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Openet: Applications of Satellite-Based Evapotranspiration Data for Water Resources Management in the Western United StatesAdvancing water security in overallocated river basins globally requires consistent and reproducible information on consumptive use of water that can anchor the development of data-driven solutions to the challenge of balancing water supply and demand. OpenET is a fully automated system for field-scale (30 m), satellite-based mapping of evapotranspiration (ET) at daily, monthly and annual timesteps. OpenET currently provides spatially contiguous data throughout the 23 westernmost states in the continental US, and includes both current information as well as multi-year timeseries of ET. The OpenET consortium has implemented an ensemble of satellite-based ET models (ALEXI/DisALEXI, eeMETRIC, PT-JPL, geeSEBAL, SIMS and SSEBop) on Google Earth Engine, which provides a shared computing platform for collaboration on processing of data from Landsat and other satellites, land cover and meteorological inputs, leading to increased consistency and accuracy across the ensemble of models. Earth Engine also facilitates hosting and distribution of data via open data collections and an application programming interface.

We provide updates on the OpenET framework, open data services and data access tools, approach to geographic expansion, recent accuracy assessments, and describe how a user-driven design approach has facilitated successful applications of OpenET data for a wide range of water resource management activities. Applications to date include: use of ET data to improve quantification of ET and consumptive use in Oregon, Utah and the Upper Colorado River Basin; streamlining of water use reporting requirements in the California Delta; support for calculation of water budgets for the implementation of the Sustainable Groundwater Management Act in California; and integration into decision support tools for irrigation management. The use cases demonstrate how satellite-derived ET data that are easily accessed and seen as broadly accepted can accelerate adoption of innovative water management practices at scale, and support advances in the sustainability of water supplies. Uptake and use of data by the OpenET science community has also led to advances in our understanding of the impacts of landcover change, irrigation intensification and wildfire events on hydrology and the water security.
Document ID
20240011985
Acquisition Source
Ames Research Center
Document Type
Abstract
Authors
Forrest Melton
(Ames Research Center Mountain View, United States)
Adam (AJ) Purdy
(California State University, Monterey Bay Seaside, California, United States)
MacKenzie Friedrichs ORCID
(Earth Resources Observation and Science Center Sioux Falls, United States)
Charles Morton
(Desert Research Institute Reno, United States)
Lee Johnson
(California State University, Monterey Bay Seaside, California, United States)
Will Carrara
(California State University, Monterey Bay Seaside, California, United States)
Richard Allen
(University of Idaho Moscow, United States)
Martha Anderson ORCID
(United States Department of Agriculture Washington, United States)
Matt Bromley
(Desert Research Institute Reno, United States)
Britta Daudert
(Desert Research Institute Reno, United States)
Conor Doherty
(Ames Research Center Mountain View, United States)
Joshua B Fisher
(Hydrosat Inc)
Alberto Guzman
(California State University, Monterey Bay Seaside, California, United States)
Christopher Hain
(Marshall Space Flight Center Redstone Arsenal, United States)
Maurice Hall
(Environmental Defense Fund New York, United States)
Jordan Harding
(Habitat Seven Inc)
Justin Huntington
(Desert Research Institute Reno, United States)
Ayse Kilic
(University of Nebraska–Lincoln Lincoln, United States)
Blake Minor
(Desert Research Institute Reno, United States)
Rachel O'Connor
(Environmental Defense Fund New York, United States)
Gabriel Parish
(Earth Resources Observation and Science Center Sioux Falls, United States)
Peter ReVelle
(Desert Research Institute Reno, United States)
Samuel Ortega-Salazar
(University of Nebraska System Lincoln, United States)
Anderson Ruhoff
(Universidade Federal do Rio Grande do Sul Porto Alegre, Brazil)
Gabriel Senay
(Earth Resources Observation and Science Center Sioux Falls, United States)
John Volk
(Desert Research Institute Reno, United States)
Yun Yang
(Mississippi State University Starkville, United States)
Date Acquired
September 18, 2024
Subject Category
Earth Resources and Remote Sensing
Meeting Information
Meeting: Water Science Conference (WaterSciCon)
Location: St. Paul, MN
Country: US
Start Date: June 24, 2024
End Date: June 27, 2024
Sponsors: American Geophysical Union
Funding Number(s)
CONTRACT_GRANT: NNX12AD05A
Distribution Limits
Public
Copyright
Use by or on behalf of the US Gov. Permitted.
Keywords
Applications
Satellite-based
Evapotranspiration
Data
Water
Resources
Management
Western
United States
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