Improving monthly mean land surface temperature estimation by merging four products using the generalized three-cornered hat method and maximum likelihood estimation
文献类型: 外文期刊
第一作者: Duan, Si-Bo
作者: Duan, Si-Bo;Li, Zhao-Liang;Liu, Xiangyang;Liu, Meng;Duan, Si-Bo;Zhou, Shuangquan;Li, Zhao-Liang;Liu, Xiangyang;Liu, Meng;Huang, Cheng;Shang, Guofei;Chang, Sheng;Zhou, Shuangquan;Zhang, Xia;Shang, Guofei
作者机构:
关键词: Monthly mean land surface temperature; (MMLST); Generalized three-cornered hat (TCH) method; Maximum likelihood estimation (MLE); Uncertainty estimation
期刊名称:REMOTE SENSING OF ENVIRONMENT ( 影响因子:13.5; 五年影响因子:14.2 )
ISSN: 0034-4257
年卷期: 2024 年 302 卷
页码:
收录情况: SCI
摘要: Land surface temperature (LST) is a critical parameter associated land surface energy and water balance at the land-atmosphere interface. Monthly mean LST (MMLST) is used not only as an input parameter for land surface models, but also as an indicator for general climate trend studies. Four MMLST products (i.e., NESDC, TPDC, ZENODO, and ERA5) were generated by different research teams and institutes using different algorithms. In this study, a new method was presented to improve MMLST estimation by merging these four products using the generalized three -cornered hat (TCH) method and maximum likelihood estimation (MLE). The generalized TCH method was used to simultaneously calculate the relative uncertainties of these four MMLST products during the period 2003-2019. In general, the smallest uncertainties are obtained for the TPDC MMLST product in most areas of the globe, whereas the largest uncertainties are achieved for the ERA5 MMLST product, especially in high -latitude regions. The MLE method was used to merge these four MMLST products and to generate a new MMLST product in consideration of the uncertainty of each individual MMLST product. In situ measurements at 25 stations from the AmeriFlux and SURFRAD networks during the period 2003-2019 were used to evaluate the accuracies of the individual and merged MMLST products. The largest root mean squared error (RMSE) of approximately 2.4 K is obtained for the TPDC MMLST product, whereas the smallest RMSE of around 1.6 K is reached for the merged MMLST product. The NESDC, ZENODO, and ERA5 MMLST products have similar RMSE of approximately 2 K. The results indicate that the merged MMLST product outperforms each individual MMLST product. The merged MMLST product shows promising prospects for climate- and global -scale studies and applications.
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