Literature & Research
Estimating irrigation consumptive use for the conterminous United States: coupling satellite-sourced estimates of actual evapotranspiration with a national hydrologic model
Pairing OpenET remotely sensed evapotranspiration with streamflow data to assess the effectiveness of irrigation curtailment for aquatic conservation
Evaluation and comparison of OpenET models for estimating soil water depletion of irrigated alfalfa in Arizona
Leading Satellite-Based Evapotranspiration Products Insufficiently Capture Interannual Variability: Evidence From GRACE/FO and In Situ Observations
Intercomparison of the U.S. National Water Model with OpenET over the Bear River Basin, U.S.
Performance Mapping and Weighting for the Evapotranspiration Models of the OpenET Ensemble
OpenET: Supporting Sustainable Water Management with Earth Observations and Open Science
Comparing evapotranspiration estimations using crop model-data fusion and satellite data-based models with lysimetric observations: Implications for irrigation scheduling
Evaluating the Performance of OpenET Models for Alfalfa in Arizona
Simplified agricultural water use accounting in the Colorado River Basin using OpenET
Intercomparison of citrus evapotranspiration among eddy covariance, OpenET ensemble models, and the Water and Energy Balance Model (BAITSSS)
Estimating irrigation water use from remotely sensed evapotranspiration data: Accuracy and uncertainties at field, water right, and regional scales
Toward field-scale groundwater pumping and improved groundwater management using remote sensing and climate data
A comparative analysis of OpenET for evaluating evapotranspiration in California almond orchards
Decreased Latency in Landsat Derived Evapotranspiration Products Using Machine Learning on Google Earth Engine
Comparing field-scale eddy covariance measurements and crop coefficient estimates of alfalfa evapotranspiration to OpenET model estimates and exploring water budget implications in a dryland environment
Assessing Satellite-Derived OpenET Platform Evapotranspiration of Mature Pecan Orchard in the Mesilla Valley, New Mexico
Towards sharing water better with near real-time maps on evaporative water use by crops and natural vegetation
Assessing the accuracy of OpenET satellite-based evapotranspiration data to support water resource and land management applications
Accuracy of Estimated Crop Evapotranspiration Using Locally Developed Crop Coefficients against Satellite-Derived Crop Evapotranspiration in a Semiarid Climate
Development of a Benchmark Eddy Flux Evapotranspiration Dataset for Evaluation of Satellite-Driven Evapotranspiration Models Over the CONUS
OpenET: Filling a Critical Data Gap in Water Management for the Western United States
Learn More About OpenET Science
Data Methods
Information about the models, input datasets, and compute resources used by OpenET.
Accuracy & Known Issues
Field-scale accuracy assessments and known issues that impact OpenET data.
How to Use ET Data
OpenET makes it easier than ever to access satellite-based ET data.
Filling the Biggest Data Gap
in Water Management
As we expand globally, our mission remains the same: deliver open, reliable, and actionable water dataβdeveloped with users, for users.