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W4312172611 endingPage "68" @default.
W4312172611 startingPage "68" @default.
W4312172611 abstract "Accurate characterization of evapotranspiration (ET) is imperative in water-limited cropping systems such as California vineyards and almond orchards. Satellite-based ET modeling techniques, including the atmosphere–land exchange inverse model (ALEXI) and associated flux disaggregation technique (DisALEXI), have proven reliable in determining field scale ET. However, validation efforts typically focus on ET and omit an evaluation of partitioned evaporation (E) and transpiration (T). ALEXI/DisALEXI is based on the two-source energy balance (TSEB) model, making it uniquely qualified to derive E and T individually. The current study evaluated E and T estimates derived using two formulations of DisALEXI; one based on Priestley-Taylor (DisALEXI-PT) and the other on Penman-Monteith (DisALEXI-PM). The modeled values were validated against partitioned fluxes derived from the conditional eddy covariance (CEC) approach using EC flux towers in three wine grape vineyards and three almond orchards for the year 2021. Modeled estimates were derived using Landsat 8 Collection 2 thermal infrared and surface reflectance imagery as well as Harmonized Landsat and Sentinel-2 surface reflectance datasets as input into DisALEXI. The results indicated that the modeled total ET fluxes were similar between the two methods, but the partitioned values diverged, with DisALEXI-PT overestimating E and slightly underestimating T when compared to CEC estimates. Conversely, DisALEXI-PM agreed better with CEC-derived E and overestimated T estimates under non-advective conditions. Compared to one another, DisALEXI-PM estimated canopy temperatures ~5 °C cooler and soil temperatures ~5 °C warmer than DisALEXI-PT, causing differences in E and T of −2.6 mm day−1 and +2.6 mm day−1, respectively. The evaluation of the iterative process required for DisALEXI indicates DisALEXI-PM ET values converge on ALEXI ET with proportionate adjustments to E and T, while DisALEXI-PT convergence is driven by adjustments to E. The analysis presented here can potentially drive improvements in the modeling framework to provide specific soil and canopy consumptive water use information in unique canopy structures, allowing for improved irrigation and water use efficiencies in these water-limited systems." @default.
W4312172611 created "2023-01-04" @default.
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W4312172611 date "2022-12-23" @default.
W4312172611 modified "2023-09-23" @default.
W4312172611 title "Evaluation of Partitioned Evaporation and Transpiration Estimates within the DisALEXI Modeling Framework over Irrigated Crops in California" @default.
W4312172611 cites W1483093516 @default.
W4312172611 cites W1601065746 @default.
W4312172611 cites W1980855134 @default.
W4312172611 cites W1983407123 @default.
W4312172611 cites W1984443733 @default.
W4312172611 cites W1987446505 @default.
W4312172611 cites W1987837860 @default.
W4312172611 cites W1988512587 @default.
W4312172611 cites W1993873837 @default.
W4312172611 cites W1996878377 @default.
W4312172611 cites W2016562231 @default.
W4312172611 cites W2024362160 @default.
W4312172611 cites W2024597380 @default.
W4312172611 cites W2026936042 @default.
W4312172611 cites W2031295113 @default.
W4312172611 cites W2032736943 @default.
W4312172611 cites W2033747955 @default.
W4312172611 cites W2036635435 @default.
W4312172611 cites W2046987138 @default.
W4312172611 cites W2051798177 @default.
W4312172611 cites W2059622506 @default.
W4312172611 cites W2063713978 @default.
W4312172611 cites W2076190474 @default.
W4312172611 cites W2079285700 @default.
W4312172611 cites W2091601871 @default.
W4312172611 cites W2093905759 @default.
W4312172611 cites W2110832913 @default.
W4312172611 cites W2116287613 @default.
W4312172611 cites W2138408852 @default.
W4312172611 cites W2144260204 @default.
W4312172611 cites W2144752086 @default.
W4312172611 cites W2147611675 @default.
W4312172611 cites W2148371213 @default.
W4312172611 cites W2164254717 @default.
W4312172611 cites W2172396214 @default.
W4312172611 cites W2173064161 @default.
W4312172611 cites W2173199232 @default.
W4312172611 cites W2180947422 @default.
W4312172611 cites W2181125633 @default.
W4312172611 cites W2218798479 @default.
W4312172611 cites W2296805395 @default.
W4312172611 cites W2781795355 @default.
W4312172611 cites W2796427420 @default.
W4312172611 cites W2806003677 @default.
W4312172611 cites W2890697461 @default.
W4312172611 cites W2892357206 @default.
W4312172611 cites W2896372433 @default.
W4312172611 cites W2901665524 @default.
W4312172611 cites W2902949125 @default.
W4312172611 cites W2922004833 @default.
W4312172611 cites W2944806864 @default.
W4312172611 cites W2972933435 @default.
W4312172611 cites W3000280057 @default.
W4312172611 cites W3001360418 @default.
W4312172611 cites W3010657180 @default.
W4312172611 cites W3023475770 @default.
W4312172611 cites W3039664348 @default.
W4312172611 cites W3045245863 @default.
W4312172611 cites W3100645060 @default.
W4312172611 cites W3196578471 @default.
W4312172611 cites W3199172492 @default.
W4312172611 cites W3208469531 @default.
W4312172611 cites W3214192152 @default.
W4312172611 cites W4210416755 @default.
W4312172611 cites W4210761434 @default.
W4312172611 cites W4213268291 @default.
W4312172611 cites W4220797228 @default.
W4312172611 cites W4220981669 @default.
W4312172611 cites W4224050485 @default.
W4312172611 cites W4224217773 @default.
W4312172611 cites W4281260684 @default.
W4312172611 cites W4293081598 @default.
W4312172611 cites W4298466131 @default.
W4312172611 cites W4299847412 @default.
W4312172611 doi "https://doi.org/10.3390/rs15010068" @default.
W4312172611 hasPublicationYear "2022" @default.
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