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W2005509883 endingPage "402" @default.
W2005509883 startingPage "375" @default.
W2005509883 abstract "Estimating the evapotranspiration (ET) is a requirement for water resource management and agricultural productions to understand the interaction between the land surface and the atmosphere. Most remote-sensing-based ET is estimated from polar orbiting satellites having low frequencies of observation. However, observing the continuous spatio-temporal variation of ET from a geostationary satellite to determine water management usage is essential. In this study, we utilized the revised remote-sensing-based Penman–Monteith (revised RS-PM) model to estimate ET in three different timescales (instantaneous, daily, and monthly). The data from a polar orbiting satellite, the Moderate Resolution Imaging Spectroradiometer (MODIS), and a geostationary satellite, the Communication, Ocean, and Meteorological Satellite (COMS), were collected from April to December 2011 to force the revised RS-PM model. The estimated ET from COMS and MODIS was compared with measured ET obtained from two different flux tower sites having different land surface characteristics in Korea, i.e. Sulma (SMC) with mixed forest and Cheongmi (CFC) with rice paddy as dominant vegetation. Compared with flux tower measurements, the estimated ET on instantaneous and daily timescales from both satellites was highly overestimated at SMC when compared with the flux tower ET (Bias of 41.19–145.10 W m−2 and RMSE of 69.61–188.78 W m−2), while estimated ET results were slightly better at the CFC site (Bias of –27.28–13.24 W m−2 and RMSE of 45.19–71.82 W m−2, respectively). These errors in results were primarily caused due to the overestimated leaf area index that was obtained from satellite products. Nevertheless, the satellite-based ET indicated reasonable agreement with flux tower ET. Monthly average ET from both satellites showed nearly similar patterns during the entire study periods, except for the summer season. The difference between COMS and MODIS estimations during the summer season was mainly propagated due to the difference in the number of acquired satellite images. This study showed that the higher frequency of COMS than MODIS observations makes it more ideal to continuously monitor ET as a geostationary satellite with high spatio-temporal coverage of a geostationary satellite." @default.
W2005509883 created "2016-06-24" @default.
W2005509883 creator A5086373240 @default.
W2005509883 date "2015-01-02" @default.
W2005509883 modified "2023-09-27" @default.
W2005509883 title "Evaluation of remotely sensed actual evapotranspiration products from COMS and MODIS at two different flux tower sites in Korea" @default.
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W2005509883 doi "https://doi.org/10.1080/01431161.2014.998349" @default.
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