed as the water  flux into the ocean divided by the area of the ocean portion of the grid cell.  This is the sum of the next two variables in this table.,,wfo,water_flux_into_sea_water,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,wfo,ocean,,area: areacello,,
+2.0,Water Flux into Sea Water Without Flux Correction ,kg m-2 s-1,computed as the water  flux (without flux correction) into the ocean divided by the area of the ocean portion of the grid cell.  ,This should probably be the sum of the first 6 variables in this table.,wfonocorr,water_flux_into_sea_water_without_flux_correction,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,wfonocorr,ocean,,area: areacello,,
+2.0,Water Flux Correction ,kg m-2 s-1,Positive flux implies correction adds water to ocean.,"If this does not vary from one year to the next, report only a single year.  ",wfcorr ,water_flux_correction,,kg m-2 s-1,time: mean area: mean where sea,,,,,down,real,longitude latitude time,wfcorr ,ocean,,area: areacello,,
 In CMOR Table Omon: WGOMD Table 2.6,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 2.0,Virtual Salt Flux into Sea Water due to Rainfall ,kg m-2 s-1,,,vsfpr,virtual_salt_flux_into_sea_water_due_to_rainfall,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,vsfpr,ocean,,area: areacello,,
 2.0,Virtual Salt Flux into Sea Water due to Evaporation ,kg m-2 s-1,,,vsfevap,virtual_salt_flux_into_sea_water_due_to_evaporation,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,vsfevap,ocean,,area: areacello,,
 2.0,Virtual Salt Flux into Sea Water From Rivers ,kg m-2 s-1,,,vsfriver,virtual_salt_flux_into_sea_water_from_rivers,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,vsfriver,ocean,,area: areacello,,
 1.0,Virtual Salt Flux into Sea Water due to Sea Ice Thermodynamics ,kg m-2 s-1,This variable measures the virtual salt flux into sea water due to the melting of sea ice. It is set to zero in models which receive a real water flux.,The priority set by the WGOMD was 2 for this field.  The sea-ice folks requested that the priority be raised to 1.,vsfsit,virtual_salt_flux_into_sea_water_due_to_sea_ice_thermodynamics,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude tim [...]
-2.0,Virtual Salt Flux into Sea Water ,kg m-2 s-1,"If this does not vary from one year to the next, report only a single year.  Positive flux implies correction increases salinity of water.  This includes all virtual salt flux, including that due to a salt flux correction.",,vsf,virtual_salt_flux_into_sea_water,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,vsf,ocean,,area: areacello,,
+2.0,Virtual Salt Flux into Sea Water ,kg m-2 s-1,,"If this does not vary from one year to the next, report only a single year.  Positive flux implies correction increases salinity of water.  This includes all virtual salt flux, including that due to a salt flux correction.",vsf,virtual_salt_flux_into_sea_water,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,vsf,ocean,,area: areacello,,
 2.0,Virtual Salt Flux Correction ,kg m-2 s-1,,,vsfcorr ,virtual_salt_flux_correction,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,vsfcorr ,ocean,,area: areacello,,
 1.0,Downward Sea Ice Basal Salt Flux,kg m-2 s-1,"This field is physical, and it arises since sea ice has a nonzero salt content, so it exchanges salt with the liquid ocean upon melting and freezing.",The priority set by the WGOMD was 2 for this field.  The sea-ice folks requested that the priority be raised to 1. ,sfdsi,downward_sea_ice_basal_salt_flux,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,sfdsi,ocean seaIce,,area: areacello,,
 2.0,Salt Flux into Sea Water from Rivers ,kg m-2 s-1,,,sfriver,salt_flux_into_sea_water_from_rivers,,kg m-2 s-1,time: mean area: mean where sea,,,,,,real,longitude latitude time,sfriver,ocean,,area: areacello,,
 In CMOR Table Omon: WGOMD Table 2.7,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-2.0,Upward Geothermal Heat Flux at Sea Floor ,W m-2,,,hfgeou,upward_geothermal_heat_flux_at_sea_floor,,W m-2,time: mean area: whre sea,,,,,up,real,longitude latitude time,hfgeou,ocean,,area: areacello,,
-2.0,Temperature Flux due to Rainfall Expressed as Heat Flux into Sea Water ,W m-2,"This is defined as ""where ice_free_sea over sea""; i.e., compute the total flux (considered here) entering the ice-free portion of the grid cell divided by the area of the ocean portion of the grid cell.",,hfrainds,temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water,,W m-2,time: mean area: mean where ice_free_sea over sea,,,,,down,real,longitude latitude time,hfrainds,ocean,,area: areacello,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+2.0,Upward Geothermal Heat Flux at Sea Floor ,W m-2,,"If this field is time-invariant, then save it instead as one of your ""fixed"" fields (see the fx table)",hfgeou,upward_geothermal_heat_flux_at_sea_floor,,W m-2,time: mean area: mean where sea,,,,,up,real,longitude latitude time,hfgeou,ocean,,area: areacello,,
+2.0,Temperature Flux due to Rainfall Expressed as Heat Flux into Sea Water ,W m-2,"This is defined as ""where ice_free_sea over sea""; i.e., the total flux (considered here) entering the ice-free portion of the grid cell divided by the area of the ocean portion of the grid cell.",,hfrainds,temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water,,W m-2,time: mean area: mean where ice_free_sea over sea,,,,,down,real,longitude latitude time,hfrainds,ocean,,area: areacello,,
 2.0,Temperature Flux due to Evaporation Expressed as Heat Flux Out of Sea Water ,W m-2,"This is defined as ""where ice_free_sea over sea""",,hfevapds,temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water,,W m-2,time: mean area: mean where ice_free_sea over sea,,,,,up,real,longitude latitude time,hfevapds,ocean,,area: areacello,,
-2.0,Temperature Flux due to Runoff Expressed as Heat Flux into Sea Water ,W m-2,"In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",,hfrunoffds,temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water,,W m-2,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,hfrunoffds,ocean,,are [...]
-2.0,Heat Flux into Sea Water due to Snow Thermodynamics ,W m-2,"In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",,hfsnthermds,heat_flux_into_sea_water_due_to_snow_thermodynamics,,W m-2,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,hfsnthermds,ocean,,area: areacello volume: volcello,,
+2.0,Temperature Flux due to Runoff Expressed as Heat Flux into Sea Water ,W m-2,,"In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",hfrunoffds,temperature_flux_due_to_runoff_expressed_as_heat_flux_into_sea_water,,W m-2,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,hfrunoffds,ocean,,are [...]
+2.0,Heat Flux into Sea Water due to Snow Thermodynamics ,W m-2,,"In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",hfsnthermds,heat_flux_into_sea_water_due_to_snow_thermodynamics,,W m-2,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,hfsnthermds,ocean,,area: areacello volume: volcello,,
 ,,,,,,,,,,,,,,,,,,,,,,
-1.0,Heat Flux into Sea Water due to Frazil Ice Formation ,W m-2,"As of May 2010, the WGOMD document recommends that this field should be saved instead of the field listed immediately below.  In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",,hfsifrazil,heat_flux_into_sea_water_due_to_freezing_of_frazil_ice,,W m- [...]
-1.0,Heat Flux into Sea Water due to Sea Ice Thermodynamics ,W m-2,"As of May 2010, the WGOMD document recommends that instead of saving this field, the field listed immediately above should be saved instead.  In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",The priority set by the WGOMD was 2 for this field.  T [...]
-2.0,Heat Flux into Sea Water due to Iceberg Thermodynamics ,W m-2,"In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",,hfibthermds,heat_flux_into_sea_water_due_to_iceberg_thermodynamics,,W m-2,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,hfibthermds,ocean,,area: areacello volume: volcello,,
+1.0,Heat Flux into Sea Water due to Frazil Ice Formation ,W m-2,,"As of May 2010, the WGOMD document recommends that this field should be saved instead of the field listed immediately below.  In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",hfsifrazil,heat_flux_into_sea_water_due_to_freezing_of_frazil_ice,,W m- [...]
+1.0,Heat Flux into Sea Water due to Sea Ice Thermodynamics ,W m-2,,"The priority set by the WGOMD was 2 for this field.  The sea-ice folks requested that the priority be raised to 1.  As of May 2010, the WGOMD document recommends that instead of saving this field, the field listed immediately above should be saved instead.  In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent [...]
+2.0,Heat Flux into Sea Water due to Iceberg Thermodynamics ,W m-2,,"In general this should be reported as a function of depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",hfibthermds,heat_flux_into_sea_water_due_to_iceberg_thermodynamics,,W m-2,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,hfibthermds,ocean,,area: areacello volume: volcello,,
 2.0,Surface Net Downward Longwave Radiation,W m-2,"This is defined as ""where ice_free_sea over sea""",,rlds,surface_net_downward_longwave_flux,,W m-2,time: mean area: mean where ice_free_sea over sea,,,,,down,real,longitude latitude time,rlds,ocean,,area: areacello,,
 2.0,Surface Downward Latent Heat Flux,W m-2,"This is defined as ""where ice_free_sea over sea""",,hfls,surface_downward_latent_heat_flux,,W m-2,time: mean area: mean where ice_free_sea over sea,,,,,down,real,longitude latitude time,hfls,ocean,,area: areacello,,
 2.0,Surface Downward Sensible Heat Flux,W m-2,"This is defined as ""where ice_free_sea over sea""",,hfss,surface_downward_sensible_heat_flux,,W m-2,time: mean area: mean where ice_free_sea over sea,,,,,down,real,longitude latitude time,hfss,ocean,,area: areacello,,
 2.0,Net Downward Shortwave Radiation at Sea Water Surface ,W m-2,"This is the flux into the surface of liquid sea water only. This excludes shortwave flux absorbed by sea ice, but includes any light that passes through the ice and is absorbed by the ocean.",,rsntds,net_downward_shortwave_flux_at_sea_water_surface,,W m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,rsntds,ocean,,area: areacello,,
-2.0,Downwelling Shortwave Radiation in Sea Water ,W m-2,"In general the shortwave flux should be reported as a function of ocean depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",,rsds,downwelling_shortwave_flux_in_sea_water,,W m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude olevel time,rsds,ocean,,area: areacello volume: volcello,,
-2.0,Heat Flux Correction ,W m-2,"If this does not vary from one year to the next, report only a single year.  Positive indicates correction adds heat to ocean.",,hfcorr ,heat_flux_correction,,W m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,hfcorr ,ocean,,area: areacello,,
+2.0,Downwelling Shortwave Radiation in Sea Water ,W m-2,,"In general the shortwave flux should be reported as a function of ocean depth, (i.e.,  it will be a function of the generic ""XYZ"" dimensions).  Include enough depth levels to represent  the non-zero values of this field everywhere on the globe. ",rsds,downwelling_shortwave_flux_in_sea_water,,W m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude olevel time,rsds,ocean,,area: areacello volume: volcello,,
+2.0,Heat Flux Correction ,W m-2,,"If this does not vary from one year to the next, report only a single year.  Positive indicates correction adds heat to ocean.",hfcorr ,heat_flux_correction,,W m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,hfcorr ,ocean,,area: areacello,,
 1.0,Downward Heat Flux at Sea Water Surface,W m-2,"This is the net flux of heat entering the liquid water column through its upper surface (excluding any ""flux adjustment"") .",,hfds,surface_downward_heat_flux_in_sea_water,,W m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,hfds,ocean,,area: areacello,,
 In CMOR Table Omon: WGOMD Table 2.8,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 2.0,Surface Downward X Stress ,N m-2,"This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.",,tauuo ,surface_downward_x_stress,,N m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,tauuo ,ocean,,,,
 2.0,Surface Downward Y Stress ,N m-2,"This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.",,tauvo ,surface_downward_y_stress,,N m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,tauvo ,ocean,,,,
-2.0,Surface Downward X Stress Correction ,N m-2,"This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.  If this does not vary from one year to the next, report only a single year.",,tauucorr ,surface_downward_x_stress_correction,,N m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,tauucorr ,ocean,,,,
-2.0,Surface Downward Y Stress Correction ,N m-2,"This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.  If this does not vary from one year to the next, report only a single year.",,tauvcorr ,surface_downward_y_stress_correction,,N m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,tauvcorr ,ocean,,,,
+2.0,Surface Downward X Stress Correction ,N m-2,"This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc. "," If this does not vary from one year to the next, report only a single year.",tauucorr ,surface_downward_x_stress_correction,,N m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,tauucorr ,ocean,,,,
+2.0,Surface Downward Y Stress Correction ,N m-2,"This is the stress on the liquid ocean from overlying atmosphere, sea ice, ice shelf, etc.  ","If this does not vary from one year to the next, report only a single year.",tauvcorr ,surface_downward_y_stress_correction,,N m-2,time: mean area: mean where sea,,,,,down,real,longitude latitude time,tauvcorr ,ocean,,,,
+Ocean layer depth field requested only from models where it can't be calculated from the vertical coordinate information stored in the file.,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Depth Below Geoid of Ocean Layer,m,,This 3-d time dependent field should only be saved for models where it can't be calculated from the vertical coordinate information stored in the file.,zfull,depth_below_geoid,,m,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,zfull,ocean,,area: areacello ,,
+1.0,Depth Below Geoid of Interfaces Between Ocean Layers,m,,This 3-d time dependent field should only be saved for models where it can't be calculated from the vertical coordinate information stored in the file.,zhalf,depth_below_geoid,,m,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,zhalf,ocean,,area: areacello ,,
 
 
diff --git a/Tables_csv/Oyr.csv b/Tables_csv/Oyr.csv
index 395f828..d5efeed 100644
--- a/Tables_csv/Oyr.csv
+++ b/Tables_csv/Oyr.csv
@@ -12,9 +12,9 @@ In CMOR Table Oyr: 3-D Marine Biogeochemical Tracer Fields,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Dissolved Inorganic Carbon Concentration,mol m-3,Dissolved inorganic carbon (CO3+HCO3+H2CO3) concentration,,dissic,mole_concentration_of_dissolved_inorganic_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dissic,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Dissolved Organic Carbon Concentration,mol m-3,Dissolved organic carbon concentration,,dissoc,mole_concentration_of_dissolved_organic_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dissoc,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Dissolved Organic Carbon Concentration,mol m-3,,,dissoc,mole_concentration_of_dissolved_organic_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dissoc,ocnBgchem,,area: areacello volume: volcello,,
 2.0,Phytoplankton Carbon Concentration,mol m-3,"sum of phytoplankton carbon component concentrations.  In most (all?) cases this is the sum of phycdiat and phycmisc (i.e., ""Diatom Carbon Concentration"" and ""Non-Diatom Phytoplankton Carbon Concentration""",,phyc,mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,phyc,ocnBgchem,,area: areacello volume: volcello,,
 2.0,Zooplankton Carbon Concentration,mol m-3,sum of zooplankton carbon component concentrations,,zooc,mole_concentration_of_zooplankton_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,zooc,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Bacterial Carbon Concentration,mol m-3,sum of bacterial carbon component concentrations,,bacc,mole_concentration_of_bacteria_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,bacc,ocnBgchem,,area: areacello volume: volcello,,
@@ -32,12 +32,12 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 3.0,Other Zooplankton Carbon Concentration,mol m-3,"carbon from additional zooplankton component concentrations alone (e.g. Micro, meso).  Since the models all have different numbers of components, this variable has been included to provide a check for intercomparison between models since some phytoplankton groups are supersets.",,zoocmisc,mole_concentration_of_miscellaneous_zooplankton_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitud [...]
 1.0,Total Alkalinity,mol m-3,"total alkalinity equivalent concentration (including carbonate, nitrogen, silicate, and borate components)",,talk,sea_water_alkalinity_expressed_as_mole_equivalent,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,talk,ocnBgchem,,area: areacello volume: volcello,,
 1.0,pH,1.0,negative log of hydrogen ion concentration with the concentration expressed as mol H kg-1.,,ph,sea_water_ph_reported_on_total_scale,,1.0,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,ph,ocnBgchem,,area: areacello volume: volcello,,
-1.0,Dissolve Oxygen Concentration,mol m-3,dissolved oxygen gas concentration in sea water,,o2,mole_concentration_of_molecular_oxygen_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,o2,ocnBgchem,,area: areacello volume: volcello,,
-1.0,Dissolved Nitrate Concentration,mol m-3,dissolved nitrate concentration in sea water,,no3,mole_concentration_of_nitrate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,no3,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Dissolved Ammonium Concentration,mol m-3,dissolved ammonium concentration in sea water,,nh4,mole_concentration_of_ammonium_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,nh4,ocnBgchem,,area: areacello volume: volcello,,
-1.0,Dissolved Phosphate Concentration,mol m-3,dissolved Phosphate concentration in sea water,,po4,mole_concentration_of_phosphate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,po4,ocnBgchem,,area: areacello volume: volcello,,
+1.0,Dissolve Oxygen Concentration,mol m-3,,,o2,mole_concentration_of_molecular_oxygen_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,o2,ocnBgchem,,area: areacello volume: volcello,,
+1.0,Dissolved Nitrate Concentration,mol m-3,,,no3,mole_concentration_of_nitrate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,no3,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Dissolved Ammonium Concentration,mol m-3,,,nh4,mole_concentration_of_ammonium_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,nh4,ocnBgchem,,area: areacello volume: volcello,,
+1.0,Dissolved Phosphate Concentration,mol m-3,,,po4,mole_concentration_of_phosphate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,po4,ocnBgchem,,area: areacello volume: volcello,,
 1.0,Dissolved Iron Concentration,mol m-3,"dissolved iron in sea water is meant to include both Fe2+ and Fe3+ ions (but not, e.g., particulate detrital iron)",,dfe,mole_concentration_of_dissolved_iron_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dfe,ocnBgchem,,area: areacello volume: volcello,,
-1.0,Dissolved Silicate Concentration,mol m-3,dissolved silicate concentration in sea water,,si,mole_concentration_of_silicate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,si,ocnBgchem,,area: areacello volume: volcello,,
+1.0,Dissolved Silicate Concentration,mol m-3,,,si,mole_concentration_of_silicate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,si,ocnBgchem,,area: areacello volume: volcello,,
 1.0,Total Chlorophyll Mass Concentration,kg m-3,"sum of chlorophyll from all phytoplankton group concentrations.  In most models this is equal to chldiat+chlmisc, that is the sum of ""Diatom Chlorophyll Mass Concentration"" plus ""Other Phytoplankton Chlorophyll Mass Concentration""",,chl,mass_concentration_of_phytoplankton_expressed_as_chlorophyll_in_sea_water,,kg m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,chl,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Diatom Chlorophyll Mass Concentration,kg m-3,chlorophyll from diatom phytoplankton component concentration alone,,chldiat,mass_concentration_of_diatoms_expressed_as_chlorophyll_in_sea_water,,kg m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,chldiat,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Mass Concentration of Diazotrophs expressed as Chlorophyll in Sea Water,kg m-3,chlorophyll concentration from the diazotrophic phytoplankton component alone,,chldiaz,mass_concentration_of_diazotrophs_expressed_as_chlorophyll_in_sea_water,,kg m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,chldiaz,ocnBgchem,,area: areacello volume: volcello,,
@@ -53,27 +53,27 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 3.0,Phytoplankton Phosphorus Concentration,mol m-3,sum of phytoplankton phosphorus components,,phyp,mole_concentration_of_phytoplankton_expressed_as_phosphorus_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,phyp,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Phytoplankton Iron Concentration,mol m-3,sum of phytoplankton iron component concentrations,,phyfe,mole_concentration_of_phytoplankton_expressed_as_iron_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,phyfe,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Phytoplankton Silica Concentration,mol m-3,sum of phytoplankton silica component concentrations,,physi,mole_concentration_of_phytoplankton_expressed_as_silicon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,physi,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Dimethyl Sulphide Concentration,mol m-3,dimethyl sulphide concentration,,dms,mole_concentration_of_dimethyl_sulfide_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dms,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Mole Concentration of Carbonate expressed as Carbon in Sea Water,mol m-3,carbonate ion concentration,,co3,mole_concentration_of_carbonate_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Mole Concentration of Calcite expressed as Carbon in Sea Water at Saturation,mol m-3,carbonate ion concentration at calcite solution saturation,,co3satcalc,mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_at_saturation,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3satcalc,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Mole Concentration of Aragonite expressed as Carbon in Sea Water at Saturation,mol m-3,carbonate ion concentration at aragonite solution saturation,,co3satarag,mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_at_saturation,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3satarag,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Dimethyl Sulphide Concentration,mol m-3,,,dms,mole_concentration_of_dimethyl_sulfide_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dms,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Mole Concentration of Carbonate expressed as Carbon in Sea Water,mol m-3,,,co3,mole_concentration_of_carbonate_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Mole Concentration of Calcite expressed as Carbon in Sea Water at Saturation,mol m-3,,,co3satcalc,mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_at_saturation,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3satcalc,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Mole Concentration of Aragonite expressed as Carbon in Sea Water at Saturation,mol m-3,,,co3satarag,mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_at_saturation,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3satarag,ocnBgchem,,area: areacello volume: volcello,,
 In CMOR Table Oyr: Marine Biogeochemical 3-D Fields:  Rates of Production and Removal,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 3.0,Primary Carbon Production by Phytoplankton,mol m-3 s-1,total primary (organic carbon) production by phytoplankton,,pp,tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pp,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Primary Carbon Production by Phytoplankton due to Nitrate Uptake Alone,mol m-3 s-1,Primary (organic carbon) production by phytoplankton due to nitrate uptake alone,,pnitrate,tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_nitrate_utilization,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pnitrate,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Biogenic Iron Production,mol m-3 s-1,Biogenic iron production,,pbfe,tendency_of_mole_concentration_of_iron_in_sea_water_due_to_biological_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pbfe,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Biogenic Silica Production,mol m-3 s-1,Biogenic silica production,,pbsi,tendency_of_mole_concentration_of_silicon_in_sea_water_due_to_biological_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pbsi,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Calcite Production,mol m-3 s-1,calcite production,,pcalc,tendency_of_mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_due_to_biological_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pcalc,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Aragonite Production,mol m-3 s-1,aragonite production,,parag,tendency_of_mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_due_to_biological_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,parag,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Sinking Particulate Organic Carbon Flux,mol m-2 s-1,sinking flux of organic carbon,,expc,sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expc,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Sinking Particulate Organic Nitrogen Flux,mol m-2 s-1,sinking flux of organic nitrogen,,expn,sinking_mole_flux_of_particulate_organic_nitrogen_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expn,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Sinking Particulate Organic Phosphorus Flux,mol m-2 s-1,sinking flux of organic phosphorus,,expp,sinking_mole_flux_of_particulate_organic_phosphorus_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expp,ocnBgchem,,,,
-3.0,Sinking Particulate Iron Flux,mol m-2 s-1,sinking flux of iron,,expcfe,sinking_mole_flux_of_particulate_iron_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expcfe,ocnBgchem,,,,
-3.0,Sinking Particulate Silica Flux,mol m-2 s-1,sinking flux of silica,,expsi,sinking_mole_flux_of_particulate_silicon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expsi,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Sinking Calcite Flux,mol m-2 s-1,sinking flux of calcite,,expcalc,sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expcalc,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Sinking Aragonite Flux,mol m-2 s-1,sinking flux of aragonite,,exparag,sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,exparag,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Calcite Dissolution,mol m-3 s-1,calcite dissolution,,dcalc,tendency_of_mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_due_to_dissolution,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dcalc,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Aragonite Dissolution,mol m-3 s-1,aragonite dissolution,,darag,tendency_of_mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_due_to_dissolution,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,darag,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Biogenic Iron Production,mol m-3 s-1,,,pbfe,tendency_of_mole_concentration_of_iron_in_sea_water_due_to_biological_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pbfe,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Biogenic Silica Production,mol m-3 s-1,,,pbsi,tendency_of_mole_concentration_of_silicon_in_sea_water_due_to_biological_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pbsi,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Calcite Production,mol m-3 s-1,,,pcalc,tendency_of_mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_due_to_biological_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pcalc,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Aragonite Production,mol m-3 s-1,,,parag,tendency_of_mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_due_to_biological_production,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,parag,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Sinking Particulate Organic Carbon Flux,mol m-2 s-1,,,expc,sinking_mole_flux_of_particulate_organic_matter_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expc,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Sinking Particulate Organic Nitrogen Flux,mol m-2 s-1,,,expn,sinking_mole_flux_of_particulate_organic_nitrogen_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expn,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Sinking Particulate Organic Phosphorus Flux,mol m-2 s-1,,,expp,sinking_mole_flux_of_particulate_organic_phosphorus_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expp,ocnBgchem,,,,
+3.0,Sinking Particulate Iron Flux,mol m-2 s-1,,,expcfe,sinking_mole_flux_of_particulate_iron_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expcfe,ocnBgchem,,,,
+3.0,Sinking Particulate Silica Flux,mol m-2 s-1,,,expsi,sinking_mole_flux_of_particulate_silicon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expsi,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Sinking Calcite Flux,mol m-2 s-1,,,expcalc,sinking_mole_flux_of_calcite_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,expcalc,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Sinking Aragonite Flux,mol m-2 s-1,,,exparag,sinking_mole_flux_of_aragonite_expressed_as_carbon_in_sea_water,,mol m-2 s-1,time: mean area: mean where sea ,,,,,down,real,longitude latitude olevel time,exparag,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Calcite Dissolution,mol m-3 s-1,,,dcalc,tendency_of_mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_due_to_dissolution,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dcalc,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Aragonite Dissolution,mol m-3 s-1,,,darag,tendency_of_mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_due_to_dissolution,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,darag,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Diatom Primary Carbon Production,mol m-3 s-1,Primary (organic carbon) production by the diatom component alone,,pdi,tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_diatoms,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,pdi,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Tendency of Mole Concentration of Organic Carbon in Sea Water due to Net Primary Production by Diazotrophs,mol m-3 s-1,Primary (organic carbon) production by the diazotrophic phytoplankton component alone,,dpocdtdiaz,tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_diazotrophs,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dpocdtdiaz,ocnBgchem,,area: areacello volume: [...]
 3.0,Tendency of Mole Concentration of Organic Carbon in Sea Water due to Net Primary Production by Picophytoplankton,mol m-3 s-1,Primary (organic carbon) production by the calcite-producing phytoplankton component alone,,dpocdtcalc,tendency_of_mole_concentration_of_particulate_organic_matter_expressed_as_carbon_in_sea_water_due_to_net_primary_production_by_calcareous_phytoplankton,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dpocdtcalc,ocnBgchem, [...]
@@ -88,6 +88,13 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 3.0,Rate of Change of Alkalinity due to Biological Activity,mol m-3 s-1,Net of biological terms in time rate of change of alkalinity,,bddtalk,tendency_of_sea_water_alkalinity_expressed_as_mole_equivalent_due_to_biological_processes,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,bddtalk,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Nonbiogenic Iron Scavenging,mol m-3 s-1,Dissolved Fe removed through nonbiogenic scavenging onto particles,,fescav,tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_scavenging_by_inorganic_particles,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,fescav,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Particle Source of Dissolved Iron,mol m-3 s-1,"Dissolution, remineralization and desorption of iron back to the dissolved phase",,fediss,tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_dissolution_from_inorganic_particles,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,fediss,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Total Grazing of Phytoplankton by Zooplankton,mol m-3 s-1,Total grazing of phytoplankton by zooplankton,,graz,tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_grazing_of_phytoplankton,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,graz,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Total Grazing of Phytoplankton by Zooplankton,mol m-3 s-1,,,graz,tendency_of_mole_concentration_of_dissolved_iron_in_sea_water_due_to_grazing_of_phytoplankton,,mol m-3 s-1,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,graz,ocnBgchem,,area: areacello volume: volcello,,
+Ocean layer depth field requested only from models where it can't be calculated from the vertical coordinate information stored in the file.,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+,,,,,,,,,,,,,,,,,,,,,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Depth Below Geoid of Ocean Layer,m,,This 3-d time dependent field should only be saved for models where it can't be calculated from the vertical coordinate information stored in the file.,zfull,depth_below_geoid,,m,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,zfull,ocean,,area: areacello ,,
+1.0,Depth Below Geoid of Interfaces Between Ocean Layers,m,,This 3-d time dependent field should only be saved for models where it can't be calculated from the vertical coordinate information stored in the file.,zhalf,depth_below_geoid,,m,time: mean area: mean where sea,,,,,,real,longitude latitude olevel time,zhalf,ocean,,area: areacello ,,
 
 
diff --git a/Tables_csv/Oyr_tracer.csv b/Tables_csv/Oyr_tracer.csv
index b6d92fc..7733114 100644
--- a/Tables_csv/Oyr_tracer.csv
+++ b/Tables_csv/Oyr_tracer.csv
@@ -1,5 +1,5 @@
 1.0,Dissolved Inorganic Carbon Concentration,mol m-3,Dissolved inorganic carbon (CO3+HCO3+H2CO3) concentration,,dissic,mole_concentration_of_dissolved_inorganic_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dissic,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Dissolved Organic Carbon Concentration,mol m-3,Dissolved organic carbon concentration,,dissoc,mole_concentration_of_dissolved_organic_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dissoc,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Dissolved Organic Carbon Concentration,mol m-3,,,dissoc,mole_concentration_of_dissolved_organic_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dissoc,ocnBgchem,,area: areacello volume: volcello,,
 2.0,Phytoplankton Carbon Concentration,mol m-3,"sum of phytoplankton carbon component concentrations.  In most (all?) cases this is the sum of phycdiat and phycmisc (i.e., ""Diatom Carbon Concentration"" and ""Non-Diatom Phytoplankton Carbon Concentration""",,phyc,mole_concentration_of_phytoplankton_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,phyc,ocnBgchem,,area: areacello volume: volcello,,
 2.0,Zooplankton Carbon Concentration,mol m-3,sum of zooplankton carbon component concentrations,,zooc,mole_concentration_of_zooplankton_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,zooc,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Bacterial Carbon Concentration,mol m-3,sum of bacterial carbon component concentrations,,bacc,mole_concentration_of_bacteria_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,bacc,ocnBgchem,,area: areacello volume: volcello,,
@@ -17,12 +17,12 @@
 3.0,Other Zooplankton Carbon Concentration,mol m-3,"carbon from additional zooplankton component concentrations alone (e.g. Micro, meso).  Since the models all have different numbers of components, this variable has been included to provide a check for intercomparison between models since some phytoplankton groups are supersets.",,zoocmisc,mole_concentration_of_miscellaneous_zooplankton_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitud [...]
 1.0,Total Alkalinity,mol m-3,"total alkalinity equivalent concentration (including carbonate, nitrogen, silicate, and borate components)",,talk,sea_water_alkalinity_expressed_as_mole_equivalent,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,talk,ocnBgchem,,area: areacello volume: volcello,,
 1.0,pH,1.0,negative log of hydrogen ion concentration with the concentration expressed as mol H kg-1.,,ph,sea_water_ph_reported_on_total_scale,,1.0,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,ph,ocnBgchem,,area: areacello volume: volcello,,
-1.0,Dissolve Oxygen Concentration,mol m-3,dissolved oxygen gas concentration in sea water,,o2,mole_concentration_of_molecular_oxygen_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,o2,ocnBgchem,,area: areacello volume: volcello,,
-1.0,Dissolved Nitrate Concentration,mol m-3,dissolved nitrate concentration in sea water,,no3,mole_concentration_of_nitrate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,no3,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Dissolved Ammonium Concentration,mol m-3,dissolved ammonium concentration in sea water,,nh4,mole_concentration_of_ammonium_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,nh4,ocnBgchem,,area: areacello volume: volcello,,
-1.0,Dissolved Phosphate Concentration,mol m-3,dissolved Phosphate concentration in sea water,,po4,mole_concentration_of_phosphate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,po4,ocnBgchem,,area: areacello volume: volcello,,
+1.0,Dissolve Oxygen Concentration,mol m-3,,,o2,mole_concentration_of_molecular_oxygen_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,o2,ocnBgchem,,area: areacello volume: volcello,,
+1.0,Dissolved Nitrate Concentration,mol m-3,,,no3,mole_concentration_of_nitrate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,no3,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Dissolved Ammonium Concentration,mol m-3,,,nh4,mole_concentration_of_ammonium_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,nh4,ocnBgchem,,area: areacello volume: volcello,,
+1.0,Dissolved Phosphate Concentration,mol m-3,,,po4,mole_concentration_of_phosphate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,po4,ocnBgchem,,area: areacello volume: volcello,,
 1.0,Dissolved Iron Concentration,mol m-3,"dissolved iron in sea water is meant to include both Fe2+ and Fe3+ ions (but not, e.g., particulate detrital iron)",,dfe,mole_concentration_of_dissolved_iron_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dfe,ocnBgchem,,area: areacello volume: volcello,,
-1.0,Dissolved Silicate Concentration,mol m-3,dissolved silicate concentration in sea water,,si,mole_concentration_of_silicate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,si,ocnBgchem,,area: areacello volume: volcello,,
+1.0,Dissolved Silicate Concentration,mol m-3,,,si,mole_concentration_of_silicate_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,si,ocnBgchem,,area: areacello volume: volcello,,
 1.0,Total Chlorophyll Mass Concentration,kg m-3,"sum of chlorophyll from all phytoplankton group concentrations.  In most models this is equal to chldiat+chlmisc, that is the sum of ""Diatom Chlorophyll Mass Concentration"" plus ""Other Phytoplankton Chlorophyll Mass Concentration""",,chl,mass_concentration_of_phytoplankton_expressed_as_chlorophyll_in_sea_water,,kg m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,chl,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Diatom Chlorophyll Mass Concentration,kg m-3,chlorophyll from diatom phytoplankton component concentration alone,,chldiat,mass_concentration_of_diatoms_expressed_as_chlorophyll_in_sea_water,,kg m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,chldiat,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Mass Concentration of Diazotrophs expressed as Chlorophyll in Sea Water,kg m-3,chlorophyll concentration from the diazotrophic phytoplankton component alone,,chldiaz,mass_concentration_of_diazotrophs_expressed_as_chlorophyll_in_sea_water,,kg m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,chldiaz,ocnBgchem,,area: areacello volume: volcello,,
@@ -38,7 +38,7 @@
 3.0,Phytoplankton Phosphorus Concentration,mol m-3,sum of phytoplankton phosphorus components,,phyp,mole_concentration_of_phytoplankton_expressed_as_phosphorus_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,phyp,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Phytoplankton Iron Concentration,mol m-3,sum of phytoplankton iron component concentrations,,phyfe,mole_concentration_of_phytoplankton_expressed_as_iron_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,phyfe,ocnBgchem,,area: areacello volume: volcello,,
 3.0,Phytoplankton Silica Concentration,mol m-3,sum of phytoplankton silica component concentrations,,physi,mole_concentration_of_phytoplankton_expressed_as_silicon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,physi,ocnBgchem,,area: areacello volume: volcello,,
-3.0,Dimethyl Sulphide Concentration,mol m-3,dimethyl sulphide concentration,,dms,mole_concentration_of_dimethyl_sulfide_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dms,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Mole Concentration of Carbonate expressed as Carbon in Sea Water,mol m-3,carbonate ion concentration,,co3,mole_concentration_of_carbonate_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Mole Concentration of Calcite expressed as Carbon in Sea Water at Saturation,mol m-3,carbonate ion concentration at calcite solution saturation,,co3satcalc,mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_at_saturation,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3satcalc,ocnBgchem,,area: areacello volume: volcello,,
-2.0,Mole Concentration of Aragonite expressed as Carbon in Sea Water at Saturation,mol m-3,carbonate ion concentration at aragonite solution saturation,,co3satarag,mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_at_saturation,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3satarag,ocnBgchem,,area: areacello volume: volcello,,
+3.0,Dimethyl Sulphide Concentration,mol m-3,,,dms,mole_concentration_of_dimethyl_sulfide_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,dms,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Mole Concentration of Carbonate expressed as Carbon in Sea Water,mol m-3,,,co3,mole_concentration_of_carbonate_expressed_as_carbon_in_sea_water,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Mole Concentration of Calcite expressed as Carbon in Sea Water at Saturation,mol m-3,,,co3satcalc,mole_concentration_of_calcite_expressed_as_carbon_in_sea_water_at_saturation,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3satcalc,ocnBgchem,,area: areacello volume: volcello,,
+2.0,Mole Concentration of Aragonite expressed as Carbon in Sea Water at Saturation,mol m-3,,,co3satarag,mole_concentration_of_aragonite_expressed_as_carbon_in_sea_water_at_saturation,,mol m-3,time: mean area: mean where sea ,,,,,,real,longitude latitude olevel time,co3satarag,ocnBgchem,,area: areacello volume: volcello,,
diff --git a/Tables_csv/aero.csv b/Tables_csv/aero.csv
index 02d4302..a4e2167 100644
--- a/Tables_csv/aero.csv
+++ b/Tables_csv/aero.csv
@@ -12,22 +12,22 @@ In CMOR Table aero: 2-D fields on atmospheric grid,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 ,Aerosol Optics,,,,,,,,,,,,,,,,,,,,,
 1.0,Ambient Aerosol Optical Thickness at 550 nm,1.0,"AOD from the ambient aerosls (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types.",,od550aer,atmosphere_optical_thickness_due_to_ambient_aerosol,,1.0,time: mean,,,,,,real,longitude latitude time,od550aer,aerosol,,area: areacella,,
 1.0,Ambient Fine Aerosol Optical Thickness at 550 nm,1.0,"od550 due to particles with wet diameter less than 1 um  (""ambient"" means ""wetted""). When models do not include explicit size information, it can be assumed that all anthropogenic aerosols and natural secondary aerosols have diameter less than 1 um. ",,od550lt1aer,atmosphere_optical_thickness_due_to_pm1_ambient_aerosol,,1.0,time: mean,,,,,,real,longitude latitude time,od550lt1aer,aerosol,,area: areacella,,
 1.0,Ambient Aerosol Absorption Optical Thickness at 550 nm,1.0,,,abs550aer,atmosphere_absorption_optical_thickness_due_to_ambient_aerosol,,1.0,time: mean,,,,,,real,longitude latitude time,abs550aer,aerosol,,area: areacella,,
 2.0,Ambient Aerosol Optical Thickness at 870 nm,1.0,"AOD from the ambient aerosls (i.e., includes aerosol water).  Does not include AOD from stratospheric aerosols if these are prescribed but includes other possible background aerosol types.",,od870aer,atmosphere_optical_thickness_due_to_ambient_aerosol,,1.0,time: mean,,,,,,real,longitude latitude time,od870aer,aerosol,,area: areacella,,
 ,Aerosol Budgets,,,,,,,,,,,,,,,,,,,,,
-1.0,Rate of Emission and Production of Dry Aerosol Total Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of organic matter dry aerosol due to net production and emission.  This is the sum of total emission of POA and total production of SOA (see next two entries), and it should only be reported if POA and SOA cannot be separately reported. ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. ",,emioa,tendency_of_atmosphere_mass_content_of_partic [...]
+1.0,Rate of Emission and Production of Dry Aerosol Total Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of organic matter dry aerosol due to net production and emission.  This is the sum of total emission of POA and total production of SOA (see next two entries). ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. ",This should only be reported if POA and SOA cannot be separately reported.,emioa,tendency_of_atmosphere_mass_content_of_particula [...]
 1.0,Emission Rate of Dry Aerosol Primary Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of primary organic aerosol due to emission:  ""mass"" refers to the mass of primary organic matter, not mass of organic carbon alone.","In a previous message you said production referred to SOA, not POA, so I've removed ""production"" here and only use ""emission"".  Is this o.k.?",emipoa,tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_emiss [...]
-1.0,Production Rate of Dry Aerosol Secondary Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of secondary organic matter_dry aerosol due to net production:  If model lumps SOA emissions with POA, then report the sum of POA and SOA emissions as POA emissions.  ""mass"" refers to the mass of primary organic matter, not mass of organic carbon alone.",,chepsoa,tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_net_chemical_production [...]
+1.0,Production Rate of Dry Aerosol Secondary Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of secondary organic matter_dry aerosol due to net production:  If model lumps SOA emissions with POA, then the sum of POA and SOA emissions is reported as POA emissions.  ""mass"" refers to the mass of primary organic matter, not mass of organic carbon alone.",,chepsoa,tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_net_chemical_produ [...]
 1.0,Emission Rate of Black Carbon Aerosol Mass,kg m-2 s-1,,,emibc,tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_emission,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,emibc,aerosol,,area: areacella,,
-3.0,Dry Deposition Rate of Dry Aerosol Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of organic dry aerosol due to dry deposition: This is the sum of dry deposition of POA and dry deposition of SOA (see next two entries), and it should only be reported if POA and SOA cannot be separately reported. ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. ",,dryoa,tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_d [...]
+3.0,Dry Deposition Rate of Dry Aerosol Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of organic dry aerosol due to dry deposition: This is the sum of dry deposition of POA and dry deposition of SOA (see next two entries). ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. ", This should only be reported if POA and SOA cannot be separately reported.,dryoa,tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due_to_dry [...]
 3.0,Dry Deposition Rate of Dry Aerosol Primary Organic Matter,kg m-2 s-1,,,drypoa,tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,drypoa,aerosol,,area: areacella,,
 3.0,Dry Deposition Rate of Dry Aerosol Secondary Organic Matter,kg m-2 s-1,,,drysoa,tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,drysoa,aerosol,,area: areacella,,
 3.0,Dry Deposition Rate of Black Carbon Aerosol Mass,kg m-2 s-1,,,drybc,tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,drybc,aerosol,,area: areacella,,
-3.0,Wet Deposition Rate of Dry Aerosol Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of organic matter dry aerosols due to wet deposition: This is the sum of wet deposition of POA and wet deposition of SOA (see next two entries), and it should only be reported if POA and SOA cannot be separately reported. ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. ",,wetoa,tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_ [...]
+3.0,Wet Deposition Rate of Dry Aerosol Organic Matter,kg m-2 s-1,"tendency of atmosphere mass content of organic matter dry aerosols due to wet deposition: This is the sum of wet deposition of POA and wet deposition of SOA (see next two entries). ""Mass"" refers to the mass of organic matter, not mass of organic carbon alone. ",This should only be reported if POA and SOA cannot be separately reported.,wetoa,tendency_of_atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol_due [...]
 3.0,Wet Deposition Rate of Dry Aerosol Primary Organic Matter,kg m-2 s-1,,,wetpoa,tendency_of_atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol_due_to_wet_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,wetpoa,aerosol,,area: areacella,,
 3.0,Wet Deposition Rate of Dry Aerosol Secondary Organic Matter,kg m-2 s-1,,,wetsoa,tendency_of_atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol_due_to_wet_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,wetsoa,aerosol,,area: areacella,,
 3.0,Wet Deposition Rate of Black Carbon Aerosol Mass,kg m-2 s-1,,,wetbc,tendency_of_atmosphere_mass_content_of_black_carbon_dry_aerosol_due_to_wet_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,wetbc,aerosol,,area: areacella,,
@@ -37,10 +37,10 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Total Emission Rate of DMS,kg m-2 s-1,,,emidms,tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_emission,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,emidms,aerosol,,area: areacella,,
 3.0,Dry Deposition Rate of SO2,kg m-2 s-1,,,dryso2,tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,dryso2,aerosol,,area: areacella,,
 1.0,Dry Deposition Rate of SO4,kg m-2 s-1,,,dryso4,tendency_of_atmosphere_mass_content_of_sulfate_dry_aerosol_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,dryso4,aerosol,,area: areacella,,
-3.0,Dry Deposition Rate of DMS,kg m-2 s-1,omit if DMS is not dry deposited in the model.,,drydms,tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,drydms,aerosol,,area: areacella,,
+3.0,Dry Deposition Rate of DMS,kg m-2 s-1,,omit if DMS is not dry deposited in the model.,drydms,tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,drydms,aerosol,,area: areacella,,
 1.0,Wet Deposition Rate of SO4,kg m-2 s-1,,,wetso4,tendency_of_atmosphere_mass_content_of_sulfate_expressed_as_sulfur_dry_aerosol_due_to_wet_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,wetso4,aerosol,,area: areacella,,
 3.0,Wet Deposition Rate of SO2,kg m-2 s-1,,,wetso2,tendency_of_atmosphere_mass_content_of_sulfur_dioxide_due_to_wet_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,wetso2,aerosol,,area: areacella,,
-3.0,Wet Deposition Rate of DMS,kg m-2 s-1,omit if DMS is not wet deposited in the model.,,wetdms,tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_wet_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,wetdms,aerosol,,area: areacella,,
+3.0,Wet Deposition Rate of DMS,kg m-2 s-1,,omit if DMS is not wet deposited in the model.,wetdms,tendency_of_atmosphere_mass_content_of_dimethyl_sulfide_due_to_wet_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,wetdms,aerosol,,area: areacella,,
 1.0,Total Emission Rate of NH3,kg m-2 s-1,,,eminh3,tendency_of_atmosphere_mass_content_of_ammonia_due_to_emission,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,eminh3,aerosol,,area: areacella,,
 3.0,Dry Deposition Rate of NH3,kg m-2 s-1,,,drynh3,tendency_of_atmosphere_mass_content_of_ammonia_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,drynh3,aerosol,,area: areacella,,
 1.0,Dry Deposition Rate of NH4,kg m-2 s-1,,,drynh4,tendency_of_atmosphere_mass_content_of_ammonium_dry_aerosol_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,drynh4,aerosol,,area: areacella,,
@@ -52,7 +52,7 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Dry Deposition Rate of Dust,kg m-2 s-1,,,drydust,tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_dry_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,drydust,aerosol,,area: areacella,,
 1.0,Wet Deposition Rate of Dust,kg m-2 s-1,,,wetdust,tendency_of_atmosphere_mass_content_of_dust_dry_aerosol_due_to_wet_deposition,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,wetdust,aerosol,,area: areacella,,
 ,Aerosol Loads,,,,,,,,,,,,,,,,,,,,,
-1.0,Load of Dry Aerosol Organic Matter,kg m-2,"atmosphere dry organic content: This is the vertically integrated sum of atmosphere_primary_organic_content and atmosphere_secondary_organic_content (see next two table entries), and therefore should only be reported if those two components cannot be separately reported. ",,loadoa,atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol,,kg m-2,time: mean,,,,,,real,longitude latitude time,loadoa,aerosol,,area: areacella,,
+1.0,Load of Dry Aerosol Organic Matter,kg m-2,atmosphere dry organic content: This is the vertically integrated sum of atmosphere_primary_organic_content and atmosphere_secondary_organic_content (see next two table entries)., This should only be reported if  the components specified in the next two entries of this table cannot be separately reported. ,loadoa,atmosphere_mass_content_of_particulate_organic_matter_dry_aerosol,,kg m-2,time: mean,,,,,,real,longitude latitude time,loadoa,aeros [...]
 1.0,Load of Dry Aerosol Primary Organic Matter,kg m-2,,,loadpoa,atmosphere_mass_content_of_primary_particulate_organic_matter_dry_aerosol,,kg m-2,time: mean,,,,,,real,longitude latitude time,loadpoa,aerosol,,area: areacella,,
 1.0,Load of Dry Aerosol Secondary Organic Matter,kg m-2,,,loadsoa,atmosphere_mass_content_of_secondary_particulate_organic_matter_dry_aerosol,,kg m-2,time: mean,,,,,,real,longitude latitude time,loadsoa,aerosol,,area: areacella,,
 1.0,Load of Black Carbon Aerosol,kg m-2,,,loadbc,atmosphere_mass_content_of_black_carbon_dry_aerosol,,kg m-2,time: mean,,,,,,real,longitude latitude time,loadbc,aerosol,,area: areacella,,
@@ -62,33 +62,33 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Load of NO3,kg m-2,,,loadno3,atmosphere_mass_content_of_nitrate_dry_aerosol,,kg m-2,time: mean,,,,,,real,longitude latitude time,loadno3,aerosol,,area: areacella,,
 3.0,Load of NH4,kg m-2,,,loadnh4,atmosphere_mass_content_of_ammonium_dry_aerosol,,kg m-2,time: mean,,,,,,real,longitude latitude time,loadnh4,aerosol,,area: areacella,,
 ,Surface Concentrations,,,,,,,,,,,,,,,,,,,,,
-3.0,Surface Concentration of Dry Aerosol Organic Matter,kg m-3,"mass concentration of particulate organic matter dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  This is the sum of concentrations of primary and secondary organic aerosol (see next two table entries), and therefore should only be reported if those two components cannot be separately reported.",,sconcoa,mass_concentration_of_particulate_organi [...]
-3.0,Surface Concentration of Dry Aerosol Primary Organic Matter,kg m-3,mass concentration of primary particulate organic matter dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  ,,sconcpoa,mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcpoa,aerosol,,area: areacella,,
-3.0,Surface Concentration of Dry Aerosol Secondary Organic Matter,kg m-3,"mass concentration of secondary particulate organic matter dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  If the model lumps SOA with POA, then report their sum as POA.",,sconcsoa,mass_concentration_of_secondary_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcsoa,aerosol, [...]
-3.0,Surface Concentration of Black Carbon Aerosol,kg m-3,mass concentration of black carbon dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  ,,sconcbc,mass_concentration_of_black_carbon_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcbc,aerosol,,area: areacella,,
-3.0,Surface Concentration of SO4,kg m-3,mass concentration of sulfate dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  ,,sconcso4,mass_concentration_of_sulfate_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcso4,aerosol,,area: areacella,,
-3.0,Surface Concentration of Dust,kg m-3,mass concentration of dust dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  ,,sconcdust,mass_concentration_of_dust_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcdust,aerosol,,area: areacella,,
-3.0,Surface Concentration of Seasalt,kg m-3,mass concentration of seasalt dry aerosol in air in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  ,,sconcss,mass_concentration_of_seasalt_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcss,aerosol,,area: areacella,,
-3.0,Surface Concentration of NO3,kg m-3,Mass concentration in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  ,,sconcno3,mass_concentration_of_nitrate_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcno3,aerosol,,area: areacella,,
-3.0,Surface Concentration of NH4,kg m-3,Mass concentration in model lowest layer (The location of the model's lowest layer should be recorded in the netCDF output file).  ,,sconcnh4,mass_concentration_of_ammonium_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcnh4,aerosol,,area: areacella,,
+3.0,Surface Concentration of Dry Aerosol Organic Matter,kg m-3,mass concentration of particulate organic matter dry aerosol in air in model lowest layer ,"The location of the model's lowest layer should be recorded in the netCDF output file.  This is the sum of concentrations of primary and secondary organic aerosol (see next two table entries), and therefore should only be reported if those two components cannot be separately reported.",sconcoa,mass_concentration_of_particulate_organic_ [...]
+3.0,Surface Concentration of Dry Aerosol Primary Organic Matter,kg m-3,mass concentration of primary particulate organic matter dry aerosol in air in model lowest layer, The location of the model's lowest layer should be recorded in the netCDF output file.  ,sconcpoa,mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcpoa,aerosol,,area: areacella,,
+3.0,Surface Concentration of Dry Aerosol Secondary Organic Matter,kg m-3,"mass concentration of secondary particulate organic matter dry aerosol in air in model lowest layer.  If the model lumps SOA with POA, then their sum is reported as POA.", The location of the model's lowest layer should be recorded in the netCDF output file.  ,sconcsoa,mass_concentration_of_secondary_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcsoa,ae [...]
+3.0,Surface Concentration of Black Carbon Aerosol,kg m-3,mass concentration of black carbon dry aerosol in air in model lowest layer , The location of the model's lowest layer should be recorded in the netCDF output file.  ,sconcbc,mass_concentration_of_black_carbon_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcbc,aerosol,,area: areacella,,
+3.0,Surface Concentration of SO4,kg m-3,mass concentration of sulfate dry aerosol in air in model lowest layer.  , The location of the model's lowest layer should be recorded in the netCDF output file.  ,sconcso4,mass_concentration_of_sulfate_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcso4,aerosol,,area: areacella,,
+3.0,Surface Concentration of Dust,kg m-3,mass concentration of dust dry aerosol in air in model lowest layer , The location of the model's lowest layer should be recorded in the netCDF output file.  ,sconcdust,mass_concentration_of_dust_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcdust,aerosol,,area: areacella,,
+3.0,Surface Concentration of Seasalt,kg m-3,mass concentration of seasalt dry aerosol in air in model lowest layer , The location of the model's lowest layer should be recorded in the netCDF output file.  ,sconcss,mass_concentration_of_seasalt_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcss,aerosol,,area: areacella,,
+3.0,Surface Concentration of NO3,kg m-3,Mass concentration in model lowest layer, The location of the model's lowest layer should be recorded in the netCDF output file.  ,sconcno3,mass_concentration_of_nitrate_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcno3,aerosol,,area: areacella,,
+3.0,Surface Concentration of NH4,kg m-3,Mass concentration in model lowest layer, The location of the model's lowest layer should be recorded in the netCDF output file.  ,sconcnh4,mass_concentration_of_ammonium_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,real,longitude latitude alev1 time,sconcnh4,aerosol,,area: areacella,,
 ,Clouds and Radiation,,,,,,,,,,,,,,,,,,,,,
-2.0,Surface Diffuse Dowwelling Shortwave Radiation,W m-2,downwelling_diffuse_shortwave_flux_in_air,,rsdsdiff,surface_diffuse_downwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,,real,longitude latitude time,rsdsdiff,aerosol land,,area: areacella,,
-2.0,Surface Diffuse Downwelling Clear Sky Shortwave Radiation,W m-2,downwelling_diffuse_shortwave_flux_in_air_assuming_clear_sky,,rsdscsdiff,diffuse_downwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,,real,longitude latitude time,rsdscsdiff,aerosol land,,area: areacella,,
-1.0,Cloud-Top Effective Droplet Radius,m,"Droplets are liquid only.  Report effective radius ""as seen from space"" over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, it is better to sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total liquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly mean.",,reffclw [...]
+2.0,Surface Diffuse Downwelling Shortwave Radiation,W m-2,,,rsdsdiff,surface_diffuse_downwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,,real,longitude latitude time,rsdsdiff,aerosol land,,area: areacella,,
+2.0,Surface Diffuse Downwelling Clear Sky Shortwave Radiation,W m-2,,,rsdscsdiff,surface_diffuse_downwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,,real,longitude latitude time,rsdscsdiff,aerosol land,,area: areacella,,
+1.0,Cloud-Top Effective Droplet Radius,m,"Droplets are liquid only.  This is the effective radius ""as seen from space"" over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, or for some models it is the sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Reported values are weighted by total liquid cloud top fraction of  (as seen from TOA) each time sampl [...]
 1.0,Cloud Droplet Number Concentration of Cloud Tops,m-3,"Droplets are liquid only.  Report concentration ""as seen from space"" over liquid cloudy portion of grid cell.  This is the value from uppermost model layer with liquid cloud or, if available, it is better to sum over all liquid cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total liquid cloud top fraction of  (as seen from TOA) each time sample when computing monthly me [...]
-1.0,Ice Crystal Number Concentration of Cloud Tops,m-3,"Report concentration ""as seen from space"" over ice-cloud portion of grid cell.  This is the value from uppermost model layer with ice cloud or, if available, it is better to sum over all ice cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total ice cloud top fraction (as seen from TOA) of each time sample when computing monthly mean.",,cldnci,number_concentration_of_ice_cr [...]
-1.0,Column Integrated Cloud Droplet Number,m-2,Droplets are liquid only.  Weight by liquid cloud fraction in each layer when vertically integrating.  Weight by total liquid cloud fraction (as seen from TOA) when reporting monthly mean,,cldnvi,atmosphere_number_content_of_cloud_droplets,,m-2,time: mean,,,,,,real,longitude latitude time,cldnvi,aerosol,,area: areacella,,
+1.0,Ice Crystal Number Concentration of Cloud Tops,m-3,"concentration ""as seen from space"" over ice-cloud portion of grid cell.  This is the value from uppermost model layer with ice cloud or, if available, it is the sum over all ice cloud tops, no matter where they occur, as long as they are seen from the top of the atmosphere. Weight by total ice cloud top fraction (as seen from TOA) of each time sample when computing monthly mean.",,cldnci,number_concentration_of_ice_crystals_in_air [...]
+1.0,Column Integrated Cloud Droplet Number,m-2,"Droplets are liquid only.  Values are weighted by liquid cloud fraction in each layer when vertically integrating, and for monthly means the samples are weighted by total liquid cloud fraction (as seen from TOA).",,cldnvi,atmosphere_number_content_of_cloud_droplets,,m-2,time: mean,,,,,,real,longitude latitude time,cldnvi,aerosol,,area: areacella,,
 In CMOR Table aero: 3-D aerosol-related concentrations and properties on model levels,,,,,,,,,,,,,,,,,,,,,,
 "Report 1-year samples for years: 1850, 1870, 1890, ..., 1950, 1960, 1970, ... 2000 of the historical run, and 2010, 2020, 2040, 2060, 2080, 2100 of the RCP runs.  For AMIP runs, report 1-year samples every 10 years (1980, 1990, ..., 2010).  For 2030 time-slice run, report 1-year sample for year 2035.  For decadal runs, report 10th year only for 10-year predictions or hindcasts, and report year 10, 20, and 30 for 30-year predictions and hindcasts.  Also report years 2010, 2011, and 2012  [...]
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Ambient Aerosol Extinction at 550 nm,m-1,"atmosphere_extinction_due_to_ambient_aerosol: ""ambient"" means ""wetted"".  This and other fields in this table are 3-D.",,ec550aer,,atmosphere_extinction_due_to_ambient_aerosol,m-1,time: mean,,,,,,,longitude latitude alevel time,ec550aer,aerosol,,area: areacella,,
-1.0,Concentration of Dry Aerosol Organic Matter,kg m-3,"mass_concentration_of_organic_matter_dry_aerosol_in_air mass concentration of organic matter dry aerosol in air:  This is the sum of concentrations of primary and secondary organic aerosols (see next two table entries), and therefore should only be reported if those two components cannot be separately reported. ",,concoa,mass_concentration_of_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude a [...]
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Ambient Aerosol Extinction at 550 nm,m-1,"""ambient"" means ""wetted"".  ",This and other fields in this table are 3-D.,ec550aer,volume_extinction_coefficient_in_air_due_to_ambient_aerosol,atmosphere_extinction_due_to_ambient_aerosol,m-1,time: mean,,,,,,,longitude latitude alevel time,ec550aer,aerosol,,area: areacella,,
+1.0,Concentration of Dry Aerosol Organic Matter,kg m-3,,"This is the sum of concentrations of primary and secondary organic aerosols (see next two table entries), and therefore should only be reported if those two components cannot be separately reported. ",concoa,mass_concentration_of_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concoa,aerosol,,area: areacella,,
 1.0,Concentration of Dry Aerosol Primary Organic Matter,kg m-3,,,concpoa,mass_concentration_of_primary_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concpoa,aerosol,,area: areacella,,
-1.0,Concentration of Dry Aerosol Secondary Organic Matter,kg m-3,"mass concentration of secondary particulate organic matter dry aerosol in air:  If the model lumps SOA with POA, then report their sum as POA.",,concsoa,mass_concentration_of_secondary_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concsoa,aerosol,,area: areacella,,
-1.0,Concentration of Biomass Burning Aerosol,kg m-3,mass_concentration_of_biomass_burning_dry_aerosol_in_air,,concbb,mass_concentration_of_biomass_burning_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concbb,aerosol,,area: areacella,,
+1.0,Concentration of Dry Aerosol Secondary Organic Matter,kg m-3,,"If the model lumps SOA with POA, then report their sum as POA.",concsoa,mass_concentration_of_secondary_particulate_organic_matter_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concsoa,aerosol,,area: areacella,,
+1.0,Concentration of Biomass Burning Aerosol,kg m-3,,,concbb,mass_concentration_of_biomass_burning_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concbb,aerosol,,area: areacella,,
 1.0,Concentration of Black Carbon Aerosol,kg m-3,,,concbc,mass_concentration_of_black_carbon_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concbc,aerosol,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,,,
-1.0,Concentration of Aerosol Water ,kg m-3,"mass concentration of water in ambient aerosol in air: ""ambient"" means ""wetted""",,concaerh2o,mass_concentration_of_water_in_ambient_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concaerh2o,aerosol,,area: areacella,,
+1.0,Concentration of Aerosol Water ,kg m-3,"""ambient"" means ""wetted""",,concaerh2o,mass_concentration_of_water_in_ambient_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concaerh2o,aerosol,,area: areacella,,
 1.0,Concentration of SO4,kg m-3,,,concso4,mass_concentration_of_sulfate_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concso4,aerosol,,area: areacella,,
 1.0,Mole Fraction of SO2,1.0,,,concso2,mole_fraction_of_sulfur_dioxide_in_air,,1.0,time: mean,,,,,,,longitude latitude alevel time,concso2,aerosol,,area: areacella,,
 1.0,Mole Fraction of DMS,1.0,,,concdms,mole_fraction_of_dimethyl_sulfide_in_air,,1.0,time: mean,,,,,,,longitude latitude alevel time,concdms,aerosol,,area: areacella,,
@@ -96,9 +96,9 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Concentration of NH4 ,kg m-3,,,concnh4,mass_concentration_of_ammonium_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concnh4,aerosol,,area: areacella,,
 1.0,Concentration of Seasalt ,kg m-3,,,concss,mass_concentration_of_seasalt_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concss,aerosol,,area: areacella,,
 1.0,Concentration of Dust ,kg m-3,,,concdust,mass_concentration_of_dust_dry_aerosol_in_air,,kg m-3,time: mean,,,,,,,longitude latitude alevel time,concdust,aerosol,,area: areacella,,
-2.0,Aerosol Number Concentration,m-3,number_concentration_of_ambient_aerosol_in_air,,conccn,number_concentration_of_ambient_aerosol_in_air,,m-3,time: mean,,,,,,,longitude latitude alevel time,conccn,aerosol,,area: areacella,,
-3.0,Number Concentration of Nucleation Mode Aerosol,m-3,number_concentration_of_ambient_aerosol_in_nucleation_mode_in_air: include all particles with diameter smaller than 3 nm,,concnmcn,number_concentration_of_nucleation_mode_ambient_aerosol_in_air,,m-3,time: mean,,,,,,,longitude latitude alevel time,concnmcn,aerosol,,area: areacella,,
-2.0,Number Concentration Coarse Mode Aerosol,m-3,number_concentration_of_ambient_aerosol_in_coarse_mode_in_air: include all particles with diameter larger than 1 micron,,conccmcn,number_concentration_of_coarse_mode_ambient_aerosol_in_air,,m-3,time: mean,,,,,,,longitude latitude alevel time,conccmcn,aerosol,,area: areacella,,
+2.0,Aerosol Number Concentration,m-3,,,conccn,number_concentration_of_ambient_aerosol_in_air,,m-3,time: mean,,,,,,,longitude latitude alevel time,conccn,aerosol,,area: areacella,,
+3.0,Number Concentration of Nucleation Mode Aerosol,m-3,includes all particles with diameter smaller than 3 nm,,concnmcn,number_concentration_of_nucleation_mode_ambient_aerosol_in_air,,m-3,time: mean,,,,,,,longitude latitude alevel time,concnmcn,aerosol,,area: areacella,,
+2.0,Number Concentration Coarse Mode Aerosol,m-3,includes all particles with diameter larger than 1 micron,,conccmcn,number_concentration_of_coarse_mode_ambient_aerosol_in_air,,m-3,time: mean,,,,,,,longitude latitude alevel time,conccmcn,aerosol,,area: areacella,,
 1.0,Stratiform Cloud Droplet Effective Radius,m,"Droplets are liquid.  The effective radius is defined as the ratio of the third moment over the second moment of the particle size distribution and the time-mean should be calculated, weighting the individual samples by the cloudy fraction of the grid cell.",,reffclws,effective_radius_of_stratiform_cloud_liquid_water_particle,,m,time: mean,,,,,,,longitude latitude alevel time,reffclws,aerosol,,area: areacella,,
 1.0,Convective Cloud Droplet Effective Radius,m,"Droplets are liquid.  The effective radius is defined as the ratio of the third moment over the second moment of the particle size distribution and the time-mean should be calculated, weighting the individual samples by the cloudy fraction of the grid cell.",,reffclwc,effective_radius_of_convective_cloud_liquid_water_particle,,m,time: mean,,,,,,,longitude latitude alevel time,reffclwc,aerosol,,area: areacella,,
 1.0,Cloud Droplet Number Concentration,m-3,Cloud droplet number concentration in liquid clouds,Weighted by the liquid cloud fraction.,cdnc,number_concentration_of_cloud_liquid_water_particles_in_air,,m-3,time: mean,,,,,,,longitude latitude alevel time,cdnc,aerosol,,area: areacella,,
diff --git a/Tables_csv/cf3hr.csv b/Tables_csv/cf3hr.csv
index 944dbcf..b9f9770 100644
--- a/Tables_csv/cf3hr.csv
+++ b/Tables_csv/cf3hr.csv
@@ -13,42 +13,42 @@ CMOR Table cf3hr: CFMIP 3-Hourly Cloud Diagnostic Fields,,,,,cf3hr,3hr,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 "(For most of these variables, extract simulator input variables from models along A-train orbits, and run COSP on these in 'offline' mode.)",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,CALIPSO Cloud Area Fraction,%,(40 height levels),,  clcalipso ,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,location alt40 time1,  clcalipso ,atmos,,,,
-1.0,CALIPSO Cloud Fraction Undetected by CloudSat,%,(40 height levels)  Clouds detected by CALIPSO but below the detectability threshold of CloudSat,,clcalipso2  ,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,location alt40 time1,clcalipso2  ,atmos,,,,
-1.0,CloudSat Radar Reflectivity CFAD,1.0,CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  (40 levelsx15 bins) .,,cfadDbze94,histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid,,1.0,time: point,,,,,,real,location alt40 dbze time1,cfadDbze94,atmos,,,,
-1.0,CALIPSO Scattering Ratio CFAD,1.0,CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  (40 levelsx15 bins) .,,cfadLidarsr532,histogram_of_backscattering_ratio_over_height_above_reference_ellipsoid,,1.0,time: point,,,,,,real,location alt40 scatratio time1,cfadLidarsr532,atmos,,,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,CALIPSO Cloud Area Fraction,%,,at 40 height levels,  clcalipso ,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,location alt40 time1,  clcalipso ,atmos,,,,
+1.0,CALIPSO Cloud Fraction Undetected by CloudSat,%,Clouds detected by CALIPSO but below the detectability threshold of CloudSat,at 40 height levels,clcalipso2  ,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,location alt40 time1,clcalipso2  ,atmos,,,,
+1.0,CloudSat Radar Reflectivity CFAD,1.0,CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.,40 levels x 15 bins,cfadDbze94,histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid,,1.0,time: point,,,,,,real,location alt40 dbze time1,cfadDbze94,atmos,,,,
+1.0,CALIPSO Scattering Ratio CFAD,1.0,CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.,40 levels x 15 bins,cfadLidarsr532,histogram_of_backscattering_ratio_over_height_above_reference_ellipsoid,,1.0,time: point,,,,,,real,location alt40 scatratio time1,cfadLidarsr532,atmos,,,,
 1.0,PARASOL Reflectance,1.0,Simulated reflectance from PARASOL as seen at the top of the atmosphere for 5 solar zenith angles. Valid only over ocean and for one viewing direction (viewing zenith angle of 30 degrees and relative azimuth angle 320 degrees).,,parasolRefl,toa_bidirectional_reflectance,,1.0,time: point,,,,,,real,location sza5 time1,parasolRefl,atmos,,,,
 1.0,CALIPSO Total Cloud Fraction ,%,,,cltcalipso,cloud_area_fraction,,%,time: point,,,,,,real,location time1,cltcalipso,atmos,,,,
 1.0,CALIPSO Low Level Cloud Fraction ,%,,,cllcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,location time1 p840,cllcalipso,atmos,,,,
 1.0,CALIPSO Mid Level Cloud Fraction ,%,,,clmcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,location time1 p560,clmcalipso,atmos,,,,
 1.0,CALIPSO High Level Cloud Fraction ,%,,,clhcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,location time1 p220,clhcalipso,atmos,,,,
-1.0,Longitude,degrees_east,"is a function of time.  Note that the CF convention and CMOR2 require that this field will be included in each file that contains a variable that is a function of the ""location"" dimension, so there is no need to save this field by itself.",,lon,longitude,,degrees_east,time: point,0.0,360.0,,,,real,location time1,longitude,atmos,,,,
-1.0,Latitude,degrees_north,the above comment also applies to latitude.,,lat,latitude,,degrees_north,time: point,-90.0,90.0,,,,real,location time1,latitude,atmos,,,,
+1.0,Longitude,degrees_east,,"is a function of time.  Note that the CF convention and CMOR2 require that this field will be included in each file that contains a variable that is a function of the ""location"" dimension, so there is no need to save this field by itself.",lon,longitude,,degrees_east,time: point,0.0,360.0,,,,real,location time1,longitude,atmos,,,,
+1.0,Latitude,degrees_north,,the above comment also applies to latitude.,lat,latitude,,degrees_north,time: point,-90.0,90.0,,,,real,location time1,latitude,atmos,,,,
 1.0,Offset Time,day,"this ""offset time"" should be added to the value stored in the ""time dimension"" to get the actual time.  This actual time is the time (UTC) of the corresponding point in the satellite orbit used to extract the model data.",,toffset,time,,day,,,,,,,real,location time1,toffset,atmos,,,,
 "In CMOR Table cf3hr: ""CFMIP 3-hourly inline"" -- 2-D fields as specified in the Amon table plus convective cloud fraction and 3-D fields on model levels (or half levels, as indicated) sampled synoptically every 3 hours (i.e., not time-mean) at 0Z, 3Z, 6Z, 9Z, 12Z, 15Z, 18Z, and 21Z.",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,(use names for Amon 2D table),,"This table includes all the 2-D variables listed in the Amon table, omitting, however, the daily maximum and minimum temperatures.  All variables should be reported as synoptic fields, not daily means.  ",,include Amon 2D,,,,time: point,,,,,,real,longitude latitude time1,,atmos,,area: areacella,,
-1.0,Convective Cloud Fraction,%,"for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include only convective cloud.  Besides the quantities from the Amon table, this is the only other 2-D field in this table.",,cltc,convective_cloud_area_fraction,,%,time: point,0.0,100.0,,,,real,longitude latitude time1,cltc,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,(use names for Amon 2D table),,,"This table includes all the 2-D variables listed in the Amon table, omitting, however, the daily maximum and minimum temperatures.  All variables should be reported as synoptic fields, not daily means.  ",include Amon 2D,,,,time: point,,,,,,real,longitude latitude time1,,atmos,,area: areacella,,
+1.0,Convective Cloud Fraction,%,"for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes only convective cloud.  ","Besides the quantities from the Amon table, this is the only other 2-D field in this table.",cltc,convective_cloud_area_fraction,,%,time: point,0.0,100.0,,,,real,longitude latitude time1,cltc,atmos,,area: areacella,,
 2.0,Altitude of Model Full-Levels,m,"This is actual height above mean sea level, not geopotential height",,zfull,height_above_reference_ellipsoid,,m,time: point,,,,,,real,longitude latitude alevel time1,zfull,atmos,,area: areacella,,
-2.0,Altitude of Model Half-Levels,m,"This is actual height above mean sea level, not geopotential height.  This is actual height above mean sea level, not geopotential height.  Include both the top of the model atmosphere and surface levels.",,zhalf,height_above_reference_ellipsoid,,m,time: point,,,,,,real,longitude latitude alevhalf time1,zhalf,atmos,,area: areacella,,
-2.0,Pressure at Model Full-Levels,Pa,"provide this field for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",,pfull,air_pressure,,Pa,time: point,,,,,,real,longitude latitude alevel time1,pfull,atmos,,area: areacella,,
-2.0,Pressure at Model Half-Levels,Pa,"provide this field for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",,phalf,air_pressure,,Pa,time: point,,,,,,real,longitude latitude alevhalf time1,phalf,atmos,,area: areacella,,
+2.0,Altitude of Model Half-Levels,m,"This is actual height above mean sea level, not geopotential height.  This is actual height above mean sea level, not geopotential height.  Includes both the top of the model atmosphere and surface levels.",,zhalf,height_above_reference_ellipsoid,,m,time: point,,,,,,real,longitude latitude alevhalf time1,zhalf,atmos,,area: areacella,,
+2.0,Pressure at Model Full-Levels,Pa,,"provide this field for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",pfull,air_pressure,,Pa,time: point,,,,,,real,longitude latitude alevel time1,pfull,atmos,,area: areacella,,
+2.0,Pressure at Model Half-Levels,Pa,,"provide this field for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",phalf,air_pressure,,Pa,time: point,,,,,,real,longitude latitude alevhalf time1,phalf,atmos,,area: areacella,,
 2.0,Air Temperature,K,,,ta,air_temperature,,K,time: point,,,,,,real,longitude latitude alevel time1,ta,atmos,,area: areacella,,
-2.0,Mass Fraction of Water,1.0,include all phases of water,,h2o,mass_fraction_of_water_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,h2o,atmos,,area: areacella,,
-2.0,Mass Fraction of Stratiform Cloud Liquid Water,1.0,Calculate as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clws,mass_fraction_of_stratiform_cloud_liquid_water_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,clws,atmos,,area: areacella,,
+2.0,Mass Fraction of Water,1.0,includes all phases of water,,h2o,mass_fraction_of_water_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,h2o,atmos,,area: areacella,,
+2.0,Mass Fraction of Stratiform Cloud Liquid Water,1.0,Calculated as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clws,mass_fraction_of_stratiform_cloud_liquid_water_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,clws,atmos,,area: areacella,,
 2.0,Mass Fraction of Stratiform Cloud Ice,1.0,Calculate as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clis,mass_fraction_of_stratiform_cloud_ice_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,clis,atmos,,area: areacella,,
-2.0,Mass Fraction of Convective Cloud Liquid Water,1.0,Calculate as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clwc,mass_fraction_of_convective_cloud_liquid_water_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,clwc,atmos,,area: areacella,,
-2.0,Mass Fraction of Convective Cloud Ice,1.0,Calculate as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clic,mass_fraction_of_convective_cloud_ice_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,clic,atmos,,area: areacella,,
+2.0,Mass Fraction of Convective Cloud Liquid Water,1.0,Calculated as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clwc,mass_fraction_of_convective_cloud_liquid_water_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,clwc,atmos,,area: areacella,,
+2.0,Mass Fraction of Convective Cloud Ice,1.0,Calculated as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clic,mass_fraction_of_convective_cloud_ice_in_air,,1.0,time: point,,,,,,real,longitude latitude alevel time1,clic,atmos,,area: areacella,,
 2.0,Hydrometeor Effective Radius of Stratiform Cloud Liquid Water ,m,This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell). ,,reffclws,effective_radius_of_stratiform_cloud_liquid_water_particle,,m,time: point,,,,,,real,longitude latitude alevel time1,reffclws,atmos,,area: areacella,,
 2.0,Hydrometeor Effective Radius of Stratiform Cloud Ice,m,This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell). ,,reffclis,effective_radius_of_stratiform_cloud_ice_particle,,m,time: point,,,,,,real,longitude latitude alevel time1,reffclis,atmos,,area: areacella,,
 2.0,Hydrometeor Effective Radius of Convective Cloud Liquid Water,m,This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell). ,,reffclwc,effective_radius_of_convective_cloud_liquid_water_particle,,m,time: point,,,,,,real,longitude latitude alevel time1,reffclwc,atmos,,area: areacella,,
 2.0,Hydrometeor Effective Radius of Convective Cloud Ice,m,This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell). ,,reffclic,effective_radius_of_convective_cloud_ice_particle,,m,time: point,,,,,,real,longitude latitude alevel time1,reffclic,atmos,,area: areacella,,
-2.0,Stratiform Graupel Flux,kg m-2 s-1 ,report on model half-levels,,grpllsprof,large_scale_graupel_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,grpllsprof,atmos,,area: areacella,,
-2.0,Convective Rainfall Flux,kg m-2 s-1 ,report on model half-levels,,prcprof,convective_rainfall_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,prcprof,atmos,,area: areacella,,
-2.0,Stratiform Rainfall Flux,kg m-2 s-1 ,report on model half-levels,,prlsprof,large_scale_rainfall_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,prlsprof,atmos,,area: areacella,,
-2.0,Convective Snowfall Flux,kg m-2 s-1 ,report on model half-levels,,prsnc,convective_snowfall_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,prsnc,atmos,,area: areacella,,
-2.0,Stratiform Snowfall Flux,kg m-2 s-1 ,report on model half-levels,,prlsns,large_scale_snowfall_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,prlsns,atmos,,area: areacella,,
+2.0,Stratiform Graupel Flux,kg m-2 s-1 ,,report on model half-levels,grpllsprof,large_scale_graupel_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,grpllsprof,atmos,,area: areacella,,
+2.0,Convective Rainfall Flux,kg m-2 s-1 ,,report on model half-levels,prcprof,convective_rainfall_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,prcprof,atmos,,area: areacella,,
+2.0,Stratiform Rainfall Flux,kg m-2 s-1 ,,report on model half-levels,prlsprof,large_scale_rainfall_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,prlsprof,atmos,,area: areacella,,
+2.0,Convective Snowfall Flux,kg m-2 s-1 ,,report on model half-levels,prsnc,convective_snowfall_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,prsnc,atmos,,area: areacella,,
+2.0,Stratiform Snowfall Flux,kg m-2 s-1 ,,report on model half-levels,prlsns,large_scale_snowfall_flux,,kg m-2 s-1 ,time: point,,,,,,real,longitude latitude alevel time1,prlsns,atmos,,area: areacella,,
 2.0,Hydrometeor Effective Radius of Stratiform Graupel,m,This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell). ,,reffgrpls,effective_radius_of_stratiform_cloud_graupel_particle,,m,time: point,,,,,,real,longitude latitude alevel time1,reffgrpls,atmos,,area: areacella,,
 2.0,Hydrometeor Effective Radius of Convective Rainfall,m,This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell). ,,reffrainc,effective_radius_of_convective_cloud_rain_particle,,m,time: point,,,,,,real,longitude latitude alevel time1,reffrainc,atmos,,area: areacella,,
 2.0,Hydrometeor Effective Radius of Stratiform Rainfall,m,This is defined as the in-cloud ratio of the third moment over the second moment of the particle size distribution (obtained by considering only the cloudy portion of the grid cell). ,,reffrains,effective_radius_of_stratiform_cloud_rain_particle,,m,time: point,,,,,,real,longitude latitude alevel time1,reffrains,atmos,,area: areacella,,
diff --git a/Tables_csv/cfDay.csv b/Tables_csv/cfDay.csv
index 3a03906..5e1c33f 100644
--- a/Tables_csv/cfDay.csv
+++ b/Tables_csv/cfDay.csv
@@ -12,7 +12,7 @@ CMOR Table  cfDay: CFMIP Daily-Mean Cloud Diagnostic Fields,,,,, cfDay,day,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Surface Air Pressure,Pa,,,ps,surface_air_pressure,,Pa,time: mean,,,,,,real,longitude latitude time,ps,atmos,,area: areacella,,
 1.0,TOA Incident Shortwave Radiation,W m-2,,,rsdt,toa_incoming_shortwave_flux,,W m-2,time: mean,,,,,down,real,longitude latitude time,rsdt,atmos,,area: areacella,,
 1.0,TOA Outgoing Shortwave Radiation,W m-2,,,rsut,toa_outgoing_shortwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsut,atmos,,area: areacella,,
@@ -21,11 +21,11 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Surface Downwelling Clear-Sky Longwave Radiation ,W m-2,,,rldscs,surface_downwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude time,rldscs,atmos,,area: areacella,,
 1.0,TOA Outgoing Clear-Sky Longwave Radiation,W m-2,,,rlutcs,toa_outgoing_longwave_flux_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlutcs,atmos,,area: areacella,,
 1.0,TOA Outgoing Clear-Sky Shortwave Radiation,W m-2,,,rsutcs,toa_outgoing_shortwave_flux_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsutcs,atmos,,area: areacella,,
-1.0,Total Cloud Fraction,% ,"for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.",,clt,cloud_area_fraction,,% ,time: mean,,,,,,real,longitude latitude time,clt,atmos,,area: areacella,,
-1.0,Condensed Water Path,kg m-2 ,calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clwvi,atmosphere_cloud_condensed_water_content,,kg m-2 ,time: mean,,,,,,real,longitude latitude time,clwvi,atmos,,area: areacella,,
-1.0,Ice Water Path,kg m-2 ,calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). Include precipitating frozen hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clivi,atmosphere_cloud_ice_content,,kg m-2 ,time: mean,,,,,,real,longitude latitude time,clivi,atmos,,area: areacella,,
+1.0,Total Cloud Fraction,% ,"for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes both large-scale and convective cloud.",,clt,cloud_area_fraction,,% ,time: mean,,,,,,real,longitude latitude time,clt,atmos,,area: areacella,,
+1.0,Condensed Water Path,kg m-2 ,calculate mass of condensed (liquid + ice) water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clwvi,atmosphere_cloud_condensed_water_content,,kg m-2 ,time: mean,,,,,,real,longitude latitude time,clwvi,atmos,,area: areacella,,
+1.0,Ice Water Path,kg m-2 ,calculate mass of ice water in the column divided by the area of the column (not just the area of the cloudy portion of the column). This includes precipitating frozen hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clivi,atmosphere_cloud_ice_content,,kg m-2 ,time: mean,,,,,,real,longitude latitude time,clivi,atmos,,area: areacella,,
 1.0,omega (=dp/dt),Pa s-1,"at 500 hPa level; commonly referred to as ""omega"", this represents the vertical component of velocity in pressure coordinates (positive down)",,wap500,lagrangian_tendency_of_air_pressure,,Pa s-1,time: mean,,,,,,real,longitude latitude time p500,wap500,atmos,,area: areacella,,
-1.0,Air Temperature,K,at 700 hPa level,,ta700,air_temperature,,K,time: mean,,,,,,real,longitude latitude time p700,ta700,atmos,,area: areacella,,
+1.0,Air Temperature,K,,at 700 hPa level,ta700,air_temperature,,K,time: mean,,,,,,real,longitude latitude time p700,ta700,atmos,,area: areacella,,
 1.0,Air Pressure at Convective Cloud Base,Pa,,,ccb,air_pressure_at_convective_cloud_base,,Pa,time: mean,,,,,,real,longitude latitude time,ccb,atmos,,area: areacella,,
 1.0,Air Pressure at Convective Cloud Top,Pa,,,cct,air_pressure_at_convective_cloud_top,,Pa,time: mean,,,,,,real,longitude latitude time,cct,atmos,,area: areacella,,
 1.0,Convective Precipitation,kg m-2 s-1 ,,,prc,convective_precipitation_flux,,kg m-2 s-1 ,time: mean,,,,,,real,longitude latitude time,prc,atmos,,area: areacella,,
@@ -37,15 +37,15 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Surface Upwelling Shortwave Radiation,W m-2,,,rsus,surface_upwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsus,atmos,,area: areacella,,
 1.0,TOA Outgoing Longwave Radiation,W m-2,,,rlut,toa_outgoing_longwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlut,atmos,,area: areacella,,
 1.0,ISCCP Total Total Cloud Fraction,%,,,cltisccp,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,cltisccp,atmos,,area: areacella,,
-1.0,ISCCP Mean Cloud Albedo,1.0,"When computing time-means, weight by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README",,albisccp,cloud_albedo,,1.0,time: mean,,,,,,real,longitude latitude time,albisccp,atmos,,area: areacella,,
-1.0,ISCCP Mean Cloud Top Pressure,Pa ,"When computing time-means, weight by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README",,pctisccp,air_pressure_at_cloud_top,,Pa ,time: mean,,,,,,real,longitude latitude time,pctisccp,atmos,,area: areacella,,
+1.0,ISCCP Mean Cloud Albedo,1.0,time-means are weighted by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README,,albisccp,cloud_albedo,,1.0,time: mean,,,,,,real,longitude latitude time,albisccp,atmos,,area: areacella,,
+1.0,ISCCP Mean Cloud Top Pressure,Pa ,time-means are weighted by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README,,pctisccp,air_pressure_at_cloud_top,,Pa ,time: mean,,,,,,real,longitude latitude time,pctisccp,atmos,,area: areacella,,
 1.0,PARASOL Reflectance,1.0,Simulated reflectance from PARASOL as seen at the top of the atmosphere for 5 solar zenith angles. Valid only over ocean and for one viewing direction (viewing zenith angle of 30 degrees and relative azimuth angle 320 degrees).,,parasolRefl,toa_bidirectional_reflectance,,1.0,time: mean,,,,,,real,longitude latitude sza5 time,parasolRefl,atmos,,area: areacella,,
 1.0,CALIPSO Total Cloud Fraction ,%,,,cltcalipso,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,cltcalipso,atmos,,area: areacella,,
 1.0,CALIPSO Low Level Cloud Fraction ,%,,,cllcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude time,cllcalipso,atmos,,area: areacella,,
 1.0,CALIPSO Mid Level Cloud Fraction ,%,,,clmcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude time,clmcalipso,atmos,,area: areacella,,
 1.0,CALIPSO High Level Cloud Fraction ,%,,,clhcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude time,clhcalipso,atmos,,area: areacella,,
 "In CMOR Table  cfDay: ""CFMIP daily 3D"" --daily mean 3-D fields on model levels plus CALIPSO and ISCCP cloud fractions",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Eastward Wind,m s-1 ,,,ua,eastward_wind,,m s-1 ,time: mean,,,,,,real,longitude latitude alevel time,ua,atmos,,,,
 1.0,Northward Wind,m s-1,,,va,northward_wind,,m s-1,time: mean,,,,,,real,longitude latitude alevel time,va,atmos,,,,
 1.0,Air Temperature,K,,,ta,air_temperature,,K,time: mean,,,,,,real,longitude latitude alevel time,ta,atmos,,area: areacella,,
@@ -54,12 +54,12 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Geopotential Height,m,,,zg,geopotential_height,,m,time: mean,,,,,,real,longitude latitude alevel time,zg,atmos,,area: areacella,,
 1.0,Relative Humidity,%,"This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",,hur,relative_humidity,,%,time: mean,,,,,,real,longitude latitude alevel time,hur,atmos,,area: areacella,,
 1.0,Cloud Area Fraction in Atmosphere Layer,%,,,cl,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alevel time,cl,atmos,,area: areacella,,
-1.0,Mass Fraction of Cloud Liquid Water,1.0,Calculate as the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clw,mass_fraction_of_cloud_liquid_water_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,clw,atmos,,area: areacella,,
-1.0,Mass Fraction of Cloud Ice,1.0,Calculate as the mass of cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,cli,mass_fraction_of_cloud_ice_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,cli,atmos,,area: areacella,,
-1.0,Convective Mass Flux,kg m-2 s-1 ,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  The net mass flux should represent the difference between the updraft and downdraft components.  Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).",,mc,atmosphere_net_upward_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,up,real,longitude latitude alevhalf time,mc,atmos,,area: areacella,,
-1.0,CALIPSO Cloud Fraction,%,40 levels,,clcalipso ,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alt40 time,clcalipso ,atmos,,area: areacella,,
-1.0,ISCCP Cloud Area Fraction,%,7 levels x 7 tau,,clisccp,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude tau plev7 time,clisccp,atmos,,area: areacella,,
-1.0,Pressure on Model Levels,Pa,"This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",,pfull,air_pressure,,Pa,time: mean,,,,,,real,longitude latitude alevel time,pfull,atmos,,area: areacella,,
-1.0,Pressure on Model Half-Levels,Pa,"This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",,phalf,air_pressure,,Pa,time: mean,,,,,,real,longitude latitude alevhalf time,phalf,atmos,,area: areacella,,
+1.0,Mass Fraction of Cloud Liquid Water,1.0,Calculated as the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clw,mass_fraction_of_cloud_liquid_water_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,clw,atmos,,area: areacella,,
+1.0,Mass Fraction of Cloud Ice,1.0,Calculated as the mass of cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,cli,mass_fraction_of_cloud_ice_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,cli,atmos,,area: areacella,,
+1.0,Convective Mass Flux,kg m-2 s-1 ,The net mass flux should represent the difference between the updraft and downdraft components.  This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  ",mc,atmosphere_net_upward_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,up,real,longitude latitude alevhalf time,mc,atmos,,area: areacella,,
+1.0,CALIPSO Cloud Fraction,%,,40 levels,clcalipso ,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alt40 time,clcalipso ,atmos,,area: areacella,,
+1.0,ISCCP Cloud Area Fraction,%,,7 levels x 7 tau,clisccp,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude tau plev7 time,clisccp,atmos,,area: areacella,,
+1.0,Pressure on Model Levels,Pa,,"This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",pfull,air_pressure,,Pa,time: mean,,,,,,real,longitude latitude alevel time,pfull,atmos,,area: areacella,,
+1.0,Pressure on Model Half-Levels,Pa,,"This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",phalf,air_pressure,,Pa,time: mean,,,,,,real,longitude latitude alevhalf time,phalf,atmos,,area: areacella,,
 
 
diff --git a/Tables_csv/cfMon.csv b/Tables_csv/cfMon.csv
index c80e7fa..0567de9 100644
--- a/Tables_csv/cfMon.csv
+++ b/Tables_csv/cfMon.csv
@@ -12,15 +12,15 @@ CMOR Table cfMon: CFMIP Monthly-Mean Cloud Diagnostic Fields,,,,,cfMon,mon,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Upwelling Longwave Radiation,W m-2,Include also the fluxes at the surface and TOA.,,rlu,upwelling_longwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rlu,atmos,,area: areacella,,
-1.0,Upwelling Shortwave Radiation,W m-2,Include also the fluxes at the surface and TOA.,,rsu,upwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rsu,atmos,,area: areacella,,
-1.0,Downwelling Longwave Radiation,W m-2,Include also the fluxes at the surface and TOA.,,rld,downwelling_longwave_flux_in_air,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rld,atmos,,area: areacella,,
-1.0,Downwelling Shortwave Radiation,W m-2,Include also the fluxes at the surface and TOA.,,rsd,downwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rsd,atmos,,area: areacella,,
-1.0,Upwelling Clear-Sky Longwave Radiation,W m-2,Include also the fluxes at the surface and TOA.,,rlucs,upwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rlucs,atmos,,area: areacella,,
-1.0,Upwelling Clear-Sky Shortwave Radiation,W m-2,Include also the fluxes at the surface and TOA.,,rsucs,upwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rsucs,atmos,,area: areacella,,
-1.0,Downwelling Clear-Sky Longwave Radiation,W m-2,Include also the fluxes at the surface and TOA.,,rldcs,downwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rldcs,atmos,,area: areacella,,
-1.0,Downwelling Clear-Sky Shortwave Radiation,W m-2,Include also the fluxes at the surface and TOA.,,rsdcs,downwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rsdcs,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Upwelling Longwave Radiation,W m-2,Includes also the fluxes at the surface and TOA.,,rlu,upwelling_longwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rlu,atmos,,area: areacella,,
+1.0,Upwelling Shortwave Radiation,W m-2,Includes also the fluxes at the surface and TOA.,,rsu,upwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rsu,atmos,,area: areacella,,
+1.0,Downwelling Longwave Radiation,W m-2,Includes also the fluxes at the surface and TOA.,,rld,downwelling_longwave_flux_in_air,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rld,atmos,,area: areacella,,
+1.0,Downwelling Shortwave Radiation,W m-2,Includes also the fluxes at the surface and TOA.,,rsd,downwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rsd,atmos,,area: areacella,,
+1.0,Upwelling Clear-Sky Longwave Radiation,W m-2,Includes also the fluxes at the surface and TOA.,,rlucs,upwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rlucs,atmos,,area: areacella,,
+1.0,Upwelling Clear-Sky Shortwave Radiation,W m-2,Includes also the fluxes at the surface and TOA.,,rsucs,upwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rsucs,atmos,,area: areacella,,
+1.0,Downwelling Clear-Sky Longwave Radiation,W m-2,Includes also the fluxes at the surface and TOA.,,rldcs,downwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rldcs,atmos,,area: areacella,,
+1.0,Downwelling Clear-Sky Shortwave Radiation,W m-2,Includes also the fluxes at the surface and TOA.,,rsdcs,downwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rsdcs,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,,,
 1.0,Air Temperature,K,,,ta,air_temperature,,K,time: mean,,,,,,real,longitude latitude alevel time,ta,atmos,,area: areacella,,
 1.0,Tendency of Air Temperature,K s-1,,,tnt,tendency_of_air_temperature,,K s-1,time: mean,,,,,,real,longitude latitude alevel time,tnt,atmos,,area: areacella,,
@@ -29,30 +29,30 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Tendency of Air Temperature Due to Stratiform Cloud and Precipitation and Boundary Layer Mixing,K s-1,,,tntscpbl,tendency_of_air_temperature_due_to_stratiform_cloud_and_precipitation_and_boundary_layer_mixing,,K s-1,time: mean,,,,,,real,longitude latitude alevel time,tntscpbl,atmos,,area: areacella,,
 1.0,Tendency of Air Temperature due to Radiative Heating,K s-1,,,tntr ,tendency_of_air_temperature_due_to_radiative_heating,,K s-1,time: mean,,,,,,real,longitude latitude alevel time,tntr ,atmos,,area: areacella,,
 1.0,Tendency of Air Temperature due to Moist Convection,K s-1,,,tntc,tendency_of_air_temperature_due_to_convection,,K s-1,time: mean,,,,,,real,longitude latitude alevel time,tntc,atmos,,area: areacella,,
-,,,,,,,,,,,,,,,,,,,,,,
+1.0,Relative Humidity,%,,,hur,relative_humidity,,%,time: mean,,,,,,real,longitude latitude alevel time,hur,atmos,,area: areacella,,
 1.0,Specific Humidity,1.0,,,hus,specific_humidity,,1.0,time: mean,,,,,,real,longitude latitude alevel time,hus,atmos,,area: areacella,,
 1.0,Tendency of Specific Humidity,s-1,,,tnhus,tendency_of_specific_humidity,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnhus,atmos,,area: areacella,,
 1.0,Tendency of Specific Humidity due to Advection,s-1,,,tnhusa,tendency_of_specific_humidity_due_to_advection,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnhusa,atmos,,area: areacella,,
 1.0,Tendency of Specific Humidity due to Convection,s-1,,,tnhusc,tendency_of_specific_humidity_due_to_convection,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnhusc,atmos,,area: areacella,,
 1.0,Tendency of Specific Humidity due to Diffusion,s-1,,,tnhusd,tendency_of_specific_humidity_due_to_diffusion,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnhusd,atmos,,area: areacella,,
 1.0,Tendency of Specific Humidity due to Stratiform Cloud Condensation and Evaporation,s-1,,,tnhusscpbl,tendency_of_specific_humidity_due_to_stratiform_cloud_and_precipitation_and_boundary_layer_mixing,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnhusscpbl,atmos,,area: areacella,,
-1.0,Tendency of Specific Humidity due to Model Physics,s-1,"This should include sources and sinks from parametrized physics (e.g. convection, stratiform condensation/evaporation, etc.) and should exclude sources and sinks from resolved dynamics and diffusion.",,tnhusmp,tendency_of_specific_humidity_due_to_model_physics,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnhusmp,atmos,,area: areacella,,
+1.0,Tendency of Specific Humidity due to Model Physics,s-1,"This includes sources and sinks from parametrized physics (e.g. convection, stratiform condensation/evaporation, etc.) and excludes sources and sinks from resolved dynamics and diffusion.",,tnhusmp,tendency_of_specific_humidity_due_to_model_physics,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnhusmp,atmos,,area: areacella,,
 ,,,,,,,,,time: mean,,,,,,,,,,,,,
 1.0,Eddy Viscosity Coefficients for Momentum,m2 s-1,,,eviscu,atmosphere_momentum_diffusivity,,m2 s-1,time: mean,,,,,,real,longitude latitude alevel time,eviscu,atmos,,area: areacella,,
 1.0,Eddy Diffusivity Coefficients for Temperature,m2 s-1,,,evisct,atmosphere_heat_diffusivity,,m2 s-1,time: mean,,,,,,real,longitude latitude alevel time,evisct,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,area: areacella,,
 2.0,Convective Cloud Area Fraction,%,,,clc,convective_cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alevel time,clc,atmos,,area: areacella,,
-2.0,Mass Fraction of Convective Cloud Liquid Water ,1.0,Calculate as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,, clwc,mass_fraction_of_convective_cloud_liquid_water_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time, clwc,atmos,,area: areacella,,
-2.0,Mass Fraction of Convective Cloud Ice,1.0,Calculate as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clic,mass_fraction_of_convective_cloud_ice_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,clic,atmos,,area: areacella,,
+2.0,Mass Fraction of Convective Cloud Liquid Water ,1.0,Calculated as the mass of convective cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,, clwc,mass_fraction_of_convective_cloud_liquid_water_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time, clwc,atmos,,area: areacella,,
+2.0,Mass Fraction of Convective Cloud Ice,1.0,Calculated as the mass of convective cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clic,mass_fraction_of_convective_cloud_ice_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,clic,atmos,,area: areacella,,
 2.0,Stratiform Cloud Area Fraction,%,,,cls,stratiform_cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alevel time,cls,atmos,,area: areacella,,
-2.0,Mass Fraction of Stratiform Cloud Liquid Water,1.0,Calculate as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clws,mass_fraction_of_stratiform_cloud_liquid_water_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,clws,atmos,,area: areacella,,
-2.0,Mass Fraction of Stratiform Cloud Ice,1.0,Calculate as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clis,mass_fraction_of_stratiform_cloud_ice_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,clis,atmos,,area: areacella,,
+2.0,Mass Fraction of Stratiform Cloud Liquid Water,1.0,Calculated as the mass of stratiform cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clws,mass_fraction_of_stratiform_cloud_liquid_water_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,clws,atmos,,area: areacella,,
+2.0,Mass Fraction of Stratiform Cloud Ice,1.0,Calculated as the mass of stratiform cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clis,mass_fraction_of_stratiform_cloud_ice_in_air,,1.0,time: mean,,,,,,real,longitude latitude alevel time,clis,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,,,
-2.0,Updraft Convective Mass Flux,kg m-2 s-1 ,"Report on model half-levels (i.e., model layer bounds and not standard pressures).   Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).",,mcu,atmosphere_updraft_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,up,real,longitude latitude alevhalf time,mcu,atmos,,area: areacella,,
-2.0,Downdraft Convective Mass Flux,kg m-2 s-1 ,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).",,mcd,atmosphere_downdraft_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,down,real,longitude latitude alevhalf time,mcd,atmos,,area: areacella,,
-2.0,Shallow Convective Mass Flux,kg m-2 s-1 ,"Report on model half-levels (i.e., model layer bounds and not standard pressures).   The net mass flux should represent the difference between the updraft and downdraft components.  For models with a distinct shallow convection scheme, calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).",,smc,atmosphere_net_upward_shallow_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,up,real,lo [...]
-2.0,Deep Convective Mass Flux,kg m-2 s-1 ,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  The net mass flux should represent the difference between the updraft and downdraft components.   Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).",,dmc,atmosphere_net_upward_deep_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,up,real,longitude latitude alevhalf time,dmc,atmos,,area: areacella,,
+2.0,Updraft Convective Mass Flux,kg m-2 s-1 ,Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).,"Report on model half-levels (i.e., model layer bounds and not standard pressures).   ",mcu,atmosphere_updraft_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,up,real,longitude latitude alevhalf time,mcu,atmos,,area: areacella,,
+2.0,Downdraft Convective Mass Flux,kg m-2 s-1 ,Calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  ",mcd,atmosphere_downdraft_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,down,real,longitude latitude alevhalf time,mcd,atmos,,area: areacella,,
+2.0,Shallow Convective Mass Flux,kg m-2 s-1 ,"The net mass flux represents the difference between the updraft and downdraft components.  For models with a distinct shallow convection scheme, this is calculated as convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).","Report on model half-levels (i.e., model layer bounds and not standard pressures).   ",smc,atmosphere_net_upward_shallow_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,up,real,l [...]
+2.0,Deep Convective Mass Flux,kg m-2 s-1 ,The net mass flux  represents the difference between the updraft and downdraft components.   This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the cloud).,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  ",dmc,atmosphere_net_upward_deep_convective_mass_flux,,kg m-2 s-1 ,time: mean,,,,,up,real,longitude latitude alevhalf time,dmc,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,,,
 2.0,Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air,s-1,,,tnsclw,tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclw,atmos,,area: areacella,,
 2.0,Tendency of Mass Fraction of Stratiform Cloud Liquid Water In Air Due To Cloud Microphysics,s-1,,,tnsclwcm,tendency_of_mass_fraction_of_stratiform_cloud_liquid_water_in_air_due_to_cloud_microphysics,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclwcm,atmos,,area: areacella,,
@@ -73,7 +73,7 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 2.0,Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Cloud Microphysics,s-1,,,tnsclicm,tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_cloud_microphysics,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclicm,atmos,,area: areacella,,
 2.0,Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Boundary Layer Mixing,s-1,,,tnsclibl,tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_boundary_layer_mixing,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclibl,atmos,,area: areacella,,
 2.0,Tendency of Mass Fraction of Stratiform Cloud Ice In Air Due To Bergeron Findeisen Process from Cloud Liquid,s-1,,,tnsclibfpcl,tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_bergeron_findeisen_process_from_cloud_liquid,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclibfpcl,atmos,,area: areacella,,
-2.0,Tendency of Mass Fraction of Stratiform Cloud Ice Due Convective Detrainment,s-1,Tendency of Mass Fraction of Stratiform Cloud Ice Due to Convective Detrainment,,tnsclicd,tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_convective_detrainment,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclicd,atmos,,area: areacella,,
+2.0,Tendency of Mass Fraction of Stratiform Cloud Ice Due Convective Detrainment,s-1,,,tnsclicd,tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_convective_detrainment,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclicd,atmos,,area: areacella,,
 2.0,Tendency of Mass Fraction of Stratiform Cloud Ice due to Homogeneous Nucleation,s-1,,,tnsclihon,tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_homogeneous_nucleation,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclihon,atmos,,area: areacella,,
 2.0,Tendency of Mass Fraction of Stratiform Cloud Ice due to Heterogeneous Nucleation From Cloud Liquid,s-1,,,tnsclihencl,tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_heterogeneous_nucleation_from_cloud_liquid_water,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclihencl,atmos,,area: areacella,,
 2.0,Tendency of Mass Fraction of Stratiform Cloud Ice due to Heterogeneous Nucleation From Water Vapor,s-1,,,tnsclihenv,tendency_of_mass_fraction_of_stratiform_cloud_ice_in_air_due_to_heterogeneous_nucleation_from_water_vapor,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsclihenv,atmos,,area: areacella,,
@@ -98,13 +98,13 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 2.0,Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Icefall,s-1,condensed water includes both liquid and ice.,,tnsccwif,tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_icefall,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsccwif,atmos,,area: areacella,,
 2.0,Tendency of Mass Fraction of Stratiform Cloud Condensed Water due to Advection,s-1,condensed water includes both liquid and ice.,,tnsccwa,tendency_of_mass_fraction_of_stratiform_cloud_condensed_water_in_air_due_to_advection,,s-1,time: mean,,,,,,real,longitude latitude alevel time,tnsccwa,atmos,,area: areacella,,
 "In CMOR Table cfMon: ""CFMIP monthly 4xCO2 2D"" -- monthly mean 2D TOA radiative fluxes  calculated by instantaneously quadrupling CO2. ",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,TOA Outgoing Shortwave Radiation in 4XCO2 Atmosphere,W m-2,,,rsut4co2,toa_outgoing_shortwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsut4co2,atmos,,area: areacella,,
 1.0,TOA Outgoing Longwave Radiation 4XCO2 Atmosphere,W m-2,,,rlut4co2,toa_outgoing_longwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlut4co2,atmos,,area: areacella,,
 1.0,TOA Outgoing Clear-Sky Shortwave Radiation 4XCO2 Atmosphere,W m-2,,,rsutcs4co2,toa_outgoing_shortwave_flux_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsutcs4co2,atmos,,area: areacella,,
 1.0,TOA Outgoing Clear-Sky Longwave Radiation 4XCO2 Atmosphere,W m-2,,,rlutcs4co2,toa_outgoing_longwave_flux_assuming_clear_sky,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlutcs4co2,atmos,,area: areacella,,
 "In CMOR Table cfMon: ""CFMIP monthly 4xCO2 3D"" -- monthly mean 3-D radiative fluxes  calculated by instantaneously quadrupling CO2. On model half levels, including the surface and the Top of the Atmosphere.",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Upwelling Longwave Radiation 4XCO2 Atmosphere,W m-2,,,rlu4co2,upwelling_longwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rlu4co2,atmos,,area: areacella,,
 1.0,Upwelling Shortwave Radiation 4XCO2 Atmosphere,W m-2,,,rsu4co2,upwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude alevhalf time,rsu4co2,atmos,,area: areacella,,
 1.0,Downwelling Longwave Radiation 4XCO2 Atmosphere,W m-2,,,rld4co2,downwelling_longwave_flux_in_air,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rld4co2,atmos,,area: areacella,,
@@ -114,17 +114,17 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Downwelling Clear-Sky Longwave Radiation 4XCO2 Atmosphere,W m-2,,,rldcs4co2,downwelling_longwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rldcs4co2,atmos,,area: areacella,,
 1.0,Downwelling Clear-Sky Shortwave Radiation 4XCO2 Atmosphere,W m-2,,,rsdcs4co2,downwelling_shortwave_flux_in_air_assuming_clear_sky,,W m-2,time: mean,,,,,down,real,longitude latitude alevhalf time,rsdcs4co2,atmos,,area: areacella,,
 "In CMOR Table cfMon: ""CFMIP monthly inline"" -- monthly mean in line ISCCP and CALIPSO/PARASOL simulator output ",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,ISCCP Total Cloud Fraction,%,,,cltisccp,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,cltisccp,atmos,,area: areacella,,
-1.0,ISCCP Mean Cloud Albedo,1.0,"When computing time-means, weight by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README",,albisccp,cloud_albedo,,1.0,time: mean,,,,,,real,longitude latitude time,albisccp,atmos,,area: areacella,,
-1.0,ISCCP Mean Cloud Top Pressure,Pa ,"When computing time-means, weight by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README",,ctpisccp,air_pressure_at_cloud_top,,Pa ,time: mean,,,,,,real,longitude latitude time,ctpisccp,atmos,,area: areacella,,
-1.0,ISCCP Cloud Area Fraction,%, 7 levels x 7 tau,,clisccp,isccp_cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude plev7 tau time,clisccp,atmos,,area: areacella,,
+1.0,ISCCP Mean Cloud Albedo,1.0,time-means weighted by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README,,albisccp,cloud_albedo,,1.0,time: mean,,,,,,real,longitude latitude time,albisccp,atmos,,area: areacella,,
+1.0,ISCCP Mean Cloud Top Pressure,Pa ,time-means weighted by the ISCCP Total Cloud Fraction - see  http://www.cfmip.net/README,,ctpisccp,air_pressure_at_cloud_top,,Pa ,time: mean,,,,,,real,longitude latitude time,ctpisccp,atmos,,area: areacella,,
+1.0,ISCCP Cloud Area Fraction,%,, 7 levels x 7 tau,clisccp,isccp_cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude plev7 tau time,clisccp,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,area: areacella,,
 1.0,CALIPSO Total Cloud Fraction,%,,,cltcalipso,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,cltcalipso,atmos,,area: areacella,,
 1.0,CALIPSO Low Level Cloud Fraction ,%,,,cllcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude time p840,cllcalipso,atmos,,area: areacella,,
 1.0,CALIPSO Mid Level Cloud Fraction ,%,,,clmcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude time p560,clmcalipso,atmos,,area: areacella,,
 1.0,CALIPSO High Level Cloud Fraction ,%,,,clhcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude time p220,clhcalipso,atmos,,area: areacella,,
-1.0,CALIPSO Cloud Fraction ,%, 40 height levels,,clcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alt40 time,clcalipso,atmos,,area: areacella,,
-1.0,PARASOL Reflectance ,1.0, 5 bins of solar zenith angle.  This is reflectance as seen at the top of the atmosphere.,,parasolRefl,toa_bidirectional_reflectance,,1.0,time: mean,,,,,,real,longitude latitude sza5 time,parasolRefl,atmos,,area: areacella,,
+1.0,CALIPSO Cloud Fraction ,%,, 40 height levels,clcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alt40 time,clcalipso,atmos,,area: areacella,,
+1.0,PARASOL Reflectance ,1.0,This is reflectance as seen at the top of the atmosphere., 5 bins of solar zenith angle.  ,parasolRefl,toa_bidirectional_reflectance,,1.0,time: mean,,,,,,real,longitude latitude sza5 time,parasolRefl,atmos,,area: areacella,,
 
 
diff --git a/Tables_csv/cfOff.csv b/Tables_csv/cfOff.csv
index 9217cc2..d472870 100644
--- a/Tables_csv/cfOff.csv
+++ b/Tables_csv/cfOff.csv
@@ -12,11 +12,11 @@
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,CALIPSO Cloud Fraction,%,(40 height levels),,  clcalipso ,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alt40 time,  clcalipso ,atmos,,area: areacella,,
-1.0,CALIPSO Cloud Fraction Undetected by CloudSat,%,(40 height levels)  Clouds detected by CALIPSO but below the detectability threshold of CloudSat,,clcalipso2  ,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alt40 time,clcalipso2  ,atmos,,area: areacella,,
-1.0,CloudSat Radar Reflectivity,1.0,CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  (40 levelsx15 bins) .,, cfadDbze94,histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid,,1.0,time: mean,,,,,,real,longitude latitude alt40 dbze time, cfadDbze94,atmos,,area: areacella,,
-1.0,CALIPSO Scattering Ratio,1.0,CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  (40 levelsx15 bins) .,,cfadLidarsr532,histogram_of_backscattering_ratio_over_height_above_reference_ellipsoid,,1.0,time: mean,,,,,,real,longitude latitude alt40 scatratio time,cfadLidarsr532,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,CALIPSO Cloud Fraction,%,,40 height levels,  clcalipso ,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alt40 time,  clcalipso ,atmos,,area: areacella,,
+1.0,CALIPSO Cloud Fraction Undetected by CloudSat,%,Clouds detected by CALIPSO but below the detectability threshold of CloudSat,40 height levels,clcalipso2  ,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude alt40 time,clcalipso2  ,atmos,,area: areacella,,
+1.0,CloudSat Radar Reflectivity,1.0,CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions  .,40 levelsx15 bins, cfadDbze94,histogram_of_equivalent_reflectivity_factor_over_height_above_reference_ellipsoid,,1.0,time: mean,,,,,,real,longitude latitude alt40 dbze time, cfadDbze94,atmos,,area: areacella,,
+1.0,CALIPSO Scattering Ratio,1.0,CFADs (Cloud Frequency Altitude Diagrams) are joint height - radar reflectivity (or lidar scattering ratio) distributions.,40 levelsx15 bins,cfadLidarsr532,histogram_of_backscattering_ratio_over_height_above_reference_ellipsoid,,1.0,time: mean,,,,,,real,longitude latitude alt40 scatratio time,cfadLidarsr532,atmos,,area: areacella,,
 1.0,PARASOL Reflectance,1.0,Simulated reflectance from PARASOL as seen at the top of the atmosphere for 5 solar zenith angles. Valid only over ocean and for one viewing direction (viewing zenith angle of 30 degrees and relative azimuth angle 320 degrees).,,parasolRefl,toa_bidirectional_reflectance,,1.0,time: mean,,,,,,real,longitude latitude sza5 time,parasolRefl,atmos,,area: areacella,,
 1.0,CALIPSO Total Cloud Fraction ,%,,,cltcalipso,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,cltcalipso,atmos,,area: areacella,,
 1.0,CALIPSO Low Level Cloud Fraction ,%,,,cllcalipso,cloud_area_fraction_in_atmosphere_layer,,%,time: mean,,,,,,real,longitude latitude time p840,cllcalipso,atmos,,area: areacella,,
diff --git a/Tables_csv/cfSites.csv b/Tables_csv/cfSites.csv
index 8c35acd..3242c15 100644
--- a/Tables_csv/cfSites.csv
+++ b/Tables_csv/cfSites.csv
@@ -12,12 +12,12 @@ CMOR Table cfSites: CFMIP high frequency Cloud Diagnostic Fields,,,,,cfSites,sub
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,(use names from Amon 2D table),,"This table includes the 2-D variables listed in the ""Amon"" spreadsheet, omitting, however, the daily maximum and minimum temperatures.  All variables should be reported as synoptic fields, not daily means.  ",,include Amon 2D,,,,time: point,,,,,,real,site time1,,atmos,,,,
-1.0,Cloud Area Fraction,%,Include both large-scale and convective cloud.,,cl,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,alevel site time1,cl,atmos,,,,
-1.0,Mass Fraction of Cloud Liquid Water,1.0,Include both large-scale and convective cloud.  Calculate as the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,clw,mass_fraction_of_cloud_liquid_water_in_air,,1.0,time: point,,,,,,real,alevel site time1,clw,atmos,,,,
-1.0,Mass Fraction of Cloud Ice,1.0,Include both large-scale and convective cloud. Calculate as the mass of  cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  Include precipitating hydrometeors ONLY if the precipitating hydrometeor affects the calculation of radiative transfer in model.  ,,cli,mass_fraction_of_cloud_ice_in_air,,1.0,time: point,,,,,,real,alevel site time1,cli,atmos,,,,
-1.0,Convective Mass Flux,kg m-2 s-1,"Report on model half-levels (i.e., model layer bounds and not standard pressures).  The net mass flux should represent the difference between the updraft and downdraft components.  Calculate as the convective mass flux divided by the area of the whole grid cell (not just the area of the updrafts).",,mc,atmosphere_net_upward_convective_mass_flux,,kg m-2 s-1,time: point,,,,,up,real,alevhalf site time1,mc,atmos,,,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,(use names from Amon 2D table),,,"This table includes the 2-D variables listed in the ""Amon"" spreadsheet, omitting, however, the daily maximum and minimum temperatures.  All variables should be reported as synoptic fields, not daily means.  ",include Amon 2D,,,,time: point,,,,,,real,site time1,,atmos,,,,
+1.0,Cloud Area Fraction,%,Includes both large-scale and convective cloud.,,cl,cloud_area_fraction_in_atmosphere_layer,,%,time: point,,,,,,real,alevel site time1,cl,atmos,,,,
+1.0,Mass Fraction of Cloud Liquid Water,1.0,Includes both large-scale and convective cloud.  This is the mass of  cloud liquid water in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,clw,mass_fraction_of_cloud_liquid_water_in_air,,1.0,time: point,,,,,,real,alevel site time1,clw,atmos,,,,
+1.0,Mass Fraction of Cloud Ice,1.0,Includes both large-scale and convective cloud. This is the mass of  cloud ice  in the grid cell divided by the mass of air (including the water in all phases) in the grid cell.  This includes precipitating hydrometeors ONLY if the precipitating hydrometeors affect the calculation of radiative transfer in model.  ,,cli,mass_fraction_of_cloud_ice_in_air,,1.0,time: point,,,,,,real,alevel site time1,cli,atmos,,,,
+1.0,Convective Mass Flux,kg m-2 s-1,The net mass flux should represent the difference between the updraft and downdraft components.  This is calculated as the convective mass flux divided by the area of the whole grid cell (not just the area of the updrafts).,"Report on model half-levels (i.e., model layer bounds and not standard pressures.  ",mc,atmosphere_net_upward_convective_mass_flux,,kg m-2 s-1,time: point,,,,,up,real,alevhalf site time1,mc,atmos,,,,
 1.0,Air Temperature,K,,,ta,air_temperature,,K,time: point,,,,,,real,alevel site time1,ta,atmos,,,,
 1.0,Eastward Wind,m s-1,,,ua,eastward_wind,,m s-1,time: point,,,,,,real,alevel site time1,ua,atmos,,,,
 1.0,Northward Wind,m s-1,,,va,northward_wind,,m s-1,time: point,,,,,,real,alevel site time1,va,atmos,,,,
@@ -47,9 +47,9 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Tendency of Specific Humidity due to Model Physics,s-1,,,tnhusmp ,tendency_of_specific_humidity_due_to_model_physics,,s-1,time: point,,,,,,real,alevel site time1,tnhusmp ,atmos,,,,
 1.0,Eddy Viscosity Coefficient for Momentum Variables,m2 s-1,,,evu,atmosphere_momentum_diffusivity,,m2 s-1,time: point,,,,,,real,alevel site time1,evu,atmos,,,,
 1.0,Eddy Diffusivity Coefficient for Temperature Variable,m2 s-1,,,edt,atmosphere_heat_diffusivity,,m2 s-1,time: point,,,,,,real,alevel site time1,edt,atmos,,,,
-1.0,Pressure on Model Levels,Pa,"This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",,pfull,air_pressure,,Pa,time: point,,,,,,real,alevel site time1,pfull,atmos,,,,
-1.0,Pressure on Model Half-Levels,Pa,"This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",,phalf,air_pressure,,Pa,time: point,,,,,,real,alevel site time1,phalf,atmos,,,,
-1.0,Longitude,degrees_east,"Note that the CF convention and CMOR2 require that this field will be included in each file that contains a variable that is a function of the ""site"" dimension, so there is no need to save this field by itself.  It is included here simply to indicate that longitudes should be stored for the site grid in each file written.",,lon,longitude,,degrees_east,,0.0,360.0,,,,real,site,longitude,atmos,,,,
-1.0,Latitude,degrees_north,the above comment also applies to latitude.,,lat,latitude,,degrees_north,,-90.0,90.0,,,,real,site,latitude,atmos,,,,
+1.0,Pressure on Model Levels,Pa,,"This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",pfull,air_pressure,,Pa,time: point,,,,,,real,alevel site time1,pfull,atmos,,,,
+1.0,Pressure on Model Half-Levels,Pa,,"This field is needed only for models in which the pressure can't be calculated from the vertical coordinate information stored already for each variable.  Thus, the pressures are needed for height or theta-coordinate models, for example, but not sigma- or eta-coordinate models.",phalf,air_pressure,,Pa,time: point,,,,,,real,alevel site time1,phalf,atmos,,,,
+1.0,Longitude,degrees_east,,"Note that the CF convention and CMOR2 require that this field will be included in each file that contains a variable that is a function of the ""site"" dimension, so there is no need to save this field by itself.  It is included here simply to indicate that longitudes should be stored for the site grid in each file written.",lon,longitude,,degrees_east,,0.0,360.0,,,,real,site,longitude,atmos,,,,
+1.0,Latitude,degrees_north,,the above comment also applies to latitude.,lat,latitude,,degrees_north,,-90.0,90.0,,,,real,site,latitude,atmos,,,,
 
 
diff --git a/Tables_csv/day.csv b/Tables_csv/day.csv
index 336e2dd..76de1a3 100644
--- a/Tables_csv/day.csv
+++ b/Tables_csv/day.csv
@@ -12,17 +12,17 @@ The following daily mean variables should be collected for all simulations (for
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Near-Surface Specific Humidity,1.0,"near-surface (usually, 2 meter) specific humidity.",,huss,specific_humidity,,1.0,time: mean,,,,,,real,longitude latitude time height2m,huss,atmos,,area: areacella,,
-1.0,Daily Minimum Near-Surface Air Temperature,K,"daily-minimum near-surface (usually, 2 meter) air temperature.  ",,tasmin,air_temperature,,K,time: minimum,,,,,,real,longitude latitude time height2m,tasmin,atmos,,area: areacella,,
-1.0,Daily Maximum Near-Surface Air Temperature,K,"daily-maximum near-surface (usually, 2 meter) air temperature.",,tasmax,air_temperature,,K,time: maximum,,,,,,real,longitude latitude time height2m,tasmax,atmos,,area: areacella,,
-1.0,Near-Surface Air Temperature,K,"daily-mean near-surface (usually, 2 meter) air temperature.",,tas,air_temperature,,K,time: mean,,,,,,real,longitude latitude time height2m,tas,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Near-Surface Specific Humidity,1.0,,"normally, report this at 2 meters above the surface",huss,specific_humidity,,1.0,time: mean,,,,,,real,longitude latitude time height2m,huss,atmos,,area: areacella,,
+1.0,Daily Minimum Near-Surface Air Temperature,K,,normally report this at 2 meters above the surface,tasmin,air_temperature,,K,time: minimum,,,,,,real,longitude latitude time height2m,tasmin,atmos,,area: areacella,,
+1.0,Daily Maximum Near-Surface Air Temperature,K,,normally report this at 2 meters above the surface,tasmax,air_temperature,,K,time: maximum,,,,,,real,longitude latitude time height2m,tasmax,atmos,,area: areacella,,
+1.0,Near-Surface Air Temperature,K,,normally report this at 2 meters above the surface,tas,air_temperature,,K,time: mean,,,,,,real,longitude latitude time height2m,tas,atmos,,area: areacella,,
 1.0,Precipitation,kg m-2 s-1,at surface; includes both liquid and solid phases from all types of clouds (both large-scale and convective),,pr,precipitation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,pr,atmos,,area: areacella,,
 1.0,Sea Level Pressure,Pa,,,psl,air_pressure_at_sea_level,,Pa,time: mean,,,,,,real,longitude latitude time,psl,atmos,,area: areacella,,
-1.0,Daily-Mean Near-Surface Wind Speed,m s-1,"near-surface (usually, 10 meters) wind speed.",,sfcWind,wind_speed,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,sfcWind,atmos,,,,
-1.0,Square of Sea Surface Temperature,K2,"square of temperature of liquid ocean, averaged over the day. Report on the ocean grid.  This variable appears in WGOMD Table 2.2 ",,tossq,square_of_sea_surface_temperature,,K2,time:mean,,,,,,real,longitude latitude time,tossq,ocean,,area: areacello,,
-1.0,Sea Surface Temperature,K,temperature of liquid ocean. Report on the ocean grid.  This variable appears in WGOMD Table 2.2 ,,tos,surface_temperature,,K,time: mean,,,,,,real,longitude latitude time,tos,ocean,,area: areacello,,
-1.0,Daily Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme ,m ,Report on the ocean grid.  This variable appears in WGOMD Table 2.2 ,,omldamax,ocean_mixed_layer_thickness_defined_by_mixing_scheme,,m ,time: maximum,,,,,,real,longitude latitude time,omldamax,ocean,,area: areacello,,
+1.0,Daily-Mean Near-Surface Wind Speed,m s-1,,normally report this at 10 meters above the surface,sfcWind,wind_speed,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,sfcWind,atmos,,,,
+1.0,Square of Sea Surface Temperature,K2,"square of temperature of liquid ocean, averaged over the day. ",Report on the ocean grid.  This variable appears in WGOMD Table 2.2 ,tossq,square_of_sea_surface_temperature,,K2,time:mean,,,,,,real,longitude latitude time,tossq,ocean,,area: areacello,,
+1.0,Sea Surface Temperature,K,temperature of liquid ocean. ,Report on the ocean grid.  This variable appears in WGOMD Table 2.2 ,tos,surface_temperature,,K,time: mean,,,,,,real,longitude latitude time,tos,ocean,,area: areacello,,
+1.0,Daily Maximum Ocean Mixed Layer Thickness Defined by Mixing Scheme ,m ,,Report on the ocean grid.  This variable appears in WGOMD Table 2.2 ,omldamax,ocean_mixed_layer_thickness_defined_by_mixing_scheme,,m ,time: maximum,,,,,,real,longitude latitude time,omldamax,ocean,,area: areacello,,
 The rest of the daily mean fields on this spreadsheet should be collected only for a single ensemble member of the following experiments.,,,,,,,,,,,,,,,,,,,,,,
 ,,,experiment,time-period requested,,,,,,,,,,,,,,,,,,
 ,,,pre-industrial controls,"20 years, preferably corresponding to years 1986-2005 of the historical run",,,,,,,,,,,,,,,,,,
@@ -30,22 +30,22 @@ The rest of the daily mean fields on this spreadsheet should be collected only f
 ,,,future simulations driven by RCP concentrations or emissions,"only years 2006-2100, 2181-2200, and 2281-2300",,,,,,,,,,,,,,,,,,
 ,,,AMIP & 2030 time-slice run,all years,,,,,,,,,,,,,,,,,,
 "CMOR Table day: 2-D daily-mean atmospheric and surface fields (All fields should be reported on the atmospheric grid except (as noted below) the sea ice fields, which should be reported on the ocean grid.)",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Moisture in Upper 0.1 m of Soil Column,kg m-2,Compute the mass of water in all phases in the upper 0.1 meters of soil.,,mrsos,moisture_content_of_soil_layer,,kg m-2,time: mean area: mean where land ,,,,,,real,longitude latitude time sdepth1,mrsos,land,,area: areacella,,
-1.0,Near-Surface Relative Humidity,%,"near-surface (usually, 2 meter) relative humidity.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",,rhs,relative_humidity,,%,time: mean,,,,,,real,longitude latitude time height2m,rhs,atmos,,area: areacella,,
-1.0,Surface Daily Minimum Relative Humidity,%,"near-surface (usually, 2 meter) minimum  relative humidity.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",,rhsmin,relative_humidity,,%,time: minimum,,,,,,real,longitude latitude time height2m,rhsmin,atmos,,area: areacella,,
-1.0,Surface Daily Maximum Relative Humidity,%,"near-surface (usually, 2 meter) maximum  relative humidity.  This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",,rhsmax,relative_humidity,,%,time: maximum,,,,,,real,longitude latitude time height2m,rhsmax,atmos,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Moisture in Upper Portion of Soil Column,kg m-2,the mass of water in all phases in a thin surface soil layer.,integrate over uppermost 10 cm,mrsos,moisture_content_of_soil_layer,,kg m-2,time: mean area: mean where land ,,,,,,real,longitude latitude time sdepth1,mrsos,land,,area: areacella,,
+1.0,Near-Surface Relative Humidity,%,"This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",normally report this at 2 meters above the surface,rhs,relative_humidity,,%,time: mean,,,,,,real,longitude latitude time height2m,rhs,atmos,,area: areacella,,
+1.0,Surface Daily Minimum Relative Humidity,%,"This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",normally report this at 2 meters above the surface,rhsmin,relative_humidity,,%,time: minimum,,,,,,real,longitude latitude time height2m,rhsmin,atmos,,area: areacella,,
+1.0,Surface Daily Maximum Relative Humidity,%,"This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",normally report this at 2 meters above the surface,rhsmax,relative_humidity,,%,time: maximum,,,,,,real,longitude latitude time height2m,rhsmax,atmos,,area: areacella,,
 1.0,Snow Area Fraction,%,,,snc,surface_snow_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,snc,atmos,,area: areacella,,
-1.0,Total Cloud Fraction,%,"for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Include both large-scale and convective cloud.",,clt,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,clt,atmos,,area: areacella,,
+1.0,Total Cloud Fraction,%,"for the whole atmospheric column, as seen from the surface or the top of the atmosphere. Includes both large-scale and convective cloud.",,clt,cloud_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,clt,atmos,,area: areacella,,
 1.0, Surface Temperature Where Land or Sea Ice,K,"""skin"" temperature of all surfaces except open ocean.  ",,tslsi,surface_temperature,,K,time: mean,,,,,,real,longitude latitude time,tslsi,land,,area: areacella,,
-1.0,Surface Snow Amount,kg m-2,Compute as the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; report 0.0 where the land fraction is 0; exclude snow on vegetation canopy or on sea ice.,,snw,surface_snow_amount,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,snw,land,,area: areacella,,
+1.0,Surface Snow Amount,kg m-2,the mass of surface snow on the land portion of the grid cell divided by the land area in the grid cell; reported as 0.0 where the land fraction is 0; excludes snow on vegetation canopy or on sea ice.,,snw,surface_snow_amount,,kg m-2,time: mean area: mean where land,,,,,,real,longitude latitude time,snw,land,,area: areacella,,
 1.0,Convective Precipitation,kg m-2 s-1,at surface; includes both liquid and solid phases.,,prc,convective_precipitation_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,prc,atmos,,area: areacella,,
 1.0,Solid Precipitation,kg m-2 s-1,at surface; includes precipitation of all forms of water in the solid phase,,prsn,snowfall_flux,,kg m-2 s-1,time: mean,,,,,,real,longitude latitude time,prsn,atmos,,area: areacella,,
-1.0,Total Runoff,kg m-2 s-1,"compute as the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell.",,mrro,runoff_flux,,kg m-2 s-1,time: mean area: mean where land ,,,,,,real,longitude latitude time,mrro,land,,area: areacella,,
+1.0,Total Runoff,kg m-2 s-1,"computed as the total runoff (including ""drainage"" through the base of the soil model) leaving the land portion of the grid cell divided by the land area in the grid cell.",,mrro,runoff_flux,,kg m-2 s-1,time: mean area: mean where land ,,,,,,real,longitude latitude time,mrro,land,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,,,
-1.0,Eastward Near-Surface Wind,m s-1,"near-surface (usually, 10 meters) eastward component of wind.",,uas,eastward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,uas,atmos,,,,
-1.0,Northward Near-Surface Wind,m s-1,"near-surface (usually, 10 meters) northward component of wind.  ",,vas,northward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,vas,atmos,,,,
-1.0,Daily Maximum Near-Surface Wind Speed,m s-1,"near-surface (usually, 10 meters) wind speed.  ",,sfcWindmax,wind_speed,,m s-1,time: maximum,,,,,,real,longitude latitude time height10m,sfcWindmax,atmos,,,,
+1.0,Eastward Near-Surface Wind,m s-1,,"normally, report this at 10 meters above the surface",uas,eastward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,uas,atmos,,,,
+1.0,Northward Near-Surface Wind,m s-1,,"normally, report this at 10 meters above the surface",vas,northward_wind,,m s-1,time: mean,,,,,,real,longitude latitude time height10m,vas,atmos,,,,
+1.0,Daily Maximum Near-Surface Wind Speed,m s-1,,"normally, report this at 10 meters above the surface",sfcWindmax,wind_speed,,m s-1,time: maximum,,,,,,real,longitude latitude time height10m,sfcWindmax,atmos,,,,
 1.0,Surface Upward Latent Heat Flux,W m-2,,,hfls,surface_upward_latent_heat_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,hfls,atmos,,area: areacella,,
 1.0,Surface Upward Sensible Heat Flux,W m-2,,,hfss,surface_upward_sensible_heat_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,hfss,atmos,,area: areacella,,
 1.0,Surface Downwelling Longwave Radiation,W m-2,,,rlds,surface_downwelling_longwave_flux_in_air,,W m-2,time: mean,,,,,down,real,longitude latitude time,rlds,atmos,,area: areacella,,
@@ -54,12 +54,12 @@ priority,long name,units ,comment ,questions,output variable name ,standard name
 1.0,Surface Upwelling Shortwave Radiation,W m-2,,,rsus,surface_upwelling_shortwave_flux_in_air,,W m-2,time: mean,,,,,up,real,longitude latitude time,rsus,atmos,,area: areacella,,
 1.0,TOA Outgoing Longwave Radiation,W m-2,at the top of the atmosphere.,,rlut,toa_outgoing_longwave_flux,,W m-2,time: mean,,,,,up,real,longitude latitude time,rlut,atmos,,area: areacella,,
 ,,,,,,,,,,,,,,,,,,,,,,
-1.0,X-Component of Sea Ice Velocity,m s-1,"Report on ocean's grid.  Report as ""missing"" in regions free of sea ice.",,usi,sea_ice_x_velocity,,m s-1,time: mean,,,,,,real,longitude latitude time,usi,seaIce ocean,,,,
-1.0,Y-Component of Sea Ice Velocity,m s-1,"Report on ocean's grid.  Report as ""missing"" in regions free of sea ice.",,vsi,sea_ice_y_velocity,,m s-1,time: mean,,,,,,real,longitude latitude time,vsi,seaIce ocean,,,,
-1.0,Sea Ice Area Fraction,%,fraction of grid cell covered by sea ice. Report on ocean's grid. ,,sic,sea_ice_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,sic,seaIce ocean,,area: areacella,,
-1.0,Sea Ice Thickness,m,"Report on ocean's grid.  Compute the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Report as 0.0 in regions free of sea ice.",,sit,sea_ice_thickness,,m,time: mean area: mean where sea ,,,,,,real,longitude latitude time,sit,seaIce ocean,,area: areacella,,
+1.0,X-Component of Sea Ice Velocity,m s-1,"Reported as ""missing"" in regions free of sea ice.",Report on ocean's grid.  ,usi,sea_ice_x_velocity,,m s-1,time: mean,,,,,,real,longitude latitude time,usi,seaIce ocean,,,,
+1.0,Y-Component of Sea Ice Velocity,m s-1,"Reported as ""missing"" in regions free of sea ice.",Report on ocean's grid.  ,vsi,sea_ice_y_velocity,,m s-1,time: mean,,,,,,real,longitude latitude time,vsi,seaIce ocean,,,,
+1.0,Sea Ice Area Fraction,%,fraction of grid cell covered by sea ice. ,Report on ocean's grid.  ,sic,sea_ice_area_fraction,,%,time: mean,,,,,,real,longitude latitude time,sic,seaIce ocean,,area: areacella,,
+1.0,Sea Ice Thickness,m,"the mean thickness of sea ice in the ocean portion of the grid cell (averaging over the entire ocean portion, including the ice-free fraction).  Reported as 0.0 in regions free of sea ice.",Report on ocean's grid.  ,sit,sea_ice_thickness,,m,time: mean area: mean where sea ,,,,,,real,longitude latitude time,sit,seaIce ocean,,area: areacella,,
 "In CMOR Table day: daily mean 3-D atmospheric fields on the following pressure surfaces: 1000, 850, 700, 500, 250, 100, 50, and 10 hPa",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
 1.0,Air Temperature,K,,,ta,air_temperature,,K,time: mean,,,,,,real,longitude latitude plev8 time,ta,atmos,,area: areacella,,
 1.0,Relative Humidity,%,"This is the relative humidity with respect to liquid water for T> 0 C, and with respect to ice for T<0 C.",,hur,relative_humidity,,%,time: mean,,,,,,real,longitude latitude plev8 time,hur,atmos,,area: areacella,,
 1.0,Specific Humidity,1.0,,,hus,specific_humidity,,1.0,time: mean,,,,,,real,longitude latitude plev8 time,hus,atmos,,area: areacella,,
diff --git a/Tables_csv/dims.csv b/Tables_csv/dims.csv
index 2a537d1..a9d5452 100644
--- a/Tables_csv/dims.csv
+++ b/Tables_csv/dims.csv
@@ -24,23 +24,23 @@ aero,alev1,lev,atmospheric model's lowest level,,lowest atmospheric model level,
 "Lmon, LImon",sdepth,depth,coordinate values for soil layers (depth),depth,depth,Z,m,,,yes,increasing,0.0,200.0,double,down,,,,,,
 "Lmon, day, 3hr",sdepth1 ,depth,coordinate value for topmost 0.1 meter layer of soil,depth,depth,Z,m,,,yes,increasing,0.0,0.2,double,down,0.05,0.0 0.1,,,,
 "cfMon, cfDay",tau,tau,isccp optical depth categories,atmosphere_optical_thickness_due_to_cloud,cloud optical thickness,,1.0,,,yes,increasing,,,double,,,,0.15 0.8 2.45 6.5 16.2 41.5 100.,0.0  0.3  0.3  1.3  1.3  3.6  3.6  9.4 9.4 23.0 23.0 60.0 60.0 100000.,0.001,
-"cfOff, cf3hr",scatratio,scatratio,15 bins of scattering ratio for the CALIPSO simulator CFAD,backscattering_ratio,lidar backscattering ratio,,1.0,,,yes,increasing,,,double,,,,0.0605 2.1 4. 6. 8.5 12.5 17.5 22.5 27.5 35. 45. 55. 70. 539.5 1004.,0.01 1.2 1.2 3. 3. 5. 5. 7. 7. 10. 10. 15. 15. 20. 20. 25. 25. 30. 30. 40. 40. 50. 50. 60. 60. 80. 80. 999. 999. 1009.,0.001,
+"cfOff, cf3hr",scatratio,scatratio,15 bins of scattering ratio for the CALIPSO simulator CFAD,backscattering_ratio,lidar backscattering ratio,,1.0,,,yes,increasing,,,double,,,,0.005 0.605 2.1 4. 6. 8.5 12.5 17.5 22.5 27.5 35. 45. 55. 70. 50040.,0. 0.01 0.01 1.2 1.2 3. 3. 5. 5. 7. 7. 10. 10. 15. 15. 20. 20. 25. 25. 30. 30. 40. 40. 50. 50. 60. 60. 80. 80. 100000.,0.001,
 "cfOff, cf3hr",dbze,dbze,15 bins of radar reflectivity for CloudSat simulator CFAD,equivalent_reflectivity_factor,CloudSat simulator equivalent radar reflectivity factor,,dBZ,,,yes,increasing,,,double,,,,-47.5 -42.5 -37.5 -32.5 -27.5 -22.5 -17.5 -12.5 -7.5 -2.5 2.5 7.5 12.5 17.5 22.5,-50. -45. -45. -40. -40. -35. -35. -30. -30. -25. -25. -20. -20. -15. -15. -10. -10. -5. -5. 0. 0. 5. 5. 10. 10. 15. 15. 20. 20. 25.,0.001,
 "cfMon, cfOff, cfDay, cf3hr",sza5,sza,5 solar zenith angles for PARASOL reflectances,solar_zenith_angle,solar zenith angle,,degree,,,no,increasing,,,double,,,,0. 20. 40. 60. 80.,,0.001,
-cfSites,site,site,an integer assigned to each of 119 stations (standard) and 73 stations (aquaplanet),,site index,,1.0,ok,,no,,,,integer,,,,,,,yes
-Omon,basin,basin,,region,ocean basin,,1.0,,region,no,,,,character,,,,atlantic_arctic_ocean indian_pacific_ocean global_ocean,,,
-Omon,rho,rho,potential density referenced to 2000 dbar,,potential density referenced to 2000 dbar,Z,kg m-3,,,yes,increasing,,,double,down,,, ,,,
+cfSites,site,site,an integer assigned to each of 119 stations (standard) and 73 stations (aquaplanet),,site index,,,ok,,no,,,,integer,,,,,,,yes
+Omon,basin,basin,,region,ocean basin,,,,region,no,,,,character,,,,atlantic_arctic_ocean indian_pacific_ocean global_ocean,,,
+Omon,rho,rho,potential density referenced to 2000 dbar,sea_water_potential_density,potential density referenced to 2000 dbar,Z,kg m-3,,,yes,increasing,,,double,down,,, ,,,
 "fx, Oclim, Oyr, Omon",olevel,lev,generic ocean model vertical coordinate (nondimensional or dimensional),,ocean model level,Z,,ok,,yes,,,,double,down,,,,,,
-Omon,oline,line,"opening, passage, strait, channel, etc. ",region,ocean passage ,,1.0,,passage,no,,,,character,,,,barents_opening bering_strait canadian_archipelago denmark_strait drake_passage english_channel pacific_equatorial_undercurrent faroe_scotland_channel florida_bahamas_strait fram_strait iceland_faroe_channel indonesian_thoughflow mozambique_channel taiwan_luzon_straits windward_passage,,,
-cf3hr,location,loc,COSP profile in instantaneous curtain mode,,location index,,1.0,ok,,no,increasing,,,integer,,,,,,,yes
-Lmon,vegtype,type,plant functional type.  Several plant functional types have been defined in the area_type table available at: cf-pcmdi.llnl.gov/documents/cf-standard-names/area-type-table/current/,area_type,plant functional type,,1.0,,type_description,no,,,,character,,,,,,,
-Lmon,typebare,type,,area_type,surface type,,1.0,,type_description,no,,,,character,,bare_ground,,,,,
-Lmon,typepdec,type,,area_type,surface type,,1.0,,type_description,no,,,,character,,primary_deciduous_trees,,,,,
-Lmon,typepever,type,,area_type,surface type,,1.0,,type_description,no,,,,character,,primary_evergreen_trees,,,,,
-Lmon,typesdec,type,,area_type,surface type,,1.0,,type_description,no,,,,character,,secondary_decidous_trees,,,,,
-Lmon,typesever ,type,,area_type,surface type,,1.0,,type_description,no,,,,character,,secondary_evergreen_trees,,,,,
-Lmon,typec3pft,type,,area_type,surface type,,1.0,,type_description,no,,,,character,,c3_plant_functional_types,,,,,
-Lmon,typec4pft,type,,area_type,surface type,,1.0,,type_description,no,,,,character,,c4_plant_functional_types,,,,,
+Omon,oline,line,"opening, passage, strait, channel, etc. ",region,ocean passage ,,,,passage,no,,,,character,,,,barents_opening bering_strait canadian_archipelago denmark_strait drake_passage english_channel pacific_equatorial_undercurrent faroe_scotland_channel florida_bahamas_strait fram_strait iceland_faroe_channel indonesian_throughflow mozambique_channel taiwan_luzon_straits windward_passage,,,
+cf3hr,location,loc,COSP profile in instantaneous curtain mode,,location index,,,ok,,no,increasing,,,integer,,,,,,,yes
+Lmon,vegtype,type,plant functional type.  Several plant functional types have been defined in the area_type table available at: cf-pcmdi.llnl.gov/documents/cf-standard-names/area-type-table/current/,area_type,plant functional type,,,,type_description,no,,,,character,,,,,,,
+Lmon,typebare,type,,area_type,surface type,,,,type_description,no,,,,character,,bare_ground,,,,,
+Lmon,typepdec,type,,area_type,surface type,,,,type_description,no,,,,character,,primary_deciduous_trees,,,,,
+Lmon,typepever,type,,area_type,surface type,,,,type_description,no,,,,character,,primary_evergreen_trees,,,,,
+Lmon,typesdec,type,,area_type,surface type,,,,type_description,no,,,,character,,secondary_decidous_trees,,,,,
+Lmon,typesever ,type,,area_type,surface type,,,,type_description,no,,,,character,,secondary_evergreen_trees,,,,,
+Lmon,typec3pft,type,,area_type,surface type,,,,type_description,no,,,,character,,c3_plant_functional_types,,,,,
+Lmon,typec4pft,type,,area_type,surface type,,,,type_description,no,,,,character,,c4_plant_functional_types,,,,,
 ,,,,,,,,,,,,,,,,,,,,,
 Omon,olayer100m,depth,coordinate for 100 m ocean surface layer,depth,depth,Z,m,,,no,increasing,0.0,100.0,double,down,50.,0. 100.,,,,
 Omon,depth100m,depth,coordinate value for 100 m ocean depth,depth,depth,Z,m,,,no,increasing,80.0,120.0,double,down,100.,,,,,
diff --git a/Tables_csv/fx.csv b/Tables_csv/fx.csv
index a1632a5..e59918a 100644
--- a/Tables_csv/fx.csv
+++ b/Tables_csv/fx.csv
@@ -12,21 +12,22 @@ on atmospheric grid,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
 ,,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Atmosphere Grid-Cell Area,m2,"For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",,areacella,cell_area,,m2,,100000.0,1e+12,100000.0,1e+12,,real,longitude latitude,areacella,atmos land,,,,
-1.0,Surface Altitude,m,"height above the geoid; as defined here, ""the geoid"" is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Report here the height above the present-day geoid.  Over ocean, report as 0.0",,orog,surface_altitude,,m,,-700.0,10000.0,,,,real,longitude latitude,orog,atmos,,ar [...]
-1.0,Land Area Fraction,%,"For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",,sftlf,land_area_fraction,,%,,0.0,100.0,,,,real,longitude latitude,sftlf,atmos,,area: areacella,,
-1.0,Fraction of Grid Cell Covered with Glacier,%,"fraction of grid cell occupied by ""permanent"" ice (i.e., glaciers).  If time varying, report annual values for each year of simulation. For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",,sftgif,land_ice_area_fraction,,%,,0.0,100.0,,,,real,longitude latitude,sftgif,land,,area: areacella,,
-1.0,Capacity of Soil to Store Water,kg m-2,"""where land"": divide the total water holding capacity of all the soil in the grid cell by the land area in the grid cell;  report as ""missing"" where the land fraction is 0.",,mrsofc,soil_moisture_content_at_field_capacity,,kg m-2,,,,,,,real,longitude latitude,mrsofc,land,,area: areacella,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Atmosphere Grid-Cell Area,m2,,"For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",areacella,cell_area,,m2,,100000.0,1e+12,100000.0,1e+12,,real,longitude latitude,areacella,atmos land,,,,
+1.0,Surface Altitude,m,"height above the geoid; as defined here, ""the geoid"" is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean).  Reported here is the height above the present-day geoid (0.0 over ocean).",,orog,surface_altitude,,m,,-700.0,10000.0,,,,real,longitude latitude,orog,atmos,,area: a [...]
+1.0,Land Area Fraction,%,,"For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",sftlf,land_area_fraction,,%,,0.0,100.0,,,,real,longitude latitude,sftlf,atmos,,area: areacella,,
+1.0,Fraction of Grid Cell Covered with Glacier,%,"fraction of grid cell occupied by ""permanent"" ice (i.e., glaciers).  "," For atmospheres with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",sftgif,land_ice_area_fraction,,%,,0.0,100.0,,,,real,longitude latitude,sftgif,land,,area: areacella,,
+1.0,Capacity of Soil to Store Water,kg m-2,"reported ""where land"": divide the total water holding capacity of all the soil in the grid cell by the land area in the grid cell;  reported as ""missing"" where the land fraction is 0.",,mrsofc,soil_moisture_content_at_field_capacity,,kg m-2,,,,,,,real,longitude latitude,mrsofc,land,,area: areacella,,
 1.0,Maximum Root Depth,m,"report the maximum soil depth reachable by plant roots (if defined in model), i.e., the maximum soil depth from which they can extract moisture; report as ""missing"" where the land fraction is 0.",,rootd,root_depth,,m,,0.0,30.0,,,,real,longitude latitude,rootd,land,,area: areacella,,
 on ocean grid ,,,,,,,,,,,,,,,,,,,,,,
 "The WGOMD has recommended that all ocean fields be saved on the model's native ocean grid.  Many groups will also elect to save the sea ice fields on the ocean grid.  (The alternative is to save sea ice fields on the atmosphere grid.)  If data is ""interpolated"" from its native grid, it is important to preserve certain global mean properties (e.g., the total surface fluxes of heat, momentum, and water mass into the ocean).",,,,,,,,,,,,,,,,,,,,,,
-priority,long name,units ,comment ,questions,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
-1.0,Sea Floor Depth,m,Ocean bathymetry.   Report here the sea floor depth for present day.  Report as missing for land grid cells.,,deptho,sea_floor_depth_below_geoid,,m,,0.0,10000.0,2000.0,5000.0,,real,longitude latitude,deptho,ocean,,area: areacello,,
-1.0,Ocean Grid-Cell Volume,m3,"3-D field: grid-cell volume ca. 2000.  For oceans with more than 1 mesh, report for on grid that applies to temperature ",,volcello,ocean_volume,,m3,,100000.0,1e+15,100000.0,1e+15,,real,longitude latitude olevel,volcello,ocean,,,,
-1.0,Ocean Grid-Cell Area,m2,"For oceans with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",,areacello,cell_area,,m2,,100000.0,1e+12,100000.0,1e+12,,real,longitude latitude,areacello,ocean,,,,
-1.0,Sea Area Fraction,%,"Report on the same grid that ocean fields are reported (i.e., the ocean native grid, or the grid that ocean data has been provided to CMIP.  For completeness, provide this even if the ocean grid is the same as the atmospheric grid. This is the area fraction at the ocean surface.",Should this be recorded as a function of depth?,sftof,sea_area_fraction,,%,,0.0,100.0,,,,real,longitude latitude,sftof,ocean,,area: areacello,,
-1.0,Region Selection Index,1.0,"Report on the same grid as the temperature field.  flag_values=0,1,2,3,4,5,6,7,8,9,10 corresponding to flag_meanings=global_land, southern_ocean, atlantic_ocean, pacific_ocean, arctic_ocean, indian_ocean, mediterranean_sea, black_sea, hudson_bay, baltic_sea, red_sea.  Report on the grid used for the temperature field.",,basin,region,,1.0,,1.0,10.0,,,,integer,longitude latitude,basin,ocean,,area: areacello,0 1 2 3 4 5 6 7 8 9 10,global_land southern_ocean a [...]
-,,,eliminated basinv because it can be estimated from basin; also some models would also need a basinu for completeness,,,,,,,,,,,,,,,,,,,
+priority,long name,units ,comment ,questions & notes,output variable name ,standard name,unconfirmed or proposed standard name,unformatted units,cell_methods,valid min,valid max,mean absolute min,mean absolute max,positive,type,CMOR dimensions,CMOR variable name,realm,frequency,cell_measures,flag_values,flag_meanings
+1.0,Sea Floor Depth,m,Ocean bathymetry.   Reported here is the sea floor depth for present day. Reported as missing for land grid cells., ,deptho,sea_floor_depth_below_geoid,,m,,0.0,10000.0,2000.0,5000.0,,real,longitude latitude,deptho,ocean,,area: areacello,,
+1.0,Ocean Grid-Cell Volume,m3,grid-cell volume ca. 2000.  ,"a 3-d field: For oceans with more than 1 mesh, report on grid that applies to temperature ",volcello,ocean_volume,,m3,,100000.0,1e+15,100000.0,1e+15,,real,longitude latitude olevel,volcello,ocean,,,,
+1.0,Ocean Grid-Cell Area,m2,,"For oceans with more than 1 mesh (e.g., staggered grids), report areas that apply to surface vertical fluxes of energy.",areacello,cell_area,,m2,,100000.0,1e+12,100000.0,1e+12,,real,longitude latitude,areacello,ocean,,,,
+1.0,Sea Area Fraction,%, This is the area fraction at the ocean surface.,"Should this be recorded as a function of depth?  Report on the same grid that ocean fields are reported (i.e., the ocean native grid, or the grid that ocean data has been provided to CMIP.  For completeness, provide this even if the ocean grid is the same as the atmospheric grid.",sftof,sea_area_fraction,,%,,0.0,100.0,,,,real,longitude latitude,sftof,ocean,,area: areacello,,
+1.0,Region Selection Index,1.0, ,"Report on the same grid as the temperature field. flag_values=0,1,2,3,4,5,6,7,8,9,10 corresponding to flag_meanings=global_land, southern_ocean, atlantic_ocean, pacific_ocean, arctic_ocean, indian_ocean, mediterranean_sea, black_sea, hudson_bay, baltic_sea, red_sea. ",basin,region,,1.0,,1.0,10.0,,,,integer,longitude latitude,basin,ocean,,area: areacello,0 1 2 3 4 5 6 7 8 9 10,global_land southern_ocean atlantic_ocean pacific_ocean arctic_ocean indian_oce [...]
+2.0,Upward Geothermal Heat Flux at Sea Floor ,W m-2,,If this field is time-dependent then save it instead as one of your Omon fields (see the Omon table),hfgeou,upward_geothermal_heat_flux_at_sea_floor,,W m-2,area: mean where sea,,,,,up,real,longitude latitude,hfgeou,ocean,,area: areacello,,
+,,,,eliminated basinv because it can be estimated from basin; also some models would also need a basinu for completeness,,,,,,,,,,,,,,,,,,
 
 
diff --git a/configure b/configure
index 5c1b1d6..f95a435 100755
--- a/configure
+++ b/configure
@@ -1,6 +1,6 @@
 #! /bin/sh
 # Guess values for system-dependent variables and create Makefiles.
-# Generated by GNU Autoconf 2.61 for cmip5-cmor-tables 1.3.2.
+# Generated by GNU Autoconf 2.61 for cmip5-cmor-tables 1.3.3.
 #
 # Report bugs to <doutriaux1 at llnl.gov>.
 #
@@ -574,8 +574,8 @@ SHELL=${CONFIG_SHELL-/bin/sh}
 # Identity of this package.
 PACKAGE_NAME='cmip5-cmor-tables'
 PACKAGE_TARNAME='cmip5-cmor-tables'
-PACKAGE_VERSION='1.3.2'
-PACKAGE_STRING='cmip5-cmor-tables 1.3.2'
+PACKAGE_VERSION='1.3.3'
+PACKAGE_STRING='cmip5-cmor-tables 1.3.3'
 PACKAGE_BUGREPORT='doutriaux1 at llnl.gov'
 
 ac_default_prefix=/usr/local
@@ -1136,7 +1136,7 @@ if test "$ac_init_help" = "long"; then
   # Omit some internal or obsolete options to make the list less imposing.
   # This message is too long to be a string in the A/UX 3.1 sh.
   cat <<_ACEOF
-\`configure' configures cmip5-cmor-tables 1.3.2 to adapt to many kinds of systems.
+\`configure' configures cmip5-cmor-tables 1.3.3 to adapt to many kinds of systems.
 
 Usage: $0 [OPTION]... [VAR=VALUE]...
 
@@ -1202,7 +1202,7 @@ fi
 
 if test -n "$ac_init_help"; then
   case $ac_init_help in
-     short | recursive ) echo "Configuration of cmip5-cmor-tables 1.3.2:";;
+     short | recursive ) echo "Configuration of cmip5-cmor-tables 1.3.3:";;
    esac
   cat <<\_ACEOF
 
@@ -1267,7 +1267,7 @@ fi
 test -n "$ac_init_help" && exit $ac_status
 if $ac_init_version; then
   cat <<\_ACEOF
-cmip5-cmor-tables configure 1.3.2
+cmip5-cmor-tables configure 1.3.3
 generated by GNU Autoconf 2.61
 
 Copyright (C) 1992, 1993, 1994, 1995, 1996, 1998, 1999, 2000, 2001,
@@ -1281,7 +1281,7 @@ cat >config.log <<_ACEOF
 This file contains any messages produced by compilers while
 running configure, to aid debugging if configure makes a mistake.
 
-It was created by cmip5-cmor-tables $as_me 1.3.2, which was
+It was created by cmip5-cmor-tables $as_me 1.3.3, which was
 generated by GNU Autoconf 2.61.  Invocation command line was
 
   $ $0 $@
@@ -2227,7 +2227,7 @@ exec 6>&1
 # report actual input values of CONFIG_FILES etc. instead of their
 # values after options handling.
 ac_log="
-This file was extended by cmip5-cmor-tables $as_me 1.3.2, which was
+This file was extended by cmip5-cmor-tables $as_me 1.3.3, which was
 generated by GNU Autoconf 2.61.  Invocation command line was
 
   CONFIG_FILES    = $CONFIG_FILES
@@ -2270,7 +2270,7 @@ Report bugs to <bug-autoconf at gnu.org>."
 _ACEOF
 cat >>$CONFIG_STATUS <<_ACEOF
 ac_cs_version="\\
-cmip5-cmor-tables config.status 1.3.2
+cmip5-cmor-tables config.status 1.3.3
 configured by $0, generated by GNU Autoconf 2.61,
   with options \\"`echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`\\"
 
diff --git a/configure.ac b/configure.ac
index 26e87dd..a851530 100644
--- a/configure.ac
+++ b/configure.ac
@@ -2,7 +2,7 @@ dnl                                                -*- Autoconf -*-
 dnl  Process this file with autoconf to produce a configure script.
 
 dnl AC_PREREQ(2.59)
-AC_INIT(cmip5-cmor-tables, 1.3.2, doutriaux1 at llnl.gov)
+AC_INIT(cmip5-cmor-tables, 1.3.3, doutriaux1 at llnl.gov)
 
 GIT_TAG=`./get_git_version.sh`
 

-- 
Alioth's /usr/local/bin/git-commit-notice on /srv/git.debian.org/git/debian-science/packages/cmor-tables.git



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