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Description

The total land water storage anomalies are aggregated from the Global Land Data Assimilation System (GLDAS) NOAH model. GLDAS outputs land water content by using numerous land surface models and data assimilation. For more information on the GLDAS project and model outputs please visit https://ldas.gsfc.nasa.gov/gldas. The aggregated land water anomalies (sum of soil moisture, snow, canopy water) provided here can be used for comparison against and evaluations of the observations of Gravity Recovery and Climate Experiment (GRACE) and GRACE-FO over land. The monthly anomalies are computed over the same days during each month as GRACE and GRACE-FO data, and are provided on monthly 1 degree lat/lon grids in NetCDF format. Currently, the days included in these monthly anomaly computation are same as GRACE-FO monthly Level-2 RL06.3 JPL solutions.

Product Summary

Platforms
Noah-LSM
Spatial Extent

N: 89.5 S: -89.5 E: 180 W: -180

Spatial Resolution
1 Decimal Degrees x 1 Decimal Degrees
Location
GLOBAL
Coordinate System
CARTESIAN
Granule Spatial Representation
CARTESIAN
Temporal Extent
2002-04-04
Data Partner
Physical Oceanography Distributed Active Archive Center, Jet Propulsion Laboratory, NASA (NASA/JPL/PODAAC) ,
GRACE Tellus, Jet Propulsion Laboratory, NASA (NASA/JPL/GRACE-TELLUS-0001)
Concept ID
C2036877565-POCLOUD
Data State
ACTIVE
Number of Files/Granules
253
Processing Level
3
Published
Updated
Science Keywords
Terrestrial Water Storage

Citation

Citation is critically important for dataset documentation and discovery. This dataset is openly shared, without restriction, in accordance with the EOSDIS Data Use and Citation Guidance.

Copy Citation

NASA/JPL. (2020). Monthly gridded Global Land Data Assimilation System (GLDAS) from Noah-v3.3 land hydrology model for GRACE and GRACE-FO over nominal months [Data set]. NASA Physical Oceanography Distributed Active Archive Center. https://doi.org/10.5067/GGDAS-3NH33 Date Accessed: 2026-05-14

Documents

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Publications Citing This Dataset

Filters
Title Year Author Topic
Assessment of temporal variations of geoid, ellipsoidal and orthometric heights at proposed IHRF sites using space geodetic data Godah, Walyeldeen, Yadeta, Samuel Milki, Szelachowska, Malgorzata, Fotopoulos, Georgia Terrestrial Water Storage
Hydrological change from space geodetic data and correlation with Godah, Walyeldeen, Yadeta, Samuel Milki, Braun, Alexander Terrestrial Water Storage
Mapping Large-Scale Deep Soil Moisture Variations Using Ambient Seismic Lu, Yang, Wang, QingYu, Stehly, Laurent, Bodet, Ludovic, Campillo, Michel, Bokelmann, Gotz Terrestrial Water Storage
Spatiotemporal GRACE TWS downscaling using statistical and machine learning methods: Random Forest, area-to-area kriging, and hybrid methods Mikaeeli Ahamadabad, Fatemeh, Dastjerdi, Pouria Asgari, Nasseri, Mohsen Terrestrial Water Storage
Watching the grand Ethiopian renaissance dam from a distance: Implications for sustainable water management of the Nile water Abdelmohsen, Karem, Sultan, Mohamed, Yan, Eugene, Abotalib, Abotalib Z, Save, Himanshu, Emil, Mustafa, Elhaddad, Hesham, Abdelmalik, Karim Terrestrial Water Storage
Unstructured-grid approach to develop high-fidelity groundwater model to understand groundwater flow and storage responses to excessive groundwater ... Chen, Ye-Hong, Vahdat-Aboueshagh, Hamid, Tsai, Frank T.-C., Dausman, Alyssa, Runge, Michael C. Terrestrial Water Storage
Attributing terrestrial water storage variations across China to changes in groundwater and human water use Lv, Meixia, Ma, Zhuguo, Yuan, Naiming Terrestrial Water Storage
Inspecting the FoodWater Nexus in the Ogallala Aquifer Region Using Satellite Remote Sensing Time Series Zhou, Yuting, Gholizadeh, Hamed, LaVanchy, G. Thomas, Hasan, Emad Photosynthesis, Primary Production, Vegetation Productivity, Terrestrial Water Storage
What can the GRACE seasonal cycle tell us about lake-aquifer interactions? Abdelmohsen, Karem, Sultan, Mohamed, Save, Himanshu, Abotalib, Abotalib Z., Yan, Eugene Terrestrial Water Storage, Total Surface Precipitation Rate
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Variables

The table below lists the variables contained within a single granule for this dataset. Variables often contain observed or derived geophysical measurements collected from a variety of sources, including remote sensing instruments on satellite and airborne platforms, field campaigns, in situ measurements, and model outputs. The terms variable, parameter, scientific data set, layer, and band have been used across NASA’s Earth science disciplines; however, variable is the designated nomenclature in NASA’s Common Metadata Repository (CMR). Variable metadata attributes such as Name, Description, Units, Data Type, Fill Value, Valid Range, and Scale Factor allow users to efficiently process and analyze the data. The full range of attributes may not be applicable to all variables. Additional information on variable attributes is typically available in the data, user guide, and/or other product documentation.

For questions on a specific variable, please use the Earthdata Forum.

Name Description Units Data Type Fill Value Valid Range Scale Factor Offset
lat latitude value at each pixel degrees_north double N/A -59.5 to 89.5 1 N/A
lon longitude value at each pixel degrees_east double N/A -179.5 to 179.5 1 N/A
time Time days since 2002-01-01 00:00:00 UTC double N/A N/A 1 N/A
TWS_monthly Terrestrial Water Storage mm double -9999 -9000 to 9000 1 N/A
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