OpenET: Filling a Critical Data Gap in Water Management for the Western United States

Forrest S. Melton; Justin Huntington; Robyn Grimm; Jamie Herring; Maurice Hall; Dana Rollison; Tyler Erickson; Richard Allen; Martha Anderson; Joshua B. Fisher; Ayse Kilic; Gabriel B. Senay; John Volk; Christopher Hain; Lee Johnson; Anderson Ruhoff; Philip Blankenau; Matt Bromley; Will Carrara; Britta Daudert; Conor Doherty; Christian Dunkerly; MacKenzie Friedrichs; Alberto Guzman; Gregory Halverson; Jody Hansen; Jordan Harding; Yanghui Kang; David Ketchum; Blake Minor; Charles Morton; Samuel Ortega-Salazar; Thomas Ott; Mutlu Ozdogan; Peter M. ReVelle; Mitch Schull; Carlos Wang; Yun Yang; Ray G. Anderson

doi:10.1111/1752-1688.12956

OpenET: Filling a Critical Data Gap in Water Management for the Western United States

Forrest S. Melton, Justin Huntington, Robyn Grimm, Jamie Herring, Maurice Hall, Dana Rollison, Tyler Erickson, Richard Allen, Martha Anderson, Joshua B. Fisher, Ayse Kilic, Gabriel B. Senay, John Volk, Christopher Hain, Lee Johnson, Anderson Ruhoff, Philip Blankenau, Matt Bromley, Will Carrara, Britta DaudertConor Doherty, Christian Dunkerly, MacKenzie Friedrichs, Alberto Guzman, Gregory Halverson, Jody Hansen, Jordan Harding, Yanghui Kang, David Ketchum, Blake Minor, Charles Morton, Samuel Ortega-Salazar, Thomas Ott, Mutlu Ozdogan, Peter M. ReVelle, Mitch Schull, Carlos Wang, Yun Yang, Ray G. Anderson

Daugherty Water for Food Global Institute

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

The lack of consistent, accurate information on evapotranspiration (ET) and consumptive use of water by irrigated agriculture is one of the most important data gaps for water managers in the western United States (U.S.) and other arid agricultural regions globally. The ability to easily access information on ET is central to improving water budgets across the West, advancing the use of data-driven irrigation management strategies, and expanding incentive-driven conservation programs. Recent advances in remote sensing of ET have led to the development of multiple approaches for field-scale ET mapping that have been used for local and regional water resource management applications by U.S. state and federal agencies. The OpenET project is a community-driven effort that is building upon these advances to develop an operational system for generating and distributing ET data at a field scale using an ensemble of six well-established satellite-based approaches for mapping ET. Key objectives of OpenET include: Increasing access to remotely sensed ET data through a web-based data explorer and data services; supporting the use of ET data for a range of water resource management applications; and development of use cases and training resources for agricultural producers and water resource managers. Here we describe the OpenET framework, including the models used in the ensemble, the satellite, meteorological, and ancillary data inputs to the system, and the OpenET data visualization and access tools. We also summarize an extensive intercomparison and accuracy assessment conducted using ground measurements of ET from 139 flux tower sites instrumented with open path eddy covariance systems. Results calculated for 24 cropland sites from Phase I of the intercomparison and accuracy assessment demonstrate strong agreement between the satellite-driven ET models and the flux tower ET data. For the six models that have been evaluated to date (ALEXI/DisALEXI, eeMETRIC, geeSEBAL, PT-JPL, SIMS, and SSEBop) and the ensemble mean, the weighted average mean absolute error (MAE) values across all sites range from 13.6 to 21.6 mm/month at a monthly timestep, and 0.74 to 1.07 mm/day at a daily timestep. At seasonal time scales, for all but one of the models the weighted mean total ET is within ±8% of both the ensemble mean and the weighted mean total ET calculated from the flux tower data. Overall, the ensemble mean performs as well as any individual model across nearly all accuracy statistics for croplands, though some individual models may perform better for specific sites and regions. We conclude with three brief use cases to illustrate current applications and benefits of increased access to ET data, and discuss key lessons learned from the development of OpenET.

Original language	English (US)
Journal	Journal of the American Water Resources Association
DOIs	https://doi.org/10.1111/1752-1688.12956
State	Accepted/In press - 2021

Keywords

Landsat
agriculture
consumptive use
evapotranspiration
field scale
open data systems
remote sensing
satellite
water sustainability

ASJC Scopus subject areas

Ecology
Water Science and Technology
Earth-Surface Processes

Access to Document

10.1111/1752-1688.12956

Cite this

Melton, F. S., Huntington, J., Grimm, R., Herring, J., Hall, M., Rollison, D., Erickson, T., Allen, R., Anderson, M., Fisher, J. B., Kilic, A., Senay, G. B., Volk, J., Hain, C., Johnson, L., Ruhoff, A., Blankenau, P., Bromley, M., Carrara, W., ... Anderson, R. G. (Accepted/In press). OpenET: Filling a Critical Data Gap in Water Management for the Western United States. Journal of the American Water Resources Association. https://doi.org/10.1111/1752-1688.12956

OpenET : Filling a Critical Data Gap in Water Management for the Western United States. / Melton, Forrest S.; Huntington, Justin; Grimm, Robyn; Herring, Jamie; Hall, Maurice; Rollison, Dana; Erickson, Tyler; Allen, Richard; Anderson, Martha; Fisher, Joshua B.; Kilic, Ayse; Senay, Gabriel B.; Volk, John; Hain, Christopher; Johnson, Lee; Ruhoff, Anderson; Blankenau, Philip; Bromley, Matt; Carrara, Will; Daudert, Britta; Doherty, Conor; Dunkerly, Christian; Friedrichs, MacKenzie; Guzman, Alberto; Halverson, Gregory; Hansen, Jody; Harding, Jordan; Kang, Yanghui; Ketchum, David; Minor, Blake; Morton, Charles; Ortega-Salazar, Samuel; Ott, Thomas; Ozdogan, Mutlu; ReVelle, Peter M.; Schull, Mitch; Wang, Carlos; Yang, Yun; Anderson, Ray G.

In: Journal of the American Water Resources Association, 2021.

Research output: Contribution to journal › Article › peer-review

Melton, FS, Huntington, J, Grimm, R, Herring, J, Hall, M, Rollison, D, Erickson, T, Allen, R, Anderson, M, Fisher, JB, Kilic, A, Senay, GB, Volk, J, Hain, C, Johnson, L, Ruhoff, A, Blankenau, P, Bromley, M, Carrara, W, Daudert, B, Doherty, C, Dunkerly, C, Friedrichs, M, Guzman, A, Halverson, G, Hansen, J, Harding, J, Kang, Y, Ketchum, D, Minor, B, Morton, C, Ortega-Salazar, S, Ott, T, Ozdogan, M, ReVelle, PM, Schull, M, Wang, C, Yang, Y & Anderson, RG 2021, 'OpenET: Filling a Critical Data Gap in Water Management for the Western United States', Journal of the American Water Resources Association. https://doi.org/10.1111/1752-1688.12956

Melton, Forrest S. ; Huntington, Justin ; Grimm, Robyn ; Herring, Jamie ; Hall, Maurice ; Rollison, Dana ; Erickson, Tyler ; Allen, Richard ; Anderson, Martha ; Fisher, Joshua B. ; Kilic, Ayse ; Senay, Gabriel B. ; Volk, John ; Hain, Christopher ; Johnson, Lee ; Ruhoff, Anderson ; Blankenau, Philip ; Bromley, Matt ; Carrara, Will ; Daudert, Britta ; Doherty, Conor ; Dunkerly, Christian ; Friedrichs, MacKenzie ; Guzman, Alberto ; Halverson, Gregory ; Hansen, Jody ; Harding, Jordan ; Kang, Yanghui ; Ketchum, David ; Minor, Blake ; Morton, Charles ; Ortega-Salazar, Samuel ; Ott, Thomas ; Ozdogan, Mutlu ; ReVelle, Peter M. ; Schull, Mitch ; Wang, Carlos ; Yang, Yun ; Anderson, Ray G. / OpenET : Filling a Critical Data Gap in Water Management for the Western United States. In: Journal of the American Water Resources Association. 2021.

@article{2373242123a84ecaae4221c0f6ee7f26,

title = "OpenET: Filling a Critical Data Gap in Water Management for the Western United States",

abstract = "The lack of consistent, accurate information on evapotranspiration (ET) and consumptive use of water by irrigated agriculture is one of the most important data gaps for water managers in the western United States (U.S.) and other arid agricultural regions globally. The ability to easily access information on ET is central to improving water budgets across the West, advancing the use of data-driven irrigation management strategies, and expanding incentive-driven conservation programs. Recent advances in remote sensing of ET have led to the development of multiple approaches for field-scale ET mapping that have been used for local and regional water resource management applications by U.S. state and federal agencies. The OpenET project is a community-driven effort that is building upon these advances to develop an operational system for generating and distributing ET data at a field scale using an ensemble of six well-established satellite-based approaches for mapping ET. Key objectives of OpenET include: Increasing access to remotely sensed ET data through a web-based data explorer and data services; supporting the use of ET data for a range of water resource management applications; and development of use cases and training resources for agricultural producers and water resource managers. Here we describe the OpenET framework, including the models used in the ensemble, the satellite, meteorological, and ancillary data inputs to the system, and the OpenET data visualization and access tools. We also summarize an extensive intercomparison and accuracy assessment conducted using ground measurements of ET from 139 flux tower sites instrumented with open path eddy covariance systems. Results calculated for 24 cropland sites from Phase I of the intercomparison and accuracy assessment demonstrate strong agreement between the satellite-driven ET models and the flux tower ET data. For the six models that have been evaluated to date (ALEXI/DisALEXI, eeMETRIC, geeSEBAL, PT-JPL, SIMS, and SSEBop) and the ensemble mean, the weighted average mean absolute error (MAE) values across all sites range from 13.6 to 21.6 mm/month at a monthly timestep, and 0.74 to 1.07 mm/day at a daily timestep. At seasonal time scales, for all but one of the models the weighted mean total ET is within ±8% of both the ensemble mean and the weighted mean total ET calculated from the flux tower data. Overall, the ensemble mean performs as well as any individual model across nearly all accuracy statistics for croplands, though some individual models may perform better for specific sites and regions. We conclude with three brief use cases to illustrate current applications and benefits of increased access to ET data, and discuss key lessons learned from the development of OpenET.",

keywords = "Landsat, agriculture, consumptive use, evapotranspiration, field scale, open data systems, remote sensing, satellite, water sustainability",

author = "Melton, {Forrest S.} and Justin Huntington and Robyn Grimm and Jamie Herring and Maurice Hall and Dana Rollison and Tyler Erickson and Richard Allen and Martha Anderson and Fisher, {Joshua B.} and Ayse Kilic and Senay, {Gabriel B.} and John Volk and Christopher Hain and Lee Johnson and Anderson Ruhoff and Philip Blankenau and Matt Bromley and Will Carrara and Britta Daudert and Conor Doherty and Christian Dunkerly and MacKenzie Friedrichs and Alberto Guzman and Gregory Halverson and Jody Hansen and Jordan Harding and Yanghui Kang and David Ketchum and Blake Minor and Charles Morton and Samuel Ortega-Salazar and Thomas Ott and Mutlu Ozdogan and ReVelle, {Peter M.} and Mitch Schull and Carlos Wang and Yun Yang and Anderson, {Ray G.}",

note = "Funding Information: We thank three anonymous reviewers for comments and suggestions that improved this manuscript. Development of OpenET is supported by the S.D. Bechtel, Jr. Foundation; the Gordon and Betty Moore Foundation; the Walton Family Foundation; Lyda Hill Philanthropies; the Windward Fund; the Keith Campbell Foundation for the Environment; the North, Central, and South Delta Water Agencies; the NASA Applied Science Program and the NASA Western Water Applications Office; the USGS Landsat Science Team; the California State University Agricultural Research Institute; the Idaho Agricultural Experiment Station and the Nebraska Agricultural Experiment Station. In‐kind support is provided by partners in the agricultural and water management communities, Google Earth Engine, and the Water Funder Initiative. Gregory Halverson contributed to this research in part at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with NASA. We acknowledge and thank the long‐term data collection efforts by the AmeriFlux program, the USDA Agricultural Research Service, the USDA National Agricultural Statistics Service, the California Department of Water Resources and the Washington State Department of Agriculture. Funding for AmeriFlux data resources was provided by the U.S. Department of Energy Office of Science. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Government sponsorship is acknowledged. Copyright 2021. All rights reserved. Publisher Copyright: {\textcopyright} 2021 The Authors. Journal of the American Water Resources Association published by Wiley Periodicals LLC on behalf of American Water Resources Association",

year = "2021",

doi = "10.1111/1752-1688.12956",

language = "English (US)",

journal = "Journal of the American Water Resources Association",

issn = "1093-474X",

publisher = "Wiley-Blackwell",

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TY - JOUR

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T2 - Filling a Critical Data Gap in Water Management for the Western United States

AU - Melton, Forrest S.

AU - Huntington, Justin

AU - Grimm, Robyn

AU - Herring, Jamie

AU - Hall, Maurice

AU - Rollison, Dana

AU - Erickson, Tyler

AU - Allen, Richard

AU - Anderson, Martha

AU - Fisher, Joshua B.

AU - Kilic, Ayse

AU - Senay, Gabriel B.

AU - Volk, John

AU - Hain, Christopher

AU - Johnson, Lee

AU - Ruhoff, Anderson

AU - Blankenau, Philip

AU - Bromley, Matt

AU - Carrara, Will

AU - Daudert, Britta

AU - Doherty, Conor

AU - Dunkerly, Christian

AU - Friedrichs, MacKenzie

AU - Guzman, Alberto

AU - Halverson, Gregory

AU - Hansen, Jody

AU - Harding, Jordan

AU - Kang, Yanghui

AU - Ketchum, David

AU - Minor, Blake

AU - Morton, Charles

AU - Ortega-Salazar, Samuel

AU - Ott, Thomas

AU - Ozdogan, Mutlu

AU - ReVelle, Peter M.

AU - Schull, Mitch

AU - Wang, Carlos

AU - Yang, Yun

AU - Anderson, Ray G.

N1 - Funding Information: We thank three anonymous reviewers for comments and suggestions that improved this manuscript. Development of OpenET is supported by the S.D. Bechtel, Jr. Foundation; the Gordon and Betty Moore Foundation; the Walton Family Foundation; Lyda Hill Philanthropies; the Windward Fund; the Keith Campbell Foundation for the Environment; the North, Central, and South Delta Water Agencies; the NASA Applied Science Program and the NASA Western Water Applications Office; the USGS Landsat Science Team; the California State University Agricultural Research Institute; the Idaho Agricultural Experiment Station and the Nebraska Agricultural Experiment Station. In‐kind support is provided by partners in the agricultural and water management communities, Google Earth Engine, and the Water Funder Initiative. Gregory Halverson contributed to this research in part at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with NASA. We acknowledge and thank the long‐term data collection efforts by the AmeriFlux program, the USDA Agricultural Research Service, the USDA National Agricultural Statistics Service, the California Department of Water Resources and the Washington State Department of Agriculture. Funding for AmeriFlux data resources was provided by the U.S. Department of Energy Office of Science. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Government sponsorship is acknowledged. Copyright 2021. All rights reserved. Publisher Copyright: © 2021 The Authors. Journal of the American Water Resources Association published by Wiley Periodicals LLC on behalf of American Water Resources Association

PY - 2021

Y1 - 2021

N2 - The lack of consistent, accurate information on evapotranspiration (ET) and consumptive use of water by irrigated agriculture is one of the most important data gaps for water managers in the western United States (U.S.) and other arid agricultural regions globally. The ability to easily access information on ET is central to improving water budgets across the West, advancing the use of data-driven irrigation management strategies, and expanding incentive-driven conservation programs. Recent advances in remote sensing of ET have led to the development of multiple approaches for field-scale ET mapping that have been used for local and regional water resource management applications by U.S. state and federal agencies. The OpenET project is a community-driven effort that is building upon these advances to develop an operational system for generating and distributing ET data at a field scale using an ensemble of six well-established satellite-based approaches for mapping ET. Key objectives of OpenET include: Increasing access to remotely sensed ET data through a web-based data explorer and data services; supporting the use of ET data for a range of water resource management applications; and development of use cases and training resources for agricultural producers and water resource managers. Here we describe the OpenET framework, including the models used in the ensemble, the satellite, meteorological, and ancillary data inputs to the system, and the OpenET data visualization and access tools. We also summarize an extensive intercomparison and accuracy assessment conducted using ground measurements of ET from 139 flux tower sites instrumented with open path eddy covariance systems. Results calculated for 24 cropland sites from Phase I of the intercomparison and accuracy assessment demonstrate strong agreement between the satellite-driven ET models and the flux tower ET data. For the six models that have been evaluated to date (ALEXI/DisALEXI, eeMETRIC, geeSEBAL, PT-JPL, SIMS, and SSEBop) and the ensemble mean, the weighted average mean absolute error (MAE) values across all sites range from 13.6 to 21.6 mm/month at a monthly timestep, and 0.74 to 1.07 mm/day at a daily timestep. At seasonal time scales, for all but one of the models the weighted mean total ET is within ±8% of both the ensemble mean and the weighted mean total ET calculated from the flux tower data. Overall, the ensemble mean performs as well as any individual model across nearly all accuracy statistics for croplands, though some individual models may perform better for specific sites and regions. We conclude with three brief use cases to illustrate current applications and benefits of increased access to ET data, and discuss key lessons learned from the development of OpenET.

AB - The lack of consistent, accurate information on evapotranspiration (ET) and consumptive use of water by irrigated agriculture is one of the most important data gaps for water managers in the western United States (U.S.) and other arid agricultural regions globally. The ability to easily access information on ET is central to improving water budgets across the West, advancing the use of data-driven irrigation management strategies, and expanding incentive-driven conservation programs. Recent advances in remote sensing of ET have led to the development of multiple approaches for field-scale ET mapping that have been used for local and regional water resource management applications by U.S. state and federal agencies. The OpenET project is a community-driven effort that is building upon these advances to develop an operational system for generating and distributing ET data at a field scale using an ensemble of six well-established satellite-based approaches for mapping ET. Key objectives of OpenET include: Increasing access to remotely sensed ET data through a web-based data explorer and data services; supporting the use of ET data for a range of water resource management applications; and development of use cases and training resources for agricultural producers and water resource managers. Here we describe the OpenET framework, including the models used in the ensemble, the satellite, meteorological, and ancillary data inputs to the system, and the OpenET data visualization and access tools. We also summarize an extensive intercomparison and accuracy assessment conducted using ground measurements of ET from 139 flux tower sites instrumented with open path eddy covariance systems. Results calculated for 24 cropland sites from Phase I of the intercomparison and accuracy assessment demonstrate strong agreement between the satellite-driven ET models and the flux tower ET data. For the six models that have been evaluated to date (ALEXI/DisALEXI, eeMETRIC, geeSEBAL, PT-JPL, SIMS, and SSEBop) and the ensemble mean, the weighted average mean absolute error (MAE) values across all sites range from 13.6 to 21.6 mm/month at a monthly timestep, and 0.74 to 1.07 mm/day at a daily timestep. At seasonal time scales, for all but one of the models the weighted mean total ET is within ±8% of both the ensemble mean and the weighted mean total ET calculated from the flux tower data. Overall, the ensemble mean performs as well as any individual model across nearly all accuracy statistics for croplands, though some individual models may perform better for specific sites and regions. We conclude with three brief use cases to illustrate current applications and benefits of increased access to ET data, and discuss key lessons learned from the development of OpenET.

KW - Landsat

KW - agriculture

KW - consumptive use

KW - evapotranspiration

KW - field scale

KW - open data systems

KW - remote sensing

KW - satellite

KW - water sustainability

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OpenET: Filling a Critical Data Gap in Water Management for the Western United States

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