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W3112170833 endingPage "3491" @default.
W3112170833 startingPage "3491" @default.
W3112170833 abstract "Lake evaporation is an important link connecting the water cycle and the surface energy cycle and remains one of the most uncertain terms in the local catchment’s water balance. Quantifying lake evaporation and its variability is crucial to improve water resource management and understand the response of the lake system towards climate change. In this study, we evaluated the performances of nine evaporation methods at different timescales and calibrated them by using the continuous eddy covariance (EC) observation data during 2015–2018 over Erhai Lake, a highland open freshwater lake situated in the Dali valley, China. The nine evaporation methods could be classified into combination methods (Bowen-ratio energy budget, Penman, Priestley–Taylor, DeBruin–Keijman and Brutsaert–Stricker), solar radiation-based methods (Jensen–Haise and Makkink) and Dalton-based method (mass transfer and Ryan–Harleman) based on their parameterization schemes. The Dalton-based Ryan–Harleman method is most suitable for estimating evaporation at daily to weekly scales, while the combination methods and solar radiation-based method had good estimates at monthly timescale. After calibration, the biases of the Jensen–Haise and Ryan–Harleman method were slightly reduced, while the biases of the Makkink and mass transfer methods were reduced substantially. The calibrated Jensen–Haise method with small annual bias (−2.2~2.8%) and simple input variables was applied to estimate the long-term trend of evaporation during 1981–2018. The annual total evaporation showed an insignificant increasing trend of 0.30 mm year−1, mainly caused by the significant rising air temperature. This study showed the performance of evaporation methods over water bodies had large discrepancies on different time scales, which indicated the importance of the choice of evaporation methods and provided instruction for water resource management of this region under climate change." @default.
W3112170833 created "2020-12-21" @default.
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W3112170833 date "2020-12-11" @default.
W3112170833 modified "2023-10-16" @default.
W3112170833 title "Evaluation of the Performance of Different Methods for Estimating Evaporation over a Highland Open Freshwater Lake in Mountainous Area" @default.
W3112170833 cites W1103895403 @default.
W3112170833 cites W1604999394 @default.
W3112170833 cites W1919656628 @default.
W3112170833 cites W1979563121 @default.
W3112170833 cites W1981446211 @default.
W3112170833 cites W1983303911 @default.
W3112170833 cites W1992538840 @default.
W3112170833 cites W1993854871 @default.
W3112170833 cites W1997323379 @default.
W3112170833 cites W2003035210 @default.
W3112170833 cites W2004149247 @default.
W3112170833 cites W2035018326 @default.
W3112170833 cites W2036684388 @default.
W3112170833 cites W2056364324 @default.
W3112170833 cites W2067621540 @default.
W3112170833 cites W2069384557 @default.
W3112170833 cites W2074954824 @default.
W3112170833 cites W2076292572 @default.
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W3112170833 cites W2084010789 @default.
W3112170833 cites W2092749546 @default.
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W3112170833 cites W2104873887 @default.
W3112170833 cites W2114110041 @default.
W3112170833 cites W2118386433 @default.
W3112170833 cites W2121864785 @default.
W3112170833 cites W2123956273 @default.
W3112170833 cites W2132237213 @default.
W3112170833 cites W2144514335 @default.
W3112170833 cites W2144653885 @default.
W3112170833 cites W2146421864 @default.
W3112170833 cites W2166186402 @default.
W3112170833 cites W2172396214 @default.
W3112170833 cites W2176693564 @default.
W3112170833 cites W2202665948 @default.
W3112170833 cites W225052818 @default.
W3112170833 cites W2271376920 @default.
W3112170833 cites W2299953148 @default.
W3112170833 cites W2327823919 @default.
W3112170833 cites W2507506815 @default.
W3112170833 cites W2571527388 @default.
W3112170833 cites W2622513886 @default.
W3112170833 cites W2627090773 @default.
W3112170833 cites W2789268344 @default.
W3112170833 cites W2792317212 @default.
W3112170833 cites W2802716322 @default.
W3112170833 cites W2808624207 @default.
W3112170833 cites W2809208619 @default.
W3112170833 cites W2884525254 @default.
W3112170833 cites W2913556673 @default.
W3112170833 cites W2938086739 @default.
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W3112170833 cites W3002343708 @default.
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W3112170833 cites W3010788263 @default.
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W3112170833 doi "https://doi.org/10.3390/w12123491" @default.
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