OpenET Partner Logos 

(SACRAMENTO, CA — October 21, 2021) OpenET, a new online platform that uses satellites to estimate water consumed by crops and other plants, launched today, making critical data for water management widely available in 17 western states for the first time amid record drought.

OpenET fills a major information gap in water management in the West. Although water is essential to the health of our communities, wildlife and food supply, access to accurate, timely data on the amount of water used to grow food has been fragmented and often expensive, keeping it out of the hands of many farmers and decision-makers. OpenET allows users to easily view and download this important water data for the current year and previous five years at no charge.

OpenET Citrus DataOpenET is providing this data down to the field scale in 17 western states as water supplies become increasingly scarce due to drought, climate change and population growth. The states covered by OpenET are Arizona, California, Colorado, Idaho, Kansas, Montana, Nebraska, Nevada, New Mexico, North Dakota, Oklahoma, Oregon, South Dakota, Texas, Utah, Washington and Wyoming.

“As water supplies become increasingly scarce in arid regions, we need new, innovative tools like OpenET to manage water more precisely and sustainably,” said Robyn Grimm, director, climate resilient water systems, at Environmental Defense Fund (EDF). “OpenET provides all farmers, policymakers and communities big and small with the same high-quality data on water use, so that we can all work together from the same playbook to develop more resilient water supplies across the West.”

“OpenET addresses one of the biggest data gaps in water management in the western United States,” said Forrest Melton, program scientist for the NASA Western Water Applications Office. “This easy-to-use online platform provides scientifically robust data that are invaluable for water management at all scales, from an individual agricultural field to an entire river basin.”

“OpenET is a powerful application of cloud computing that will make a measurable impact on the ground in the agriculture sector. Google is proud to support such an important new tool to help improve water sustainability in the western United States as we see the impacts of climate change intensify,” said Google Earth Engine developer advocate Tyler Erickson.

“OpenET combines decades of research with advances in technology from just the past five years to make valuable water data much more affordable and accessible to all,” said Justin Huntington, a research professor at Desert Research Institute. “In the future we hope to expand OpenET to other arid regions of the world, such as South America, India and Africa.”

“As someone who has worked on evapotranspiration for more than 40 years, I am thrilled to see multiple, independent models for estimating ET come together on a single, easy-to-navigate platform,” said Richard Allen, a professor of water resources engineering at the University of Idaho. “By putting these water consumption data into the hands of farmers and water managers across the western United States, OpenET will be transformative in helping us manage water more sustainably,” added Ayse Kilic, a professor at the University of Nebraska-Lincoln.

“In some parts of the arid West, more than 70% of irrigation water ends up as evapotranspiration. By automating calculations for this highly important water data, OpenET will enable the USGS and water managers to more easily create water budgets at the watershed scale, which is an essential first step toward proactive water management,” said Gabriel Senay, a scientist with the U.S. Geological Survey.

“Irrigated agriculture is essential to feeding a growing population,” said Martha Anderson, a research scientist with the U.S. Department of Agriculture. “OpenET will be a powerful tool to help our nation’s farmers increase food production under conditions of limited freshwater resources.”

“OpenET has not just transformed access to information on ET, but has also facilitated important advances in the underlying science,” said Josh Fisher, a research scientist with the University of California, Los Angeles. “The collaborative approach used to develop OpenET will accelerate our ability to scale the platform to other regions, and to rapidly incorporate new information from future satellite missions.”

“The development of multi-model tools based on cloud computing, as provided by OpenET, is a paradigm shift, allowing water resources management in sustainable ways, not only in the United States, but also in many agricultural regions of the world, where agriculture and irrigation are increasing rapidly, as in Brazil”, added Anderson Ruhoff, a professor at the Universidade Federal do Rio Grande do Sul in Brazil.

Applications of OpenET data include:

  • Informing irrigation management and scheduling to maximize “crop per drop” and reduce costs for water, fertilizer and energy. ET data are being used by E&J Gallo Winery in California and Oregon state legislator and alfalfa farmer Mark Owens to reduce applied irrigation water while sustaining crop yields and quality.
  • Enabling water and land managers to develop more accurate water budgets, water trading programs and other innovative programs. Rosedale-Rio Bravo Water Storage District in California’s San Joaquin Valley is using OpenET in its online accounting and trading platform. Salt River Project in Arizona is using OpenET to improve their understanding of the impacts of wildfire and forest management on streamflow and groundwater recharge.

What is evapotranspiration?

The “ET” in OpenET stands for evapotranspiration — the process by which water evaporates from the land surface and transpires, or is released, from plants. ET is a key measure of water consumed by crops and other vegetation that can be used by farmers and water managers to better track water use as well as water saved, for instance, when farmers change crops or invest in new technologies.

Evapotranspiration can be estimated by satellites because the ET process absorbs energy and cools the land surface, and vegetation reflects and absorbs different amounts of visible and near-infrared light depending upon the density and health of the vegetation. These effects are visible to thermal and optical sensors on a satellite. Using sophisticated biophysical models, OpenET combines satellite information with local weather data to accurately estimate ET.

Using publicly available data, OpenET brings together six independent models for estimating evapotranspiration onto a single computing platform, ultimately helping to build broader trust and agreement around this information.OpenET data has been extensively compared to ground-based measurements collected in agricultural fields and natural landscapes, and tested by a wide variety of organizations through several use cases to ensure the highest accuracy.

Unprecedented public-private partnership

OpenET has been developed through an unprecedented public-private collaboration with input from more than 100 farmers, water managers, and other stakeholders. The project is led by Environmental Defense Fund, NASA, Desert Research Institute, and HabitatSeven. Additional team members include Google, the U.S. Geological Survey, U.S. Department of Agriculture, California State University Monterey Bay, University of Idaho, University of Maryland, University of Nebraska-Lincoln, University of Wisconsin-Madison, UCLA and Universidade Federal do Rio Grande do Sul in Brazil.

The OpenET project has received funding from the NASA Applied Sciences Program Western Water Applications Office, S. D. Bechtel, Jr. Foundation, Gordon and Betty Moore Foundation, Walton Family Foundation, The Keith Campbell Foundation for the Environment, Lyda Hill Philanthropies, Water Funder Initiative, The Laney and Pasha Thornton Foundation, Desert Research Institute Maki Endowment, Delta Water Agencies and the Windward Fund. In-kind support has been provided by Google Earth Engine and partners in the agricultural and water management communities.

Providing farmers and local water managers free ET data is a core objective of the OpenET project. For-profit entities and other organizations looking for large-scale access to OpenET data will be able to purchase it through an application programming interface (API) expected to launch in 2022. Revenue generated will fund continuing research and development of OpenET data services.

Additional Resources:

Website: https://openetdata.org

Media Kit (images and b-roll): https://bit.ly/3ufco2O

User testimonials: https://openetdata.org/testimonials/

Video: https://youtu.be/Rbobf6aurLs

Use Cases: https://openetdata.org/openet-use-cases/

FAQ: https://openetdata.org/faq/

Twitter: @OpenETdata

One of the world’s leading international nonprofit organizations, Environmental Defense Fund (edf.org) creates transformational solutions to the most serious environmental problems. To do so, EDF links science, economics, law, and innovative private-sector partnerships. With more than 3 million members and offices in the United States, China, Mexico, Indonesia and the European Union, EDF’s scientists, economists, attorneys and policy experts are working in 28 countries to turn our solutions into action. Connect with us on Twitter @EnvDefenseFund

Media Contact

Ronna Kelly
(415) 293-6161