Emerging technology for daily, field-scale, global evapotranspiration from space
- 1Hydrosat, Washington, DC, United States of America (joshbfisher@gmail.com)
- *A full list of authors appears at the end of the abstract
Science and applications communities have made clear the needs and requirements for daily, field-scale ET. However, we do not have the high spatiotemporal TIR data to meet these requirements. Exciting new technology is now emerging to finally achieve this long-standing goal. With an upcoming launch en route to 16+ smallsat satellites, the Hydrosat constellation will provide field-scale, global TIR and VNIR measurements for ET every day, multiple times per day. An Early Adopters product is available now with 20 m daily TIR data globally from the fusion of Landsat, ECOSTRESS, MODIS, VIIRS, and Sentinel-2. Hydrosat data will be a game-changer and will significantly advance our monitoring and management capabilities for ecosystems, agriculture, and other applications.
Joshua Fisher, Scott Soenen, Kevin Lalli, Joseph McGlinchy, Albert Abello, Florian Werner, Matteo Ziliani, Kristiina Byckling, Boonyarit Changaival, Sam Mills, Dmitrii Rogozin, Vanessa Da Silva, Eon Rehman, Aaron Gerace, Tania Kleynhans, Matthew Montanaro, Arthur Elmes, Emmanuel Apau, Lindsey Markell, Ignacio Zuleta, Max Sales, Rebecca McGinley, Harrison Thomas, Royce Dalby, Pieter Fossel
How to cite: Fisher, J. and the Hydrosat Team: Emerging technology for daily, field-scale, global evapotranspiration from space, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-3223, https://doi.org/10.5194/egusphere-egu22-3223, 2022.
