Reprocessed GLDAS-2: Global Land Data Assimilation System (NASA/GLDAS/V20/NOAH/G025/T3H)

Version V20

Global Land Data Assimilation System (GLDAS) ingests satellite and
ground-based observational data products. Using advanced land surface
modeling and data assimilation techniques, it generates optimal
fields of land surface states and fluxes.

GLDAS-2.0 is one of two components of the GLDAS Version 2 (GLDAS-2)
dataset, the second being GLDAS-2.1. GLDAS-2.0 is reprocessed with
the updated Princeton Global Meteorological Forcing Dataset
(Sheffield et al., 2006) and upgraded Land Information System
Version 7 (LIS-7). It covers the period 1948-2010, and will be extended
to more recent years as corresponding forcing data become available.

The model simulation was initialized on January 1, 1948, using soil
moisture and other state fields from the LSM climatology for
that day of the year. The simulation used the common GLDAS datasets
for land cover (MCD12Q1: Friedl et al., 2010), land water mask
(MOD44W: Carroll et al., 2009), soil texture (Reynolds, 1999), and
elevation (GTOPO30). The MODIS based land surface parameters are used in
the current GLDAS-2.x products while the AVHRR base parameters were used
in GLDAS-1 and previous GLDAS-2 products (prior to October 2012).

NameDescriptionGee:unit
Albedo_instAlbedo%
AvgSurfT_instAverage surface skin temperatureK
CanopInt_instPlant canopy surface waterkg/m^2
ECanop_tavgCanopy water evaporationW/m^2
ESoil_tavgDirect evaporation from bare soilW/m^2
Evap_tavgEvapotranspirationkg/m^2/s
LWdown_f_tavgDownward long-wave radiation fluxW/m^2
Lwnet_tavgNet long-wave radiation fluxW/m^2
PotEvap_tavgPotential evaporation rateW/m^2
Psurf_f_instPressurePa
Qair_f_instSpecific humiditykg/kg
Qg_tavgHeat fluxW/m^2
Qh_tavgSensible heat net fluxW/m^2
Qle_tavgLatent heat net fluxW/m^2
Qs_accStorm surface runoffkg/m^2
Qsb_accBaseflow-groundwater runoffkg/m^2
Qsm_accSnow meltkg/m^2
Rainf_f_tavgTotal precipitation ratekg/m^2/s
Rainf_tavgRain precipitation ratekg/m^2/s
RootMoist_instRoot zone soil moisturekg/m^2
SWE_instSnow depth water equivalentkg/m^2
SWdown_f_tavgDownward short-wave radiation fluxW/m^2
SnowDepth_instSnow depthm
Snowf_tavgSnow precipitation ratekg/m^2/s
SoilMoi0_10cm_instSoil moisturekg/m^2
SoilMoi10_40cm_instSoil moisturekg/m^2
SoilMoi40_100cm_instSoil moisturekg/m^2
SoilMoi100_200cm_instSoil moisturekg/m^2
SoilTMP0_10cm_instSoil temperatureK
SoilTMP10_40cm_instSoil temperatureK
SoilTMP40_100cm_instSoil temperatureK
SoilTMP100_200cm_instSoil temperatureK
Swnet_tavgNet short wave radiation fluxW/m^2
Tair_f_instAir temperatureK
Tveg_tavgTranspirationW/m^2
Wind_f_instWind speedm/s

Providers

NASA (producer, licensor)
Google Earth Engine (host)
STAC Version 0.6.2
Keywords 3-hourly, climate, evaporation, forcing, geophysical, gldas, humidity, ldas, moisture, nasa, precipitation, pressure, radiation, soil, surface, temperature, wind
License proprietary
Temporal Extent 12/31/1947, 4:00:00 PM - 12/30/2010, 4:00:00 PM
Citation Rodell, M., P.R. Houser, U. Jambor, J. Gottschalck, K. Mitchell, C.-J. Meng, K. Arsenault, B. Cosgrove, J. Radakovich, M. Bosilovich, J.K. Entin, J.P. Walker, D. Lohmann, and D. Toll, The Global Land Data Assimilation System, Bull. Amer. Meteor. Soc., 85(3), 381-394, 2004.
Type image_collection
GSD arc degreesm
Cadence hours
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