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The SMAP L4_SM data product provides global, 3-hourly surface and root zone soil moisture at 9 km resolution. The L4_SM data product consists of three Collections: geophysical, analysis update and land-model-constants.
The SMAP L4_SM data product provides spatially and temporally complete surface and root zone soil moisture information for science and applications users.
The software that generates the L4_SM data product and the data system that automates its production were designed and implemented at the NASA Global Modeling and Assimilation Office, Goddard Space Flight Center, Greenbelt, Maryland, USA.
onGoing
SMAP_L4_SM_gph_20170803T193000_Vv3030_001.qa
2017-08-05T17:36:22.000Z
creation
An ASCII product that contains statistical information on data product results. These statistics enable data producers and users to assess the quality of the data in the data product granule.
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Data product generated by the SMAP mission in HDF5 format with ISO 19115 conformant metadata.
Global land excluding inland water and permanent ice.
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Percent of land grid cells (excluding inland water and permanent ice) that lack root zone soil moisture data relative to the total number of land grid cells that fall within the global domain (excluding inland water and permanent ice).
directInternal
*undefined*
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Percent of geophysical data that are within the acceptable range.
Percent of geophysical data that fall within a predefined acceptable range of measure.
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Assimilates Level 1 and Level 2 SMAP data into a global land surface model to generate spatially complete and temporally continuous estimates of soil moisture and associated land surface conditions.
2017-08-05T17:36:22.000Z
Soil Moisture Active Passive (SMAP) Mission Science Data System (SDS) Operations Facility
processor
L4_SM_SPS
Level 4 Surface and Root Zone Soil Moisture SPS
2017-04-18
publication
reichle-LDASsa_m3-15_2_p6
Soil Moisture Active Passive (SMAP) Level 4 Surface and Root Zone Soil Moisture (L4_SM) Algorithm Theoretical Basis Document (ATBD)
2014-12-09
publication
Revision-A
Soil Moisture Active Passive (SMAP) Level 4 Surface and Root Zone Soil Moisture (L4_SM) Algorithm Theoretical Basis Document (ATBD)
2014-12-09
publication
Revision-A
The L4_SM algorithm is a customized, off-line (land-only) version of the ensemble-based NASA GEOS-5 land data assimilation system. It merges SMAP observations with estimates from a land surface model that is driven with observations-based precipitation forcing.
processingInformation
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processingInformation
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creation
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A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The surface meteorological data from the NASA GEOS-5 system that are used to force the land surface model component of the L4_SM algorithm.
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A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
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A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The surface meteorological data from the NASA GEOS-5 system that are used to force the land surface model component of the L4_SM algorithm.
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A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The surface meteorological data from the NASA GEOS-5 system that are used to force the land surface model component of the L4_SM algorithm.
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A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The surface meteorological data from the NASA GEOS-5 system that are used to force the land surface model component of the L4_SM algorithm.
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2017-08-04T02:49:32.000Z
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5.16.5
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http://gmao.gsfc.nasa.gov
A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The surface meteorological data from the NASA GEOS-5 system that are used to force the land surface model component of the L4_SM algorithm.
f516_fp.tavg1_2d_lfo_Nx.20170803_2030z.nc4
2017-08-04T02:50:28.000Z
creation
5.16.5
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http://gmao.gsfc.nasa.gov
A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The surface meteorological data from the NASA GEOS-5 system that are used to force the land surface model component of the L4_SM algorithm.
f516_fp.inst1_2d_lfo_Nx.20170803_2100z.nc4
2017-08-04T02:49:32.000Z
creation
5.16.5
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http://gmao.gsfc.nasa.gov
A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The observation-corrected surface meteorological data from the NASA GEOS-5 system. Precipitation corrected using the gauge-based NOAA Climate Prediction Center Unified precipitation product.
f516_fp.tavg1_2d_lfo_Nx_corr.20170803_1830z.nc4
missing
GEOS5COR
http://gmao.gsfc.nasa.gov
A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The observation-corrected surface meteorological data from the NASA GEOS-5 system. Precipitation corrected using the gauge-based NOAA Climate Prediction Center Unified precipitation product.
f516_fp.tavg1_2d_lfo_Nx_corr.20170803_1930z.nc4
missing
GEOS5COR
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A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
The observation-corrected surface meteorological data from the NASA GEOS-5 system. Precipitation corrected using the gauge-based NOAA Climate Prediction Center Unified precipitation product.
f516_fp.tavg1_2d_lfo_Nx_corr.20170803_2030z.nc4
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A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
doi:missing
A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
SMAP Handbook
2014-07-01
publication
JPL CL#14-2285, JPL 400-1567
SMAP
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The SMAP observatory houses an L-band radiometer that operates at 1.4 GHz and an L-band radar that operates at 1.26-1.29 GHz. The instruments share a rotating reflector antenna with a 6 meter aperture that scans over a 1000 km swath. The bus is a 3 axis stabilized spacecraft that provides momentum compensation for the rotating antenna.
SMAP Handbook
2014-07-01
publication
JPL CL#14-2285, JPL 400-1567
SMAP SAR
L-band Synthetic Aperture Radar
The SMAP radar instrument employs an L-band conically scanned system and SAR processing techniques to achieve moderate resolution (1 km) backscatter measurements over a very wide 1000 km swath.
SMAP Handbook
2014-07-01
publication
JPL CL#14-2285, JPL 400-1567
SMAP RAD
L-band Radiometer
The SMAP L-band Radiometer records V-pol, H-pol, 3rd and 4th Stokes brightness temperatures at 40 km resolution at 4.3 Megabits per second with accuracies of 1.3 Kelvin or better.
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NSIDC DAAC > National Snow and Ice Data Center DAAC
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2017-04-18
ISO 19115-2 Geographic information - Metadata - Part 2: Extensions for imagery and gridded data
ISO 19115-2:2009-02-15
SMAP L4 Global 3-hourly 9 km Surface and Rootzone Soil Moisture Geophysical Data
2017-04-18
revision
Vv3030
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A Digital Object Identifier (DOI) that provides a persistent interoperable means to locate the SMAP Level 4 Radar data product.
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documentDigital
L4_SM
The first Validated Release of the SMAP Level 4 Science Processing Software.
The SMAP L4_SM data product provides global, 3-hourly surface and root zone soil moisture at 9 km resolution. The L4_SM data product consists of three Collections: geophysical, analysis update and land-model-constants.
The SMAP L4_SM data product provides spatially and temporally complete surface and root zone soil moisture information for science and applications users.
The software that generates the L4_SM data product and the data system that automates its production were designed and implemented at the NASA Global Modeling and Assimilation Office, Goddard Space Flight Center, Greenbelt, Maryland, USA.
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EARTH SCIENCE > LAND SURFACE > SOILS > SOIL MOISTURE/WATER CONTENT
EARTH SCIENCE > LAND SURFACE > SOILS > SOIL MOISTURE/WATER CONTENT > NONE > NONE > SURFACE SOIL MOISTURE
EARTH SCIENCE > LAND SURFACE > SOILS > SOIL MOISTURE/WATER CONTENT > NONE > NONE > ROOT ZONE SOIL MOISTURE
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NASA/GCMD Earth Science Keywords
Earth Remote Sensing Instruments > Active Remote Sensing > NONE > SMAP L-BAND RADAR > SMAP L-Band Radar
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NASA/GCMD Earth Science Keywords
Earth Observation Satellites > NASA Decadal Survey > SMAP > Soil Moisture Active and Passive Observatory
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NASA/GCMD Earth Science Keywords
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NASA/GCMD Earth Science Keywords
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Data product generated by the SMAP mission in HDF5 format with metadata that conforms to the ISO 19115 model.
Global land excluding inland water and permanent ice.
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2015-03-31T00:00:00.000Z
2020-12-31T23:59:59.999Z
Soil Moisture Active Passive Mission Level 4 Surface and Root Zone Soil Moisture (L4_SM) Product Specification Document
2015-10-31
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A short name used by the Soil Moisture Active Passive (SMAP) mission to identify the Level 4 Radar product.
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The SMAP L4_SM data product provides global, 3-hourly surface and root zone soil moisture at 9 km resolution. The L4_SM data product consists of three Collections: geophysical, analysis update and land-model-constants.
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Metadata_AcquisitionInformation_radiometerDocument {
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String type "L-band Radiometer";
String fullnamepath "/Metadata/AcquisitionInformation/radiometer";
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Metadata_DataQuality {
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Metadata_DataQuality_SM {
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String fullnamepath "/Metadata/DataQuality/SM/DomainConsistency";
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Metadata_DataQuality_SM_CompletenessOmission {
String evaluationMethodType "directInternal";
String measureDescription "Percent of land grid cells (excluding inland water and permanent ice) that lack root zone soil moisture data relative to the total number of land grid cells that fall within the global domain (excluding inland water and permanent ice).";
String nameOfMeasure "Percent of Missing Data";
String value "0";
String unitOfMeasure "Percent";
String fullnamepath "/Metadata/DataQuality/SM/CompletenessOmission";
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String shortName "SPL4SMGP";
String mission "SMAP";
String characterSet "utf8";
String resourceProviderOrganizationName "National Aeronautics and Space Administration";
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String status "onGoing";
String PSDEdition "1.4";
String revisionDate "2017-04-18";
String credit "The software that generates the L4_SM data product and the data system that automates its production were designed and implemented at the NASA Global Modeling and Assimilation Office, Goddard Space Flight Center, Greenbelt, Maryland, USA.";
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String pointOfContact "National Snow and Ice Data Center, Boulder, Colorado, USA.";
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Float32 westBoundLongitude -180.0000000;
Float32 eastBoundLongitude 180.0000000;
Float32 southBoundLatitude -85.04456329;
Float32 northBoundLatitude 85.04456329;
String rangeBeginningDateTime "2017-08-03T18:00:00.000Z";
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String L4_SM_SCALING_SPL1CTB_version "L4SM_v006";
String L4_OPERATIONAL_version "jardizzo-SMAP_L4_OPS-R15";
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String L4_SM_CATBIAS_version "R001";
String VersionID "Vv3030";
String L4_SM_BATCH_JOB_version "R002";
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String fullnamepath "/Metadata/CRID/Root";
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String L4_SM_VersionID "Vv3030";
String L4_SM_SPL1CTB_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/SMAP/OPS/L1C_TB";
String L4_BROWSE_EXPORT_LOGIN "scp://dao_ops@polar.gsfc.nasa.gov";
String L4_SM_ATBDVersion "Revision-A";
String L4_SM_ENSUPD_directoryID "/discover/nobackup/projects/gmao/smap/Operations/SPL4SM/SPL4SM_Vv3030/runModel/rip";
String L4_SM_aup_identifier_product_DOI "10.5067/20ULJH6EZKFJ";
String L4_SM_CLIM_description "Pentad climatology used for percentile calculation";
String L4_SM_CATBIAS_changeLog "Initial version";
String L4_SM_BCS_RTM_version "L4SM_v001_Lit4_CalD0";
String L4_OBS2HTML_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/Vv3030/obs2html";
String L4_SM_PSDEdition "1.4";
String L4_SM_softwareDate "2017-04-18";
String L4_SM_SPL2SMAP_description "SMAP L2 Soil Moisture Active/Passive";
String L4_SM_SCALING_SPL1CTB_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/scaling/SMAP_L1C_Tb_pentad/L4SM_v006";
String L4_SM_PSDPublicationDate "2015-10-31";
String L4_SM_BCS_RTM_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/bcs/RTM_params/L4SM_v001_Lit4_CalD0";
String L4_SM_STREAM_directoryID "/discover/nobackup/projects/gmao/smap/Operations/SPL4SM/SPL4SM_Vv3030";
String L4_SM_ENSPROP_directoryID "/discover/nobackup/projects/gmao/smap/Operations/SPL4SM/SPL4SM_Vv3030/runModel/rip";
String L4_SM_BROWSE_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/Vv3030/browse";
String L4_QUADS_EXPORT_LOGIN "scp://dao_ops@polar.gsfc.nasa.gov";
String L4_SM_gph_identifier_product_DOI "10.5067/B59DT1D5UMB4";
String L4_SM_ENSPROP_version "R004";
String L4_SM_SCALING_SPL1CTB_changeLog "Initial version";
String L4_SM_CLIM_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/climatology/L4SM_v003";
String L4_SM_SPL1CTB_changeLog "Initial version";
String L4_SM_SPL2SMAP_changeLog "Initial version";
String L4_SM_ENSUPD_changeLog "L2_SM_AP SMAP input granules disabled due to unflagged NAN values in the data.";
String L4_SM_SWVersionID "reichle-LDASsa_m3-15_2_p6";
String L4_SM_BCS_RTM_changeLog "Initial version";
String L4_SM_PRECIP_description "CPCU Corrected Precipitation (First-look)";
String L4_SM_DRIVER_description "LDAS Main Driver Inputs";
String L4_SM_ATBDDate "2014-12-09";
String L4_SM_SPL2SMA_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/SMAP/OPS/L2_SM_A";
String L4_SM_STREAM_description "fp";
String L4_SM_PRECIP_changeLog "Precipitation correction changed to first-look mode.";
String L4_SM_CATBIAS_description "Catchment Bias Inputs";
String L4_SM_documentDate "2014-12-09";
String ECSVersionID "003";
String L4_SM_DRIVER_version "R005";
String L4_SM_STREAM_version "SPL4SM_Vv3030";
String L4_SM_SCALING_SPL1CTB_version "L4SM_v006";
String L4_OPERATIONAL_version "jardizzo-SMAP_L4_OPS-R15";
String ORIGINATING_SYSTEM "SMAP_GMAO";
String L4_SM_lmc_identifier_product_DOI "10.5067/4IYTBSUKM57Q";
String L4_SM_CATBIAS_version "R001";
String L4_SM_CATBIAS_directoryID "/discover/nobackup/projects/gmao/smap/Operations/SPL4SM/SPL4SM_Vv3030/runModel/rip";
String L4_BROWSE_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/Vv3030/browse";
String L4_SM_CLIM_changeLog "Initial version";
String L4_SM_BATCH_JOB_version "R002";
String L4_SM_maintenanceDate "2018-04-18";
String L4_SM_ENSUPD_version "R008";
String L4_SM_BATCH_JOB_directoryID "/discover/nobackup/projects/gmao/smap/Operations/SPL4SM/SPL4SM_Vv3030/runModel/rip";
String L4_SM_documentation "Soil Moisture Active Passive (SMAP) Level 4 Surface and Root Zone Soil Moisture (L4_SM) Algorithm Theoretical Basis Document (ATBD)";
String L4_SM_SPL1CTB_version "R14010";
String L4_SM_DRIVER_changeLog "Initial version";
String L4_QUADS_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/Vv3030/quads";
String L4_SM_LFO_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/GEOS-5/FP/f516_fp";
String L4_SM_QUADS_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/Vv3030/quads";
String L4_SM_SPL2SMA_version "R14010";
String BLACKLIST "/discover/nobackup/projects/gmao/smap/SMAP_L4/smap_blacklist.csv";
String L4_OBS2HTML_EXPORT_DIR "/san_extranet/collab/SMAP/monitoring/l4sm_ods/Vv3030";
String L4_SM_BCS_RTM_description "TBD";
String L4_SM_PRECIP_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/PRECIP/CPCUG5FPv2/f516_fp";
String L4_OPERATIONAL_changeLog "Initial version";
String L4_SM_METADATA_changeLog "Initial version";
String L4_SM_SPL2SMA_description "SMAP L2 Soil Moisture Active";
String L4_SM_LFO_DOI "TBD";
String L4_BROWSE_EXPORT_DIR "/san_extranet/collab/SMAP/browse/l4sm/Vv3030";
String L4_SM_METADATA_description "SMAP Level-4 Soil Moisture Metadata Version";
String L4_SM_LFO_description "GEOS-5 Forward Processing";
String L4_SM_SPL2SMAP_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/SMAP/OPS/L2_SM_AP";
String L4_SM_LFO_changeLog "GEOS-5 FP stream changed to f516_fp";
String L4_SM_SPL2SMAP_version "R14010";
String L4_SM_MET_TAG "cross_FP__precCPCUG5FPv2";
String L4_SM_SPL2SMA_changeLog "Initial version";
String L4_OBS2HTML_EXPORT_LOGIN "scp://dao_ops@polar.gsfc.nasa.gov";
String L4_SM_SPL1CTB_description "SMAP L1C Brightness Temperatures";
String L4_SM_ENSPROP_changeLog "Initial version";
String L4_QUADS_EXPORT_DIR "/san_extranet/collab/SMAP/monitoring/l4sm_quads/Vv3030";
String L4_SM_ECSVersionID "003";
String L4_SM_BATCH_JOB_changeLog "Initial version";
String L4_OPERATIONAL_description "SMAP Level-4 Operational System";
String L4_SM_ODS_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/Vv3030/obs";
String L4_SM_ENSUPD_description "EnKF Inputs for Land EnKF Update";
String L4_SM_METADATA_version "jardizzo-SMAP_L4_SM-meta_R003";
String L4_SM_BCS_CLSM_description "TBD";
String L4_SM_DRIVER_directoryID "/discover/nobackup/projects/gmao/smap/Operations/SPL4SM/SPL4SM_Vv3030/runModel/rip";
String L4_SM_ENSPROP_description "EnKF Inputs";
String CompositeStreamID "fp";
String L4_SM_BCS_CLSM_changeLog "Initial version";
String L4_SM_BCS_CLSM_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/bcs/CLSM_params/mkCatchParam_SMAP_L4SM_v001";
String L4_SM_BATCH_JOB_description "Batch Job";
String L4_SM_algorithmVersionID "reichle-LDASsa_m3-15_2_p6";
String L4_SM_CLIM_version "L4SM_v003";
String L4_SM_revisionDate "2017-04-18";
String L4_SM_PRECIP_version "CPCUG5FPv2";
String L4_SM_OBS2HTML_directoryID "/discover/nobackup/projects/gmao/smap/SMAP_L4/L4_SM/Vv3030/obs2html";
String L4_SM_BCS_CLSM_version "mkCatchParam_SMAP_L4SM_v001";
String L4_SM_PRECIP_DOI "TBD";
String L4_SM_LFO_version "f516_fp";
String L4_SM_documentVersion "Revision-A";
String L4_SM_CompositeReleaseID "Vv30300001";
String fullnamepath "/Metadata/Config";
}
Metadata_GridSpatialRepresentation {
}
Metadata_GridSpatialRepresentation_Latitude {
UInt32 dimensionSize 1624;
String resolution "9 km on average";
String fullnamepath "/Metadata/GridSpatialRepresentation/Latitude";
}
Metadata_GridSpatialRepresentation_Longitude {
UInt32 dimensionSize 3856;
String resolution "9 km on average";
String fullnamepath "/Metadata/GridSpatialRepresentation/Longitude";
}
Metadata_ProcessStep {
String epochUTCDate "2000-01-01T11:58:55.816Z";
String processDescription "Assimilates Level 1 and Level 2 SMAP data into a global land surface model to generate spatially complete and temporally continuous estimates of soil moisture and associated land surface conditions.";
String stepDateTime "2017-08-05T17:36:22.000Z";
String documentation "Soil Moisture Active Passive (SMAP) Level 4 Surface and Root Zone Soil Moisture (L4_SM) Algorithm Theoretical Basis Document (ATBD)";
String algorithmVersionID "reichle-LDASsa_m3-15_2_p6";
String softwareTitle "Level 4 Surface and Root Zone Soil Moisture SPS";
String identifier "L4_SM_SPS";
String ATBDVersion "Revision-A";
String softwareDate "2017-04-18";
String ATBDDate "2014-12-09";
String SWVersionID "reichle-LDASsa_m3-15_2_p6";
String algorithmDescription "The L4_SM algorithm is a customized, off-line (land-only) version of the ensemble-based NASA GEOS-5 land data assimilation system. It merges SMAP observations with estimates from a land surface model that is driven with observations-based precipitation forcing.";
String ATBDTitle "Soil Moisture Active Passive (SMAP) Level 4 Surface and Root Zone Soil Moisture (L4_SM) Algorithm Theoretical Basis Document (ATBD)";
Float32 epochJulianDate 2451545.000;
String timeVariableEpoch "J2000";
String documentDate "2014-12-09";
String processor "Soil Moisture Active Passive (SMAP) Mission Science Data System (SDS) Operations Facility";
String documentVersion "Revision-A";
String fullnamepath "/Metadata/ProcessStep";
}
Geophysical_Data_surface_pressure {
String long_name "Surface pressure";
String units "Pa";
Float32 valid_min 40000.00000;
Float32 valid_max 110000.0000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "surface_pressure";
String fullnamepath "/Geophysical_Data/surface_pressure";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_heat_flux_ground {
String long_name "Downward ground heat flux into layer 1 of soil heat diffusion model";
String units "W m-2";
Float32 valid_min -1000.000000;
Float32 valid_max 1000.000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "heat_flux_ground";
String fullnamepath "/Geophysical_Data/heat_flux_ground";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_land_fraction_wilting {
String units "dimensionless";
Float32 valid_min 0.000000000;
String long_name "Fractional land area that is wilting and snow-free (excluding areas of open water and permanent ice)";
Float32 valid_max 1.000000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "land_fraction_wilting";
String fullnamepath "/Geophysical_Data/land_fraction_wilting";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_soil_temp_layer5 {
String long_name "Soil temperature in layer 5 of soil heat diffusion model";
String units "K";
Float32 valid_min 225.0000000;
Float32 valid_max 325.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "soil_temp_layer5";
String fullnamepath "/Geophysical_Data/soil_temp_layer5";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_sm_rootzone {
String long_name "Root zone soil moisture (0-100 cm)";
String units "m3 m-3";
Float32 valid_min 0.000000000;
Float32 valid_max 0.8999999762;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "sm_rootzone";
String fullnamepath "/Geophysical_Data/sm_rootzone";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_radiation_longwave_absorbed_flux {
String long_name "Absorbed (downward) longwave radiation at the surface";
Float32 valid_min 35.00000000;
Float32 valid_max 800.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String units "W m-2";
String origname "radiation_longwave_absorbed_flux";
String fullnamepath "/Geophysical_Data/radiation_longwave_absorbed_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_specific_humidity_lowatmmodlay {
String long_name "Air specific humidity at center height of lowest atmospheric model layer";
String units "kg kg-1";
Float32 valid_min 0.000000000;
Float32 valid_max 0.4000000060;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "specific_humidity_lowatmmodlay";
String fullnamepath "/Geophysical_Data/specific_humidity_lowatmmodlay";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_surface_temp {
String units "K";
Float32 valid_min 180.0000000;
String long_name "Mean land surface temperature (incl. snow-covered land area). Excluding areas of open water and permanent ice.";
Float32 valid_max 350.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "surface_temp";
String fullnamepath "/Geophysical_Data/surface_temp";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_temp_lowatmmodlay {
String long_name "Air temperature at center height of lowest atmospheric model layer";
String units "K";
Float32 valid_min 180.0000000;
Float32 valid_max 350.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "temp_lowatmmodlay";
String fullnamepath "/Geophysical_Data/temp_lowatmmodlay";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_net_downward_longwave_flux {
String units "W m-2";
Float32 valid_min -1000.000000;
String long_name "Net downward longwave flux over land (excluding areas of open water and permanent ice)";
Float32 valid_max 200.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "net_downward_longwave_flux";
String fullnamepath "/Geophysical_Data/net_downward_longwave_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_snow_mass {
String units "kg m-2";
Float32 valid_min 0.000000000;
String long_name "Average snow mass (or snow water equivalent) over land fraction of grid cell (excluding areas of open water and permanent ice)";
Float32 valid_max 10000.00000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "snow_mass";
String fullnamepath "/Geophysical_Data/snow_mass";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_precipitation_total_surface_flux {
String long_name "Total surface precipitation (incl. snow fall)";
Float32 valid_min 0.000000000;
Float32 valid_max 0.05000000075;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String units "kg m-2 s-1";
String origname "precipitation_total_surface_flux";
String fullnamepath "/Geophysical_Data/precipitation_total_surface_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_sm_surface_wetness {
String units "dimensionless";
Float32 valid_min 0.000000000;
String long_name "Top layer soil wetness (0-5 cm; wetness units). Soil wetness units (dimensionless) vary between 0 and 1, indicating relative saturation between completely dry conditions and completely saturated conditions, respectively. See also Appendix E in the PSD.";
Float32 valid_max 1.000000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "sm_surface_wetness";
String fullnamepath "/Geophysical_Data/sm_surface_wetness";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_sm_profile_wetness {
String units "dimensionless";
Float32 valid_min 0.000000000;
String long_name "Total profile soil wetness (0 cm to model bedrock depth; wetness units). Soil wetness units (dimensionless) vary between 0 and 1, indicating relative saturation between completely dry conditions and completely saturated conditions, respectively. See also Appendix E in the PSD.";
Float32 valid_max 1.000000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "sm_profile_wetness";
String fullnamepath "/Geophysical_Data/sm_profile_wetness";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_snow_depth {
String units "m";
Float32 valid_min 0.000000000;
String long_name "Snow depth within snow-covered land fraction of grid cell (excluding areas of open water and permanent ice)";
Float32 valid_max 50.00000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "snow_depth";
String fullnamepath "/Geophysical_Data/snow_depth";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_height_lowatmmodlay {
String long_name "Center height of lowest atmospheric model layer";
String units "m";
Float32 valid_min 40.00000000;
Float32 valid_max 80.00000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "height_lowatmmodlay";
String fullnamepath "/Geophysical_Data/height_lowatmmodlay";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_baseflow_flux {
String long_name "Baseflow";
String units "kg m-2 s-1";
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
Float32 valid_min 0.000000000;
Float32 valid_max 0.009999999776;
String origname "baseflow_flux";
String fullnamepath "/Geophysical_Data/baseflow_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_sm_profile_pctl {
String long_name "Total profile soil moisture (0 cm to model bedrock depth; percentile units)";
String units "percent";
Float32 valid_min 0.000000000;
Float32 valid_max 100.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "sm_profile_pctl";
String fullnamepath "/Geophysical_Data/sm_profile_pctl";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_land_fraction_saturated {
String units "dimensionless";
Float32 valid_min 0.000000000;
String long_name "Fractional land area that is saturated and snow-free (excluding areas of open water and permanent ice)";
Float32 valid_max 1.000000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "land_fraction_saturated";
String fullnamepath "/Geophysical_Data/land_fraction_saturated";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_snowfall_surface_flux {
String long_name "Surface snow fall";
String units "kg m-2 s-1";
Float32 valid_min 0.000000000;
Float32 valid_max 0.05000000075;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "snowfall_surface_flux";
String fullnamepath "/Geophysical_Data/snowfall_surface_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_land_fraction_unsaturated {
String units "dimensionless";
Float32 valid_min 0.000000000;
String long_name "Fractional land area that is unsaturated (but non-wilting) and snow-free (excluding areas of open water and permanent ice)";
Float32 valid_max 1.000000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "land_fraction_unsaturated";
String fullnamepath "/Geophysical_Data/land_fraction_unsaturated";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_sm_rootzone_wetness {
String units "dimensionless";
Float32 valid_min 0.000000000;
String long_name "Root zone soil wetness (0-100 cm; wetness units). Soil wetness units (dimensionless) vary between 0 and 1, indicating relative saturation between completely dry conditions and completely saturated conditions, respectively. See also Appendix E in the PSD.";
Float32 valid_max 1.000000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "sm_rootzone_wetness";
String fullnamepath "/Geophysical_Data/sm_rootzone_wetness";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_leaf_area_index {
String long_name "Vegetation leaf area index";
String units "m2 m-2";
Float32 valid_min 0.000000000;
Float32 valid_max 10.00000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "leaf_area_index";
String fullnamepath "/Geophysical_Data/leaf_area_index";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_radiation_shortwave_downward_flux {
String long_name "Downward shortwave flux incident on the surface";
Float32 valid_min 0.000000000;
Float32 valid_max 1500.000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String units "W m-2";
String origname "radiation_shortwave_downward_flux";
String fullnamepath "/Geophysical_Data/radiation_shortwave_downward_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_sm_surface {
String long_name "Top layer soil moisture (0-5 cm)";
String units "m3 m-3";
Float32 valid_min 0.000000000;
Float32 valid_max 0.8999999762;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "sm_surface";
String fullnamepath "/Geophysical_Data/sm_surface";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_soil_temp_layer1 {
String long_name "Soil temperature in layer 1 of soil heat diffusion model";
String units "K";
Float32 valid_min 210.0000000;
Float32 valid_max 340.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "soil_temp_layer1";
String fullnamepath "/Geophysical_Data/soil_temp_layer1";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_heat_flux_sensible {
String long_name "Sensible heat flux from land (excluding areas of open water and permanent ice)";
String units "W m-2";
Float32 valid_min -2500.000000;
Float32 valid_max 3000.000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "heat_flux_sensible";
String fullnamepath "/Geophysical_Data/heat_flux_sensible";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_soil_temp_layer4 {
String long_name "Soil temperature in layer 4 of soil heat diffusion model";
String units "K";
Float32 valid_min 220.0000000;
Float32 valid_max 325.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "soil_temp_layer4";
String fullnamepath "/Geophysical_Data/soil_temp_layer4";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_soil_temp_layer6 {
String long_name "Soil temperature in layer 6 of soil heat diffusion model";
String units "K";
Float32 valid_min 230.0000000;
Float32 valid_max 320.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "soil_temp_layer6";
String fullnamepath "/Geophysical_Data/soil_temp_layer6";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_land_fraction_snow_covered {
String units "dimensionless";
String long_name "Fractional land area that is snow-covered (excluding areas of open water and permanent ice)";
Float32 valid_min 0.000000000;
Float32 valid_max 1.000000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "land_fraction_snow_covered";
String fullnamepath "/Geophysical_Data/land_fraction_snow_covered";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_land_evapotranspiration_flux {
String long_name "Evapotranspiration from land (excluding areas of open water and permanent ice)";
String units "kg m-2 s-1";
Float32 valid_min -0.001000000047;
Float32 valid_max 0.001000000047;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "land_evapotranspiration_flux";
String fullnamepath "/Geophysical_Data/land_evapotranspiration_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_vegetation_greenness_fraction {
String units "dimensionless";
Float32 valid_min 0.000000000;
String long_name "Vegetation \"greenness\" or fraction of transpiring leaves averaged over the land area (excluding areas of open water and permanent ice) of the grid cell";
Float32 valid_max 1.000000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "vegetation_greenness_fraction";
String fullnamepath "/Geophysical_Data/vegetation_greenness_fraction";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_sm_profile {
String long_name "Total profile soil moisture (0 cm to model bedrock depth)";
Float32 valid_min 0.000000000;
Float32 valid_max 0.8999999762;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String units "m3 m-3";
String origname "sm_profile";
String fullnamepath "/Geophysical_Data/sm_profile";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_soil_temp_layer3 {
String long_name "Soil temperature in layer 3 of soil heat diffusion model";
String units "K";
Float32 valid_min 215.0000000;
Float32 valid_max 325.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "soil_temp_layer3";
String fullnamepath "/Geophysical_Data/soil_temp_layer3";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_overland_runoff_flux {
String units "kg m-2 s-1";
Float32 valid_min 0.000000000;
String long_name "Overland (surface) runoff (including throughflow - excluding areas of open water and permanent ice)";
Float32 valid_max 0.05000000075;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "overland_runoff_flux";
String fullnamepath "/Geophysical_Data/overland_runoff_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_snow_melt_flux {
String long_name "Snowmelt (excluding areas of open water and permanent ice)";
Float32 valid_min 0.000000000;
Float32 valid_max 0.05000000075;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String units "kg m-2 s-1";
String origname "snow_melt_flux";
String fullnamepath "/Geophysical_Data/snow_melt_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_heat_flux_latent {
String long_name "Latent heat flux from land (excluding areas of open water and permanent ice)";
String units "W m-2";
Float32 valid_min -2500.000000;
Float32 valid_max 3000.000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "heat_flux_latent";
String fullnamepath "/Geophysical_Data/heat_flux_latent";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_soil_water_infiltration_flux {
String long_name "Soil water infiltration rate";
String units "kg m-2 s-1";
Float32 valid_max 0.05000000075;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
Float32 valid_min 0.000000000;
String origname "soil_water_infiltration_flux";
String fullnamepath "/Geophysical_Data/soil_water_infiltration_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_windspeed_lowatmmodlay {
String long_name "Surface wind speed at center height of lowest atmospheric model layer";
String units "m s-1";
Float32 valid_min -60.00000000;
Float32 valid_max 60.00000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "windspeed_lowatmmodlay";
String fullnamepath "/Geophysical_Data/windspeed_lowatmmodlay";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_sm_rootzone_pctl {
String long_name "Root zone soil moisture (0-100 cm; percentile units)";
String units "percent";
Float32 valid_min 0.000000000;
Float32 valid_max 100.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "sm_rootzone_pctl";
String fullnamepath "/Geophysical_Data/sm_rootzone_pctl";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_net_downward_shortwave_flux {
String units "W m-2";
Float32 valid_min 0.000000000;
String long_name "Net downward shortwave flux over land (excluding areas of open water and permanent ice)";
Float32 valid_max 1365.000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "net_downward_shortwave_flux";
String fullnamepath "/Geophysical_Data/net_downward_shortwave_flux";
String coordinates "cell_lat cell_lon";
}
Geophysical_Data_soil_temp_layer2 {
String long_name "Soil temperature in layer 2 of soil heat diffusion model";
String units "K";
Float32 valid_min 210.0000000;
Float32 valid_max 330.0000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "soil_temp_layer2";
String fullnamepath "/Geophysical_Data/soil_temp_layer2";
String coordinates "cell_lat cell_lon";
}
time {
String long_name "Time";
String units "seconds since 2000-01-01 11:58:55.816";
String delta_t "0000-00-00 03:00:00";
Float64 actual_range 555060600.00000000, 555060600.00000000;
String origname "time";
String fullnamepath "/time";
}
cell_row {
String units "dimensionless";
UInt32 valid_min 0;
String long_name "The row index of each cell in the cylindrical 9 km Earth-fixed EASE-Grid 2.0. Type is Unsigned32.";
UInt32 valid_max 1623;
UInt32 _FillValue 4294967294;
UInt32 missing_value 4294967294;
UInt32 fmissing_value 4294967294;
String origname "cell_row";
String fullnamepath "/cell_row";
String coordinates "cell_lat cell_lon";
}
cell_column {
String units "dimensionless";
UInt32 valid_min 0;
String long_name "The column index of each cell in the cylindrical 9 km Earth-fixed EASE-Grid 2.0. Type is Unsigned32.";
UInt32 valid_max 3855;
UInt32 _FillValue 4294967294;
UInt32 missing_value 4294967294;
UInt32 fmissing_value 4294967294;
String origname "cell_column";
String fullnamepath "/cell_column";
String coordinates "cell_lat cell_lon";
}
cell_lat {
String units "degrees";
Float32 valid_min -90.00000000;
String long_name "The geodetic latitude of the center of each cell in the cylindrical 9 km Earth-fixed EASE-Grid 2.0. Zero latitude represents the Equator. Positive latitudes represent locations North of the Equator. Negative latitudes represent locations South of the Equator.";
Float32 valid_max 90.00000000;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "cell_lat";
String fullnamepath "/cell_lat";
}
cell_lon {
String units "degrees";
Float32 valid_min -180.0000000;
String long_name "The longitude of the center of each cell in the cylindrical 9 km Earth-fixed EASE-Grid 2.0. Zero longitude represents the Prime Meridian. Positive longitudes represent locations to the East of the Prime Meridian. Negative longitudes represent locations to the West of the Prime Meridian.";
Float32 valid_max 179.9989929;
Float32 _FillValue -9999.000000;
Float32 missing_value -9999.000000;
Float32 fmissing_value -9999.000000;
String origname "cell_lon";
String fullnamepath "/cell_lon";
}
FakeDim2 {
String units "level";
}
}