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Estimation of high-resolution terrestrial evapotranspiration from Landsat data using a simple Taylor skill fusion method
Resumen
Estimation of high-resolution terrestrial evapotranspiration (ET) from Landsat data is important in many climatic, hydrologic, and agricultural applications, as it can help bridging the gap between existing coarse-resolution ET products and point-based field measurements. However, there is large uncertainty among existing ET products from Landsat that limit their application. This study presents a simple Taylor skill fusion (STS) method that merges five
[ver mas...]
Estimation of high-resolution terrestrial evapotranspiration (ET) from Landsat data is important in many climatic, hydrologic, and agricultural applications, as it can help bridging the gap between existing coarse-resolution ET products and point-based field measurements. However, there is large uncertainty among existing ET products from Landsat that limit their application. This study presents a simple Taylor skill fusion (STS) method that merges five Landsat-based ET products and directly measured ET from eddy covariance (EC) to improve the global estimation of terrestrial ET. The STS method uses a weighted average of the individual ET products and weights are determined by their Taylor skill scores (S). The validation with site-scale measurements at 206 EC flux towers showed large differences and uncertainties among the five ET products. The merged ET product exhibited the best performance with a decrease in the averaged root-mean-square error (RMSE) by 2–5 W/m2 when compared to the individual products. To evaluate the reliability of the STS method at the regional scale, the weights of the STS method for these five ET products were determined using EC ground-measurements. An example of regional ET mapping demonstrates that the STS-merged ET can effectively integrate the individual Landsat ET products. Our proposed method provides an improved high-resolution ET product for identifying agricultural crop water consumption and providing a diagnostic assessment for global land surface models.
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Autor
Yunjun, Yao;
Shunlin, Liang;
Yuhu, Zhang;
Jiquan, Chen;
Xianglan, Li;
Kun, Jia;
Xiaotong, Zhang;
Fisher, Joshua B.;
Xuanyu, Wang;
Lilin, Zhang;
Jia, Xu;
Changliang, Shao;
Posse Beaulieu, Gabriela;
Yingnian, Li;
Magliulo, Vincenzo;
Varlagin, Andrej;
Moors, Eddy J.;
Boike, Julia;
Macfarlane, Craig;
Kato, Tomomichi;
Buchmann, Nina;
Billesbach, D.P.;
Beringer, Jason;
Wolf, Sebastian;
Papuga, Shirley A.;
Wohlfahrt, Georg;
Montagnani, Leonardo;
Ardö, Jonas;
Paul-Limoges, Eugénie;
Emmel, Carmen;
Hörtnagl, Lukas;
Sachs, Torsten;
Gruening, Carsten;
Gioli, Beniamino;
López-Ballesteros, Ana;
Steinbrecher, Rainer;
Gielen, Bert;
Fuente
Journal of hydrology 553 : 508-526. (October 2017)
Fecha
2017-10
ISSN
0022-1694
Formato
pdf
Tipo de documento
artículo
Palabras Claves
Derechos de acceso
Restringido
Excepto donde se diga explicitamente, este item se publica bajo la siguiente descripción: Creative Commons Attribution-NonCommercial-ShareAlike 2.5 Unported (CC BY-NC-SA 2.5)