CIME Atmosphere Data and Stub XML Files

Atmosphere component XML files for data, stub, and dead components.

CIMEROOT/src/components/data_comps/datm/cime_config

Atmosphere data model, datm, XML files and settings.

XML specification for archiving datm output files.

<components version="2.0">
  <comp_archive_spec compname="datm" compclass="atm">
    <rest_file_extension>r</rest_file_extension>
    <rest_history_varname>unset</rest_history_varname>
    <rpointer>
      <rpointer_file>rpointer.atm$NINST_STRING</rpointer_file>
      <rpointer_content >$CASE.datm$NINST_STRING.r.$DATENAME.nc,$CASE.datm$NINST_STRING.rs1.$DATENAME.bin</rpointer_content>
    </rpointer>
  </comp_archive_spec>
</components>

XML variables and component descriptions specific to datm.

<?xml version="1.0"?>

<entry_id version="3.0">
  <!-- modifier_mode allowed values are
       '*' 0 or more modifiers (default)
       '1' exactly 1 modifier
       '?' 0 or 1 modifiers
       '+' 1 or more modifiers

       This file may have atm desc entries.
  -->
  <description modifier_mode="1">
    <desc atm="DATM[%QIA][%WISOQIA][%CRU][%CRUv7][%GSWP3v1][%CPLHIST][%1PT][%NYF][%IAF][%JRA][%JRA-1p4-2018]"> Data driven ATM </desc>
    <desc option="QIA"> QIAN data set </desc>
    <desc option="WISOQIA">QIAN with water isotopes</desc>
    <desc option="CRU"> CRUNCEP data set </desc>
    <desc option="CRUv7"> CLM CRU NCEP v7 data set </desc>
    <desc option="GSWP3v1"> GSWP3v1 data set </desc>
    <desc option="CPLHIST"> Coupler hist data set (in this mode, it is strongly recommended that the model domain and the coupler history forcing are on the same domain)</desc>
    <desc option="1PT">single point tower site data set </desc>
    <desc option="NYF">COREv2 normal year forcing</desc>
    <desc option="IAF">COREv2 interannual forcing</desc>
    <desc option="JRA">interannual JRA55 forcing</desc>
    <desc option="JRA-1p4-2018">interannual JRA55 forcing, v1.4, through 2018</desc>
  </description>

  <entry id="COMP_ATM">
    <type>char</type>
    <valid_values>datm</valid_values>
    <default_value>datm</default_value>
    <group>case_comp</group>
    <file>env_case.xml</file>
    <desc>Name of atmospheric component</desc>
  </entry>

  <entry id="DATM_MODE">
    <type>char</type>
    <valid_values>CORE2_NYF,CORE2_IAF,CLM_QIAN,CLM_QIAN_WISO,CLM1PT,CLMCRUNCEP,CLMCRUNCEPv7,CLMGSWP3v1,CPLHIST,CORE_IAF_JRA,CORE_IAF_JRA_1p4_2018</valid_values>
    <default_value>CORE2_NYF</default_value>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>Mode for data atmosphere component.
      CORE2_NYF (CORE2 normal year forcing) are modes used in forcing prognostic ocean/sea-ice components.
      CLM_QIAN, CLMCRUNCEP, CLMCRUNCEPv7, CLMGSWP3v1 and CLM1PT are modes using observational data for forcing prognostic land components.</desc>
    <values match="last">
      <value compset="%NYF">CORE2_NYF</value>
      <value compset="%IAF">CORE2_IAF</value>
      <value compset="%JRA">CORE_IAF_JRA</value>
      <value compset="%JRA-1p4-2018">CORE_IAF_JRA_1p4_2018</value>
      <value compset="%QIA">CLM_QIAN</value>
      <value compset="%WISOQIA">CLM_QIAN_WISO</value>
      <value compset="%CRU">CLMCRUNCEP</value>
      <value compset="%CRUv7">CLMCRUNCEPv7</value>
      <value compset="%GSWP3v1">CLMGSWP3v1</value>
      <value compset="%1PT">CLM1PT</value>
      <value compset="%CPLHIST">CPLHIST</value>
    </values>
  </entry>

  <entry id="DATM_PRESAERO">
    <type>char</type>
    <valid_values>none,clim_1850,clim_2000,clim_2010,trans_1850-2000,SSP1-1.9,SSP1-2.6,SSP2-4.5,SSP3-7.0,SSP4-3.4,SSP4-6.0,SSP5-3.4,SSP5-8.5,cesm2_omip,cplhist</valid_values>
    <default_value>clim_2000</default_value>
    <values match="last">
      <value compset="^1850_"      >clim_1850</value>
      <value compset="^2000_"      >clim_2000</value>
      <value compset="^2010_"      >clim_2010</value>
      <value compset="^SSP119_"    >SSP1-1.9</value>
      <value compset="^SSP126_"    >SSP1-2.6</value>
      <value compset="^SSP245_"    >SSP2-4.5</value>
      <value compset="^SSP370_"    >SSP3-7.0</value>
      <value compset="^SSP434_"    >SSP4-3.4</value>
      <value compset="^SSP460_"    >SSP4-6.0</value>
      <value compset="^SSP534_"    >SSP5-3.4</value>
      <value compset="^SSP585_"    >SSP5-8.5</value>
      <value compset="^SSP119EXT_" >SSP1-1.9</value>
      <value compset="^SSP126EXT_" >SSP1-2.6</value>
      <value compset="^SSP245EXT_" >SSP2-4.5</value>
      <value compset="^SSP370EXT_" >SSP3-7.0</value>
      <value compset="^SSP434EXT_" >SSP4-3.4</value>
      <value compset="^SSP460EXT_" >SSP4-6.0</value>
      <value compset="^SSP534EXT_" >SSP5-3.4</value>
      <value compset="^SSP585EXT_" >SSP5-8.5</value>
      <value compset="^HIST_"      >trans_1850-2000</value>
      <value compset="^20TR_"      >trans_1850-2000</value>
      <value compset="^OMIP_DATM%IAF" cime_model="cesm">cesm2_omip</value>
      <value compset="^OMIP_DATM%JRA" cime_model="cesm">cesm2_omip</value>
      <value compset="_DATM%CPLHIST">cplhist</value>
      <value compset="_DATM.*_DICE.*_DOCN.*_DROF">none</value> 
    </values>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>DATM prescribed aerosol forcing</desc>
  </entry>

  <entry id="DATM_TOPO">
    <type>char</type>
    <valid_values>none,observed,cplhist</valid_values>
    <default_value>observed</default_value>
    <values match="last">
      <!-- Only needed for compsets with active land; for other compsets, turn it off -->
      <value compset="_SLND">none</value>
      <value compset="_DLND">none</value>
      <value compset="_DATM%CPLHIST">cplhist</value>
    </values>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>DATM surface topography forcing</desc>
  </entry>

  <entry id="DATM_CO2_TSERIES">
    <type>char</type>
    <valid_values>none,20tr,20tr.latbnd,omip,SSP1-1.9,SSP1-2.6,SSP2-4.5,SSP3-7.0,SSP4-3.4,SSP4-6.0,SSP5-3.4,SSP5-8.5,SSP1-1.9.latbnd,SSP1-2.6.latbnd,SSP2-4.5.latbnd,SSP3-7.0.latbnd,SSP4-3.4.latbnd,SSP4-6.0.latbnd,SSP5-3.4.latbnd,SSP5-8.5.latbnd</valid_values>
    <default_value>none</default_value>
    <values match="last">
      <value compset="^SSP119_"   >SSP1-1.9</value>
      <value compset="^SSP126_"   >SSP1-2.6</value>
      <value compset="^SSP245_"   >SSP2-4.5</value>
      <value compset="^SSP370_"   >SSP3-7.0</value>
      <value compset="^SSP434_"   >SSP4-3.4</value>
      <value compset="^SSP460_"   >SSP4-6.0</value>
      <value compset="^SSP534_"   >SSP5-3.4</value>
      <value compset="^SSP585_"   >SSP5-8.5</value>
      <value compset="^SSP119EXT_">SSP1-1.9</value>
      <value compset="^SSP126EXT_">SSP1-2.6</value>
      <value compset="^SSP245EXT_">SSP2-4.5</value>
      <value compset="^SSP370EXT_">SSP3-7.0</value>
      <value compset="^SSP434EXT_">SSP4-3.4</value>
      <value compset="^SSP460EXT_">SSP4-6.0</value>
      <value compset="^SSP534EXT_">SSP5-3.4</value>
      <value compset="^SSP585EXT_">SSP5-8.5</value>
      <value compset="^HIST"      >20tr</value>
      <value compset="^20TR"      >20tr</value>
      <value compset="^OMIP_DATM%IAF.*_POP2%[^_]*ECO">omip</value>
      <value compset="^OMIP_DATM%JRA.*_POP2%[^_]*ECO">omip</value>
    </values>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>DATM CO2 time series</desc>
  </entry>

  <entry id="DATM_CPLHIST_DOMAIN_FILE">
    <type>char</type>
    <valid_values></valid_values>
    <default_value>null</default_value>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>
      Full pathname for domain file for datm when DATM_MODE is
      CPLHIST, NOTE: if this is set to 'null' (the default), then
      domain information is read in from the first coupler history
      file in the target stream and it is assumed that the first
      coupler stream file that is pointed to contains the domain
      information for that stream.
    </desc>
  </entry>

  <entry id="DATM_CPLHIST_DIR">
    <type>char</type>
    <valid_values></valid_values>
    <default_value>UNSET</default_value>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>directory for coupler history data mode (only used for when DATM_MODE is CPLHIST)</desc>
  </entry>

  <entry id="DATM_CPLHIST_CASE">
    <type>char</type>
    <valid_values></valid_values>
    <default_value>UNSET</default_value>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>case name used to determine stream filenames when DATM_MODE is CPLHIST</desc>
  </entry>

  <entry id="DATM_CPLHIST_YR_ALIGN">
    <type>integer</type>
    <valid_values></valid_values>
    <default_value>-999</default_value>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>
      Simulation year corresponding to DATM_CPLHIST_YR_START (only used
      when DATM_MODE is CPLHIST). A common usage is to set this to
      RUN_STARTDATE. With this setting, the forcing in the first year of
      the run will be the forcing of year DATM_CPLHIST_YR_START. Another
      use case is to align the calendar of transient forcing with the
      model calendar. For example, setting
      DATM_CPLHIST_YR_ALIGN=DATM_CPLHIST_YR_START will lead to the
      forcing calendar being the same as the model calendar. The forcing
      for a given model year would be the forcing of the same year. This
      would be appropriate in transient runs where the model calendar is
      setup to span the same year range as the forcing data.
    </desc>
  </entry>

  <entry id="DATM_CPLHIST_YR_START">
    <type>integer</type>
    <valid_values></valid_values>
    <default_value>-999</default_value>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>starting year to loop data over (only used when DATM_MODE is CPLHIST)</desc>
  </entry>

  <entry id="DATM_CPLHIST_YR_END">
    <type>integer</type>
    <valid_values></valid_values>
    <default_value>-999</default_value>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>ending year to loop data over (only used when DATM_MODE is CPLHIST)</desc>
  </entry>

  <entry id="DATM_CLMNCEP_YR_ALIGN">
    <type>integer</type>
    <valid_values></valid_values>
    <default_value>1</default_value>
    <values match="last">
      <value compset="1850.*_DATM%QIA">1</value>
      <value compset="1850.*_DATM%CRU">1</value>
      <value compset="1850.*_DATM%GSW">1</value>
      <value compset="HIST.*_DATM%QIA">1895</value>
      <value compset="HIST.*_DATM%CRU">1901</value>
      <value compset="HIST.*_DATM%GSW">1901</value>
      <value compset="20TR.*_DATM%QIA">1895</value>
      <value compset="20TR.*_DATM%CRU">1901</value>
      <value compset="20TR.*_DATM%GSW">1901</value>
      <value compset="SSP.*_DATM%QIA">$DATM_CLMNCEP_YR_START</value>
      <value compset="SSP.*_DATM%CRU">$DATM_CLMNCEP_YR_START</value>
      <value compset="SSP.*_DATM%GSW">$DATM_CLMNCEP_YR_START</value>
      <value compset="1850.*_DATM%CRU">1</value>
      <value compset="1850.*_DATM%GSW">1</value>
      <value compset="2000.*_DATM">$DATM_CLMNCEP_YR_START</value>
      <value compset="2003.*_DATM">$DATM_CLMNCEP_YR_START</value>
      <value compset="2010.*_DATM">$DATM_CLMNCEP_YR_START</value>
      <value compset="4804.*_DATM">$DATM_CLMNCEP_YR_START</value>
    </values>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>year align</desc>
  </entry>

  <entry id="DATM_CLMNCEP_YR_START">
    <type>integer</type>
    <valid_values></valid_values>
    <default_value>2004</default_value>
    <values match="last">
      <value compset="2000.*_DATM%1PT">1972</value>
      <value compset="1850.*_DATM%QIA">1948</value>
      <value compset="1850.*_DATM%CRU">1901</value>
      <value compset="1850.*_DATM%GSW">1901</value>
      <value compset="2000.*_DATM%WISOQIA">2000</value>
      <value compset="2000.*_DATM%QIA">1972</value>
      <value compset="HIST.*_DATM%QIA">1948</value>
      <value compset="HIST.*_DATM%CRU">1901</value>
      <value compset="HIST.*_DATM%GSW">1901</value>
      <value compset="20TR.*_DATM%QIA">1948</value>
      <value compset="20TR.*_DATM%CRU">1901</value>
      <value compset="20TR.*_DATM%GSW">1901</value>
      <value compset="4804.*_DATM%QIA">1948</value>
      <value compset="SSP.*_DATM%QIA" >1995</value>
      <value compset="SSP.*_DATM%CRU" >2001</value>
      <value compset="SSP.*_DATM%GSW" >2001</value>
      <value compset="2003.*_DATM%QIA.*_TEST">2002</value>
      <value compset="1850.*_DATM%CRU">1901</value>
      <value compset="2000.*_DATM%CRU">1991</value>
      <value compset="2003.*_DATM%CRU">2002</value>
      <value compset="2010.*_DATM%CRU">2005</value>
      <value compset="1850.*_DATM%GSW">1901</value>
      <value compset="2000.*_DATM%GSW">1991</value>
      <value compset="2010.*_DATM%GSW">2005</value>
      <value compset="2003.*_DATM%GSW">2002</value>
    </values>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>starting year to loop data over</desc>
  </entry>

  <entry id="DATM_CLMNCEP_YR_END">
    <type>integer</type>
    <valid_values></valid_values>
    <default_value>2004</default_value>
    <values match="last">
      <value   compset="2000.*_DATM%1PT">2004</value>
      <value   compset="1850.*_DATM%QIA">1972</value>
      <value   compset="1850.*_DATM%CRU">1920</value>
      <value   compset="1850.*_DATM%GSW">1920</value>
      <value   compset="2000.*_DATM%WISOQIA">2004</value>
      <value   compset="2000.*_DATM%QIA">2004</value>
      <value   compset="HIST.*_DATM%QIA">1972</value>
      <value   compset="HIST.*_DATM%CRU">1920</value>
      <value   compset="HIST.*_DATM%GSW">1920</value>
      <value   compset="20TR.*_DATM%QIA">1972</value>
      <value   compset="20TR.*_DATM%CRU">1920</value>
      <value   compset="20TR.*_DATM%GSW">1920</value>
      <value   compset="4804.*_DATM%QIA">2004</value>
      <value   compset="SSP.*_DATM%QIA">2004</value>
      <value   compset="SSP.*_DATM%CRU">2016</value>
      <value   compset="SSP.*_DATM%GSW">2014</value>
      <value   compset="2003.*_DATM%QIA.*_TEST">2003</value>
      <value   compset="1850.*_DATM%CRU">1920</value>
      <value   compset="2000.*_DATM%CRU">2010</value>
      <value   compset="2003.*_DATM%CRU">2003</value>
      <value   compset="2010.*_DATM%CRU">2014</value>
      <value   compset="1850.*_DATM%GSW">1920</value>
      <value   compset="2000.*_DATM%GSW">2010</value>
      <value   compset="2010.*_DATM%GSW">2014</value>
      <value   compset="2003.*_DATM%GSW">2003</value>
    </values>
    <group>run_component_datm</group>
    <file>env_run.xml</file>
    <desc>ending year to loop data over</desc>
  </entry>

  <help>
    =========================================
    DATM naming conventions in compset name
    =========================================
  </help>

</entry_id>

XML namelist definitions for datm.

<?xml version="1.0"?>

<?xml-stylesheet type="text/xsl" href="namelist_definition.xsl"?>

<entry_id version="2.0">

  <!--
    Values to use by default for creation of DATM model datm namelists.
    The element names are the same as the corresponding namelist
    variables.  Values that depend on the model configuration use
    attributes to express the dependency.  The recognized attributes
    are: stream, grid

    strm_year_first is the first year of the stream data that will be used
    strm_year_last  is the last  year of the stream data that will be used
    strm_year_align is the model year that will be aligned with stream data for year_first

    Replace any instance of the following substring indicators with the appropriate values:
    %y    => year from the range yearfirst to yearlast
    %ym   => year-month from the range yearfirst to yearlast with all 12 months
    %ymd  => year-month-day from the range yearfirst to yearlast with all 12 months

    In datm_in, streams namelist input has the form
     streams = 'stream1.txt year_align year_first year_last ',
               'stream2.txt year_align year_first year_last ',
                ...
               'streamN.txt year_align year_first year_last '

    Each mode below, except for presaero, has a set of streams associated with it
    The presaero stream, is associated with all modes

    Currently the following streams are supported (term definitions precede the streams)

    CLM_QIAN		= Run with the CLM Qian dataset valid from 1948 to 2004 (force CLM)
    CLM_QIAN_WISO	= Run with the CLM Qian dataset with isotopes valid from 2000 to 2004 (force CLM)
    CLMCRUNCEP		= Run with the CLM CRU NCEP V4 ( default ) forcing valid from 1900 to 2010 (force CLM)
    CLMCRUNCEPv7 	= Run with the CLM CRU NCEP V7 forcing valid from 1900 to 2010 (force CLM)
    CLMGSWP3v1		= Run with the CLM GSWP3 V1 forcing (force CLM)
    CLM1PT		= Run with supplied single point data (force CLM)
    CORE2_NYF		= CORE2 normal year forcing (for forcing POP and CICE)
    CORE2_IAF		= CORE2 intra-annual year forcing (for forcing POP and CICE)
    CORE_IAF_JRA	= JRA55 intra-annual year forcing (for forcing POP and CICE)
    CORE_IAF_JRA_1p4_2018 = JRA55 intra-annual year forcing, v1.4, through 2018 (for forcing POP and CICE)
    CPLHIST     	= Streams for lnd or ocn/ice forcing used for spinup
    presaero		= Prescribed aerosol forcing
    topo		= Surface topography
    co2tseries		= Time series of prescribed CO2 forcing
    Anomaly.Forcing	= Time series of correction terms
    BC			= Bias Correction for a stream to a given set of observations

    Anomaly.Forcing.Humidity
    Anomaly.Forcing.Longwave
    Anomaly.Forcing.Precip
    Anomaly.Forcing.Pressure
    Anomaly.Forcing.Shortwave
    Anomaly.Forcing.Temperature
    Anomaly.Forcing.Uwind
    Anomaly.Forcing.Vwind

    BC.CRUNCEP.CMAP.Precip
    BC.CRUNCEP.GPCP.Precip
    BC.QIAN.Precip

    CLM1PT.1x1_brazil
    CLM1PT.1x1_camdenNJ
    CLM1PT.1x1_asphaltjungleNJ
    CLM1PT.1x1_mexicocityMEX
    CLM1PT.1x1_vancouverCAN
    CLM1PT.1x1_numaIA
    CLM1PT.1x1_smallvilleIA
    CLM1PT.5x5_amazon
    CLM1PT.1x1_urbanc_alpha
    CLM1PT.CLM_USRDAT

    CPLHISTForcing.Solar
    CPLHISTForcing.nonSolarFlux
    CPLHISTForcing.State3hr
    CPLHISTForcing.State1hr

    CLM_QIAN.Solar
    CLM_QIAN.Precip
    CLM_QIAN.TPQW

    CLM_QIAN_WISO.Solar
    CLM_QIAN_WISO.Precip
    CLM_QIAN_WISO.TPQW

    CLMCRUNCEP.Solar
    CLMCRUNCEP.Precip
    CLMCRUNCEP.TPQW

    CLMCRUNCEPv7.Solar
    CLMCRUNCEPv7.Precip
    CLMCRUNCEPv7.TPQW

    CLMGSWP3v1.Solar
    CLMGSWP3v1.Precip
    CLMGSWP3v1.TPQW

    co2tseries.20tr
    co2tseries.20tr.latbnd
    co2tseries.omip
    co2tseries.SSP1-1.9
    co2tseries.SSP1-2.6
    co2tseries.SSP2-4.5
    co2tseries.SSP3-7.0
    co2tseries.SSP4-3.4
    co2tseries.SSP4-6.0
    co2tseries.SSP5-3.4
    co2tseries.SSP5-8.5
    co2tseries.SSP1-1.9.latbnd
    co2tseries.SSP1-2.6.latbnd
    co2tseries.SSP2-4.5.latbnd
    co2tseries.SSP3-7.0.latbnd
    co2tseries.SSP4-3.4.latbnd
    co2tseries.SSP4-6.0.latbnd
    co2tseries.SSP5-3.4.latbnd
    co2tseries.SSP5-8.5.latbnd

    CORE2_NYF.GISS
    CORE2_NYF.GXGXS
    CORE2_NYF.NCEP

    Note for CORE2_IAF:
    The most current versions of forcing files(those recommended for use) are duplicated
    below and stored at /ccsm/ocn/iaf/):
    gcgcs.prec.T62.current, giss.lwdn.T62.current, giss.swdn.T62.current, giss.swup.T62.current,
    ncep.dn10.T62.current, ncep.q_10.T62.current ncep.slp_.T62.current,
    ncep.t_10.T62.current, ncep.u_10.T62.current, ncep.v_10.T62.current

    CORE2_IAF.GCGCS.PREC
    CORE2_IAF.GISS.LWDN
    CORE2_IAF.GISS.SWDN
    CORE2_IAF.GISS.SWUP
    CORE2_IAF.NCEP.DN10
    CORE2_IAF.NCEP.Q_10
    CORE2_IAF.NCEP.SLP_
    CORE2_IAF.NCEP.T_10
    CORE2_IAF.NCEP.U_10
    CORE2_IAF.NCEP.V_10
    CORE2_IAF.CORE2.ArcFactor

    presaero.clim_1850
    presaero.clim_2000
    presaero.clim_2010
    presaero.trans_1850-2000
    presaero.SSP1-1.9
    presaero.SSP1-2.6
    presaero.SSP2-4.5
    presaero.SSP3-7.0
    presaero.SSP4-3.4
    presaero.SSP4-6.0
    presaero.SSP5-3.4
    presaero.SSP5-8.5
    presaero.cesm2_omip
    presaero.cplhist

    topo.observed
    topo.cplhist

      **********IMPORTANT NOTE: *************
      In the value matches below, regular expressions are used ****
      If two matches are equivalent, the FIRST one will be used, so need to make sure
      that matches are not equivalent if possible

	 As an example, say datm_mode=CLMCRUNCEPv7,

         the following order would result in an INCORRECT setting of streams for this datm_mode
             <value datm_mode="CLMCRUNCEP">CLMCRUNCEP.Solar,CLMCRUNCEP.Precip,CLMCRUNCEP.TPQW</value>
             <value datm_mode="CLMCRUNCEPv7">CLMCRUNCEPv7.Solar,CLMCRUNCEPv7.Precip,CLMCRUNCEPv7.TPQW</value>

         the following will results in the CORRECT set of streams for this datm_mode
             <value datm_mode="CLMCRUNCEP.\">CLMCRUNCEP.Solar,CLMCRUNCEP.Precip,CLMCRUNCEP.TPQW</value>
             <value datm_mode="CLMCRUNCEPv7">CLMCRUNCEPv7.Solar,CLMCRUNCEPv7.Precip,CLMCRUNCEPv7.TPQW</value>
  -->

  <!-- ========================================================================================  -->
  <!-- Stream file variables                                                                     -->
  <!-- ========================================================================================  -->

  <entry id="streamslist">
    <type>char(100)</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>List of streams used for the given datm_mode</desc>
    <values>
      <value datm_mode="CLM_QIAN$">CLM_QIAN.Solar,CLM_QIAN.Precip,CLM_QIAN.TPQW</value>
      <value datm_mode="CLM_QIAN_WISO">CLM_QIAN_WISO.Solar,CLM_QIAN_WISO.Precip,CLM_QIAN_WISO.TPQW</value>
      <value datm_mode="CLM1PT">CLM1PT.$ATM_GRID</value>
      <value datm_mode="CLMCRUNCEP$">CLMCRUNCEP.Solar,CLMCRUNCEP.Precip,CLMCRUNCEP.TPQW</value>
      <value datm_mode="CLMCRUNCEPv7">CLMCRUNCEPv7.Solar,CLMCRUNCEPv7.Precip,CLMCRUNCEPv7.TPQW</value>
      <value datm_mode="CLMGSWP3v1">CLMGSWP3v1.Solar,CLMGSWP3v1.Precip,CLMGSWP3v1.TPQW</value>
      <value datm_mode="CORE2_NYF" >CORE2_NYF.GISS,CORE2_NYF.GXGXS,CORE2_NYF.NCEP</value>
      <value datm_mode="CORE2_IAF" >CORE2_IAF.GCGCS.PREC,CORE2_IAF.GISS.LWDN,CORE2_IAF.GISS.SWDN,CORE2_IAF.GISS.SWUP,CORE2_IAF.NCEP.DN10,CORE2_IAF.NCEP.Q_10,CORE2_IAF.NCEP.SLP_,CORE2_IAF.NCEP.T_10,CORE2_IAF.NCEP.U_10,CORE2_IAF.NCEP.V_10,CORE2_IAF.CORE2.ArcFactor</value>
      <value datm_mode="CORE_IAF_JRA_1p4_2018" >CORE_IAF_JRA_1p4_2018.GCGCS.PREC,CORE_IAF_JRA_1p4_2018.GISS.LWDN,CORE_IAF_JRA_1p4_2018.GISS.SWDN,CORE_IAF_JRA_1p4_2018.NCEP.Q_10,CORE_IAF_JRA_1p4_2018.NCEP.SLP_,CORE_IAF_JRA_1p4_2018.NCEP.T_10,CORE_IAF_JRA_1p4_2018.NCEP.U_10,CORE_IAF_JRA_1p4_2018.NCEP.V_10</value>
      <value datm_mode="CORE_IAF_JRA" >CORE_IAF_JRA.GCGCS.PREC,CORE_IAF_JRA.GISS.LWDN,CORE_IAF_JRA.GISS.SWDN,CORE_IAF_JRA.NCEP.Q_10,CORE_IAF_JRA.NCEP.SLP_,CORE_IAF_JRA.NCEP.T_10,CORE_IAF_JRA.NCEP.U_10,CORE_IAF_JRA.NCEP.V_10</value>
      <value datm_mode="CORE2_IAF" atm_grid="01col" >CORE2_IAF.NCEP.DENS.SOFS,CORE2_IAF.NCEP.PSLV.SOFS,CORE2_IAF.PREC.SOFS.DAILY,CORE2_IAF.LWDN.SOFS.DAILY,CORE2_IAF.SWDN.SOFS.DAILY,CORE2_IAF.SWUP.SOFS.DAILY,CORE2_IAF.SHUM.SOFS.6HOUR,CORE2_IAF.TBOT.SOFS.6HOUR,CORE2_IAF.U.SOFS.6HOUR,CORE2_IAF.V.SOFS.6HOUR,CORE2_IAF.CORE2.ArcFactor</value>
      <value datm_mode="CPLHIST">CPLHISTForcing.Solar,CPLHISTForcing.nonSolarFlux,CPLHISTForcing.State3hr,CPLHISTForcing.State1hr</value>
    </values>
  </entry>

  <entry id="strm_domdir">
    <type>char</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Stream domain file directory.</desc>
    <values>
      <value>null</value>
      <value stream="CLM1PT.1x1">$DIN_LOC_ROOT/atm/datm7/domain.clm</value>
      <value stream="CLM1PT.CLM_USRDAT">$ATM_DOMAIN_PATH</value>
      <value stream="CPLHISTForcing">null</value>
      <value stream="CLM_QIAN">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CLMCRUNCEPv7">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.v7.c160715</value>
      <value stream="CLMCRUNCEP">$DIN_LOC_ROOT/share/domains/domain.clm</value>
      <value stream="CLMGSWP3v1">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.GSWP3.0.5d.v1.c170516</value>
      <value stream="CLMCRUNCEP\.">$DIN_LOC_ROOT/share/domains/domain.clm</value>
      <value stream="CLMCRUNCEP_V5">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.V5.c140715</value>
      <value stream="CLMGSWP3">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.GSWP3.0.5d.v1.c170516</value>
      <value stream="CORE2_NYF">$DIN_LOC_ROOT/atm/datm7/NYF</value>
      <value stream="CORE2_IAF.CORE2.ArcFactor">$DIN_LOC_ROOT/atm/datm7/CORE2</value>
      <value stream="CORE2_IAF.NCEP.DENS.SOFS">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.NCEP.PSLV.SOFS">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.PREC.SOFS.DAILY">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.LWDN.SOFS.DAILY">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.SWDN.SOFS.DAILY">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.SWUP.SOFS.DAILY">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.SHUM.SOFS.6HOUR">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.TBOT.SOFS.6HOUR">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.U.SOFS.6HOUR">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.V.SOFS.6HOUR">$DIN_LOC_ROOT/share/domains</value>
      <value stream="CORE2_IAF.GCGCS.PREC">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.GISS.LWDN">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.GISS.SWDN">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.GISS.SWUP">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.NCEP.DN10">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.NCEP.Q_10">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.NCEP.SLP_">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.NCEP.T_10">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.NCEP.U_10">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE2_IAF.NCEP.V_10">$DIN_LOC_ROOT/atm/datm7</value>
      <value stream="CORE_IAF_JRA.*">$DIN_LOC_ROOT/atm/datm7/JRA55</value>
      <value stream="co2tseries">$DIN_LOC_ROOT/atm/datm7/CO2 </value>
      <value stream="BC.QIAN.Precip">$DIN_LOC_ROOT/atm/datm7/bias_correction/precip/gpcp/qian</value>
      <value stream="BC.CRUNCEP.GPCP.Precip">$DIN_LOC_ROOT/atm/datm7/clm_output/cruncep_precip_1deg/gpcp_1deg_bias_correction</value>
      <value stream="BC.CRUNCEP.CMAP.Precip">$DIN_LOC_ROOT/atm/datm7/bias_correction/precip/cmap/cruncep</value>
      <value stream="Anomaly">$DIN_LOC_ROOT/atm/datm7/anomaly_forcing</value>
      <value stream="presaero.cplhist">null</value>
      <value stream="presaero.clim_1850">$DIN_LOC_ROOT/atm/cam/chem/trop_mozart_aero/aero </value>
      <value stream="presaero.clim_2000">$DIN_LOC_ROOT/atm/cam/chem/trop_mozart_aero/aero </value>
      <value stream="presaero.clim_2010">$DIN_LOC_ROOT/atm/cam/chem/trop_mozart_aero/aero </value>
      <value stream="presaero.trans_1850-2000">$DIN_LOC_ROOT/atm/cam/chem/trop_mozart_aero/aero</value>
      <value stream="presaero.SSP5-3.4">null</value>
      <value stream="presaero.SSP">$DIN_LOC_ROOT/atm/cam/chem/trop_mozart_aero/aero</value>
      <value stream="presaero.cesm2_omip">$DIN_LOC_ROOT/atm/cam/chem/trop_mozart_aero/aero</value>
      <value stream="topo.observed">$DIN_LOC_ROOT/atm/datm7/topo_forcing</value>
      <value stream="topo.cplhist">null</value>
    </values>
  </entry>

  <entry id="strm_domfil">
    <type>char</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Stream domain file path(s).</desc>
    <values match="first">
      <value>null</value>
      <value stream="CLM1PT.1x1_mexicocityMEX">domain.lnd.1x1pt-mexicocityMEX_navy.090715.nc</value>
      <value stream="CLM1PT.1x1_vancouverCAN">domain.lnd.1x1pt-vancouverCAN_navy.090715.nc </value>
      <value stream="CLM1PT.1x1_urbanc_alpha">domain.lnd.1x1pt-urbanc_alpha_navy.090715.nc </value>
      <value stream="CLM1PT.CLM_USRDAT">$ATM_DOMAIN_FILE</value>
      <value stream="CPLHISTForcing">null</value>
      <value stream="CLM_QIAN\.">domain.T62.050609.nc</value>
      <value stream="CLM_QIAN_WISO">domain.T62.050609.nc</value>
      <value stream="CLMCRUNCEPv7">domain.lnd.360x720_cruncep.130305.nc</value>
      <value stream="CLMCRUNCEP">domain.lnd.360x720.130305.nc</value>
      <value stream="CLMGSWP3v1">domain.lnd.360x720_gswp3.0v1.c170606.nc</value>
      <value stream="CLMGSWP3">domain.lnd.360x720_gswp3.0v1.c170606.nc</value>
      <value stream="CORE2_NYF.GISS">nyf.giss.T62.051007.nc</value>
      <value stream="CORE2_NYF.GXGXS">nyf.gxgxs.T62.051007.nc</value>
      <value stream="CORE2_NYF.NCEP">nyf.ncep.T62.050923.nc</value>
      <value stream="CORE2_IAF.NCEP.DENS.SOFS">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.NCEP.PSLV.SOFS">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.PREC.SOFS.DAILY">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.LWDN.SOFS.DAILY">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.SWDN.SOFS.DAILY">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.SWUP.SOFS.DAILY">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.SHUM.SOFS.6HOUR">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.TBOT.SOFS.6HOUR">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.U.SOFS.6HOUR">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.V.SOFS.6HOUR">domain.ocn.01col.SOFS.20150828.nc</value>
      <value stream="CORE2_IAF.GCGCS.PREC">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.GISS.LWDN">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.GISS.SWDN">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.GISS.SWUP">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.NCEP.DN10">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.NCEP.Q_10">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.NCEP.SLP_">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.NCEP.T_10">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.NCEP.U_10">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.NCEP.V_10">domain.T62.050609.nc</value>
      <value stream="CORE2_IAF.CORE2.ArcFactor">CORE2.t_10.ArcFactor.T62.1997-2004.nc</value>
      <value stream="CORE_IAF_JRA.*">domain.atm.TL319.151007.nc</value>
      <value stream="co2tseries.20tr.latbnd">fco2_datm_lat-bands_simyr_1750-2015_CMIP6_c180929.nc</value>
      <value stream="co2tseries.20tr">fco2_datm_global_simyr_1750-2014_CMIP6_c180929.nc</value>
      <value stream="co2tseries.omip">fco2_datm_global_ssp585_simyr_1750-2020_CMIP6_c200324.nc</value>
      <value stream="co2tseries.SSP1-1.9.latbnd">fco2_datm_lat-bandsSSP1-1.9_simyr_2014-2500_CMIP6_c190514.nc</value>
      <value stream="co2tseries.SSP1-2.6.latbnd">fco2_datm_lat-bandsSSP1-2.6__simyr_2014-2500_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP2-4.5.latbnd">fco2_datm_lat-bandsSSP2-4.5__simyr_2014-2500_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP3-7.0.latbnd">fco2_datm_lat-bandsSSP3-7.0__simyr_2014-2500_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP4-3.4.latbnd">fco2_datm_lat-bandsSSP4-3.4_simyr_2014-2500_CMIP6_c190514.nc</value>
      <value stream="co2tseries.SSP4-6.0.latbnd">fco2_datm_lat-bandsSSP4-6.0__simyr_2014-2500_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP5-3.4.latbnd">fco2_datm_lat-bandsSSP5-3.4__simyr_2014-2500_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP5-8.5.latbnd">fco2_datm_lat-bandsSSP5-8.5__simyr_2014-2500_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP1-1.9">fco2_datm_globalSSP1-1.9_simyr_2014-2501_CMIP6_c190514.nc</value>
      <value stream="co2tseries.SSP1-2.6">fco2_datm_globalSSP1-2.6__simyr_2014-2501_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP2-4.5">fco2_datm_globalSSP2-4.5__simyr_2014-2501_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP3-7.0">fco2_datm_globalSSP3-7.0__simyr_2014-2501_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP4-3.4">fco2_datm_globalSSP4-3.4_simyr_2014-2501_CMIP6_c190514.nc</value>
      <value stream="co2tseries.SSP4-6.0">fco2_datm_globalSSP4-6.0__simyr_2014-2501_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP5-3.4">fco2_datm_globalSSP5-3.4__simyr_2014-2501_CMIP6_c190506.nc</value>
      <value stream="co2tseries.SSP5-8.5">fco2_datm_globalSSP5-8.5__simyr_2014-2501_CMIP6_c190506.nc</value>
      <value stream="BC.QIAN.Precip">qian.bc.domain.c130531.nc</value>
      <value stream="BC.CRUNCEP.GPCP.Precip">cruncep.bc.domain.0.9x1.25.nc</value>
      <value stream="BC.CRUNCEP.CMAP.Precip">cruncep.bc.domain.c100429.nc</value>
      <value stream="Anomaly.Forcing">domain.permafrostRCN_P2.c2013.nc</value>
      <value stream="presaero.cplhist">null</value>
      <value stream="presaero atm_grid=CLM_USRDAT">aerosoldep_monthly_1849-2006_${CLM_USRDAT_NAME}.nc</value>
      <value stream="presaero.SSP1-1.9" atm_grid="CLM_USRDAT">aerosoldep_SSP1-1.9_monthly_1849-2101_${CLM_USRDAT_NAME}.nc</value>
      <value stream="presaero.SSP1-2.6" atm_grid="CLM_USRDAT">aerosoldep_SSP1-2.6_monthly_1849-2101_${CLM_USRDAT_NAME}.nc</value>
      <value stream="presaero.SSP2-4.5" atm_grid="CLM_USRDAT">aerosoldep_SSP2-4.5_monthly_1849-2101_${CLM_USRDAT_NAME}.nc</value>
      <value stream="presaero.SSP3-7.0" atm_grid="CLM_USRDAT">aerosoldep_SSP3-7.0_monthly_1849-2101_${CLM_USRDAT_NAME}.nc</value>
      <value stream="presaero.SSP4-3.4" atm_grid="CLM_USRDAT">aerosoldep_SSP4-3.4_monthly_1849-2101_${CLM_USRDAT_NAME}.nc</value>
      <value stream="presaero.SSP4-6.0" atm_grid="CLM_USRDAT">aerosoldep_SSP4-6.0_monthly_1849-2101_${CLM_USRDAT_NAME}.nc</value>
      <value stream="presaero.SSP5-3.4" atm_grid="CLM_USRDAT">aerosoldep_SSP5-3.4_monthly_1849-2101_${CLM_USRDAT_NAME}.nc</value>
      <value stream="presaero.SSP5-8.5" atm_grid="CLM_USRDAT">aerosoldep_SSP5-8.5_monthly_1849-2101_${CLM_USRDAT_NAME}.nc</value>

      <value stream="presaero.clim_1850">aerosoldep_WACCM.ensmean_monthly_hist_1849-2015_0.9x1.25_CMIP6_c180926.nc</value>
      <value stream="presaero.clim_2000">aerosoldep_WACCM.ensmean_monthly_hist_1849-2015_0.9x1.25_CMIP6_c180926.nc</value>
      <value stream="presaero.clim_2010">aerosoldep_WACCM.ensmean_monthly_hist_1849-2015_0.9x1.25_CMIP6_c180926.nc</value>
      <value stream="presaero.trans_1850-2000">aerosoldep_WACCM.ensmean_monthly_hist_1849-2015_0.9x1.25_CMIP6_c180926.nc</value>
      <value stream="presaero.SSP1-2.6">aerodep_clm_SSP126_b.e21.BSSP126cmip6.f09_g17.CMIP6-SSP1-2.6.001_2014-2101_monthly_0.9x1.25_c190523.nc</value>
      <value stream="presaero.SSP2-4.5">aerodep_clm_SSP245_b.e21.BWSSP245cmip6.f09_g17.CMIP6-SSP2-4.5-WACCM.001_2014-2101_monthly_0.9x1.25_c190401.nc</value>
      <value stream="presaero.SSP3-7.0">aerodep_clm_SSP370_b.e21.BWSSP370cmip6.f09_g17.CMIP6-SSP3-7.0-WACCM.001_2014-2101_monthly_0.9x1.25_c190402.nc</value>
      <value stream="presaero.SSP5-3.4">null</value>
      <value stream="presaero.SSP5-8.5">aerodep_clm_SSP585_b.e21.BSSP585cmip6.f09_g17.CMIP6-SSP5-8.5.001_2014-2101_monthly_0.9x1.25_c190419.nc</value>
      <value stream="presaero.cesm2_omip">aerosoldep_WACCM.ensmean_monthly_hist_1849-2015_0.9x1.25_CMIP6_c180926.nc</value>
      <value stream="topo.observed">topodata_0.9x1.25_USGS_070110_stream_c151201.nc</value>
      <value stream="topo.cplhist">null</value>
    </values>
  </entry>

  <entry id="strm_domvar">
    <type>char</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Stream domain variable name(s).</desc>
    <values>
      <value>
        time    time
        xc      lon
        yc      lat
        area    area
        mask    mask
      </value>
      <value stream="CPLHISTForcing|presaero.cplhist|topo.cplhist">
        time         time
        doma_lon     lon
        doma_lat     lat
        doma_aream   area
        doma_mask    mask
      </value>
      <value stream="presaero">
        time    time
        lon     lon
        lat     lat
        area    area
        mask    mask
      </value>
      <value stream="CORE2_NYF">
        time    time
        lon      lon
        lat      lat
        area    area
        mask    mask
      </value>
      <value stream="topo.observed">
        time   time
        LONGXY lon
        LATIXY lat
        area   area
        mask   mask
      </value>
      <value stream="co2tseries">
        time    time
        lonc    lon
        latc    lat
        area    area
        mask    mask
      </value>
    </values>
  </entry>

  <entry id="strm_datdir">
    <type>char</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Stream data file directory.</desc>
    <values>
      <value>null</value>
      <value stream="CLM1PT.1x1_mexicocityMEX">$DIN_LOC_ROOT/atm/datm7/CLM1PT_data/mexicocityMEX.c080124</value>
      <value stream="CLM1PT.1x1_vancouverCAN">$DIN_LOC_ROOT/atm/datm7/CLM1PT_data/vancouverCAN.c080124 </value>
      <value stream="CLM1PT.1x1_urbanc_alpha">$DIN_LOC_ROOT/atm/datm7/CLM1PT_data/urbanc_alpha.c080416 </value>
      <value stream="CLM1PT.CLM_USRDAT">$DIN_LOC_ROOT_CLMFORC/$CLM_USRDAT_NAME/CLM1PT_data</value>
      <value stream="CPLHISTForcing">$DATM_CPLHIST_DIR</value>
      <value stream="CLM_QIAN.Solar">$DIN_LOC_ROOT/atm/datm7/atm_forcing.datm7.Qian.T62.c080727/Solar6Hrly</value>
      <value stream="CLM_QIAN.Precip">$DIN_LOC_ROOT/atm/datm7/atm_forcing.datm7.Qian.T62.c080727/Precip6Hrly</value>
      <value stream="CLM_QIAN.TPQW">$DIN_LOC_ROOT/atm/datm7/atm_forcing.datm7.Qian.T62.c080727/TmpPrsHumWnd3Hrly</value>
      <value stream="CLM_QIAN_WISO.Solar">$DIN_LOC_ROOT/atm/datm7/atm_forcing_iso.datm7.Qian.T62.c080727/Solar6Hrly</value>
      <value stream="CLM_QIAN_WISO.Precip">$DIN_LOC_ROOT/atm/datm7/atm_forcing_iso.datm7.Qian.T62.c080727/Precip6Hrly</value>
      <value stream="CLM_QIAN_WISO.TPQW	">$DIN_LOC_ROOT/atm/datm7/atm_forcing_iso.datm7.Qian.T62.c080727/TmpPrsHumWnd3Hrly</value>
      <value stream="CLMCRUNCEP.Solar">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.V4.c130305/Solar6Hrly</value>
      <value stream="CLMCRUNCEP.Precip">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.V4.c130305/Precip6Hrly</value>
      <value stream="CLMCRUNCEP.TPQW">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.V4.c130305/TPHWL6Hrly</value>
      <value stream="CLMCRUNCEPv7.Solar">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.v7.c160715/Solar6Hrly</value>
      <value stream="CLMCRUNCEPv7.Precip">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.v7.c160715/Precip6Hrly</value>
      <value stream="CLMCRUNCEPv7.TPQW">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.v7.c160715/TPHWL6Hrly</value>
      <value stream="CLMGSWP3v1.Solar">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.GSWP3.0.5d.v1.c170516/Solar</value>
      <value stream="CLMGSWP3v1.Precip">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.GSWP3.0.5d.v1.c170516/Precip</value>
      <value stream="CLMGSWP3v1.TPQW">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.GSWP3.0.5d.v1.c170516/TPHWL</value>
      <value stream="CLMCRUNCEP_V5.Solar">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.V5.c140715/Solar6Hrly</value>
      <value stream="CLMCRUNCEP_V5.Precip">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.V5.c140715/Precip6Hrly</value>
      <value stream="CLMCRUNCEP_V5.TPQW">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.cruncep_qianFill.0.5d.V5.c140715/TPHWL6Hrly</value>
      <value stream="CLMGSWP3.Solar">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.GSWP3.0.5d.v1.c170516/Solar3Hrly</value>
      <value stream="CLMGSWP3.Precip">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.GSWP3.0.5d.v1.c170516/Precip3Hrly</value>
      <value stream="CLMGSWP3.TPQW">$DIN_LOC_ROOT_CLMFORC/atm_forcing.datm7.GSWP3.0.5d.v1.c170516/TPHWL3Hrly</value>
      <value stream="CORE2_NYF">$DIN_LOC_ROOT/atm/datm7/NYF</value>
      <value stream="CORE2_IAF.CORE2.ArcFactor">$DIN_LOC_ROOT/atm/datm7/CORE2</value>
      <value stream="CORE2_IAF">$DIN_LOC_ROOT/ocn/iaf</value>
      <value stream="CORE_IAF_JRA.*">$DIN_LOC_ROOT/ocn/jra55/v1.3_noleap</value>
      <value stream="co2tseries">$DIN_LOC_ROOT/atm/datm7/CO2</value>
      <value stream="BC.QIAN.Precip">$DIN_LOC_ROOT/atm/datm7/bias_correction/precip/gpcp/qian</value>
      <value stream="BC.CRUNCEP.GPCP.Precip">$DIN_LOC_ROOT/atm/datm7/clm_output/cruncep_precip_1deg/gpcp_1deg_bias_correction</value>
      <value stream="BC.CRUNCEP.CMAP.Precip">$DIN_LOC_ROOT/atm/datm7/bias_correction/precip/cmap/cruncep</value>
      <value stream="Anomaly">$DIN_LOC_ROOT/atm/datm7/anomaly_forcing</value>
      <value stream="presaero.cplhist">$DATM_CPLHIST_DIR</value>
      <value stream="presaero.SSP5-3.4">null</value>
      <value stream="presaero">$DIN_LOC_ROOT/atm/cam/chem/trop_mozart_aero/aero</value>
      <value stream="topo.observed">$DIN_LOC_ROOT/atm/datm7/topo_forcing</value>
      <value stream="topo.cplhist">$DATM_CPLHIST_DIR</value>
    </values>
  </entry>

  <entry id="strm_datfil">
    <type>char</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Stream data file path(s).</desc>
    <values match="first">
      <value>null</value>
      <value  stream="CLM1PT.1x1_mexicocityMEX">clm1pt-1993-12.nc</value>
      <value  stream="CLM1PT.1x1_vancouverCAN">clm1pt-1992-08.nc</value>
      <value  stream="CLM1PT.1x1_urbanc_alpha">
        clm1pt-0001-08.nc
        clm1pt-0001-09.nc
        clm1pt-0001-10.nc
        clm1pt-0001-11.nc
        clm1pt-0001-12.nc
        clm1pt-0002-01.nc
        clm1pt-0002-02.nc
        clm1pt-0002-03.nc
        clm1pt-0002-04.nc
        clm1pt-0002-05.nc
        clm1pt-0002-06.nc
        clm1pt-0002-07.nc
        clm1pt-0002-08.nc
        clm1pt-0002-09.nc
        clm1pt-0002-10.nc
        clm1pt-0002-11.nc
      </value>
      <value  stream="CLM1PT.CLM_USRDAT">%ym.nc</value>
      <value  stream="CPLHISTForcing.Solar">$DATM_CPLHIST_CASE.cpl.ha2x1hi.%ym.nc</value>
      <value  stream="CPLHISTForcing.nonSolarFlux">$DATM_CPLHIST_CASE.cpl.ha2x3h.%ym.nc</value>
      <value  stream="CPLHISTForcing.State3hr">$DATM_CPLHIST_CASE.cpl.ha2x3h.%ym.nc</value>
      <value  stream="CPLHISTForcing.State1hr">$DATM_CPLHIST_CASE.cpl.ha2x1h.%ym.nc</value>
      <value  stream="presaero.cplhist">$DATM_CPLHIST_CASE.cpl.ha2x1d.%ym.nc</value>
      <value  stream="topo.cplhist">$DATM_CPLHIST_CASE.cpl.ha2x3h.%ym.nc</value>
      <value  stream="CLM_QIAN.Solar">clmforc.Qian.c2006.T62.Solr.%ym.nc</value>
      <value  stream="CLM_QIAN.Precip">clmforc.Qian.c2006.T62.Prec.%ym.nc</value>
      <value  stream="CLM_QIAN.TPQW">clmforc.Qian.c2006.T62.TPQW.%ym.nc</value>
      <value  stream="CLM_QIAN_WISO.Solar">clmforc.Qian.c2006.T62.Solr.%ym.nc</value>
      <value  stream="CLM_QIAN_WISO.Precip">clmforc.Qian.c2006.T62.Prec.%ym.nc</value>
      <value  stream="CLM_QIAN_WISO.TPQW">clmforc.Qian.c2006.T62.TPQW.%ym.nc</value>
      <value  stream="CLMCRUNCEP.Solar">clmforc.cruncep.V4.c2011.0.5d.Solr.%ym.nc</value>
      <value  stream="CLMCRUNCEP.Precip">clmforc.cruncep.V4.c2011.0.5d.Prec.%ym.nc</value>
      <value  stream="CLMCRUNCEP.TPQW">clmforc.cruncep.V4.c2011.0.5d.TPQWL.%ym.nc</value>
      <value  stream="CLMCRUNCEPv7.Solar">clmforc.cruncep.V7.c2016.0.5d.Solr.%ym.nc</value>
      <value  stream="CLMCRUNCEPv7.Precip">clmforc.cruncep.V7.c2016.0.5d.Prec.%ym.nc</value>
      <value  stream="CLMCRUNCEPv7.TPQW">clmforc.cruncep.V7.c2016.0.5d.TPQWL.%ym.nc</value>
      <value  stream="CLMGSWP3v1.Solar">clmforc.GSWP3.c2011.0.5x0.5.Solr.%ym.nc</value>
      <value  stream="CLMGSWP3v1.Precip">clmforc.GSWP3.c2011.0.5x0.5.Prec.%ym.nc</value>
      <value  stream="CLMGSWP3v1.TPQW">clmforc.GSWP3.c2011.0.5x0.5.TPQWL.%ym.nc</value>
      <value  stream="CORE2_NYF.GISS">nyf.giss.T62.051007.nc</value>
      <value  stream="CORE2_NYF.GXGXS">nyf.gxgxs.T62.051007.nc</value>
      <value  stream="CORE2_NYF.NCEP">nyf.ncep.T62.050923.nc</value>
      <value  stream="CORE2_IAF.NCEP.DENS.SOFS">ncep.SOFS.2010.nc</value>
      <value  stream="CORE2_IAF.NCEP.PSLV.SOFS">ncep.SOFS.2010.nc</value>
      <value  stream="CORE2_IAF.PREC.SOFS.DAILY">SOFS.daily.03-09.2010.nc</value>
      <value  stream="CORE2_IAF.LWDN.SOFS.DAILY">SOFS.daily.03-09.2010.nc</value>
      <value  stream="CORE2_IAF.SWDN.SOFS.DAILY">SOFS.daily.03-09.2010.nc</value>
      <value  stream="CORE2_IAF.SWUP.SOFS.DAILY">SOFS.daily.03-09.2010.nc</value>
      <value  stream="CORE2_IAF.SHUM.SOFS.6HOUR">SOFS.6hour.03-09.2010.nc</value>
      <value  stream="CORE2_IAF.TBOT.SOFS.6HOUR">SOFS.6hour.03-09.2010.nc</value>
      <value  stream="CORE2_IAF.U.SOFS.6HOUR">SOFS.6hour.03-09.2010.nc</value>
      <value  stream="CORE2_IAF.V.SOFS.6HOUR">SOFS.6hour.03-09.2010.nc</value>

      <!-- TODO: if necessary, update the file names: -->
      <value  stream="CORE2_IAF.GCGCS.PREC">
        gcgcs.prec.T62.1948.nc
        gcgcs.prec.T62.1949.nc
        gcgcs.prec.T62.1950.nc
        gcgcs.prec.T62.1951.nc
        gcgcs.prec.T62.1952.nc
        gcgcs.prec.T62.1953.nc
        gcgcs.prec.T62.1954.nc
        gcgcs.prec.T62.1955.nc
        gcgcs.prec.T62.1956.nc
        gcgcs.prec.T62.1957.nc
        gcgcs.prec.T62.1958.nc
        gcgcs.prec.T62.1959.nc
        gcgcs.prec.T62.1960.nc
        gcgcs.prec.T62.1961.nc
        gcgcs.prec.T62.1962.nc
        gcgcs.prec.T62.1963.nc
        gcgcs.prec.T62.1964.nc
        gcgcs.prec.T62.1965.nc
        gcgcs.prec.T62.1966.nc
        gcgcs.prec.T62.1967.nc
        gcgcs.prec.T62.1968.nc
        gcgcs.prec.T62.1969.nc
        gcgcs.prec.T62.1970.nc
        gcgcs.prec.T62.1971.nc
        gcgcs.prec.T62.1972.nc
        gcgcs.prec.T62.1973.nc
        gcgcs.prec.T62.1974.nc
        gcgcs.prec.T62.1975.nc
        gcgcs.prec.T62.1976.nc
        gcgcs.prec.T62.1977.nc
        gcgcs.prec.T62.1978.nc
        gcgcs.prec.T62.1979.nc
        gcgcs.prec.T62.1980.nc
        gcgcs.prec.T62.1981.nc
        gcgcs.prec.T62.1982.nc
        gcgcs.prec.T62.1983.nc
        gcgcs.prec.T62.1984.nc
        gcgcs.prec.T62.1985.nc
        gcgcs.prec.T62.1986.nc
        gcgcs.prec.T62.1987.nc
        gcgcs.prec.T62.1988.nc
        gcgcs.prec.T62.1989.nc
        gcgcs.prec.T62.1990.nc
        gcgcs.prec.T62.1991.nc
        gcgcs.prec.T62.1992.nc
        gcgcs.prec.T62.1993.nc
        gcgcs.prec.T62.1994.nc
        gcgcs.prec.T62.1995.nc
        gcgcs.prec.T62.1996.nc
        gcgcs.prec.T62.1997.nc
        gcgcs.prec.T62.1998.nc
        gcgcs.prec.T62.1999.nc
        gcgcs.prec.T62.2000.nc
        gcgcs.prec.T62.2001.nc
        gcgcs.prec.T62.2002.nc
        gcgcs.prec.T62.2003.nc
        gcgcs.prec.T62.2004.nc
        gcgcs.prec.T62.2005.nc
        gcgcs.prec.T62.2006.nc
        gcgcs.prec.T62.2007.nc
        gcgcs.prec.T62.2008.20120412.nc
        gcgcs.prec.T62.2009.20120412.nc
      </value>
      <value  stream="CORE2_IAF.GISS.LWDN">
        giss.lwdn.T62.1948.nc
        giss.lwdn.T62.1949.nc
        giss.lwdn.T62.1950.nc
        giss.lwdn.T62.1951.nc
        giss.lwdn.T62.1952.nc
        giss.lwdn.T62.1953.nc
        giss.lwdn.T62.1954.nc
        giss.lwdn.T62.1955.nc
        giss.lwdn.T62.1956.nc
        giss.lwdn.T62.1957.nc
        giss.lwdn.T62.1958.nc
        giss.lwdn.T62.1959.nc
        giss.lwdn.T62.1960.nc
        giss.lwdn.T62.1961.nc
        giss.lwdn.T62.1962.nc
        giss.lwdn.T62.1963.nc
        giss.lwdn.T62.1964.nc
        giss.lwdn.T62.1965.nc
        giss.lwdn.T62.1966.nc
        giss.lwdn.T62.1967.nc
        giss.lwdn.T62.1968.nc
        giss.lwdn.T62.1969.nc
        giss.lwdn.T62.1970.nc
        giss.lwdn.T62.1971.nc
        giss.lwdn.T62.1972.nc
        giss.lwdn.T62.1973.nc
        giss.lwdn.T62.1974.nc
        giss.lwdn.T62.1975.nc
        giss.lwdn.T62.1976.nc
        giss.lwdn.T62.1977.nc
        giss.lwdn.T62.1978.nc
        giss.lwdn.T62.1979.nc
        giss.lwdn.T62.1980.nc
        giss.lwdn.T62.1981.nc
        giss.lwdn.T62.1982.nc
        giss.lwdn.T62.1983.nc
        giss.lwdn.T62.1984.nc
        giss.lwdn.T62.1985.nc
        giss.lwdn.T62.1986.nc
        giss.lwdn.T62.1987.nc
        giss.lwdn.T62.1988.nc
        giss.lwdn.T62.1989.nc
        giss.lwdn.T62.1990.nc
        giss.lwdn.T62.1991.nc
        giss.lwdn.T62.1992.nc
        giss.lwdn.T62.1993.nc
        giss.lwdn.T62.1994.nc
        giss.lwdn.T62.1995.nc
        giss.lwdn.T62.1996.nc
        giss.lwdn.T62.1997.nc
        giss.lwdn.T62.1998.nc
        giss.lwdn.T62.1999.nc
        giss.lwdn.T62.2000.nc
        giss.lwdn.T62.2001.nc
        giss.lwdn.T62.2002.nc
        giss.lwdn.T62.2003.nc
        giss.lwdn.T62.2004.nc
        giss.lwdn.T62.2005.nc
        giss.lwdn.T62.2006.nc
        giss.lwdn.T62.2007.nc
        giss.lwdn.T62.2008.20120412.nc
        giss.lwdn.T62.2009.20120412.nc
      </value>
      <value  stream="CORE2_IAF.GISS.SWDN">
        giss.swdn.T62.1948.nc
        giss.swdn.T62.1949.nc
        giss.swdn.T62.1950.nc
        giss.swdn.T62.1951.nc
        giss.swdn.T62.1952.nc
        giss.swdn.T62.1953.nc
        giss.swdn.T62.1954.nc
        giss.swdn.T62.1955.nc
        giss.swdn.T62.1956.nc
        giss.swdn.T62.1957.nc
        giss.swdn.T62.1958.nc
        giss.swdn.T62.1959.nc
        giss.swdn.T62.1960.nc
        giss.swdn.T62.1961.nc
        giss.swdn.T62.1962.nc
        giss.swdn.T62.1963.nc
        giss.swdn.T62.1964.nc
        giss.swdn.T62.1965.nc
        giss.swdn.T62.1966.nc
        giss.swdn.T62.1967.nc
        giss.swdn.T62.1968.nc
        giss.swdn.T62.1969.nc
        giss.swdn.T62.1970.nc
        giss.swdn.T62.1971.nc
        giss.swdn.T62.1972.nc
        giss.swdn.T62.1973.nc
        giss.swdn.T62.1974.nc
        giss.swdn.T62.1975.nc
        giss.swdn.T62.1976.nc
        giss.swdn.T62.1977.nc
        giss.swdn.T62.1978.nc
        giss.swdn.T62.1979.nc
        giss.swdn.T62.1980.nc
        giss.swdn.T62.1981.nc
        giss.swdn.T62.1982.nc
        giss.swdn.T62.1983.nc
        giss.swdn.T62.1984.nc
        giss.swdn.T62.1985.nc
        giss.swdn.T62.1986.nc
        giss.swdn.T62.1987.nc
        giss.swdn.T62.1988.nc
        giss.swdn.T62.1989.nc
        giss.swdn.T62.1990.nc
        giss.swdn.T62.1991.nc
        giss.swdn.T62.1992.nc
        giss.swdn.T62.1993.nc
        giss.swdn.T62.1994.nc
        giss.swdn.T62.1995.nc
        giss.swdn.T62.1996.nc
        giss.swdn.T62.1997.nc
        giss.swdn.T62.1998.nc
        giss.swdn.T62.1999.nc
        giss.swdn.T62.2000.nc
        giss.swdn.T62.2001.nc
        giss.swdn.T62.2002.nc
        giss.swdn.T62.2003.nc
        giss.swdn.T62.2004.nc
        giss.swdn.T62.2005.nc
        giss.swdn.T62.2006.nc
        giss.swdn.T62.2007.nc
        giss.swdn.T62.2008.20120412.nc
        giss.swdn.T62.2009.20120412.nc
      </value>
      <value  stream="CORE2_IAF.GISS.SWUP">
        giss.swup.T62.1948.nc
        giss.swup.T62.1949.nc
        giss.swup.T62.1950.nc
        giss.swup.T62.1951.nc
        giss.swup.T62.1952.nc
        giss.swup.T62.1953.nc
        giss.swup.T62.1954.nc
        giss.swup.T62.1955.nc
        giss.swup.T62.1956.nc
        giss.swup.T62.1957.nc
        giss.swup.T62.1958.nc
        giss.swup.T62.1959.nc
        giss.swup.T62.1960.nc
        giss.swup.T62.1961.nc
        giss.swup.T62.1962.nc
        giss.swup.T62.1963.nc
        giss.swup.T62.1964.nc
        giss.swup.T62.1965.nc
        giss.swup.T62.1966.nc
        giss.swup.T62.1967.nc
        giss.swup.T62.1968.nc
        giss.swup.T62.1969.nc
        giss.swup.T62.1970.nc
        giss.swup.T62.1971.nc
        giss.swup.T62.1972.nc
        giss.swup.T62.1973.nc
        giss.swup.T62.1974.nc
        giss.swup.T62.1975.nc
        giss.swup.T62.1976.nc
        giss.swup.T62.1977.nc
        giss.swup.T62.1978.nc
        giss.swup.T62.1979.nc
        giss.swup.T62.1980.nc
        giss.swup.T62.1981.nc
        giss.swup.T62.1982.nc
        giss.swup.T62.1983.nc
        giss.swup.T62.1984.nc
        giss.swup.T62.1985.nc
        giss.swup.T62.1986.nc
        giss.swup.T62.1987.nc
        giss.swup.T62.1988.nc
        giss.swup.T62.1989.nc
        giss.swup.T62.1990.nc
        giss.swup.T62.1991.nc
        giss.swup.T62.1992.nc
        giss.swup.T62.1993.nc
        giss.swup.T62.1994.nc
        giss.swup.T62.1995.nc
        giss.swup.T62.1996.nc
        giss.swup.T62.1997.nc
        giss.swup.T62.1998.nc
        giss.swup.T62.1999.nc
        giss.swup.T62.2000.nc
        giss.swup.T62.2001.nc
        giss.swup.T62.2002.nc
        giss.swup.T62.2003.nc
        giss.swup.T62.2004.nc
        giss.swup.T62.2005.nc
        giss.swup.T62.2006.nc
        giss.swup.T62.2007.nc
        giss.swup.T62.2008.20120412.nc
        giss.swup.T62.2009.20120412.nc
      </value>
      <value  stream="CORE2_IAF.NCEP.DN10">
        ncep.dn10.T62.1948.nc
        ncep.dn10.T62.1949.nc
        ncep.dn10.T62.1950.nc
        ncep.dn10.T62.1951.nc
        ncep.dn10.T62.1952.nc
        ncep.dn10.T62.1953.nc
        ncep.dn10.T62.1954.nc
        ncep.dn10.T62.1955.nc
        ncep.dn10.T62.1956.nc
        ncep.dn10.T62.1957.nc
        ncep.dn10.T62.1958.nc
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        JRA.v1.3.prec.TL319.1995.190528.nc
        JRA.v1.3.prec.TL319.1996.190528.nc
        JRA.v1.3.prec.TL319.1997.190528.nc
        JRA.v1.3.prec.TL319.1998.190528.nc
        JRA.v1.3.prec.TL319.1999.190528.nc
        JRA.v1.3.prec.TL319.2000.190528.nc
        JRA.v1.3.prec.TL319.2001.190528.nc
        JRA.v1.3.prec.TL319.2002.190528.nc
        JRA.v1.3.prec.TL319.2003.190528.nc
        JRA.v1.3.prec.TL319.2004.190528.nc
        JRA.v1.3.prec.TL319.2005.190528.nc
        JRA.v1.3.prec.TL319.2006.190528.nc
        JRA.v1.3.prec.TL319.2007.190528.nc
        JRA.v1.3.prec.TL319.2008.190528.nc
        JRA.v1.3.prec.TL319.2009.190528.nc
        JRA.v1.3.prec.TL319.2010.190528.nc
        JRA.v1.3.prec.TL319.2011.190528.nc
        JRA.v1.3.prec.TL319.2012.190528.nc
        JRA.v1.3.prec.TL319.2013.190528.nc
        JRA.v1.3.prec.TL319.2014.190528.nc
        JRA.v1.3.prec.TL319.2015.190528.nc
        JRA.v1.3.prec.TL319.2016.190528.nc
        JRA.v1.3.prec.TL319.2017.190528.nc
        JRA.v1.3.prec.TL319.2018.190528.nc
      </value>
      <value  stream="CORE_IAF_JRA.GISS.LWDN">
        JRA.v1.3.lwdn.TL319.1958.171019.nc
        JRA.v1.3.lwdn.TL319.1959.171019.nc
        JRA.v1.3.lwdn.TL319.1960.171019.nc
        JRA.v1.3.lwdn.TL319.1961.171019.nc
        JRA.v1.3.lwdn.TL319.1962.171019.nc
        JRA.v1.3.lwdn.TL319.1963.171019.nc
        JRA.v1.3.lwdn.TL319.1964.171019.nc
        JRA.v1.3.lwdn.TL319.1965.171019.nc
        JRA.v1.3.lwdn.TL319.1966.171019.nc
        JRA.v1.3.lwdn.TL319.1967.171019.nc
        JRA.v1.3.lwdn.TL319.1968.171019.nc
        JRA.v1.3.lwdn.TL319.1969.171019.nc
        JRA.v1.3.lwdn.TL319.1970.171019.nc
        JRA.v1.3.lwdn.TL319.1971.171019.nc
        JRA.v1.3.lwdn.TL319.1972.171019.nc
        JRA.v1.3.lwdn.TL319.1973.171019.nc
        JRA.v1.3.lwdn.TL319.1974.171019.nc
        JRA.v1.3.lwdn.TL319.1975.171019.nc
        JRA.v1.3.lwdn.TL319.1976.171019.nc
        JRA.v1.3.lwdn.TL319.1977.171019.nc
        JRA.v1.3.lwdn.TL319.1978.171019.nc
        JRA.v1.3.lwdn.TL319.1979.171019.nc
        JRA.v1.3.lwdn.TL319.1980.171019.nc
        JRA.v1.3.lwdn.TL319.1981.171019.nc
        JRA.v1.3.lwdn.TL319.1982.171019.nc
        JRA.v1.3.lwdn.TL319.1983.171019.nc
        JRA.v1.3.lwdn.TL319.1984.171019.nc
        JRA.v1.3.lwdn.TL319.1985.171019.nc
        JRA.v1.3.lwdn.TL319.1986.171019.nc
        JRA.v1.3.lwdn.TL319.1987.171019.nc
        JRA.v1.3.lwdn.TL319.1988.171019.nc
        JRA.v1.3.lwdn.TL319.1989.171019.nc
        JRA.v1.3.lwdn.TL319.1990.171019.nc
        JRA.v1.3.lwdn.TL319.1991.171019.nc
        JRA.v1.3.lwdn.TL319.1992.171019.nc
        JRA.v1.3.lwdn.TL319.1993.171019.nc
        JRA.v1.3.lwdn.TL319.1994.171019.nc
        JRA.v1.3.lwdn.TL319.1995.171019.nc
        JRA.v1.3.lwdn.TL319.1996.171019.nc
        JRA.v1.3.lwdn.TL319.1997.171019.nc
        JRA.v1.3.lwdn.TL319.1998.171019.nc
        JRA.v1.3.lwdn.TL319.1999.171019.nc
        JRA.v1.3.lwdn.TL319.2000.171019.nc
        JRA.v1.3.lwdn.TL319.2001.171019.nc
        JRA.v1.3.lwdn.TL319.2002.171019.nc
        JRA.v1.3.lwdn.TL319.2003.171019.nc
        JRA.v1.3.lwdn.TL319.2004.171019.nc
        JRA.v1.3.lwdn.TL319.2005.171019.nc
        JRA.v1.3.lwdn.TL319.2006.171019.nc
        JRA.v1.3.lwdn.TL319.2007.171019.nc
        JRA.v1.3.lwdn.TL319.2008.171019.nc
        JRA.v1.3.lwdn.TL319.2009.171019.nc
        JRA.v1.3.lwdn.TL319.2010.171019.nc
        JRA.v1.3.lwdn.TL319.2011.171019.nc
        JRA.v1.3.lwdn.TL319.2012.171019.nc
        JRA.v1.3.lwdn.TL319.2013.171019.nc
        JRA.v1.3.lwdn.TL319.2014.171019.nc
        JRA.v1.3.lwdn.TL319.2015.171019.nc
        JRA.v1.3.lwdn.TL319.2016.171019.nc
      </value>
      <value  stream="CORE_IAF_JRA_1p4_2018.GISS.LWDN">
        JRA.v1.3.lwdn.TL319.1958.190528.nc
        JRA.v1.3.lwdn.TL319.1959.190528.nc
        JRA.v1.3.lwdn.TL319.1960.190528.nc
        JRA.v1.3.lwdn.TL319.1961.190528.nc
        JRA.v1.3.lwdn.TL319.1962.190528.nc
        JRA.v1.3.lwdn.TL319.1963.190528.nc
        JRA.v1.3.lwdn.TL319.1964.190528.nc
        JRA.v1.3.lwdn.TL319.1965.190528.nc
        JRA.v1.3.lwdn.TL319.1966.190528.nc
        JRA.v1.3.lwdn.TL319.1967.190528.nc
        JRA.v1.3.lwdn.TL319.1968.190528.nc
        JRA.v1.3.lwdn.TL319.1969.190528.nc
        JRA.v1.3.lwdn.TL319.1970.190528.nc
        JRA.v1.3.lwdn.TL319.1971.190528.nc
        JRA.v1.3.lwdn.TL319.1972.190528.nc
        JRA.v1.3.lwdn.TL319.1973.190528.nc
        JRA.v1.3.lwdn.TL319.1974.190528.nc
        JRA.v1.3.lwdn.TL319.1975.190528.nc
        JRA.v1.3.lwdn.TL319.1976.190528.nc
        JRA.v1.3.lwdn.TL319.1977.190528.nc
        JRA.v1.3.lwdn.TL319.1978.190528.nc
        JRA.v1.3.lwdn.TL319.1979.190528.nc
        JRA.v1.3.lwdn.TL319.1980.190528.nc
        JRA.v1.3.lwdn.TL319.1981.190528.nc
        JRA.v1.3.lwdn.TL319.1982.190528.nc
        JRA.v1.3.lwdn.TL319.1983.190528.nc
        JRA.v1.3.lwdn.TL319.1984.190528.nc
        JRA.v1.3.lwdn.TL319.1985.190528.nc
        JRA.v1.3.lwdn.TL319.1986.190528.nc
        JRA.v1.3.lwdn.TL319.1987.190528.nc
        JRA.v1.3.lwdn.TL319.1988.190528.nc
        JRA.v1.3.lwdn.TL319.1989.190528.nc
        JRA.v1.3.lwdn.TL319.1990.190528.nc
        JRA.v1.3.lwdn.TL319.1991.190528.nc
        JRA.v1.3.lwdn.TL319.1992.190528.nc
        JRA.v1.3.lwdn.TL319.1993.190528.nc
        JRA.v1.3.lwdn.TL319.1994.190528.nc
        JRA.v1.3.lwdn.TL319.1995.190528.nc
        JRA.v1.3.lwdn.TL319.1996.190528.nc
        JRA.v1.3.lwdn.TL319.1997.190528.nc
        JRA.v1.3.lwdn.TL319.1998.190528.nc
        JRA.v1.3.lwdn.TL319.1999.190528.nc
        JRA.v1.3.lwdn.TL319.2000.190528.nc
        JRA.v1.3.lwdn.TL319.2001.190528.nc
        JRA.v1.3.lwdn.TL319.2002.190528.nc
        JRA.v1.3.lwdn.TL319.2003.190528.nc
        JRA.v1.3.lwdn.TL319.2004.190528.nc
        JRA.v1.3.lwdn.TL319.2005.190528.nc
        JRA.v1.3.lwdn.TL319.2006.190528.nc
        JRA.v1.3.lwdn.TL319.2007.190528.nc
        JRA.v1.3.lwdn.TL319.2008.190528.nc
        JRA.v1.3.lwdn.TL319.2009.190528.nc
        JRA.v1.3.lwdn.TL319.2010.190528.nc
        JRA.v1.3.lwdn.TL319.2011.190528.nc
        JRA.v1.3.lwdn.TL319.2012.190528.nc
        JRA.v1.3.lwdn.TL319.2013.190528.nc
        JRA.v1.3.lwdn.TL319.2014.190528.nc
        JRA.v1.3.lwdn.TL319.2015.190528.nc
        JRA.v1.3.lwdn.TL319.2016.190528.nc
        JRA.v1.3.lwdn.TL319.2017.190528.nc
        JRA.v1.3.lwdn.TL319.2018.190528.nc
      </value>
      <value  stream="CORE_IAF_JRA.GISS.SWDN">
        JRA.v1.3.swdn.TL319.1958.171019.nc
        JRA.v1.3.swdn.TL319.1959.171019.nc
        JRA.v1.3.swdn.TL319.1960.171019.nc
        JRA.v1.3.swdn.TL319.1961.171019.nc
        JRA.v1.3.swdn.TL319.1962.171019.nc
        JRA.v1.3.swdn.TL319.1963.171019.nc
        JRA.v1.3.swdn.TL319.1964.171019.nc
        JRA.v1.3.swdn.TL319.1965.171019.nc
        JRA.v1.3.swdn.TL319.1966.171019.nc
        JRA.v1.3.swdn.TL319.1967.171019.nc
        JRA.v1.3.swdn.TL319.1968.171019.nc
        JRA.v1.3.swdn.TL319.1969.171019.nc
        JRA.v1.3.swdn.TL319.1970.171019.nc
        JRA.v1.3.swdn.TL319.1971.171019.nc
        JRA.v1.3.swdn.TL319.1972.171019.nc
        JRA.v1.3.swdn.TL319.1973.171019.nc
        JRA.v1.3.swdn.TL319.1974.171019.nc
        JRA.v1.3.swdn.TL319.1975.171019.nc
        JRA.v1.3.swdn.TL319.1976.171019.nc
        JRA.v1.3.swdn.TL319.1977.171019.nc
        JRA.v1.3.swdn.TL319.1978.171019.nc
        JRA.v1.3.swdn.TL319.1979.171019.nc
        JRA.v1.3.swdn.TL319.1980.171019.nc
        JRA.v1.3.swdn.TL319.1981.171019.nc
        JRA.v1.3.swdn.TL319.1982.171019.nc
        JRA.v1.3.swdn.TL319.1983.171019.nc
        JRA.v1.3.swdn.TL319.1984.171019.nc
        JRA.v1.3.swdn.TL319.1985.171019.nc
        JRA.v1.3.swdn.TL319.1986.171019.nc
        JRA.v1.3.swdn.TL319.1987.171019.nc
        JRA.v1.3.swdn.TL319.1988.171019.nc
        JRA.v1.3.swdn.TL319.1989.171019.nc
        JRA.v1.3.swdn.TL319.1990.171019.nc
        JRA.v1.3.swdn.TL319.1991.171019.nc
        JRA.v1.3.swdn.TL319.1992.171019.nc
        JRA.v1.3.swdn.TL319.1993.171019.nc
        JRA.v1.3.swdn.TL319.1994.171019.nc
        JRA.v1.3.swdn.TL319.1995.171019.nc
        JRA.v1.3.swdn.TL319.1996.171019.nc
        JRA.v1.3.swdn.TL319.1997.171019.nc
        JRA.v1.3.swdn.TL319.1998.171019.nc
        JRA.v1.3.swdn.TL319.1999.171019.nc
        JRA.v1.3.swdn.TL319.2000.171019.nc
        JRA.v1.3.swdn.TL319.2001.171019.nc
        JRA.v1.3.swdn.TL319.2002.171019.nc
        JRA.v1.3.swdn.TL319.2003.171019.nc
        JRA.v1.3.swdn.TL319.2004.171019.nc
        JRA.v1.3.swdn.TL319.2005.171019.nc
        JRA.v1.3.swdn.TL319.2006.171019.nc
        JRA.v1.3.swdn.TL319.2007.171019.nc
        JRA.v1.3.swdn.TL319.2008.171019.nc
        JRA.v1.3.swdn.TL319.2009.171019.nc
        JRA.v1.3.swdn.TL319.2010.171019.nc
        JRA.v1.3.swdn.TL319.2011.171019.nc
        JRA.v1.3.swdn.TL319.2012.171019.nc
        JRA.v1.3.swdn.TL319.2013.171019.nc
        JRA.v1.3.swdn.TL319.2014.171019.nc
        JRA.v1.3.swdn.TL319.2015.171019.nc
        JRA.v1.3.swdn.TL319.2016.171019.nc
      </value>
      <value  stream="CORE_IAF_JRA_1p4_2018.GISS.SWDN">
        JRA.v1.3.swdn.TL319.1958.190528.nc
        JRA.v1.3.swdn.TL319.1959.190528.nc
        JRA.v1.3.swdn.TL319.1960.190528.nc
        JRA.v1.3.swdn.TL319.1961.190528.nc
        JRA.v1.3.swdn.TL319.1962.190528.nc
        JRA.v1.3.swdn.TL319.1963.190528.nc
        JRA.v1.3.swdn.TL319.1964.190528.nc
        JRA.v1.3.swdn.TL319.1965.190528.nc
        JRA.v1.3.swdn.TL319.1966.190528.nc
        JRA.v1.3.swdn.TL319.1967.190528.nc
        JRA.v1.3.swdn.TL319.1968.190528.nc
        JRA.v1.3.swdn.TL319.1969.190528.nc
        JRA.v1.3.swdn.TL319.1970.190528.nc
        JRA.v1.3.swdn.TL319.1971.190528.nc
        JRA.v1.3.swdn.TL319.1972.190528.nc
        JRA.v1.3.swdn.TL319.1973.190528.nc
        JRA.v1.3.swdn.TL319.1974.190528.nc
        JRA.v1.3.swdn.TL319.1975.190528.nc
        JRA.v1.3.swdn.TL319.1976.190528.nc
        JRA.v1.3.swdn.TL319.1977.190528.nc
        JRA.v1.3.swdn.TL319.1978.190528.nc
        JRA.v1.3.swdn.TL319.1979.190528.nc
        JRA.v1.3.swdn.TL319.1980.190528.nc
        JRA.v1.3.swdn.TL319.1981.190528.nc
        JRA.v1.3.swdn.TL319.1982.190528.nc
        JRA.v1.3.swdn.TL319.1983.190528.nc
        JRA.v1.3.swdn.TL319.1984.190528.nc
        JRA.v1.3.swdn.TL319.1985.190528.nc
        JRA.v1.3.swdn.TL319.1986.190528.nc
        JRA.v1.3.swdn.TL319.1987.190528.nc
        JRA.v1.3.swdn.TL319.1988.190528.nc
        JRA.v1.3.swdn.TL319.1989.190528.nc
        JRA.v1.3.swdn.TL319.1990.190528.nc
        JRA.v1.3.swdn.TL319.1991.190528.nc
        JRA.v1.3.swdn.TL319.1992.190528.nc
        JRA.v1.3.swdn.TL319.1993.190528.nc
        JRA.v1.3.swdn.TL319.1994.190528.nc
        JRA.v1.3.swdn.TL319.1995.190528.nc
        JRA.v1.3.swdn.TL319.1996.190528.nc
        JRA.v1.3.swdn.TL319.1997.190528.nc
        JRA.v1.3.swdn.TL319.1998.190528.nc
        JRA.v1.3.swdn.TL319.1999.190528.nc
        JRA.v1.3.swdn.TL319.2000.190528.nc
        JRA.v1.3.swdn.TL319.2001.190528.nc
        JRA.v1.3.swdn.TL319.2002.190528.nc
        JRA.v1.3.swdn.TL319.2003.190528.nc
        JRA.v1.3.swdn.TL319.2004.190528.nc
        JRA.v1.3.swdn.TL319.2005.190528.nc
        JRA.v1.3.swdn.TL319.2006.190528.nc
        JRA.v1.3.swdn.TL319.2007.190528.nc
        JRA.v1.3.swdn.TL319.2008.190528.nc
        JRA.v1.3.swdn.TL319.2009.190528.nc
        JRA.v1.3.swdn.TL319.2010.190528.nc
        JRA.v1.3.swdn.TL319.2011.190528.nc
        JRA.v1.3.swdn.TL319.2012.190528.nc
        JRA.v1.3.swdn.TL319.2013.190528.nc
        JRA.v1.3.swdn.TL319.2014.190528.nc
        JRA.v1.3.swdn.TL319.2015.190528.nc
        JRA.v1.3.swdn.TL319.2016.190528.nc
        JRA.v1.3.swdn.TL319.2017.190528.nc
        JRA.v1.3.swdn.TL319.2018.190528.nc
      </value>
      <value  stream="CORE_IAF_JRA.NCEP.Q_10">
        JRA.v1.3.q_10.TL319.1958.171019.nc
        JRA.v1.3.q_10.TL319.1959.171019.nc
        JRA.v1.3.q_10.TL319.1960.171019.nc
        JRA.v1.3.q_10.TL319.1961.171019.nc
        JRA.v1.3.q_10.TL319.1962.171019.nc
        JRA.v1.3.q_10.TL319.1963.171019.nc
        JRA.v1.3.q_10.TL319.1964.171019.nc
        JRA.v1.3.q_10.TL319.1965.171019.nc
        JRA.v1.3.q_10.TL319.1966.171019.nc
        JRA.v1.3.q_10.TL319.1967.171019.nc
        JRA.v1.3.q_10.TL319.1968.171019.nc
        JRA.v1.3.q_10.TL319.1969.171019.nc
        JRA.v1.3.q_10.TL319.1970.171019.nc
        JRA.v1.3.q_10.TL319.1971.171019.nc
        JRA.v1.3.q_10.TL319.1972.171019.nc
        JRA.v1.3.q_10.TL319.1973.171019.nc
        JRA.v1.3.q_10.TL319.1974.171019.nc
        JRA.v1.3.q_10.TL319.1975.171019.nc
        JRA.v1.3.q_10.TL319.1976.171019.nc
        JRA.v1.3.q_10.TL319.1977.171019.nc
        JRA.v1.3.q_10.TL319.1978.171019.nc
        JRA.v1.3.q_10.TL319.1979.171019.nc
        JRA.v1.3.q_10.TL319.1980.171019.nc
        JRA.v1.3.q_10.TL319.1981.171019.nc
        JRA.v1.3.q_10.TL319.1982.171019.nc
        JRA.v1.3.q_10.TL319.1983.171019.nc
        JRA.v1.3.q_10.TL319.1984.171019.nc
        JRA.v1.3.q_10.TL319.1985.171019.nc
        JRA.v1.3.q_10.TL319.1986.171019.nc
        JRA.v1.3.q_10.TL319.1987.171019.nc
        JRA.v1.3.q_10.TL319.1988.171019.nc
        JRA.v1.3.q_10.TL319.1989.171019.nc
        JRA.v1.3.q_10.TL319.1990.171019.nc
        JRA.v1.3.q_10.TL319.1991.171019.nc
        JRA.v1.3.q_10.TL319.1992.171019.nc
        JRA.v1.3.q_10.TL319.1993.171019.nc
        JRA.v1.3.q_10.TL319.1994.171019.nc
        JRA.v1.3.q_10.TL319.1995.171019.nc
        JRA.v1.3.q_10.TL319.1996.171019.nc
        JRA.v1.3.q_10.TL319.1997.171019.nc
        JRA.v1.3.q_10.TL319.1998.171019.nc
        JRA.v1.3.q_10.TL319.1999.171019.nc
        JRA.v1.3.q_10.TL319.2000.171019.nc
        JRA.v1.3.q_10.TL319.2001.171019.nc
        JRA.v1.3.q_10.TL319.2002.171019.nc
        JRA.v1.3.q_10.TL319.2003.171019.nc
        JRA.v1.3.q_10.TL319.2004.171019.nc
        JRA.v1.3.q_10.TL319.2005.171019.nc
        JRA.v1.3.q_10.TL319.2006.171019.nc
        JRA.v1.3.q_10.TL319.2007.171019.nc
        JRA.v1.3.q_10.TL319.2008.171019.nc
        JRA.v1.3.q_10.TL319.2009.171019.nc
        JRA.v1.3.q_10.TL319.2010.171019.nc
        JRA.v1.3.q_10.TL319.2011.171019.nc
        JRA.v1.3.q_10.TL319.2012.171019.nc
        JRA.v1.3.q_10.TL319.2013.171019.nc
        JRA.v1.3.q_10.TL319.2014.171019.nc
        JRA.v1.3.q_10.TL319.2015.171019.nc
        JRA.v1.3.q_10.TL319.2016.171019.nc
      </value>
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      <value stream="presaero.SSP3-7.0">aerodep_clm_SSP370_b.e21.BWSSP370cmip6.f09_g17.CMIP6-SSP3-7.0-WACCM.001_2014-2101_monthly_0.9x1.25_c190402.nc</value>
      <value stream="presaero.SSP5-3.4">null</value>
      <value stream="presaero.SSP5-8.5">aerodep_clm_SSP585_b.e21.BSSP585cmip6.f09_g17.CMIP6-SSP5-8.5.001_2014-2101_monthly_0.9x1.25_c190419.nc</value>
      <value stream="presaero.cesm2_omip">
        aerosoldep_WACCM.ensmean_1849vals_1637-1848_CMIP6_c190522.nc
        aerosoldep_WACCM.ensmean_monthly_hist_1849-2015_0.9x1.25_CMIP6_c180926.nc
        aerosoldep_WACCM.ensmean_2015vals_2016-2019_CMIP6_c190522.nc
      </value>
      <value stream="topo.observed">topodata_0.9x1.25_USGS_070110_stream_c151201.nc</value>
    </values>
  </entry>

  <entry id="strm_datvar">
    <type>char</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Stream data variable name(s).</desc>
    <values>
      <value>null</value>
      <value  stream="CLM1PT.1x1_mexicocityMEX">
        ZBOT     z
        TBOT     tbot
        RH       rh
        WIND     wind
        PRECTmms precn
        FSDS     swdn
        FSDSdir  swdndr
        FSDSdif  swdndf
        PSRF     pbot
        FLDS     lwdn
      </value>
      <value  stream="CLM1PT.1x1_vancouverCAN">
        ZBOT     z
        TBOT     tbot
        RH       rh
        WIND     wind
        PRECTmms precn
        FSDS     swdn
        FSDSdir  swdndr
        FSDSdif  swdndf
        PSRF     pbot
        FLDS     lwdn
      </value>
      <value   stream="CLM1PT.1x1_urbanc_alpha">
        ZBOT     z
        TBOT     tbot
        QBOT     shum
        WIND     wind
        PRECTmms precn
        FSDS     swdn
        FSDSdir  swdndr
        FSDSdif  swdndf
        PSRF     pbot
        FLDS     lwdn
      </value>
      <value  stream="CLM1PT.CLM_USRDAT">
        ZBOT     z
        TBOT     tbot
        RH       rh
        WIND     wind
        PRECTmms precn
        FSDS     swdn
        PSRF     pbot
        FLDS     lwdn
      </value>
      <value stream="CPLHISTForcing.Solar">
        a2x1hi_Faxa_swndr swndr
        a2x1hi_Faxa_swvdr swvdr
        a2x1hi_Faxa_swndf swndf
        a2x1hi_Faxa_swvdf swvdf
      </value>
      <value stream="CPLHISTForcing.nonSolarFlux">
        a2x3h_Faxa_rainc rainc
        a2x3h_Faxa_rainl rainl
        a2x3h_Faxa_snowc snowc
        a2x3h_Faxa_snowl snowl
        a2x3h_Faxa_lwdn  lwdn
      </value>
      <value stream="CPLHISTForcing.State3hr">
        a2x3h_Sa_z       z
        a2x3h_Sa_tbot    tbot
        a2x3h_Sa_ptem    ptem
        a2x3h_Sa_shum    shum
        a2x3h_Sa_pbot    pbot
        a2x3h_Sa_dens    dens
        a2x3h_Sa_pslv    pslv
	a2x3h_Sa_co2diag co2diag
	a2x3h_Sa_co2prog co2prog
      </value>
      <value stream="CPLHISTForcing.State1hr">
        a2x1h_Sa_u  u
        a2x1h_Sa_v  v
      </value>
      <value  stream="CLM_QIAN.Solar">
        FSDS swdn
      </value>
      <value  stream="CLM_QIAN.Precip">
        PRECTmms precn
      </value>
      <value  stream="CLM_QIAN.TPQW">
        TBOT     tbot
        WIND     wind
        QBOT     shum
        PSRF     pbot
      </value>
      <value  stream="CLM_QIAN_WISO.Solar">
        FSDS swdn
      </value>
      <value  stream="CLM_QIAN_WISO.Precip">
        PRECTmms precn
      </value>
      <value  stream="CLM_QIAN_WISO.TPQW">
        TBOT     tbot
        WIND     wind
        QBOT     shum
        PSRF     pbot
      </value>
      <value  stream="CLMCRUNCEP.Solar">
        FSDS swdn
      </value>
      <value  stream="CLMCRUNCEP.Precip">
        PRECTmms precn
      </value>
      <value  stream="CLMCRUNCEP.TPQW">
        TBOT     tbot
        WIND     wind
        QBOT     shum
        PSRF     pbot
      </value>
      <value  stream="CLMCRUNCEPv7.Solar">
        FSDS swdn
      </value>
      <value  stream="CLMCRUNCEPv7.Precip">
        PRECTmms precn
      </value>
      <value  stream="CLMCRUNCEPv7.TPQW">
        TBOT     tbot
        WIND     wind
        QBOT     shum
        PSRF     pbot
      </value>
      <value  stream="CLMGSWP3v1.Solar">
        FSDS swdn
      </value>
      <value  stream="CLMGSWP3v1.Precip">
        PRECTmms precn
      </value>
      <value  stream="CLMGSWP3v1.TPQW">
        TBOT     tbot
        WIND     wind
        QBOT     shum
        PSRF     pbot
        FLDS     lwdn
      </value>
      <value stream="CORE2_NYF.GISS">
        lwdn  lwdn
        swdn  swdn
        swup  swup
      </value>
      <value  stream="CORE2_NYF.GXGXS">
        prc  prec
      </value>
      <value  stream="CORE2_NYF.NCEP">
        dn10  dens
        slp_  pslv
        q_10  shum
        t_10  tbot
        u_10  u
        v_10  v
      </value>
      <value  stream="CORE2_IAF.NCEP.DENS.SOFS">
        dn10  dens
      </value>
      <value  stream="CORE2_IAF.NCEP.PSLV.SOFS">
        slp_  pslv
      </value>
      <value  stream="CORE2_IAF.PREC.SOFS.DAILY">
        prec  prec
      </value>
      <value  stream="CORE2_IAF.LWDN.SOFS.DAILY">
        lwdn  lwdn
      </value>
      <value  stream="CORE2_IAF.SWDN.SOFS.DAILY">
        swdn  swdn
      </value>
      <value  stream="CORE2_IAF.SWUP.SOFS.DAILY">
        swup  swup
      </value>
      <value  stream="CORE2_IAF.SHUM.SOFS.6HOUR">
        q3_5  shum
      </value>
      <value  stream="CORE2_IAF.TBOT.SOFS.6HOUR">
        t3_5  tbot
      </value>
      <value  stream="CORE2_IAF.U.SOFS.6HOUR">
        u3_5  u
      </value>
      <value  stream="CORE2_IAF.V.SOFS.6HOUR">
        v3_5  v
      </value>
      <value  stream="CORE2_IAF.GCGCS.PREC">
        prc  prec
      </value>
      <value  stream="CORE2_IAF.GISS.LWDN">
        lwdn  lwdn
      </value>
      <value  stream="CORE2_IAF.GISS.SWDN">
        swdn  swdn
      </value>
      <value stream="CORE2_IAF.GISS.SWUP">
        swup  swup
      </value>
      <value  stream="CORE2_IAF.NCEP.DN10">
        dn10  dens
      </value>
      <value  stream="CORE2_IAF.NCEP.Q_10">
        q_10  shum
      </value>
      <value  stream="CORE2_IAF.NCEP.SLP_">
        slp_  pslv
      </value>
      <value  stream="CORE2_IAF.NCEP.T_10">
        t_10  tbot
      </value>
      <value  stream="CORE2_IAF.NCEP.U_10">
        u_10  u
      </value>
      <value  stream="CORE2_IAF.NCEP.V_10">
        v_10  v
      </value>
      <value  stream="CORE2_IAF.CORE2.ArcFactor">
        TarcFactor tarcf
      </value>
      <value  stream="CORE_IAF_JRA.*.GCGCS.PREC">
        prec  prec
      </value>
      <value  stream="CORE_IAF_JRA.*.GISS.LWDN">
        lwdn  lwdn 
      </value>
      <value  stream="CORE_IAF_JRA.*.GISS.SWDN">
        swdn  swdn
      </value>
      <value  stream="CORE_IAF_JRA.*.NCEP.Q_10">
        q_10  shum
      </value>
      <value  stream="CORE_IAF_JRA.*.NCEP.SLP_">
        slp  pslv
      </value>
      <value  stream="CORE_IAF_JRA.*.NCEP.T_10">
        t_10  tbot
      </value>
      <value  stream="CORE_IAF_JRA.*.NCEP.U_10">
        u_10  u
      </value>
      <value  stream="CORE_IAF_JRA.*.NCEP.V_10">
        v_10  v
      </value>
      <value  stream="co2tseries.20tr">
        CO2        co2diag
      </value>
      <value  stream="co2tseries.omip">
        CO2        co2diag
      </value>
      <value  stream="co2tseries.SSP">
        CO2        co2diag
      </value>
      <value  stream="BC.QIAN.Precip">
        BC_PREC  precsf
      </value>
      <value  stream="BC.CRUNCEP.GPCP.Precip">
        BC_PREC  precsf
      </value>
      <value  stream="BC.CRUNCEP.CMAP.Precip">
        BC_PREC  precsf
      </value>
      <value  stream="Anomaly.Forcing.Precip">
        pr  prec_af
      </value>
      <value  stream="Anomaly.Forcing.Temperature">
        tas  tbot_af
      </value>
      <value  stream="Anomaly.Forcing.Pressure">
        ps  pbot_af
      </value>
      <value  stream="Anomaly.Forcing.Humidity">
        huss  shum_af
      </value>
      <value  stream="Anomaly.Forcing.Uwind">
        uas  u_af
      </value>
      <value  stream="Anomaly.Forcing.Vwind">
        vas  v_af
      </value>
      <value  stream="Anomaly.Forcing.Shortwave">
        rsds  swdn_af
      </value>
      <value  stream="Anomaly.Forcing.Longwave">
        rlds  lwdn_af
      </value>
      <value stream="presaero.cplhist">
        a2x1d_Faxa_bcphiwet  bcphiwet
        a2x1d_Faxa_bcphodry  bcphodry
        a2x1d_Faxa_bcphidry  bcphidry
        a2x1d_Faxa_ocphiwet  ocphiwet
        a2x1d_Faxa_ocphidry  ocphidry
        a2x1d_Faxa_ocphodry  ocphodry
        a2x1d_Faxa_dstwet1   dstwet1
        a2x1d_Faxa_dstdry1   dstdry1
        a2x1d_Faxa_dstwet2   dstwet2
        a2x1d_Faxa_dstdry2   dstdry2
        a2x1d_Faxa_dstwet3   dstwet3
        a2x1d_Faxa_dstdry3   dstdry3
        a2x1d_Faxa_dstwet4   dstwet4
        a2x1d_Faxa_dstdry4   dstdry4
      </value>
      <value  stream="presaero">
        BCDEPWET   bcphiwet
        BCPHODRY   bcphodry
        BCPHIDRY   bcphidry
        OCDEPWET   ocphiwet
        OCPHIDRY   ocphidry
        OCPHODRY   ocphodry
        DSTX01WD   dstwet1
        DSTX01DD   dstdry1
        DSTX02WD   dstwet2
        DSTX02DD   dstdry2
        DSTX03WD   dstwet3
        DSTX03DD   dstdry3
        DSTX04WD   dstwet4
        DSTX04DD   dstdry4
      </value>
      <value stream="topo.cplhist">
        a2x3h_Sa_topo  topo
      </value>
      <value stream="topo.observed">
        TOPO topo
      </value>
    </values>
  </entry>

  <entry id="strm_year_align">
    <type>integer</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Simulation year to align stream to.</desc>
    <values>
      <value>-999</value>
      <value stream="CLM1PT">$DATM_CLMNCEP_YR_ALIGN</value>
      <value stream="CPLHISTForcing">$DATM_CPLHIST_YR_ALIGN</value>
      <value stream="CLM_QIAN">$DATM_CLMNCEP_YR_ALIGN</value>
      <value stream="CLMCRUNCEP">$DATM_CLMNCEP_YR_ALIGN</value>
      <value stream="CLMGSWP3">$DATM_CLMNCEP_YR_ALIGN</value>
      <value stream="CORE2_NYF">1</value>
      <value stream="CORE2_IAF.CORE2.ArcFactor">1</value>
      <value stream="CORE2_IAF">1</value>
      <value stream="CORE_IAF_JRA.*">1</value>
      <value stream="co2tseries.20tr">1850</value>
      <!-- ncycles*(year_end-year_start+1)-(year_end-co2_year_start) -->
      <value stream="co2tseries.omip" datm_mode="CORE2_IAF">213</value>    <!-- 6*(2009-1948+1)-(2009-1850) -->
      <value stream="co2tseries.omip" datm_mode="CORE_IAF_JRA.*2018">198</value> <!-- 6*(2018-1958+1)-(2018-1850) -->
      <value stream="co2tseries.SSP">2015</value>
      <value stream="BC.QIAN.Precip">1979</value>
      <value stream="BC.CRUNCEP.GPCP.Precip">1979</value>
      <value stream="BC.CRUNCEP.CMAP.Precip">1979</value>
      <value stream="Anomaly.Forcing">2006</value>
      <value stream="presaero.cplhist">$DATM_CPLHIST_YR_ALIGN</value>
      <value stream="presaero.clim_1850">1</value>
      <value stream="presaero.clim_2000">1</value>
      <value stream="presaero.clim_2010">1</value>
      <value stream="presaero.trans_1850-2000">1849</value>
      <value stream="presaero.SSP">2015</value>
      <value stream="presaero.cesm2_omip">0</value>
      <value stream="topo.observed">1</value>
      <value stream="topo.cplhist">$DATM_CPLHIST_YR_ALIGN</value>
    </values>
  </entry>

  <entry id="strm_year_start">
    <type>integer</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>First year of stream.</desc>
    <values>
      <value>-999</value>
      <value stream="CLM1PT.1x1_mexicocityMEX">1993</value>
      <value stream="CLM1PT.1x1_vancouverCAN">1992</value>
      <value stream="CLM1PT.1x1_urbanc_alpha">0001</value>
      <value stream="CLM1PT.CLM_USRDAT">$DATM_CLMNCEP_YR_START</value>
      <value stream="CPLHISTForcing">$DATM_CPLHIST_YR_START</value>
      <value stream="CLM_QIAN_WISO">2000</value>
      <value stream="CLM_QIAN">$DATM_CLMNCEP_YR_START</value>
      <value stream="CLMCRUNCEP">$DATM_CLMNCEP_YR_START</value>
      <value stream="CLMGSWP3">$DATM_CLMNCEP_YR_START</value>
      <value stream="CORE2_NYF">1</value>
      <value stream="CORE2_IAF.NCEP.DENS.SOFS">2010</value>
      <value stream="CORE2_IAF.NCEP.PSLV.SOFS">2010</value>
      <value stream="CORE2_IAF.PREC.SOFS.DAILY">2010</value>
      <value stream="CORE2_IAF.LWDN.SOFS.DAILY">2010</value>
      <value stream="CORE2_IAF.SWDN.SOFS.DAILY">2010</value>
      <value stream="CORE2_IAF.SWUP.SOFS.DAILY">2010</value>
      <value stream="CORE2_IAF.SHUM.SOFS.6HOUR">2010</value>
      <value stream="CORE2_IAF.TBOT.SOFS.6HOUR">2010</value>
      <value stream="CORE2_IAF.U.SOFS.6HOUR">2010</value>
      <value stream="CORE2_IAF.V.SOFS.6HOUR">2010</value>
      <value stream="CORE2_IAF.GCGCS.PREC">1948</value>
      <value stream="CORE2_IAF.GISS.LWDN">1948</value>
      <value stream="CORE2_IAF.GISS.SWDN">1948</value>
      <value stream="CORE2_IAF.GISS.SWUP">1948</value>
      <value stream="CORE2_IAF.NCEP.DN10">1948</value>
      <value stream="CORE2_IAF.NCEP.Q_10">1948</value>
      <value stream="CORE2_IAF.NCEP.SLP_">1948</value>
      <value stream="CORE2_IAF.NCEP.T_10">1948</value>
      <value stream="CORE2_IAF.NCEP.U_10">1948</value>
      <value stream="CORE2_IAF.NCEP.V_10">1948</value>
      <value stream="CORE2_IAF.CORE2.ArcFactor">1948</value>
      <value stream="CORE_IAF_JRA.*">1958</value>
      <value stream="co2tseries.20tr">1850</value>
      <value stream="co2tseries.omip">1850</value>
      <value stream="co2tseries.SSP">2015</value>
      <value stream="BC.QIAN">1979</value>
      <value stream="BC.CRUNCEP">1979</value>
      <value stream="Anomaly.Forcing">2006</value>
      <value stream="presaero.cplhist">$DATM_CPLHIST_YR_START</value>
      <value stream="presaero.clim_1850">1850</value>
      <value stream="presaero.clim_2000">2000</value>
      <value stream="presaero.clim_2010">2010</value>
      <value stream="presaero.trans_1850-2000">1849</value>
      <value stream="presaero.SSP">2015</value>
      <!-- year_start-(ncycles-1)*(year_end-year_start+1)-1 -->
      <value stream="presaero.cesm2_omip" datm_mode="CORE2_IAF">1637</value>    <!-- 1948-(6-1)*(2009-1948+1)-1 -->
      <value stream="presaero.cesm2_omip" datm_mode="CORE_IAF_JRA.*2018">1652</value> <!-- 1958-(6-1)*(2018-1958+1)-1 -->
      <value stream="topo.observed">1</value>
      <value stream="topo.cplhist">$DATM_CPLHIST_YR_START</value>
    </values									>
  </entry>

  <entry id="strm_year_end">
    <type>integer</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Last year of stream.</desc>
    <values>
      <value>-999</value>
      <value stream="CLM1PT.1x1_mexicocityMEX">1993</value>
      <value stream="CLM1PT.1x1_vancouverCAN">1992</value>
      <value stream="CLM1PT.1x1_urbanc_alpha">0002</value>
      <value stream="CLM1PT.CLM_USRDAT">$DATM_CLMNCEP_YR_END</value>
      <value stream="CPLHISTForcing">$DATM_CPLHIST_YR_END</value>
      <value stream="CLM_QIAN_WISO">2004  </value>
      <value stream="CLM_QIAN">$DATM_CLMNCEP_YR_END  </value>
      <value stream="CLMCRUNCEP">$DATM_CLMNCEP_YR_END  </value>
      <value stream="CLMGSWP3">$DATM_CLMNCEP_YR_END  </value>
      <value stream="CORE2_NYF">1</value>
      <value stream="CORE2_IAF.NCEP.DENS.SOFS">2011</value>
      <value stream="CORE2_IAF.NCEP.PSLV.SOFS">2011</value>
      <value stream="CORE2_IAF.PREC.SOFS.DAILY">2011</value>
      <value stream="CORE2_IAF.LWDN.SOFS.DAILY">2011</value>
      <value stream="CORE2_IAF.SWDN.SOFS.DAILY">2011</value>
      <value stream="CORE2_IAF.SWUP.SOFS.DAILY">2011</value>
      <value stream="CORE2_IAF.SHUM.SOFS.6HOUR">2011</value>
      <value stream="CORE2_IAF.TBOT.SOFS.6HOUR">2011</value>
      <value stream="CORE2_IAF.U.SOFS.6HOUR">2011</value>
      <value stream="CORE2_IAF.V.SOFS.6HOUR">2011</value>
      <value stream="CORE2_IAF.GCGCS.PREC">2009</value>
      <value stream="CORE2_IAF.GISS.LWDN">2009</value>
      <value stream="CORE2_IAF.GISS.SWDN">2009</value>
      <value stream="CORE2_IAF.GISS.SWUP">2009</value>
      <value stream="CORE2_IAF.NCEP.DN10">2009</value>
      <value stream="CORE2_IAF.NCEP.Q_10">2009</value>
      <value stream="CORE2_IAF.NCEP.SLP_">2009</value>
      <value stream="CORE2_IAF.NCEP.T_10">2009</value>
      <value stream="CORE2_IAF.NCEP.U_10">2009</value>
      <value stream="CORE2_IAF.NCEP.V_10">2009</value>
      <value stream="CORE2_IAF.CORE2.ArcFactor">2009</value>
      <value stream="CORE_IAF_JRA.*2018">2018</value>
      <value stream="CORE_IAF_JRA.*">2016</value>
      <value stream="co2tseries.20tr">2014</value>
      <value stream="co2tseries.omip">2019</value>
      <value stream="co2tseries.SSP">2500</value>
      <value stream="BC.QIAN.Precip">2004</value>
      <value stream="BC.CRUNCEP.GPCP.Precip">2012</value>
      <value stream="BC.CRUNCEP.CMAP.Precip">2010</value>
      <value stream="Anomaly.Forcing">2300</value>
      <value stream="presaero.cplhist">$DATM_CPLHIST_YR_END</value>
      <value stream="presaero.clim_1850">1850</value>
      <value stream="presaero.clim_2000">2000</value>
      <value stream="presaero.clim_2010">2010</value>
      <value stream="presaero.trans_1850-2000">2014</value>
      <value stream="presaero.SSP">2101</value>
      <!-- year_end+1 -->
      <value stream="presaero.cesm2_omip" datm_mode="CORE2_IAF">2010</value>    <!-- 2009+1 -->
      <value stream="presaero.cesm2_omip" datm_mode="CORE_IAF_JRA.*2018">2019</value> <!-- 2018+1 -->
      <value stream="topo.observed">1</value>
      <value stream="topo.cplhist">$DATM_CPLHIST_YR_END</value>
    </values>
  </entry>

  <entry id="strm_offset">
    <type>integer</type>
    <category>streams</category>
    <group>streams_file</group>
    <desc>Stream offset.</desc>
    <values>
      <value>0</value>
      <value stream="CORE_IAF_JRA.*.GISS.SWDN">-5400</value>
      <value stream="CPLHISTForcing.Solar">2700</value>
      <value stream="CPLHISTForcing.nonSolarFlux">900</value>
      <value stream="CPLHISTForcing.State3hr">900</value>
      <value stream="CPLHISTForcing.State1hr">900</value>
      <value stream="presaero.cplhist">0</value>
      <value stream="topo.cplhist">0</value>
    </values>
  </entry>

  <!-- ========================================================================================  -->
  <!-- DATM Namelists                                                                            -->
  <!-- ========================================================================================  -->

  <!-- =========================================  -->
  <!--- shr_strmdata_nml                          -->
  <!-- =========================================  -->

  <entry id="datamode">
    <type>char</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <valid_values>CLMNCEP,COPYALL,CORE2_NYF,CORE2_IAF,CORE_IAF_JRA,NULL</valid_values>
    <desc>
      general method that operates on the data.  this is generally
      implemented in the data models but is set in the strdata method for
      convenience.  valid options are dependent on the data model and will
      be described elsewhere.  NULL is always a valid option and means no
      data will be generated.  default='NULL'

      datamode = "NULL"
      turns off the data model as a provider of data to the coupler.
      The atm_present flag will be set to false
      and the coupler will assume no exchange of data to or from the data model.
      datamode = "COPYALL"
      The default science mode of the data model is the COPYALL mode.
      COPYALL mode will examine the fields found in all input data streams,
      if any input field names match the field names used internally, they
      are copied into the export array and passed directly to the coupler
      without any special user code.  Any required fields not found on an
      input stream will be set to zero except for aerosol deposition fields
      which will be set to a special value.  There are several other
      scientific modes supported by the model, they are listed below.  The
      mode is selected by a character string set in the strdata namelist
      variable dataMode.
      datamode = "CORE2_NYF"
      Coordinated Ocean-ice Reference Experiments (CORE) Version 2 Normal Year Forcing.
      datamode = "CORE2_IAF"
      In conjunction with with CORE Version 2 atmospheric forcing data,
      provides the atmosphere forcing favored by the Ocean Model Working
      Group when coupling an active ocean model with observed atmospheric
      forcing.  This mode and associated data sets implement the CORE-IAF
      Version 2 forcing data, as developed by Large and Yeager (2008) at
      NCAR.  See the documentation for CORE version 2 datasets at
      http://data1.gfdl.noaa.gov/nomads/forms/mom4/COREv2.html Also see
      W.G.Large, S.G.Yeager (2008), The global climatology of an
      interannually varying air-sea flux data set.
      Clm Dyn doi 10.1007/s00382-008-0441-3.
      datamode = "CORE_IAF_JRA*"
      JRA55 intra-annual year forcing
      datamode = "CLMNCEP"
      In conjunction with NCEP climatological atmosphere data, provides the
      atmosphere forcing favored by the Land Model Working Group when
      coupling an active land model with observed atmospheric forcing.  This
      mode replicates code previously found in CLM (circa 2005), before the
      LMWG started using the CCSM flux coupler and data models to do
      active-land-only simulations.
    </desc>
    <values>
      <value>NULL</value>
      <value datm_mode="CLM">CLMNCEP</value>
      <value datm_mode="CORE2_NYF">CORE2_NYF</value>
      <value datm_mode="CORE2_IAF">CORE2_IAF</value>
      <value datm_mode="CORE_IAF_JRA.*">CORE_IAF_JRA</value>
      <value datm_mode="CPLHIST">COPYALL</value>
    </values>
  </entry>

  <entry id="domainfile" skip_default_entry="true">
    <type>char</type>
    <category>streams</category>
    <input_pathname>abs</input_pathname>
    <group>shr_strdata_nml</group>
    <desc>
      model spatial gridfile associated with the strdata.  grid information will
      be read from this file and that grid will serve as the target grid
      for all input data for this strdata input.
    </desc>
    <values>
      <value/>
    </values>
  </entry>

  <entry id="fillalgo" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <valid_values>copy,bilinear,nn,nnoni,nnonj,spval</valid_values>
    <desc>
      array (up to 30 elements) of fill algorithms associated with the array
      of streams.  valid options are just copy (ie. no fill), special value,
      nearest neighbor, nearest neighbor in "i" direction, or nearest
      neighbor in "j" direction.
      valid values:  'copy','spval','nn','nnoni','nnonj'
    </desc>
    <values>
      <value>nn</value>
    </values>
  </entry>

  <entry id="fillmask" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <valid_values>nomask,srcmask,dstmask,bothmask</valid_values>
    <desc>
      plays no role is fill algorithm at the present time.
      valid values: "nomask,srcmask,dstmask,bothmask"
    </desc>
    <values>
      <value>nomask</value>
    </values>
  </entry>

  <entry id="fillread" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <desc>
      array (up to 30 elements) of filenames associated with the array of
      streams.  specifies the weights file to read in instead of computing the
      weights on the fly for the fill operation.  if this is set, fillalgo
      and fillmask are ignored.
    </desc>
    <values>
      <value>NOT_SET</value>
    </values>
  </entry>

  <entry id="fillwrite" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <desc>
      array (up to 30 elements)  of filenames associated with the array of
      streams.  specifies the weights file to generate after weights are
      computed on the fly for the fill operation.  this allows a user to
      save and reuse a set of weights later.
    </desc>
    <values>
      <value>NOT_SET</value>
    </values>
  </entry>

  <entry id="mapmask" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <valid_values>nomask,srcmask,dstmask,bothmask</valid_values>
    <desc>
      array (up to 30 elements) of masking algorithms for mapping input data
      associated with the array of streams.  valid options are map only from
      valid src points, map only to valid destination points, ignore all
      masks, map only from valid src points to valid destination points.
      valid values: srcmask, dstmask, nomask,bothmask
    </desc>
    <values>
      <value>nomask</value>
    </values>
  </entry>

  <entry id="mapalgo" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <valid_values>copy,bilinear,nn,nnoni,nnonj,spval</valid_values>
    <desc>
      array (up to 30 elements) of fill algorithms associated with the array
      of streams.  valid options are copy by index, set to special value,
      nearest neighbor, nearest neighbor in "i" direction, nearest neighbor
      in "j" direction, or bilinear.
      valid values: copy,spval,nn,nnoni,nnonj,bilinear
    </desc>
    <values>
      <value>bilinear</value>
      <value datm_mode="CLM1PT">nn</value>
      <value stream="CLMCRUNCEP" atm_grid="hcru">copy</value>
      <value stream="CLMGSWP3" atm_grid="hcru">copy</value>
      <value stream="co2tseries">nn</value>
    </values>
  </entry>

  <entry id="mapread" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <desc>
      array (up to 30 elements) of filenames associated with the array of
      streams.  specifies the weights file to read instead of computing
      weights on the fly for the mapping (interpolation) operation.  if this
      is set, mapalgo and mapmask are ignored.
    </desc>
    <values>
      <value>NOT_SET</value>
    </values>
  </entry>

  <entry id="mapwrite" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <desc>
      array (up to 30 elements) of filenames associated with the array of
      streams.  specifies the weights file to generate after weights are
      computed on the fly for the mapping (interpolation) operation.  this
      allows a user to save and reuse a set of weights later.
    </desc>
    <values>
      <value>NOT_SET</value>
    </values>
  </entry>

  <entry id="tintalgo" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <valid_values>coszen,nearest,linear,lower,upper</valid_values>
    <desc>
      array (up to 30 elements) of time interpolation options associated with the array of
      streams.
      valid values: lower,upper,nearest,linear,coszen
      lower   = Use lower time-value
      upper   = Use upper time-value
      nearest = Use the nearest time-value
      linear  = Linearly interpolate between the two time-values
      coszen  = Scale according to the cosine of the solar zenith angle (for solar)
    </desc>
    <values>
      <value>linear</value>
      <value stream="CLM1PT.1x1_mexicocityMEX">nearest</value>
      <value stream="CLM1PT.1x1_vancouverCAN">nearest</value>
      <value stream="CLM1PT.1x1_urbanc_alpha">nearest</value>
      <value stream="CLM1PT.CLM_USRDAT">nearest</value>
      <value stream="CPLHISTForcing.Solar">nearest</value>
      <value stream="CPLHISTForcing.nonSolarFlux">nearest</value>
      <value stream="CPLHISTForcing.State3hr">linear</value>
      <value stream="CPLHISTForcing.State1hr">linear</value>
      <value stream="presaero.cplhist">nearest</value>
      <value stream="topo.cplhist">nearest</value>
      <value stream="CLM_QIAN.Solar">coszen</value>
      <value stream="CLM_QIAN.Precip">nearest</value>
      <value stream="CLM_QIAN_WISO.Solar">coszen</value>
      <value stream="CLM_QIAN_WISO.Precip">nearest</value>
      <value stream="CLMCRUNCEP.Solar">coszen</value>
      <value stream="CLMCRUNCEP.Precip">nearest</value>
      <value stream="CLMCRUNCEPv7.Solar">coszen</value>
      <value stream="CLMCRUNCEPv7.Precip">nearest</value>
      <value stream="CLMGSWP3v1.Solar">coszen</value>
      <value stream="CLMGSWP3v1.Precip">nearest</value>
      <value stream="BC.CRUNCEP.GPCP.Precip">nearest</value>
      <value stream="BC.CRUNCEP.CMAP.Precip">nearest</value>
      <value stream="Anomaly.Forcing.Precip">nearest</value>
      <value stream="Anomaly.Forcing.Temperature">nearest</value>
      <value stream="Anomaly.Forcing.Pressure">nearest</value>
      <value stream="Anomaly.Forcing.Humidity">nearest</value>
      <value stream="Anomaly.Forcing.Uwind">nearest</value>
      <value stream="Anomaly.Forcing.Vwind">nearest</value>
      <value stream="Anomaly.Forcing.Shortwave">nearest</value>
      <value stream="Anomaly.Forcing.Longwave">nearest</value>
      <!-- tintalgo is arbitrary here since we only have one time slice; however,
           setting this to 'linear' gives roundoff-level differences between time
           steps, which is undesirable unless we truly want linear interpolation
           between multiple input values -->
      <value stream="topo.observed">lower</value>
      <value stream="CORE2_IAF.GISS.SWDN">coszen</value>
      <value stream="CORE_IAF_JRA.*.GISS.SWDN">coszen</value>
    </values>
  </entry>

  <entry id="taxmode" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <valid_values>extend,cycle,limit</valid_values>
    <desc>
      array of time axis modes associated with the array of streams for
      handling data outside the specified stream time axis.
      valid options are to cycle the data based on the first, last, and
      align settings associated with the stream dataset, to extend the first
      and last valid value indefinitely, or to limit the interpolated data
      to fall only between the least and greatest valid value of the time array.
      valid values: cycle,extend,limit
    </desc>
    <values>
      <value>cycle</value>
      <value stream="co2tseries.20tr">extend</value>
      <value stream="co2tseries.omip">extend</value>
      <value stream="co2tseries.SSP">extend</value>
      <value stream="presaero.cesm2_omip">limit</value>
      <value datm_mode="CLM1PT">extend</value>
      <value atm_grid="CLM_USRDAT">cycle</value>
    </values>
  </entry>

  <entry id="readmode" per_stream_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <valid_values>single,full_file</valid_values>
    <desc>
      array (up to 30 elements) of reading mode associated with the array of
      streams.  specifies the mode of reading temporal stream dataset.
      valid options are "single" (read temporal dataset one at a time) or
      "full_file" (read all entires of temporal dataset in a given netcdf file)
      valid values: single,full_file
    </desc>
    <values>
      <value>single</value>
    </values>
  </entry>

  <entry id="dtlimit" per_stream_entry="true">
    <type>real(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <desc>
      array (up to 30 elements) of delta time ratio limits placed on the
      time interpolation associated with the array of streams.  this real
      value causes the model to stop if the ratio of the running maximum
      delta time divided by the minimum delta time is greater than the
      dtlimit for that stream.  for instance, with daily data, the delta
      time should be exactly one day throughout the dataset and the computed
      maximum divided by minimum delta time should always be 1.0.  for
      monthly data, the delta time should be between 28 and 31 days and the
      maximum ratio should be about 1.1.  the running value of the delta
      time is computed as data is read and any wraparound or cycling is also
      included.  this input helps trap missing data or errors in cycling.
      to turn off trapping, set the value to 1.0e30 or something similar.
    </desc>
    <values>
      <value>1.5</value>
      <value stream="CORE2_IAF.CORE2.ArcFactor">1.e30</value>
      <value stream="CPLHISTForcing.Solar">3.0</value>
      <value stream="CPLHISTForcing.nonSolarFlux">3.0</value>
      <value stream="CPLHISTForcing.State3hr">3.0</value>
      <value stream="CPLHISTForcing.State1hr">3.0</value>
      <value stream="presaero.cplhist">3.0</value>
      <value stream="topo.cplhist">3.0</value>
    </values>
  </entry>

  <entry id="vectors">
    <type>char</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <desc>
      list of paired colon delimited field names that should be treated as
      vectors when carrying out spatial interpolation.  unlike other
      character arrays in this namelist, this array is completely decoupled
      from the list of streams.  this is a list of vector pairs that span
      all input streams where different fields of the vector pair could
      appear in different streams.
      for example, vectors = 'u:v','taux:tauy'.
    </desc>
    <values>
      <value>null</value>
      <value datm_mode="CORE2_NYF">u:v</value>
      <value datm_mode="CORE2_IAF">u:v</value>
      <value datm_mode="CORE_IAF_JRA.*">u:v</value>
    </values>
  </entry>

  <entry id="streams" skip_default_entry="true">
    <type>char(30)</type>
    <category>streams</category>
    <group>shr_strdata_nml</group>
    <desc>
      character array (up to 30 elements) of stream input files.  this
      string is actually parsed by a stream method and so the format is
      specified by the stream module.  this string consists of a
      "stream_input_filename year_align year_first year_last".  the
      stream_input_filename is a stream text input file and the format and
      options are described elsewhere.  year_align, year_first, and
      year_last provide information about the time axis of the file and how
      to relate the input time axis to the model time axis.
    </desc>
    <values>
      <value></value>
    </values>
  </entry>

  <!-- =========================================  -->
  <!--- datm_nml                                  -->
  <!-- =========================================  -->

  <!--- anomaly forcing - bias correction -->
  <entry id="bias_correct" skip_default_entry="true">
    <type>char</type>
    <category>datm</category>
    <group>datm_nml</group>
    <valid_values>BC.QIAN.CMAP.Precip,BC.QIAN.GPCP.Precip,BC.CRUNCEP.CMAP.Precip,BC.CRUNCEP.GPCP.Precip</valid_values>
    <desc>
      If set, include bias correction streams in namelist.
    </desc>
    <values>
      <value/>
    </values>
  </entry>

  <entry id="anomaly_forcing" skip_default_entry="true">
    <type>char(10)</type>
    <category>datm</category>
    <group>datm_nml</group>
    <valid_values>Anomaly.Forcing.Precip,Anomaly.Forcing.Temperature,Anomaly.Forcing.Pressure,Anomaly.Forcing.Humidity,Anomaly.Forcing.Uwind,Anomaly.Forcing.Vwind,Anomaly.Forcing.Shortwave,Anomaly.Forcing.Longwave</valid_values>
    <desc>
      If set, include anomaly forcing streams in namelist.
    </desc>
    <values>
      <value/>
    </values>
  </entry>
  <!--- for anomaly forcing -->

  <entry id="decomp">
    <type>char</type>
    <category>datm</category>
    <group>datm_nml</group>
    <valid_values>1d,root</valid_values>
    <desc>
      Set the decomposition option for the data model.  valid options are
      placing the global array on the root task or a simple stride-one
      load balanced one-dimensional decomposition.  other decompositions
      may be added in the future. valid values are ['root','1d'].
      1d = Vector decomposition, root = run only on the master task
    </desc>
    <values>
      <value>1d</value>
    </values>
  </entry>

  <entry id="factorfn">
    <type>char</type>
    <category>datm</category>
    <group>datm_nml</group>
    <input_pathname>abs</input_pathname>
    <desc>
      filename containing correction factors for use only with CORE2 modes (CORE2_IAF and CORE2_NYF).
    </desc>
    <values>
      <value>null</value>
      <value datm_mode="CORE2_NYF">$DIN_LOC_ROOT/atm/datm7/CORE2/COREv2.correction_factors.T62.121007.nc</value>
      <value datm_mode="CORE2_IAF">$DIN_LOC_ROOT/atm/datm7/CORE2/COREv2.correction_factors.T62.121007.nc</value>
      <value datm_mode="CORE2_IAF" atm_grid="01col">null</value>
    </values>
  </entry>

  <entry id="presaero">
    <type>logical</type>
    <category>datm</category>
    <group>datm_nml</group>
    <desc>
      If true, prescribed aerosols are sent from datm (must be true for running with CLM).
    </desc>
    <values>
      <value>.true.</value>
      <value datm_presaero="none">.false.</value>
    </values>
  </entry>

  <entry id="force_prognostic_true">
    <type>logical</type>
    <category>datm</category>
    <group>datm_nml</group>
    <desc>
      If true, prognostic is forced to true. (default=false)
    </desc>
    <values>
      <value>.false.</value>
    </values>
  </entry>

  <entry id="iradsw">
    <type>integer</type>
    <category>datm</category>
    <group>datm_nml</group>
    <desc>
      Frequency to update radiation in number of steps (or hours if negative)
      irdasw is the radiation setting used to compute the next shortwave
      Julian date.  values greater than 1 set the next radiation to the
      present time plus 2 timesteps every iradsw.  values less than 0 turn
      set the next radiation to the present time plus two timesteps every
      -iradsw hours.  if iradsw is zero, the next radiation time is the
      present time plus 1 timestep.  (default=0.)
    </desc>
    <values>
      <value>1</value>
      <value datm_mode="CPLHISTForcing">-1</value>
    </values>
  </entry>

  <entry id="restfilm">
    <type>char</type>
    <category>datm</category>
    <group>datm_nml</group>
    <desc>
      Model restart filename for the data atmosphere model data.  This is
      optional.  If both restfils and restfilm are undefined, the restart
      filename will be read from the DATM restart pointer file (or files for multiple instances).
    </desc>
    <values>
      <value>undefined</value>
    </values>
  </entry>

  <entry id="restfils">
    <type>char</type>
    <category>datm</category>
    <group>datm_nml</group>
    <desc>
      stream restart filename for the data atmosphere stream data.  This is
      optional.  If both restfils and restfilm are undefined, the restart
      filename will be read from the DATM restart pointer file (or files for multiple instances).
    </desc>
    <values>
      <value>undefined</value>
    </values>
  </entry>

  <entry id="wiso_datm">
    <type>logical</type>
    <category>datm</category>
    <group>datm_nml</group>
    <desc>
      flag which if true, says to turn on water isotopes
    </desc>
    <values>
      <value>.false.</value>
      <value datm_mode="CLM_QIAN_WISO">.true.</value>
    </values>
  </entry>

</entry_id>

CIMEROOT/src/components/stub_comps/satm/cime_config

The atmosphere stub model, satm, does not output any files in the RUNDIR nor does it have any namelist settings.

XML variables and component descriptions specific to satm.

<?xml version="1.0"?>

<?xml-stylesheet type="text/xsl" href="entry_id.xsl" ?>

<entry_id version="3.0">
  <description>
    <desc atm="SATM">Stub atm component</desc>
  </description>

  <entry id="COMP_ATM">
    <type>char</type>
    <valid_values>satm</valid_values>
    <default_value>satm</default_value>
    <group>case_comp</group>
    <file>env_case.xml</file>
    <desc>Name of atmosphere component</desc>
  </entry>


  <help>
    =========================================
    SATM naming conventions in compset name
    =========================================
  </help>

</entry_id>

CIMEROOT/src/components/xcpl_comps/xatm/cime_config

The atmosphere dead model, xatm, does not output any files in the RUNDIR nor does it have any namelist settings.

XML variables and component descriptions specific to xatm.

<?xml version="1.0"?>

<?xml-stylesheet type="text/xsl" href="entry_id.xsl" ?>

<entry_id version="3.0">
  <description>
    <desc atm="XATM">Dead atm component</desc>
  </description>

  <entry id="COMP_ATM">
    <type>char</type>
    <valid_values>xatm</valid_values>
    <default_value>xatm</default_value>
    <group>case_comp</group>
    <file>env_case.xml</file>
    <desc>Name of atmosphere component</desc>
  </entry>

  <help>
    =========================================
    XATM naming conventions in compset name
    =========================================
  </help>

</entry_id>