{"id":278023,"date":"2026-01-10T17:44:12","date_gmt":"2026-01-10T17:44:12","guid":{"rendered":"https:\/\/www.europesays.com\/ie\/278023\/"},"modified":"2026-01-10T17:44:12","modified_gmt":"2026-01-10T17:44:12","slug":"human-contributions-to-evapotranspiration-mitigate-swings-in-dry-to-wet-year-transitions","status":"publish","type":"post","link":"https:\/\/www.europesays.com\/ie\/278023\/","title":{"rendered":"Human contributions to evapotranspiration mitigate swings in dry-to-wet year transitions"},"content":{"rendered":"<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"1.\">\n<p class=\"c-article-references__text\" id=\"ref-CR1\">University of California Agriculture and Natural Resources. California\u2019s Working Landscape <a href=\"https:\/\/www.ucop.edu\/innovation-transfer-operations\/_files\/Econ%20Impact%20Rpts\/anr-ca-working-landscape-2019.pdf\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"https:\/\/www.ucop.edu\/innovation-transfer-operations\/_files\/Econ%20Impact%20Rpts\/anr-ca-working-landscape-2019.pdf\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/www.ucop.edu\/innovation-transfer-operations\/_files\/Econ%20Impact%20Rpts\/anr-ca-working-landscape-2019.pdf<\/a> (2019).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"2.\">\n<p class=\"c-article-references__text\" id=\"ref-CR2\">Peterson, C., Pittelkow, C. &amp; Lundy, M. Exploring the Potential for Water\u2014Limited Agriculture in the San Joaquin Valley (PPIC, 2022).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"3.\">\n<p class=\"c-article-references__text\" id=\"ref-CR3\">California Agricultural Exports. California Agricultural Exports 2022\u20132023 <a href=\"https:\/\/www.cdfa.ca.gov\/Statistics\/PDFs\/2022-2023_california_agricultural_exports.pdf\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"https:\/\/www.cdfa.ca.gov\/Statistics\/PDFs\/2022-2023_california_agricultural_exports.pdf\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/www.cdfa.ca.gov\/Statistics\/PDFs\/2022-2023_california_agricultural_exports.pdf<\/a> (2022).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"4.\">\n<p class=\"c-article-references__text\" id=\"ref-CR4\">California Natural Resources Agency. California\u2019s Water Supply Strategy: Adapting to a Hotter, Drier Future. <a href=\"https:\/\/resources.ca.gov\/-\/media\/CNRA-Website\/Files\/Initiatives\/Water-Resilience\/CA-Water-Supply-Strategy.pdf\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"https:\/\/resources.ca.gov\/-\/media\/CNRA-Website\/Files\/Initiatives\/Water-Resilience\/CA-Water-Supply-Strategy.pdf\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/resources.ca.gov\/-\/media\/CNRA-Website\/Files\/Initiatives\/Water-Resilience\/CA-Water-Supply-Strategy.pdf<\/a> (2022).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"5.\">\n<p class=\"c-article-references__text\" id=\"ref-CR5\">Hanak, E. et al. Water and the California Economy (PPIC, 2012).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"6.\">\n<p class=\"c-article-references__text\" id=\"ref-CR6\">Sunding, D., Browne, O. &amp; Zhu, Z. J. The Economy of the State Water Project: Clean, Reliable, and Affordable Water for California <a href=\"https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/News\/Files\/SWP-Economics-Brochure_FINAL.pdf\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/News\/Files\/SWP-Economics-Brochure_FINAL.pdf\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/News\/Files\/SWP-Economics-Brochure_FINAL.pdf<\/a> (2023).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"7.\">\n<p class=\"c-article-references__text\" id=\"ref-CR7\">Liu, P.-W. et al. Groundwater depletion in California\u2019s central valley accelerates during megadrought. Nat. Commun. <b>13<\/b>, 7825 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s41467-022-35582-x\" data-track-item_id=\"10.1038\/s41467-022-35582-x\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs41467-022-35582-x\" aria-label=\"Article reference 7\" data-doi=\"10.1038\/s41467-022-35582-x\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 7\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Groundwater%20depletion%20in%20California%E2%80%99s%20central%20valley%20accelerates%20during%20megadrought&amp;journal=Nat.%20Commun.&amp;doi=10.1038%2Fs41467-022-35582-x&amp;volume=13&amp;publication_year=2022&amp;author=Liu%2CP-W\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"8.\">\n<p class=\"c-article-references__text\" id=\"ref-CR8\">Williams, A. P. et al. Large contribution from anthropogenic warming to an emerging North American megadrought. Science <b>368<\/b>, 314\u2013318 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1126\/science.aaz9600\" data-track-item_id=\"10.1126\/science.aaz9600\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1126%2Fscience.aaz9600\" aria-label=\"Article reference 8\" data-doi=\"10.1126\/science.aaz9600\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 8\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Large%20contribution%20from%20anthropogenic%20warming%20to%20an%20emerging%20North%20American%20megadrought&amp;journal=Science&amp;doi=10.1126%2Fscience.aaz9600&amp;volume=368&amp;pages=314-318&amp;publication_year=2020&amp;author=Williams%2CAP\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"9.\">\n<p class=\"c-article-references__text\" id=\"ref-CR9\">Swain, D. L., Horton, D. E., Singh, D. &amp; Diffenbaugh, N. S. Trends in atmospheric patterns conducive to seasonal precipitation and temperature extremes in California. Sci. Adv. <b>2<\/b>, e1501344 (2016).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1126\/sciadv.1501344\" data-track-item_id=\"10.1126\/sciadv.1501344\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1126%2Fsciadv.1501344\" aria-label=\"Article reference 9\" data-doi=\"10.1126\/sciadv.1501344\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 9\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Trends%20in%20atmospheric%20patterns%20conducive%20to%20seasonal%20precipitation%20and%20temperature%20extremes%20in%20California&amp;journal=Sci.%20Adv.&amp;doi=10.1126%2Fsciadv.1501344&amp;volume=2&amp;publication_year=2016&amp;author=Swain%2CDL&amp;author=Horton%2CDE&amp;author=Singh%2CD&amp;author=Diffenbaugh%2CNS\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"10.\">\n<p class=\"c-article-references__text\" id=\"ref-CR10\">Swain, D. L. et al. Hydroclimate volatility on a warming Earth. Nat. Rev. Earth Environ. <b>6<\/b>, 35\u201350 (2025).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s43017-024-00624-z\" data-track-item_id=\"10.1038\/s43017-024-00624-z\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs43017-024-00624-z\" aria-label=\"Article reference 10\" data-doi=\"10.1038\/s43017-024-00624-z\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 10\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Hydroclimate%20volatility%20on%20a%20warming%20Earth&amp;journal=Nat.%20Rev.%20Earth%20Environ.&amp;doi=10.1038%2Fs43017-024-00624-z&amp;volume=6&amp;pages=35-50&amp;publication_year=2025&amp;author=Swain%2CDL\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"11.\">\n<p class=\"c-article-references__text\" id=\"ref-CR11\">Healey, R. W. et al. Water Budgets: Foundations for Effective Water-Resources and Environmental Management (2007).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"12.\">\n<p class=\"c-article-references__text\" id=\"ref-CR12\">California Department of Water Resources. California Water Plan Update 2023 Water Balances Supporting Document <a href=\"https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/Programs\/California-Water-Plan\/Docs\/Update2023\/Supporting-Documents\/Water-Portfolios-and-Balances.pdf\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/Programs\/California-Water-Plan\/Docs\/Update2023\/Supporting-Documents\/Water-Portfolios-and-Balances.pdf\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/Programs\/California-Water-Plan\/Docs\/Update2023\/Supporting-Documents\/Water-Portfolios-and-Balances.pdf<\/a> (2023).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"13.\">\n<p class=\"c-article-references__text\" id=\"ref-CR13\">Ghiat, I., Mackey, H. R. &amp; Al-Ansari, T. A review of evapotranspiration measurement models, techniques and methods for open and closed agricultural field applications. Water <b>13<\/b>, 2523 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.3390\/w13182523\" data-track-item_id=\"10.3390\/w13182523\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.3390%2Fw13182523\" aria-label=\"Article reference 13\" data-doi=\"10.3390\/w13182523\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 13\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=A%20review%20of%20evapotranspiration%20measurement%20models%2C%20techniques%20and%20methods%20for%20open%20and%20closed%20agricultural%20field%20applications&amp;journal=Water&amp;doi=10.3390%2Fw13182523&amp;volume=13&amp;publication_year=2021&amp;author=Ghiat%2CI&amp;author=Mackey%2CHR&amp;author=Al-Ansari%2CT\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"14.\">\n<p class=\"c-article-references__text\" id=\"ref-CR14\">Miralles, D. G., Brutsaert, W., Dolman, A. J. &amp; Gash, J. H. On the use of the term \u201cEvapotranspiration\u201d. Water Resour. Res. <b>56<\/b>, e2020WR028055 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2020WR028055\" data-track-item_id=\"10.1029\/2020WR028055\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2020WR028055\" aria-label=\"Article reference 14\" data-doi=\"10.1029\/2020WR028055\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 14\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=On%20the%20use%20of%20the%20term%20%E2%80%9CEvapotranspiration%E2%80%9D&amp;journal=Water%20Resour.%20Res.&amp;doi=10.1029%2F2020WR028055&amp;volume=56&amp;publication_year=2020&amp;author=Miralles%2CDG&amp;author=Brutsaert%2CW&amp;author=Dolman%2CAJ&amp;author=Gash%2CJH\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"15.\">\n<p class=\"c-article-references__text\" id=\"ref-CR15\">Nov\u00e1k, V. Evapotranspiration. In Encyclopedia of Agrophysics (eds Gli\u0144ski, J., Horabik, J. &amp; Lipiec, J.) 280\u2013283 (Springer Netherlands, Dordrecht, 2011)<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"16.\">\n<p class=\"c-article-references__text\" id=\"ref-CR16\">Wanniarachchi, S. &amp; Sarukkalige, R. A review on evapotranspiration estimation in agricultural water management: past, present, and future. Hydrology <b>9<\/b>, 123 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.3390\/hydrology9070123\" data-track-item_id=\"10.3390\/hydrology9070123\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.3390%2Fhydrology9070123\" aria-label=\"Article reference 16\" data-doi=\"10.3390\/hydrology9070123\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 16\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=A%20review%20on%20evapotranspiration%20estimation%20in%20agricultural%20water%20management%3A%20past%2C%20present%2C%20and%20future&amp;journal=Hydrology&amp;doi=10.3390%2Fhydrology9070123&amp;volume=9&amp;publication_year=2022&amp;author=Wanniarachchi%2CS&amp;author=Sarukkalige%2CR\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"17.\">\n<p class=\"c-article-references__text\" id=\"ref-CR17\">Ward, R. C. Measuring evapotranspiration; a review. J. Hydrol. <b>13<\/b>, 1\u201321 (1971).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/0022-1694(71)90197-1\" data-track-item_id=\"10.1016\/0022-1694(71)90197-1\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2F0022-1694%2871%2990197-1\" aria-label=\"Article reference 17\" data-doi=\"10.1016\/0022-1694(71)90197-1\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 17\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Measuring%20evapotranspiration%3B%20a%20review&amp;journal=J.%20Hydrol.&amp;doi=10.1016%2F0022-1694%2871%2990197-1&amp;volume=13&amp;pages=1-21&amp;publication_year=1971&amp;author=Ward%2CRC\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"18.\">\n<p class=\"c-article-references__text\" id=\"ref-CR18\">Pascolini-Campbell, M., Lee, C., Stavros, N. &amp; Fisher, J. B. ECOSTRESS reveals pre-fire vegetation controls on burn severity for Southern California wildfires of 2020. Glob. Ecol. Biogeogr. <b>31<\/b>, 1976\u20131989 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1111\/geb.13526\" data-track-item_id=\"10.1111\/geb.13526\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1111%2Fgeb.13526\" aria-label=\"Article reference 18\" data-doi=\"10.1111\/geb.13526\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 18\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=ECOSTRESS%20reveals%20pre-fire%20vegetation%20controls%20on%20burn%20severity%20for%20Southern%20California%20wildfires%20of%202020&amp;journal=Glob.%20Ecol.%20Biogeogr.&amp;doi=10.1111%2Fgeb.13526&amp;volume=31&amp;pages=1976-1989&amp;publication_year=2022&amp;author=Pascolini-Campbell%2CM&amp;author=Lee%2CC&amp;author=Stavros%2CN&amp;author=Fisher%2CJB\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"19.\">\n<p class=\"c-article-references__text\" id=\"ref-CR19\">Zhu, Y., Murugesan, S. B., Masara, I. K., Myint, S. W. &amp; Fisher, J. B. Examining wildfire dynamics using ECOSTRESS data with machine learning approaches: the case of South-Eastern Australia\u2019s black summer. Remote Sens. Ecol. Conserv. <b>11<\/b>, 266\u2013281 (2024).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"20.\">\n<p class=\"c-article-references__text\" id=\"ref-CR20\">Bento, V. A., Gouveia, C. M., DaCamara, C. C. &amp; Trigo, I. F. A climatological assessment of drought impact on vegetation health index. Agric. Forest Meteorol. <b>259<\/b>, 286\u2013295 (2018).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.agrformet.2018.05.014\" data-track-item_id=\"10.1016\/j.agrformet.2018.05.014\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.agrformet.2018.05.014\" aria-label=\"Article reference 20\" data-doi=\"10.1016\/j.agrformet.2018.05.014\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 20\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=A%20climatological%20assessment%20of%20drought%20impact%20on%20vegetation%20health%20index&amp;journal=Agric.%20Forest%20Meteorol.&amp;doi=10.1016%2Fj.agrformet.2018.05.014&amp;volume=259&amp;pages=286-295&amp;publication_year=2018&amp;author=Bento%2CVA&amp;author=Gouveia%2CCM&amp;author=DaCamara%2CCC&amp;author=Trigo%2CIF\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"21.\">\n<p class=\"c-article-references__text\" id=\"ref-CR21\">Fisher, J. B., Tu, K. P. &amp; Baldocchi, D. D. Global estimates of the land\u2013atmosphere water flux based on monthly AVHRR and ISLSCP-II data, validated at 16 FLUXNET sites. Remote Sens. Environ. <b>112<\/b>, 901\u2013919 (2008).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.rse.2007.06.025\" data-track-item_id=\"10.1016\/j.rse.2007.06.025\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.rse.2007.06.025\" aria-label=\"Article reference 21\" data-doi=\"10.1016\/j.rse.2007.06.025\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 21\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Global%20estimates%20of%20the%20land%E2%80%93atmosphere%20water%20flux%20based%20on%20monthly%20AVHRR%20and%20ISLSCP-II%20data%2C%20validated%20at%2016%20FLUXNET%20sites&amp;journal=Remote%20Sens.%20Environ.&amp;doi=10.1016%2Fj.rse.2007.06.025&amp;volume=112&amp;pages=901-919&amp;publication_year=2008&amp;author=Fisher%2CJB&amp;author=Tu%2CKP&amp;author=Baldocchi%2CDD\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"22.\">\n<p class=\"c-article-references__text\" id=\"ref-CR22\">Joiner, J. et al. Global relationships among traditional reflectance vegetation indices (NDVI and NDII), evapotranspiration (ET), and soil moisture variability on weekly timescales. Remote Sens. Environ. <b>219<\/b>, 339\u2013352 (2018).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.rse.2018.10.020\" data-track-item_id=\"10.1016\/j.rse.2018.10.020\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.rse.2018.10.020\" aria-label=\"Article reference 22\" data-doi=\"10.1016\/j.rse.2018.10.020\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 22\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Global%20relationships%20among%20traditional%20reflectance%20vegetation%20indices%20%28NDVI%20and%20NDII%29%2C%20evapotranspiration%20%28ET%29%2C%20and%20soil%20moisture%20variability%20on%20weekly%20timescales&amp;journal=Remote%20Sens.%20Environ.&amp;doi=10.1016%2Fj.rse.2018.10.020&amp;volume=219&amp;pages=339-352&amp;publication_year=2018&amp;author=Joiner%2CJ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"23.\">\n<p class=\"c-article-references__text\" id=\"ref-CR23\">Bhattarai, N. &amp; Wagle, P. Recent advances in remote sensing of evapotranspiration. Remote Sens. <b>13<\/b>, 4260 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.3390\/rs13214260\" data-track-item_id=\"10.3390\/rs13214260\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.3390%2Frs13214260\" aria-label=\"Article reference 23\" data-doi=\"10.3390\/rs13214260\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 23\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Recent%20advances%20in%20remote%20sensing%20of%20evapotranspiration&amp;journal=Remote%20Sens.&amp;doi=10.3390%2Frs13214260&amp;volume=13&amp;publication_year=2021&amp;author=Bhattarai%2CN&amp;author=Wagle%2CP\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"24.\">\n<p class=\"c-article-references__text\" id=\"ref-CR24\">Brown, S. M., Petrone, R. M., Mendoza, C. &amp; Devito, K. J. Surface vegetation controls on evapotranspiration from a sub-humid Western Boreal Plain wetland. Hydrol. Process. <b>24<\/b>, 1072\u20131085 (2010).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1002\/hyp.7569\" data-track-item_id=\"10.1002\/hyp.7569\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1002%2Fhyp.7569\" aria-label=\"Article reference 24\" data-doi=\"10.1002\/hyp.7569\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 24\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Surface%20vegetation%20controls%20on%20evapotranspiration%20from%20a%20sub-humid%20Western%20Boreal%20Plain%20wetland&amp;journal=Hydrol.%20Process.&amp;doi=10.1002%2Fhyp.7569&amp;volume=24&amp;pages=1072-1085&amp;publication_year=2010&amp;author=Brown%2CSM&amp;author=Petrone%2CRM&amp;author=Mendoza%2CC&amp;author=Devito%2CKJ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"25.\">\n<p class=\"c-article-references__text\" id=\"ref-CR25\">Detto, M., Montaldo, N., Albertson, J. D., Mancini, M. &amp; Katul, G. Soil moisture and vegetation controls on evapotranspiration in a heterogeneous Mediterranean ecosystem on Sardinia, Italy. Water Resour. Res. <a href=\"https:\/\/doi.org\/10.1029\/2005WR004693\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.1029\/2005WR004693\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.1029\/2005WR004693<\/a> (2006).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"26.\">\n<p class=\"c-article-references__text\" id=\"ref-CR26\">Boser, A. et al. Field-scale crop water consumption estimates reveal potential water savings in California agriculture. Nat. Commun. <b>15<\/b>, 2366 (2024).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s41467-024-46031-2\" data-track-item_id=\"10.1038\/s41467-024-46031-2\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs41467-024-46031-2\" aria-label=\"Article reference 26\" data-doi=\"10.1038\/s41467-024-46031-2\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 26\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Field-scale%20crop%20water%20consumption%20estimates%20reveal%20potential%20water%20savings%20in%20California%20agriculture&amp;journal=Nat.%20Commun.&amp;doi=10.1038%2Fs41467-024-46031-2&amp;volume=15&amp;publication_year=2024&amp;author=Boser%2CA\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"27.\">\n<p class=\"c-article-references__text\" id=\"ref-CR27\">Pascolini-Campbell, M., Fisher, J. B. &amp; Reager, J. T. GRACE-FO and ECOSTRESS synergies constrain fine-scale impacts on the water balance. Geophys. Res. Lett. <b>48<\/b>, e2021GL093984 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2021GL093984\" data-track-item_id=\"10.1029\/2021GL093984\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2021GL093984\" aria-label=\"Article reference 27\" data-doi=\"10.1029\/2021GL093984\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 27\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=GRACE-FO%20and%20ECOSTRESS%20synergies%20constrain%20fine-scale%20impacts%20on%20the%20water%20balance&amp;journal=Geophys.%20Res.%20Lett.&amp;doi=10.1029%2F2021GL093984&amp;volume=48&amp;publication_year=2021&amp;author=Pascolini-Campbell%2CM&amp;author=Fisher%2CJB&amp;author=Reager%2CJT\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"28.\">\n<p class=\"c-article-references__text\" id=\"ref-CR28\">Falkenmark, M. &amp; Rockstr\u00f6m, J. The new blue and green water paradigm: breaking new ground for water resources planning and management. J. Water Resour. Plan. Manag. <b>132<\/b>, 129\u2013132 (2006).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1061\/(ASCE)0733-9496(2006)132:3(129)\" data-track-item_id=\"10.1061\/(ASCE)0733-9496(2006)132:3(129)\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1061%2F%28ASCE%290733-9496%282006%29132%3A3%28129%29\" aria-label=\"Article reference 28\" data-doi=\"10.1061\/(ASCE)0733-9496(2006)132:3(129)\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 28\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%20new%20blue%20and%20green%20water%20paradigm%3A%20breaking%20new%20ground%20for%20water%20resources%20planning%20and%20management&amp;journal=J.%20Water%20Resour.%20Plan.%20Manag.&amp;doi=10.1061%2F%28ASCE%290733-9496%282006%29132%3A3%28129%29&amp;volume=132&amp;pages=129-132&amp;publication_year=2006&amp;author=Falkenmark%2CM&amp;author=Rockstr%C3%B6m%2CJ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"29.\">\n<p class=\"c-article-references__text\" id=\"ref-CR29\">Mao, G. et al. Assessing the interlinkage of green and blue water in an arid catchment in Northwest China. Environ. Geochem Health <b>42<\/b>, 933\u2013953 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"noopener nofollow\" data-track-label=\"10.1007\/s10653-019-00406-3\" data-track-item_id=\"10.1007\/s10653-019-00406-3\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/link.springer.com\/doi\/10.1007\/s10653-019-00406-3\" aria-label=\"Article reference 29\" data-doi=\"10.1007\/s10653-019-00406-3\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 29\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Assessing%20the%20interlinkage%20of%20green%20and%20blue%20water%20in%20an%20arid%20catchment%20in%20Northwest%20China&amp;journal=Environ.%20Geochem%20Health&amp;doi=10.1007%2Fs10653-019-00406-3&amp;volume=42&amp;pages=933-953&amp;publication_year=2020&amp;author=Mao%2CG\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"30.\">\n<p class=\"c-article-references__text\" id=\"ref-CR30\">Allan, R. P. Amplified seasonal range in precipitation minus evaporation. Environ. Res. Lett. <b>18<\/b>, 094004 (2023).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1088\/1748-9326\/acea36\" data-track-item_id=\"10.1088\/1748-9326\/acea36\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1088%2F1748-9326%2Facea36\" aria-label=\"Article reference 30\" data-doi=\"10.1088\/1748-9326\/acea36\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 30\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Amplified%20seasonal%20range%20in%20precipitation%20minus%20evaporation&amp;journal=Environ.%20Res.%20Lett.&amp;doi=10.1088%2F1748-9326%2Facea36&amp;volume=18&amp;publication_year=2023&amp;author=Allan%2CRP\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"31.\">\n<p class=\"c-article-references__text\" id=\"ref-CR31\">Rodell, M. &amp; Li, B. Changing intensity of hydroclimatic extreme events revealed by GRACE and GRACE-FO. Nat. Water <b>1<\/b>, 241\u2013248 (2023).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s44221-023-00040-5\" data-track-item_id=\"10.1038\/s44221-023-00040-5\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs44221-023-00040-5\" aria-label=\"Article reference 31\" data-doi=\"10.1038\/s44221-023-00040-5\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 31\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Changing%20intensity%20of%20hydroclimatic%20extreme%20events%20revealed%20by%20GRACE%20and%20GRACE-FO&amp;journal=Nat.%20Water&amp;doi=10.1038%2Fs44221-023-00040-5&amp;volume=1&amp;pages=241-248&amp;publication_year=2023&amp;author=Rodell%2CM&amp;author=Li%2CB\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"32.\">\n<p class=\"c-article-references__text\" id=\"ref-CR32\">Nie, W. et al. Irrigation water demand sensitivity to climate variability across the contiguous united states. Water Resour. Res. <b>57<\/b>, 2020WR027738 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2020WR027738\" data-track-item_id=\"10.1029\/2020WR027738\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2020WR027738\" aria-label=\"Article reference 32\" data-doi=\"10.1029\/2020WR027738\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 32\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Irrigation%20water%20demand%20sensitivity%20to%20climate%20variability%20across%20the%20contiguous%20united%20states&amp;journal=Water%20Resour.%20Res.&amp;doi=10.1029%2F2020WR027738&amp;volume=57&amp;publication_year=2021&amp;author=Nie%2CW\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"33.\">\n<p class=\"c-article-references__text\" id=\"ref-CR33\">Zhao, M., Geruo, A., Liu, Y. &amp; Konings, A. G. Evapotranspiration frequently increases during droughts. Nat. Clim. Chang. <b>12<\/b>, 1024\u20131030 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s41558-022-01505-3\" data-track-item_id=\"10.1038\/s41558-022-01505-3\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs41558-022-01505-3\" aria-label=\"Article reference 33\" data-doi=\"10.1038\/s41558-022-01505-3\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 33\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Evapotranspiration%20frequently%20increases%20during%20droughts&amp;journal=Nat.%20Clim.%20Chang.&amp;doi=10.1038%2Fs41558-022-01505-3&amp;volume=12&amp;pages=1024-1030&amp;publication_year=2022&amp;author=Zhao%2CM&amp;author=Geruo%2CA&amp;author=Liu%2CY&amp;author=Konings%2CAG\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"34.\">\n<p class=\"c-article-references__text\" id=\"ref-CR34\">Velpuri, N. M. &amp; Senay, G. B. Partitioning evapotranspiration into green and blue water sources in the conterminous United States. Sci. Rep. <b>7<\/b>, 6191 (2017).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"35.\">\n<p class=\"c-article-references__text\" id=\"ref-CR35\">Wang, T., Mallick, K., Verfaille, J., Szutu, D. &amp; Baldocchi, D. Water scarcity in semi-arid California compromises perennial alfalfa\u2019s high yield and carbon sinking potentials. Agric. Water Manag. <b>308<\/b>, 109284 (2025).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.agwat.2024.109284\" data-track-item_id=\"10.1016\/j.agwat.2024.109284\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.agwat.2024.109284\" aria-label=\"Article reference 35\" data-doi=\"10.1016\/j.agwat.2024.109284\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 35\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Water%20scarcity%20in%20semi-arid%20California%20compromises%20perennial%20alfalfa%E2%80%99s%20high%20yield%20and%20carbon%20sinking%20potentials&amp;journal=Agric.%20Water%20Manag.&amp;doi=10.1016%2Fj.agwat.2024.109284&amp;volume=308&amp;publication_year=2025&amp;author=Wang%2CT&amp;author=Mallick%2CK&amp;author=Verfaille%2CJ&amp;author=Szutu%2CD&amp;author=Baldocchi%2CD\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"36.\">\n<p class=\"c-article-references__text\" id=\"ref-CR36\">He, Q.-L., Xiao, J.-L. &amp; Shi, W.-Y. Responses of terrestrial evapotranspiration to extreme drought: a review. Water <b>14<\/b>, 3847 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.3390\/w14233847\" data-track-item_id=\"10.3390\/w14233847\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.3390%2Fw14233847\" aria-label=\"Article reference 36\" data-doi=\"10.3390\/w14233847\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 36\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Responses%20of%20terrestrial%20evapotranspiration%20to%20extreme%20drought%3A%20a%20review&amp;journal=Water&amp;doi=10.3390%2Fw14233847&amp;volume=14&amp;publication_year=2022&amp;author=He%2CQ-L&amp;author=Xiao%2CJ-L&amp;author=Shi%2CW-Y\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"37.\">\n<p class=\"c-article-references__text\" id=\"ref-CR37\">Seneviratne, S. I. et al. Investigating soil moisture\u2013climate interactions in a changing climate: a review. Earth-Sci. Rev. <b>99<\/b>, 125\u2013161 (2010).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.earscirev.2010.02.004\" data-track-item_id=\"10.1016\/j.earscirev.2010.02.004\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.earscirev.2010.02.004\" aria-label=\"Article reference 37\" data-doi=\"10.1016\/j.earscirev.2010.02.004\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 37\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Investigating%20soil%20moisture%E2%80%93climate%20interactions%20in%20a%20changing%20climate%3A%20a%20review&amp;journal=Earth-Sci.%20Rev.&amp;doi=10.1016%2Fj.earscirev.2010.02.004&amp;volume=99&amp;pages=125-161&amp;publication_year=2010&amp;author=Seneviratne%2CSI\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"38.\">\n<p class=\"c-article-references__text\" id=\"ref-CR38\">Sankey, T. &amp; Tatum, J. Thinning increases forest resiliency during unprecedented drought. Sci. Rep. <b>12<\/b>, 9041 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s41598-022-12982-z\" data-track-item_id=\"10.1038\/s41598-022-12982-z\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs41598-022-12982-z\" aria-label=\"Article reference 38\" data-doi=\"10.1038\/s41598-022-12982-z\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 38\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Thinning%20increases%20forest%20resiliency%20during%20unprecedented%20drought&amp;journal=Sci.%20Rep.&amp;doi=10.1038%2Fs41598-022-12982-z&amp;volume=12&amp;publication_year=2022&amp;author=Sankey%2CT&amp;author=Tatum%2CJ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"39.\">\n<p class=\"c-article-references__text\" id=\"ref-CR39\">del Campo, A. D. et al. A global synthesis on the effects of thinning on hydrological processes: implications for forest management. For. Ecol. Manag. <b>519<\/b>, 120324 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.foreco.2022.120324\" data-track-item_id=\"10.1016\/j.foreco.2022.120324\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.foreco.2022.120324\" aria-label=\"Article reference 39\" data-doi=\"10.1016\/j.foreco.2022.120324\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 39\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=A%20global%20synthesis%20on%20the%20effects%20of%20thinning%20on%20hydrological%20processes%3A%20implications%20for%20forest%20management&amp;journal=For.%20Ecol.%20Manag.&amp;doi=10.1016%2Fj.foreco.2022.120324&amp;volume=519&amp;publication_year=2022&amp;author=Campo%2CAD\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"40.\">\n<p class=\"c-article-references__text\" id=\"ref-CR40\">Roche, J. W., Goulden, M. L. &amp; Bales, R. C. Estimating evapotranspiration change due to forest treatment and fire at the basin scale in the Sierra Nevada, California. Ecohydrology <b>11<\/b>, e1978\u2013e1978 (2018).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1002\/eco.1978\" data-track-item_id=\"10.1002\/eco.1978\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1002%2Feco.1978\" aria-label=\"Article reference 40\" data-doi=\"10.1002\/eco.1978\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 40\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Estimating%20evapotranspiration%20change%20due%20to%20forest%20treatment%20and%20fire%20at%20the%20basin%20scale%20in%20the%20Sierra%20Nevada%2C%20California&amp;journal=Ecohydrology&amp;doi=10.1002%2Feco.1978&amp;volume=11&amp;pages=e1978-e1978&amp;publication_year=2018&amp;author=Roche%2CJW&amp;author=Goulden%2CML&amp;author=Bales%2CRC\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"41.\">\n<p class=\"c-article-references__text\" id=\"ref-CR41\">del Campo, A. D., Gonz\u00e1lez-Sanchis, M., Garc\u00eda-Prats, A., Ceacero, C. J. &amp; Lull, C. The impact of adaptive forest management on water fluxes and growth dynamics in a water-limited low-biomass oak coppice. Agric. Forest Meteorol. <b>264<\/b>, 266\u2013282 (2019).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.agrformet.2018.10.016\" data-track-item_id=\"10.1016\/j.agrformet.2018.10.016\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.agrformet.2018.10.016\" aria-label=\"Article reference 41\" data-doi=\"10.1016\/j.agrformet.2018.10.016\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 41\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%20impact%20of%20adaptive%20forest%20management%20on%20water%20fluxes%20and%20growth%20dynamics%20in%20a%20water-limited%20low-biomass%20oak%20coppice&amp;journal=Agric.%20Forest%20Meteorol.&amp;doi=10.1016%2Fj.agrformet.2018.10.016&amp;volume=264&amp;pages=266-282&amp;publication_year=2019&amp;author=Campo%2CAD&amp;author=Gonz%C3%A1lez-Sanchis%2CM&amp;author=Garc%C3%ADa-Prats%2CA&amp;author=Ceacero%2CCJ&amp;author=Lull%2CC\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"42.\">\n<p class=\"c-article-references__text\" id=\"ref-CR42\">Liu, X. et al. Drought and thinning have limited impacts on evapotranspiration in a managed pine plantation on the southeastern United States coastal plain. Agric. Forest Meteorol. <b>262<\/b>, 14\u201323 (2018).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.agrformet.2018.06.025\" data-track-item_id=\"10.1016\/j.agrformet.2018.06.025\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.agrformet.2018.06.025\" aria-label=\"Article reference 42\" data-doi=\"10.1016\/j.agrformet.2018.06.025\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 42\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Drought%20and%20thinning%20have%20limited%20impacts%20on%20evapotranspiration%20in%20a%20managed%20pine%20plantation%20on%20the%20southeastern%20United%20States%20coastal%20plain&amp;journal=Agric.%20Forest%20Meteorol.&amp;doi=10.1016%2Fj.agrformet.2018.06.025&amp;volume=262&amp;pages=14-23&amp;publication_year=2018&amp;author=Liu%2CX\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"43.\">\n<p class=\"c-article-references__text\" id=\"ref-CR43\">Simonin, K., Kolb, T. E., Montes-Helu, M. &amp; Koch, G. W. The influence of thinning on components of stand water balance in a ponderosa pine forest stand during and after extreme drought. Agric. Forest Meteorol. <b>143<\/b>, 266\u2013276 (2007).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.agrformet.2007.01.003\" data-track-item_id=\"10.1016\/j.agrformet.2007.01.003\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.agrformet.2007.01.003\" aria-label=\"Article reference 43\" data-doi=\"10.1016\/j.agrformet.2007.01.003\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 43\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%20influence%20of%20thinning%20on%20components%20of%20stand%20water%20balance%20in%20a%20ponderosa%20pine%20forest%20stand%20during%20and%20after%20extreme%20drought&amp;journal=Agric.%20Forest%20Meteorol.&amp;doi=10.1016%2Fj.agrformet.2007.01.003&amp;volume=143&amp;pages=266-276&amp;publication_year=2007&amp;author=Simonin%2CK&amp;author=Kolb%2CTE&amp;author=Montes-Helu%2CM&amp;author=Koch%2CGW\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"44.\">\n<p class=\"c-article-references__text\" id=\"ref-CR44\">Au, J. et al. Forest productivity recovery or collapse? Model-data integration insights on drought-induced tipping points. Glob. Change Biol. <b>29<\/b>, 5652\u20135665 (2023).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1111\/gcb.16867\" data-track-item_id=\"10.1111\/gcb.16867\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1111%2Fgcb.16867\" aria-label=\"Article reference 44\" data-doi=\"10.1111\/gcb.16867\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 44\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Forest%20productivity%20recovery%20or%20collapse%3F%20Model-data%20integration%20insights%20on%20drought-induced%20tipping%20points&amp;journal=Glob.%20Change%20Biol.&amp;doi=10.1111%2Fgcb.16867&amp;volume=29&amp;pages=5652-5665&amp;publication_year=2023&amp;author=Au%2CJ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"45.\">\n<p class=\"c-article-references__text\" id=\"ref-CR45\">Barnard, D. M. et al. Wildfire and climate change amplify knowledge gaps linking mountain source-water systems and agricultural water supply in the western United States. Agric. Water Manag. <b>286<\/b>, 108377 (2023).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.agwat.2023.108377\" data-track-item_id=\"10.1016\/j.agwat.2023.108377\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.agwat.2023.108377\" aria-label=\"Article reference 45\" data-doi=\"10.1016\/j.agwat.2023.108377\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 45\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Wildfire%20and%20climate%20change%20amplify%20knowledge%20gaps%20linking%20mountain%20source-water%20systems%20and%20agricultural%20water%20supply%20in%20the%20western%20United%20States&amp;journal=Agric.%20Water%20Manag.&amp;doi=10.1016%2Fj.agwat.2023.108377&amp;volume=286&amp;publication_year=2023&amp;author=Barnard%2CDM\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"46.\">\n<p class=\"c-article-references__text\" id=\"ref-CR46\">Ma, Q. et al. Wildfire controls on evapotranspiration in California\u2019s Sierra Nevada. J. Hydrol. <b>590<\/b>, 125364 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.jhydrol.2020.125364\" data-track-item_id=\"10.1016\/j.jhydrol.2020.125364\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.jhydrol.2020.125364\" aria-label=\"Article reference 46\" data-doi=\"10.1016\/j.jhydrol.2020.125364\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 46\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Wildfire%20controls%20on%20evapotranspiration%20in%20California%E2%80%99s%20Sierra%20Nevada&amp;journal=J.%20Hydrol.&amp;doi=10.1016%2Fj.jhydrol.2020.125364&amp;volume=590&amp;publication_year=2020&amp;author=Ma%2CQ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"47.\">\n<p class=\"c-article-references__text\" id=\"ref-CR47\">Swain, D. L. A shorter, sharper rainy season amplifies California wildfire risk. Geophys. Res. Lett. <b>48<\/b>, e2021GL092843 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2021GL092843\" data-track-item_id=\"10.1029\/2021GL092843\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2021GL092843\" aria-label=\"Article reference 47\" data-doi=\"10.1029\/2021GL092843\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 47\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=A%20shorter%2C%20sharper%20rainy%20season%20amplifies%20California%20wildfire%20risk&amp;journal=Geophys.%20Res.%20Lett.&amp;doi=10.1029%2F2021GL092843&amp;volume=48&amp;publication_year=2021&amp;author=Swain%2CDL\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"48.\">\n<p class=\"c-article-references__text\" id=\"ref-CR48\">DeFlorio, M. J. et al. From California\u2019s extreme drought to major flooding: evaluating and synthesizing experimental seasonal and subseasonal forecasts of landfalling atmospheric rivers and extreme precipitation during winter 2022\/23. Am. Meteorol. Soc. <a href=\"https:\/\/doi.org\/10.1175\/BAMS-D-22-0208.1\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.1175\/BAMS-D-22-0208.1\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.1175\/BAMS-D-22-0208.1<\/a> (2024)<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"49.\">\n<p class=\"c-article-references__text\" id=\"ref-CR49\">Melton, F. S. et al. OpenET: filling a critical data gap in water management for the western United States. JAWRA J. Am. Water Resour. Assoc. <b>58<\/b>, 971\u2013994 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1111\/1752-1688.12956\" data-track-item_id=\"10.1111\/1752-1688.12956\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1111%2F1752-1688.12956\" aria-label=\"Article reference 49\" data-doi=\"10.1111\/1752-1688.12956\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 49\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=OpenET%3A%20filling%20a%20critical%20data%20gap%20in%20water%20management%20for%20the%20western%20United%20States&amp;journal=JAWRA%20J.%20Am.%20Water%20Resour.%20Assoc.&amp;doi=10.1111%2F1752-1688.12956&amp;volume=58&amp;pages=971-994&amp;publication_year=2022&amp;author=Melton%2CFS\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"50.\">\n<p class=\"c-article-references__text\" id=\"ref-CR50\">Xia, Y. et al. Continental-scale water and energy flux analysis and validation for North American Land Data Assimilation System project phase 2 (NLDAS-2): 2. Validation of model-simulated streamflow. J. Geophys. Res. Atmos. <a href=\"https:\/\/doi.org\/10.1029\/2011JD016048\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.1029\/2011JD016048\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.1029\/2011JD016048<\/a> (2012).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"51.\">\n<p class=\"c-article-references__text\" id=\"ref-CR51\">Xia, Y., Hobbins, M. T., Mu, Q. &amp; Ek, M. B. Evaluation of NLDAS-2 evapotranspiration against tower flux site observations. Hydrol. Process. <b>29<\/b>, 1757\u20131771 (2015).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1002\/hyp.10299\" data-track-item_id=\"10.1002\/hyp.10299\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1002%2Fhyp.10299\" aria-label=\"Article reference 51\" data-doi=\"10.1002\/hyp.10299\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 51\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Evaluation%20of%20NLDAS-2%20evapotranspiration%20against%20tower%20flux%20site%20observations&amp;journal=Hydrol.%20Process.&amp;doi=10.1002%2Fhyp.10299&amp;volume=29&amp;pages=1757-1771&amp;publication_year=2015&amp;author=Xia%2CY&amp;author=Hobbins%2CMT&amp;author=Mu%2CQ&amp;author=Ek%2CMB\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"52.\">\n<p class=\"c-article-references__text\" id=\"ref-CR52\">Volk, J. M. et al. Assessing the accuracy of OpenET satellite-based evapotranspiration data to support water resource and land management applications. Nat. Water <b>2<\/b>, 193\u2013205 (2024).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s44221-023-00181-7\" data-track-item_id=\"10.1038\/s44221-023-00181-7\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs44221-023-00181-7\" aria-label=\"Article reference 52\" data-doi=\"10.1038\/s44221-023-00181-7\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 52\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Assessing%20the%20accuracy%20of%20OpenET%20satellite-based%20evapotranspiration%20data%20to%20support%20water%20resource%20and%20land%20management%20applications&amp;journal=Nat.%20Water&amp;doi=10.1038%2Fs44221-023-00181-7&amp;volume=2&amp;pages=193-205&amp;publication_year=2024&amp;author=Volk%2CJM\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"53.\">\n<p class=\"c-article-references__text\" id=\"ref-CR53\">Zhang, B. et al. Evaluation and comparison of multiple evapotranspiration data models over the contiguous United States: implications for the next phase of NLDAS (NLDAS-Testbed) development. Agric. Forest Meteorol. <b>280<\/b>, 107810 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.agrformet.2019.107810\" data-track-item_id=\"10.1016\/j.agrformet.2019.107810\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.agrformet.2019.107810\" aria-label=\"Article reference 53\" data-doi=\"10.1016\/j.agrformet.2019.107810\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 53\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Evaluation%20and%20comparison%20of%20multiple%20evapotranspiration%20data%20models%20over%20the%20contiguous%20United%20States%3A%20implications%20for%20the%20next%20phase%20of%20NLDAS%20%28NLDAS-Testbed%29%20development&amp;journal=Agric.%20Forest%20Meteorol.&amp;doi=10.1016%2Fj.agrformet.2019.107810&amp;volume=280&amp;publication_year=2020&amp;author=Zhang%2CB\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"54.\">\n<p class=\"c-article-references__text\" id=\"ref-CR54\">Hanasaki, N., Inuzuka, T., Kanae, S. &amp; Oki, T. An estimation of global virtual water flow and sources of water withdrawal for major crops and livestock products using a global hydrological model. J. Hydrol. <b>384<\/b>, 232\u2013244 (2010).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.jhydrol.2009.09.028\" data-track-item_id=\"10.1016\/j.jhydrol.2009.09.028\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.jhydrol.2009.09.028\" aria-label=\"Article reference 54\" data-doi=\"10.1016\/j.jhydrol.2009.09.028\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 54\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=An%20estimation%20of%20global%20virtual%20water%20flow%20and%20sources%20of%20water%20withdrawal%20for%20major%20crops%20and%20livestock%20products%20using%20a%20global%20hydrological%20model&amp;journal=J.%20Hydrol.&amp;doi=10.1016%2Fj.jhydrol.2009.09.028&amp;volume=384&amp;pages=232-244&amp;publication_year=2010&amp;author=Hanasaki%2CN&amp;author=Inuzuka%2CT&amp;author=Kanae%2CS&amp;author=Oki%2CT\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"55.\">\n<p class=\"c-article-references__text\" id=\"ref-CR55\">Liu, J. &amp; Yang, H. Spatially explicit assessment of global consumptive water uses in cropland: green and blue water. J. Hydrol. <b>384<\/b>, 187\u2013197 (2010).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.jhydrol.2009.11.024\" data-track-item_id=\"10.1016\/j.jhydrol.2009.11.024\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.jhydrol.2009.11.024\" aria-label=\"Article reference 55\" data-doi=\"10.1016\/j.jhydrol.2009.11.024\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 55\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Spatially%20explicit%20assessment%20of%20global%20consumptive%20water%20uses%20in%20cropland%3A%20green%20and%20blue%20water&amp;journal=J.%20Hydrol.&amp;doi=10.1016%2Fj.jhydrol.2009.11.024&amp;volume=384&amp;pages=187-197&amp;publication_year=2010&amp;author=Liu%2CJ&amp;author=Yang%2CH\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"56.\">\n<p class=\"c-article-references__text\" id=\"ref-CR56\">Mekonnen, M. M. &amp; Hoekstra, A. Y. The green, blue and grey water footprint of crops and derived crop products. Hydrol. Earth Syst. Sci. <b>15<\/b>, 1577\u20131600 (2011).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.5194\/hess-15-1577-2011\" data-track-item_id=\"10.5194\/hess-15-1577-2011\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.5194%2Fhess-15-1577-2011\" aria-label=\"Article reference 56\" data-doi=\"10.5194\/hess-15-1577-2011\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 56\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%20green%2C%20blue%20and%20grey%20water%20footprint%20of%20crops%20and%20derived%20crop%20products&amp;journal=Hydrol.%20Earth%20Syst.%20Sci.&amp;doi=10.5194%2Fhess-15-1577-2011&amp;volume=15&amp;pages=1577-1600&amp;publication_year=2011&amp;author=Mekonnen%2CMM&amp;author=Hoekstra%2CAY\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"57.\">\n<p class=\"c-article-references__text\" id=\"ref-CR57\">Siebert, S. &amp; D\u00f6ll, P. Quantifying blue and green virtual water contents in global crop production as well as potential production losses without irrigation. J. Hydrol. <b>384<\/b>, 198\u2013217 (2010).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.jhydrol.2009.07.031\" data-track-item_id=\"10.1016\/j.jhydrol.2009.07.031\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.jhydrol.2009.07.031\" aria-label=\"Article reference 57\" data-doi=\"10.1016\/j.jhydrol.2009.07.031\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 57\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Quantifying%20blue%20and%20green%20virtual%20water%20contents%20in%20global%20crop%20production%20as%20well%20as%20potential%20production%20losses%20without%20irrigation&amp;journal=J.%20Hydrol.&amp;doi=10.1016%2Fj.jhydrol.2009.07.031&amp;volume=384&amp;pages=198-217&amp;publication_year=2010&amp;author=Siebert%2CS&amp;author=D%C3%B6ll%2CP\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"58.\">\n<p class=\"c-article-references__text\" id=\"ref-CR58\">Governor Gavin Newsom. California is now the 4th Largest Economy in the World (Governor of California, 2025)<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"59.\">\n<p class=\"c-article-references__text\" id=\"ref-CR59\">US National Park Service. Water Year 2023: Review of a Historic Year in California and Nevada (U.S. National Park Service, 2023)<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"60.\">\n<p class=\"c-article-references__text\" id=\"ref-CR60\">Goulden, M. L. &amp; Bales, R. C. Mountain runoff vulnerability to increased evapotranspiration with vegetation expansion. Proc. Natl. Acad. Sci. USA <b>111<\/b>, 14071\u201314075 (2014).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1073\/pnas.1319316111\" data-track-item_id=\"10.1073\/pnas.1319316111\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1073%2Fpnas.1319316111\" aria-label=\"Article reference 60\" data-doi=\"10.1073\/pnas.1319316111\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 60\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Mountain%20runoff%20vulnerability%20to%20increased%20evapotranspiration%20with%20vegetation%20expansion&amp;journal=Proc.%20Natl.%20Acad.%20Sci.%20USA&amp;doi=10.1073%2Fpnas.1319316111&amp;volume=111&amp;pages=14071-14075&amp;publication_year=2014&amp;author=Goulden%2CML&amp;author=Bales%2CRC\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"61.\">\n<p class=\"c-article-references__text\" id=\"ref-CR61\">Szilagyi, J. &amp; Jozsa, J. Evapotranspiration trends (1979\u20132015) in the Central Valley of California, USA: Contrasting Tendencies During 1981\u20132007. Water Resour. Res. <b>54<\/b>, 5620\u20135635 (2018).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2018WR022704\" data-track-item_id=\"10.1029\/2018WR022704\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2018WR022704\" aria-label=\"Article reference 61\" data-doi=\"10.1029\/2018WR022704\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 61\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Evapotranspiration%20trends%20%281979%E2%80%932015%29%20in%20the%20Central%20Valley%20of%20California%2C%20USA%3A%20Contrasting%20Tendencies%20During%201981%E2%80%932007&amp;journal=Water%20Resour.%20Res.&amp;doi=10.1029%2F2018WR022704&amp;volume=54&amp;pages=5620-5635&amp;publication_year=2018&amp;author=Szilagyi%2CJ&amp;author=Jozsa%2CJ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"62.\">\n<p class=\"c-article-references__text\" id=\"ref-CR62\">Goulden, M. L. &amp; Bales, R. C. California forest die-off linked to multi-year deep soil drying in 2012\u20132015 drought. Nat. Geosci. <b>12<\/b>, 632\u2013637 (2019).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s41561-019-0388-5\" data-track-item_id=\"10.1038\/s41561-019-0388-5\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs41561-019-0388-5\" aria-label=\"Article reference 62\" data-doi=\"10.1038\/s41561-019-0388-5\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 62\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=California%20forest%20die-off%20linked%20to%20multi-year%20deep%20soil%20drying%20in%202012%E2%80%932015%20drought&amp;journal=Nat.%20Geosci.&amp;doi=10.1038%2Fs41561-019-0388-5&amp;volume=12&amp;pages=632-637&amp;publication_year=2019&amp;author=Goulden%2CML&amp;author=Bales%2CRC\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"63.\">\n<p class=\"c-article-references__text\" id=\"ref-CR63\">Zhang, K. et al. A global dataset of terrestrial evapotranspiration and soil moisture dynamics from 1982 to 2020. Sci. Data <b>11<\/b>, 445 (2024).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s41597-024-03271-7\" data-track-item_id=\"10.1038\/s41597-024-03271-7\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs41597-024-03271-7\" aria-label=\"Article reference 63\" data-doi=\"10.1038\/s41597-024-03271-7\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 63\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=A%20global%20dataset%20of%20terrestrial%20evapotranspiration%20and%20soil%20moisture%20dynamics%20from%201982%20to%202020&amp;journal=Sci.%20Data&amp;doi=10.1038%2Fs41597-024-03271-7&amp;volume=11&amp;publication_year=2024&amp;author=Zhang%2CK\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"64.\">\n<p class=\"c-article-references__text\" id=\"ref-CR64\">Zhang, T., Lin, X., Rogers, D. H. &amp; Lamm, F. R. Adaptation of irrigation infrastructure on irrigation demands under future drought in the United States. Am. Meteorol. Soc. <a href=\"https:\/\/doi.org\/10.1175\/EI-D-14-0035.1\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.1175\/EI-D-14-0035.1\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.1175\/EI-D-14-0035.1<\/a> (2015).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"65.\">\n<p class=\"c-article-references__text\" id=\"ref-CR65\">California Department of Water Resources, California Natural Resources Agency &amp; State of California. Water Year 2023: Weather Whiplash, From Drought to Deluge. <a href=\"https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/Water-Basics\/Drought\/Files\/Publications-And-Reports\/Water-Year-2023-wrap-up-brochure_01.pdf\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/Water-Basics\/Drought\/Files\/Publications-And-Reports\/Water-Year-2023-wrap-up-brochure_01.pdf\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/water.ca.gov\/-\/media\/DWR-Website\/Web-Pages\/Water-Basics\/Drought\/Files\/Publications-And-Reports\/Water-Year-2023-wrap-up-brochure_01.pdf<\/a> (2023).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"66.\">\n<p class=\"c-article-references__text\" id=\"ref-CR66\">McDonald, R. I. &amp; Girvetz, E. H. Two challenges for U.S. irrigation due to climate change: increasing irrigated area in wet states and increasing irrigation rates in dry states. PLoS One <b>8<\/b>, e65589 (2013).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1371\/journal.pone.0065589\" data-track-item_id=\"10.1371\/journal.pone.0065589\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1371%2Fjournal.pone.0065589\" aria-label=\"Article reference 66\" data-doi=\"10.1371\/journal.pone.0065589\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 66\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Two%20challenges%20for%20U.S.%20irrigation%20due%20to%20climate%20change%3A%20increasing%20irrigated%20area%20in%20wet%20states%20and%20increasing%20irrigation%20rates%20in%20dry%20states&amp;journal=PLoS%20One&amp;doi=10.1371%2Fjournal.pone.0065589&amp;volume=8&amp;publication_year=2013&amp;author=McDonald%2CRI&amp;author=Girvetz%2CEH\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"67.\">\n<p class=\"c-article-references__text\" id=\"ref-CR67\">Rajagopalan, K. et al. Impacts of near-term climate change on irrigation demands and crop yields in the Columbia River basin. Water Resour. Res. <b>54<\/b>, 2152\u20132182 (2018).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1002\/2017WR020954\" data-track-item_id=\"10.1002\/2017WR020954\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1002%2F2017WR020954\" aria-label=\"Article reference 67\" data-doi=\"10.1002\/2017WR020954\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 67\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Impacts%20of%20near-term%20climate%20change%20on%20irrigation%20demands%20and%20crop%20yields%20in%20the%20Columbia%20River%20basin&amp;journal=Water%20Resour.%20Res.&amp;doi=10.1002%2F2017WR020954&amp;volume=54&amp;pages=2152-2182&amp;publication_year=2018&amp;author=Rajagopalan%2CK\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"68.\">\n<p class=\"c-article-references__text\" id=\"ref-CR68\">Cook, B. I. et al. Divergent regional climate consequences of maintaining current irrigation rates in the 21st century. J. Geophys. Res. Atmos. <b>125<\/b>, e2019JD031814 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2019JD031814\" data-track-item_id=\"10.1029\/2019JD031814\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2019JD031814\" aria-label=\"Article reference 68\" data-doi=\"10.1029\/2019JD031814\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 68\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Divergent%20regional%20climate%20consequences%20of%20maintaining%20current%20irrigation%20rates%20in%20the%2021st%20century&amp;journal=J.%20Geophys.%20Res.%20Atmos.&amp;doi=10.1029%2F2019JD031814&amp;volume=125&amp;publication_year=2020&amp;author=Cook%2CBI\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"69.\">\n<p class=\"c-article-references__text\" id=\"ref-CR69\">D\u00f6ll, P. &amp; Siebert, S. Global modeling of irrigation water requirements. Water Resour. Res. <b>38<\/b>, 8-1\u20138-10 (2002).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"70.\">\n<p class=\"c-article-references__text\" id=\"ref-CR70\">Janes, M. California\u2019s Groundwater Conditions: Semi-Annual Update May 2024 (2024).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"71.\">\n<p class=\"c-article-references__text\" id=\"ref-CR71\">Lukovi\u0107, J., Chiang, J. C. H., Blagojevi\u0107, D. &amp; Sekuli\u0107, A. A later onset of the rainy season in California. Geophys. Res. Lett. <b>48<\/b>, e2020GL090350 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2020GL090350\" data-track-item_id=\"10.1029\/2020GL090350\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2020GL090350\" aria-label=\"Article reference 71\" data-doi=\"10.1029\/2020GL090350\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 71\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=A%20later%20onset%20of%20the%20rainy%20season%20in%20California&amp;journal=Geophys.%20Res.%20Lett.&amp;doi=10.1029%2F2020GL090350&amp;volume=48&amp;publication_year=2021&amp;author=Lukovi%C4%87%2CJ&amp;author=Chiang%2CJCH&amp;author=Blagojevi%C4%87%2CD&amp;author=Sekuli%C4%87%2CA\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"72.\">\n<p class=\"c-article-references__text\" id=\"ref-CR72\">Hill, J. E., Williams, J. F., Mutters, R. G. &amp; Greer, C. A. The California rice cropping system: agronomic and natural resource issues for long-term sustainability. Paddy Water Environ. <b>4<\/b>, 13\u201319 (2006).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"noopener nofollow\" data-track-label=\"10.1007\/s10333-005-0026-2\" data-track-item_id=\"10.1007\/s10333-005-0026-2\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/link.springer.com\/doi\/10.1007\/s10333-005-0026-2\" aria-label=\"Article reference 72\" data-doi=\"10.1007\/s10333-005-0026-2\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 72\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%20California%20rice%20cropping%20system%3A%20agronomic%20and%20natural%20resource%20issues%20for%20long-term%20sustainability&amp;journal=Paddy%20Water%20Environ.&amp;doi=10.1007%2Fs10333-005-0026-2&amp;volume=4&amp;pages=13-19&amp;publication_year=2006&amp;author=Hill%2CJE&amp;author=Williams%2CJF&amp;author=Mutters%2CRG&amp;author=Greer%2CCA\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"73.\">\n<p class=\"c-article-references__text\" id=\"ref-CR73\">Pathak, T. B. &amp; Stoddard, C. S. Climate change effects on the processing tomato growing season in California using growing degree day model. Model. Earth Syst. Environ. <b>4<\/b>, 765\u2013775 (2018).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"noopener nofollow\" data-track-label=\"10.1007\/s40808-018-0460-y\" data-track-item_id=\"10.1007\/s40808-018-0460-y\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/link.springer.com\/doi\/10.1007\/s40808-018-0460-y\" aria-label=\"Article reference 73\" data-doi=\"10.1007\/s40808-018-0460-y\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 73\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Climate%20change%20effects%20on%20the%20processing%20tomato%20growing%20season%20in%20California%20using%20growing%20degree%20day%20model&amp;journal=Model.%20Earth%20Syst.%20Environ.&amp;doi=10.1007%2Fs40808-018-0460-y&amp;volume=4&amp;pages=765-775&amp;publication_year=2018&amp;author=Pathak%2CTB&amp;author=Stoddard%2CCS\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"74.\">\n<p class=\"c-article-references__text\" id=\"ref-CR74\">Zhang, Z., Jin, Y., Chen, B. &amp; Brown, P. California almond yield prediction at the orchard level with a machine learning approach. Front. Plant Sci. <a href=\"https:\/\/doi.org\/10.3389\/fpls.2019.00809\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.3389\/fpls.2019.00809\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.3389\/fpls.2019.00809<\/a> (2019).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"75.\">\n<p class=\"c-article-references__text\" id=\"ref-CR75\">Fader, M., Shi, S., von Bloh, W., Bondeau, A. &amp; Cramer, W. Mediterranean irrigation under climate change: more efficient irrigation needed to compensate for increases in irrigation water requirements. Hydrol. Earth Syst. Sci. <b>20<\/b>, 953\u2013973 (2016).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.5194\/hess-20-953-2016\" data-track-item_id=\"10.5194\/hess-20-953-2016\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.5194%2Fhess-20-953-2016\" aria-label=\"Article reference 75\" data-doi=\"10.5194\/hess-20-953-2016\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 75\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Mediterranean%20irrigation%20under%20climate%20change%3A%20more%20efficient%20irrigation%20needed%20to%20compensate%20for%20increases%20in%20irrigation%20water%20requirements&amp;journal=Hydrol.%20Earth%20Syst.%20Sci.&amp;doi=10.5194%2Fhess-20-953-2016&amp;volume=20&amp;pages=953-973&amp;publication_year=2016&amp;author=Fader%2CM&amp;author=Shi%2CS&amp;author=Bloh%2CW&amp;author=Bondeau%2CA&amp;author=Cramer%2CW\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"76.\">\n<p class=\"c-article-references__text\" id=\"ref-CR76\">United States Department of Agriculture Natural Resources Conservation Service. CA Water Supply Outlook Report\u2014May 2023 <a href=\"https:\/\/www.nrcs.usda.gov\/sites\/default\/files\/2023-02\/CA-Water%20Supply%20Outlook%20Report-Feb%202023.pdf\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"https:\/\/www.nrcs.usda.gov\/sites\/default\/files\/2023-02\/CA-Water%20Supply%20Outlook%20Report-Feb%202023.pdf\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/www.nrcs.usda.gov\/sites\/default\/files\/2023-02\/CA-Water%20Supply%20Outlook%20Report-Feb%202023.pdf<\/a> (2023).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"77.\">\n<p class=\"c-article-references__text\" id=\"ref-CR77\">Gebremichael, M., Krishnamurthy, P. K., Ghebremichael, L. T. &amp; Alam, S. What drives crop land use change during multi-year droughts in California\u2019s central valley? Prices or concern for water? Remote Sens. <b>13<\/b>, 650 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.3390\/rs13040650\" data-track-item_id=\"10.3390\/rs13040650\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.3390%2Frs13040650\" aria-label=\"Article reference 77\" data-doi=\"10.3390\/rs13040650\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 77\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=What%20drives%20crop%20land%20use%20change%20during%20multi-year%20droughts%20in%20California%E2%80%99s%20central%20valley%3F%20Prices%20or%20concern%20for%20water%3F&amp;journal=Remote%20Sens.&amp;doi=10.3390%2Frs13040650&amp;volume=13&amp;publication_year=2021&amp;author=Gebremichael%2CM&amp;author=Krishnamurthy%2CPK&amp;author=Ghebremichael%2CLT&amp;author=Alam%2CS\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"78.\">\n<p class=\"c-article-references__text\" id=\"ref-CR78\">Nelson, K. S. &amp; Burchfield, E. K. Effects of the structure of water rights on agricultural production during drought: a spatiotemporal analysis of California\u2019s central valley. Water Resour. Res. <b>53<\/b>, 8293\u20138309 (2017).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1002\/2017WR020666\" data-track-item_id=\"10.1002\/2017WR020666\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1002%2F2017WR020666\" aria-label=\"Article reference 78\" data-doi=\"10.1002\/2017WR020666\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 78\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Effects%20of%20the%20structure%20of%20water%20rights%20on%20agricultural%20production%20during%20drought%3A%20a%20spatiotemporal%20analysis%20of%20California%E2%80%99s%20central%20valley&amp;journal=Water%20Resour.%20Res.&amp;doi=10.1002%2F2017WR020666&amp;volume=53&amp;pages=8293-8309&amp;publication_year=2017&amp;author=Nelson%2CKS&amp;author=Burchfield%2CEK\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"79.\">\n<p class=\"c-article-references__text\" id=\"ref-CR79\">Ruess, P. J., Konar, M., Wanders, N. &amp; Bierkens, M. F. P. Total irrigation by crop in the Continental United States from 2008 to 2020. Sci. Data <b>11<\/b>, 395 (2024).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s41597-024-03244-w\" data-track-item_id=\"10.1038\/s41597-024-03244-w\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs41597-024-03244-w\" aria-label=\"Article reference 79\" data-doi=\"10.1038\/s41597-024-03244-w\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 79\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Total%20irrigation%20by%20crop%20in%20the%20Continental%20United%20States%20from%202008%20to%202020&amp;journal=Sci.%20Data&amp;doi=10.1038%2Fs41597-024-03244-w&amp;volume=11&amp;publication_year=2024&amp;author=Ruess%2CPJ&amp;author=Konar%2CM&amp;author=Wanders%2CN&amp;author=Bierkens%2CMFP\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"80.\">\n<p class=\"c-article-references__text\" id=\"ref-CR80\">Agrawal, T., Hirons, M. &amp; Gathorne-Hardy, A. Understanding farmers\u2019 cropping decisions and implications for crop diversity conservation: Insights from Central India. Curr. Res. Environ. Sustainability <b>3<\/b>, 100068 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.crsust.2021.100068\" data-track-item_id=\"10.1016\/j.crsust.2021.100068\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.crsust.2021.100068\" aria-label=\"Article reference 80\" data-doi=\"10.1016\/j.crsust.2021.100068\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 80\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Understanding%20farmers%E2%80%99%20cropping%20decisions%20and%20implications%20for%20crop%20diversity%20conservation%3A%20Insights%20from%20Central%20India&amp;journal=Curr.%20Res.%20Environ.%20Sustainability&amp;doi=10.1016%2Fj.crsust.2021.100068&amp;volume=3&amp;publication_year=2021&amp;author=Agrawal%2CT&amp;author=Hirons%2CM&amp;author=Gathorne-Hardy%2CA\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"81.\">\n<p class=\"c-article-references__text\" id=\"ref-CR81\">Escriva-Bou, A., Medell\u00edn-Azuara, J., Hanak, E., Abatzoglou, J. &amp; Viers, J. Drought and California\u2019s Agriculture (Escriva-Bou Research Group, 2022).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"82.\">\n<p class=\"c-article-references__text\" id=\"ref-CR82\">Guido, Z. et al. Farmer forecasts: Impacts of seasonal rainfall expectations on agricultural decision-making in Sub-Saharan Africa. Clim. Risk Manag. <b>30<\/b>, 100247 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.crm.2020.100247\" data-track-item_id=\"10.1016\/j.crm.2020.100247\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.crm.2020.100247\" aria-label=\"Article reference 82\" data-doi=\"10.1016\/j.crm.2020.100247\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 82\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Farmer%20forecasts%3A%20Impacts%20of%20seasonal%20rainfall%20expectations%20on%20agricultural%20decision-making%20in%20Sub-Saharan%20Africa&amp;journal=Clim.%20Risk%20Manag.&amp;doi=10.1016%2Fj.crm.2020.100247&amp;volume=30&amp;publication_year=2020&amp;author=Guido%2CZ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"83.\">\n<p class=\"c-article-references__text\" id=\"ref-CR83\">Peterson, C., Escriva-Bou, A., Medell\u00edn-Azuara, J. &amp; Cole, S. Water Use in California\u2019s Agriculture (PPIC, 2023).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"84.\">\n<p class=\"c-article-references__text\" id=\"ref-CR84\">Cheng, R., Novak, L. &amp; Schneider, T. Predicting the interannual variability of California\u2019s total annual precipitation. Geophys. Res. Lett. <b>48<\/b>, e2020GL091465 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2020GL091465\" data-track-item_id=\"10.1029\/2020GL091465\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2020GL091465\" aria-label=\"Article reference 84\" data-doi=\"10.1029\/2020GL091465\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 84\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Predicting%20the%20interannual%20variability%20of%20California%E2%80%99s%20total%20annual%20precipitation&amp;journal=Geophys.%20Res.%20Lett.&amp;doi=10.1029%2F2020GL091465&amp;volume=48&amp;publication_year=2021&amp;author=Cheng%2CR&amp;author=Novak%2CL&amp;author=Schneider%2CT\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"85.\">\n<p class=\"c-article-references__text\" id=\"ref-CR85\">Pierrat, Z. A. et al. The biological basis for using optical signals to track evergreen needleleaf photosynthesis. BioScience <b>74<\/b>, 130\u2013145 (2024).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1093\/biosci\/biad116\" data-track-item_id=\"10.1093\/biosci\/biad116\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1093%2Fbiosci%2Fbiad116\" aria-label=\"Article reference 85\" data-doi=\"10.1093\/biosci\/biad116\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 85\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%20biological%20basis%20for%20using%20optical%20signals%20to%20track%20evergreen%20needleleaf%20photosynthesis&amp;journal=BioScience&amp;doi=10.1093%2Fbiosci%2Fbiad116&amp;volume=74&amp;pages=130-145&amp;publication_year=2024&amp;author=Pierrat%2CZA\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"86.\">\n<p class=\"c-article-references__text\" id=\"ref-CR86\">Hern\u00e1ndez Ayala, J. J., Mann, J. &amp; Grosvenor, E. Antecedent rainfall, excessive vegetation growth and its relation to wildfire burned areas in California. Earth Space Sci. <b>8<\/b>, e2020EA001624 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2020EA001624\" data-track-item_id=\"10.1029\/2020EA001624\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2020EA001624\" aria-label=\"Article reference 86\" data-doi=\"10.1029\/2020EA001624\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 86\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Antecedent%20rainfall%2C%20excessive%20vegetation%20growth%20and%20its%20relation%20to%20wildfire%20burned%20areas%20in%20California&amp;journal=Earth%20Space%20Sci.&amp;doi=10.1029%2F2020EA001624&amp;volume=8&amp;publication_year=2021&amp;author=Hern%C3%A1ndez%20Ayala%2CJJ&amp;author=Mann%2CJ&amp;author=Grosvenor%2CE\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"87.\">\n<p class=\"c-article-references__text\" id=\"ref-CR87\">Farahmand, A., Stavros, E. N., Reager, J. T. &amp; Behrangi, A. Introducing spatially distributed fire danger from earth observations (FDEO) using satellite-based data in the contiguous United States. Remote Sens. <b>12<\/b>, 1252 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.3390\/rs12081252\" data-track-item_id=\"10.3390\/rs12081252\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.3390%2Frs12081252\" aria-label=\"Article reference 87\" data-doi=\"10.3390\/rs12081252\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 87\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Introducing%20spatially%20distributed%20fire%20danger%20from%20earth%20observations%20%28FDEO%29%20using%20satellite-based%20data%20in%20the%20contiguous%20United%20States&amp;journal=Remote%20Sens.&amp;doi=10.3390%2Frs12081252&amp;volume=12&amp;publication_year=2020&amp;author=Farahmand%2CA&amp;author=Stavros%2CEN&amp;author=Reager%2CJT&amp;author=Behrangi%2CA\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"88.\">\n<p class=\"c-article-references__text\" id=\"ref-CR88\">Farahmand, A. et al. Satellite hydrology observations as operational indicators of forecasted fire danger across the contiguous United States. Nat. Hazards Earth Syst. Sci. <b>20<\/b>, 1097\u20131106 (2020).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.5194\/nhess-20-1097-2020\" data-track-item_id=\"10.5194\/nhess-20-1097-2020\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.5194%2Fnhess-20-1097-2020\" aria-label=\"Article reference 88\" data-doi=\"10.5194\/nhess-20-1097-2020\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 88\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Satellite%20hydrology%20observations%20as%20operational%20indicators%20of%20forecasted%20fire%20danger%20across%20the%20contiguous%20United%20States&amp;journal=Nat.%20Hazards%20Earth%20Syst.%20Sci.&amp;doi=10.5194%2Fnhess-20-1097-2020&amp;volume=20&amp;pages=1097-1106&amp;publication_year=2020&amp;author=Farahmand%2CA\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"89.\">\n<p class=\"c-article-references__text\" id=\"ref-CR89\">Jensen, D. et al. The sensitivity of US wildfire occurrence to pre-season soil moisture conditions across ecosystems. Environ. Res. Lett. <b>13<\/b>, 014021 (2018).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1088\/1748-9326\/aa9853\" data-track-item_id=\"10.1088\/1748-9326\/aa9853\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1088%2F1748-9326%2Faa9853\" aria-label=\"Article reference 89\" data-doi=\"10.1088\/1748-9326\/aa9853\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 89\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%20sensitivity%20of%20US%20wildfire%20occurrence%20to%20pre-season%20soil%20moisture%20conditions%20across%20ecosystems&amp;journal=Environ.%20Res.%20Lett.&amp;doi=10.1088%2F1748-9326%2Faa9853&amp;volume=13&amp;publication_year=2018&amp;author=Jensen%2CD\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"90.\">\n<p class=\"c-article-references__text\" id=\"ref-CR90\">Guirguis, K. et al. Winter wet\u2013dry weather patterns driving atmospheric rivers and Santa Ana winds provide evidence for increasing wildfire hazard in California. Clim. Dyn. <b>60<\/b>, 1729\u20131749 (2023).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"noopener nofollow\" data-track-label=\"10.1007\/s00382-022-06361-7\" data-track-item_id=\"10.1007\/s00382-022-06361-7\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/link.springer.com\/doi\/10.1007\/s00382-022-06361-7\" aria-label=\"Article reference 90\" data-doi=\"10.1007\/s00382-022-06361-7\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 90\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Winter%20wet%E2%80%93dry%20weather%20patterns%20driving%20atmospheric%20rivers%20and%20Santa%20Ana%20winds%20provide%20evidence%20for%20increasing%20wildfire%20hazard%20in%20California&amp;journal=Clim.%20Dyn.&amp;doi=10.1007%2Fs00382-022-06361-7&amp;volume=60&amp;pages=1729-1749&amp;publication_year=2023&amp;author=Guirguis%2CK\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"91.\">\n<p class=\"c-article-references__text\" id=\"ref-CR91\">Keeley, J. E. &amp; Syphard, A. D. Large California wildfires: 2020 fires in historical context. Fire Ecol. <b>17<\/b>, 22 (2021).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"noopener nofollow\" data-track-label=\"10.1186\/s42408-021-00110-7\" data-track-item_id=\"10.1186\/s42408-021-00110-7\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/link.springer.com\/doi\/10.1186\/s42408-021-00110-7\" aria-label=\"Article reference 91\" data-doi=\"10.1186\/s42408-021-00110-7\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 91\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Large%20California%20wildfires%3A%202020%20fires%20in%20historical%20context&amp;journal=Fire%20Ecol.&amp;doi=10.1186%2Fs42408-021-00110-7&amp;volume=17&amp;publication_year=2021&amp;author=Keeley%2CJE&amp;author=Syphard%2CAD\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"92.\">\n<p class=\"c-article-references__text\" id=\"ref-CR92\">Safford, H. D. et al. The 2020 California fire season: A year like no other, a return to the past or a harbinger of the future? Glob. Ecol. Biogeogr. <b>31<\/b>, 2005\u20132025 (2022).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1111\/geb.13498\" data-track-item_id=\"10.1111\/geb.13498\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1111%2Fgeb.13498\" aria-label=\"Article reference 92\" data-doi=\"10.1111\/geb.13498\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 92\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%202020%20California%20fire%20season%3A%20A%20year%20like%20no%20other%2C%20a%20return%20to%20the%20past%20or%20a%20harbinger%20of%20the%20future%3F&amp;journal=Glob.%20Ecol.%20Biogeogr.&amp;doi=10.1111%2Fgeb.13498&amp;volume=31&amp;pages=2005-2025&amp;publication_year=2022&amp;author=Safford%2CHD\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"93.\">\n<p class=\"c-article-references__text\" id=\"ref-CR93\">Toohey. California Wildfires have Already Burned 90,000 Acres, and Summer is Just Beginning (Los Angeles Times, 2024).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"94.\">\n<p class=\"c-article-references__text\" id=\"ref-CR94\">Mehta, P. et al. Half of twenty-first century global irrigation expansion has been in water-stressed regions. Nat. Water <b>2<\/b>, 254\u2013261 (2024).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s44221-024-00206-9\" data-track-item_id=\"10.1038\/s44221-024-00206-9\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs44221-024-00206-9\" aria-label=\"Article reference 94\" data-doi=\"10.1038\/s44221-024-00206-9\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 94\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Half%20of%20twenty-first%20century%20global%20irrigation%20expansion%20has%20been%20in%20water-stressed%20regions&amp;journal=Nat.%20Water&amp;doi=10.1038%2Fs44221-024-00206-9&amp;volume=2&amp;pages=254-261&amp;publication_year=2024&amp;author=Mehta%2CP\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"95.\">\n<p class=\"c-article-references__text\" id=\"ref-CR95\">McDermid, S. et al. Irrigation in the Earth system. Nat. Rev. Earth Environ. <b>4<\/b>, 435\u2013453 (2023).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1038\/s43017-023-00438-5\" data-track-item_id=\"10.1038\/s43017-023-00438-5\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1038%2Fs43017-023-00438-5\" aria-label=\"Article reference 95\" data-doi=\"10.1038\/s43017-023-00438-5\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 95\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Irrigation%20in%20the%20Earth%20system&amp;journal=Nat.%20Rev.%20Earth%20Environ.&amp;doi=10.1038%2Fs43017-023-00438-5&amp;volume=4&amp;pages=435-453&amp;publication_year=2023&amp;author=McDermid%2CS\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"96.\">\n<p class=\"c-article-references__text\" id=\"ref-CR96\">Wada, Y. et al. Global monthly water stress: II. Water demand and severity of water stress. Water Resour. Res. <a href=\"https:\/\/doi.org\/10.1029\/2010WR009792\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.1029\/2010WR009792\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.1029\/2010WR009792<\/a> (2011).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"97.\">\n<p class=\"c-article-references__text\" id=\"ref-CR97\">Volk, J. M. et al. Development of a Benchmark Eddy flux evapotranspiration dataset for evaluation of satellite-driven evapotranspiration models over the CONUS. Agric. For. Meteorol. <b>331<\/b>, 109307 (2023).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/j.agrformet.2023.109307\" data-track-item_id=\"10.1016\/j.agrformet.2023.109307\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2Fj.agrformet.2023.109307\" aria-label=\"Article reference 97\" data-doi=\"10.1016\/j.agrformet.2023.109307\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 97\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Development%20of%20a%20Benchmark%20Eddy%20flux%20evapotranspiration%20dataset%20for%20evaluation%20of%20satellite-driven%20evapotranspiration%20models%20over%20the%20CONUS&amp;journal=Agric.%20For.%20Meteorol.&amp;doi=10.1016%2Fj.agrformet.2023.109307&amp;volume=331&amp;publication_year=2023&amp;author=Volk%2CJM\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"98.\">\n<p class=\"c-article-references__text\" id=\"ref-CR98\">Ek, M. B. et al. Implementation of Noah land surface model advances in the National Centers for Environmental Prediction operational mesoscale Eta model. J. Geophys. Res. Atmos. <a href=\"https:\/\/doi.org\/10.1029\/2002JD003296\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.1029\/2002JD003296\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.1029\/2002JD003296<\/a> (2003).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"99.\">\n<p class=\"c-article-references__text\" id=\"ref-CR99\">Koster, R. D. &amp; Suarez, M. J. The components of a \u2018SVAT\u2019 scheme and their effects on a GCM\u2019s hydrological cycle. Adv. Water Resour. <b>17<\/b>, 61\u201378 (1994).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1016\/0309-1708(94)90024-8\" data-track-item_id=\"10.1016\/0309-1708(94)90024-8\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1016%2F0309-1708%2894%2990024-8\" aria-label=\"Article reference 99\" data-doi=\"10.1016\/0309-1708(94)90024-8\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 99\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=The%20components%20of%20a%20%E2%80%98SVAT%E2%80%99%20scheme%20and%20their%20effects%20on%20a%20GCM%E2%80%99s%20hydrological%20cycle&amp;journal=Adv.%20Water%20Resour.&amp;doi=10.1016%2F0309-1708%2894%2990024-8&amp;volume=17&amp;pages=61-78&amp;publication_year=1994&amp;author=Koster%2CRD&amp;author=Suarez%2CMJ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"100.\">\n<p class=\"c-article-references__text\" id=\"ref-CR100\">Liang, X., Lettenmaier, D. P., Wood, E. F. &amp; Burges, S. J. A simple hydrologically based model of land surface water and energy fluxes for general circulation models. J. Geophys. Res. Atmos. <b>99<\/b>, 14415\u201314428 (1994).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/94JD00483\" data-track-item_id=\"10.1029\/94JD00483\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F94JD00483\" aria-label=\"Article reference 100\" data-doi=\"10.1029\/94JD00483\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 100\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=A%20simple%20hydrologically%20based%20model%20of%20land%20surface%20water%20and%20energy%20fluxes%20for%20general%20circulation%20models&amp;journal=J.%20Geophys.%20Res.%20Atmos.&amp;doi=10.1029%2F94JD00483&amp;volume=99&amp;pages=14415-14428&amp;publication_year=1994&amp;author=Liang%2CX&amp;author=Lettenmaier%2CDP&amp;author=Wood%2CEF&amp;author=Burges%2CSJ\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"101.\">\n<p class=\"c-article-references__text\" id=\"ref-CR101\">Obata, K., Miura, T., Yoshioka, H. &amp; Huete, A. R. Derivation of a MODIS-compatible enhanced vegetation index from visible infrared imaging radiometer suite spectral reflectances using vegetation isoline equations. JARS. <b>7<\/b>, 073467 (2013).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 101\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Derivation%20of%20a%20MODIS-compatible%20enhanced%20vegetation%20index%20from%20visible%20infrared%20imaging%20radiometer%20suite%20spectral%20reflectances%20using%20vegetation%20isoline%20equations&amp;journal=JARS&amp;volume=7&amp;publication_year=2013&amp;author=Obata%2CK&amp;author=Miura%2CT&amp;author=Yoshioka%2CH&amp;author=Huete%2CAR\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"102.\">\n<p class=\"c-article-references__text\" id=\"ref-CR102\">Vermote, E. VIIRS\/NPP Vegetation Indices Monthly L3 Global 0.05Deg CMG V002. [Monthly EVI, NDVI, EVI2] (NASA EOSDIS Land Processes Distributed Active Archive Center, accessed 01 Mar 2024); <a href=\"https:\/\/doi.org\/10.5067\/VIIRS\/VNP13C2.002\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.5067\/VIIRS\/VNP13C2.002\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.5067\/VIIRS\/VNP13C2.002<\/a>. (2023).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"103.\">\n<p class=\"c-article-references__text\" id=\"ref-CR103\">NLDAS Project. NLDAS Secondary Forcing Data L4 Hourly 0.125\u2009\u00d7\u20090.125 degree V2.0. NASA Goddard Earth Sciences Data and Information Services Center. <a href=\"https:\/\/doi.org\/10.5067\/96S0R3LFOBTU\" data-track=\"click_references\" data-track-action=\"external reference\" data-track-value=\"external reference\" data-track-label=\"10.5067\/96S0R3LFOBTU\" rel=\"nofollow noopener\" target=\"_blank\">https:\/\/doi.org\/10.5067\/96S0R3LFOBTU<\/a> (2020).<\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"104.\">\n<p class=\"c-article-references__text\" id=\"ref-CR104\">Allen, R. G., Tasumi, M. &amp; Trezza, R. Satellite-based energy balance for mapping evapotranspiration with internalized calibration (METRIC)\u2014model. J. Irrig. Drain. Eng. <b>133<\/b>, 380\u2013394 (2007).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1061\/(ASCE)0733-9437(2007)133:4(380)\" data-track-item_id=\"10.1061\/(ASCE)0733-9437(2007)133:4(380)\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1061%2F%28ASCE%290733-9437%282007%29133%3A4%28380%29\" aria-label=\"Article reference 104\" data-doi=\"10.1061\/(ASCE)0733-9437(2007)133:4(380)\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 104\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Satellite-based%20energy%20balance%20for%20mapping%20evapotranspiration%20with%20internalized%20calibration%20%28METRIC%29%E2%80%94model&amp;journal=J.%20Irrig.%20Drain.%20Eng.&amp;doi=10.1061%2F%28ASCE%290733-9437%282007%29133%3A4%28380%29&amp;volume=133&amp;pages=380-394&amp;publication_year=2007&amp;author=Allen%2CRG&amp;author=Tasumi%2CM&amp;author=Trezza%2CR\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n<li class=\"c-article-references__item js-c-reading-companion-references-item\" data-counter=\"105.\">\n<p class=\"c-article-references__text\" id=\"ref-CR105\">Pierrat, Z. A. et al. Evaluation of ECOSTRESS collection 2 evapotranspiration products: strengths and uncertainties for evapotranspiration modeling. Water Resour. Res. <b>61<\/b>, e2024WR039404 (2025).<\/p>\n<p class=\"c-article-references__links u-hide-print\"><a data-track=\"click_references\" rel=\"nofollow noopener\" data-track-label=\"10.1029\/2024WR039404\" data-track-item_id=\"10.1029\/2024WR039404\" data-track-value=\"article reference\" data-track-action=\"article reference\" href=\"https:\/\/doi.org\/10.1029%2F2024WR039404\" aria-label=\"Article reference 105\" data-doi=\"10.1029\/2024WR039404\" target=\"_blank\">Article<\/a>\u00a0<br \/>\n    <a data-track=\"click_references\" data-track-action=\"google scholar reference\" data-track-value=\"google scholar reference\" data-track-label=\"link\" data-track-item_id=\"link\" rel=\"nofollow noopener\" aria-label=\"Google Scholar reference 105\" href=\"http:\/\/scholar.google.com\/scholar_lookup?&amp;title=Evaluation%20of%20ECOSTRESS%20collection%202%20evapotranspiration%20products%3A%20strengths%20and%20uncertainties%20for%20evapotranspiration%20modeling&amp;journal=Water%20Resour.%20Res.&amp;doi=10.1029%2F2024WR039404&amp;volume=61&amp;publication_year=2025&amp;author=Pierrat%2CZA\" target=\"_blank\"><br \/>\n                    Google Scholar<\/a>\u00a0\n                <\/p>\n<\/li>\n","protected":false},"excerpt":{"rendered":"University of California Agriculture and Natural Resources. California\u2019s Working Landscape https:\/\/www.ucop.edu\/innovation-transfer-operations\/_files\/Econ%20Impact%20Rpts\/anr-ca-working-landscape-2019.pdf (2019). Peterson, C., Pittelkow, C. &amp; Lundy,&hellip;\n","protected":false},"author":2,"featured_media":278024,"comment_status":"","ping_status":"","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[269],"tags":[2567,442,140454,140453,18,440,6129,59056,41664,19,17,59057,133,30000,37277],"class_list":{"0":"post-278023","1":"post","2":"type-post","3":"status-publish","4":"format-standard","5":"has-post-thumbnail","7":"category-environment","8":"tag-agriculture","9":"tag-climate-change","10":"tag-development-and-social-change","11":"tag-development-and-sustainability","12":"tag-eire","13":"tag-environment","14":"tag-environmental-impact","15":"tag-environmental-science-and-engineering","16":"tag-hydrology","17":"tag-ie","18":"tag-ireland","19":"tag-renewable-and-green-energy","20":"tag-science","21":"tag-sustainable-architecture-green-buildings","22":"tag-water-resources"},"share_on_mastodon":{"url":"https:\/\/pubeurope.com\/@ie\/115872049558407126","error":""},"_links":{"self":[{"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/posts\/278023","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/users\/2"}],"replies":[{"embeddable":true,"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/comments?post=278023"}],"version-history":[{"count":0,"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/posts\/278023\/revisions"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/media\/278024"}],"wp:attachment":[{"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/media?parent=278023"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/categories?post=278023"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.europesays.com\/ie\/wp-json\/wp\/v2\/tags?post=278023"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}