Assessment of an evapotranspiration algorithm accounting for land cover types and photosynthetic perspectives using remote sensing images

IF 6 2区地球科学 Q1 GEOGRAPHY, PHYSICAL

GIScience & Remote Sensing Pub Date : 2023-11-16 DOI:10.1080/15481603.2023.2279802

Chanyang Sur, Won-Ho Nam, Xiang Zhang, T. Tadesse, B. Wardlow

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Abstract

ABSTRACT In this study, Eco-hydrometeorological Remote Sensing-based Penman-Monteith algorithm (Eh-RSPM) was developed by implementing the gross primary productivity into the revised Remote Sensing based Penman-Monteith algorithm (RS-PM). Evaluation of Eh-RSPM was conducted through comparison with in-situ measurements as well as model-based products (e.g. MODerate resolution Imaging Spectroradiometer (MODIS) 16 global ET products (MOD16 ET) and Surface Energy Balance System (SEBS)) during two years (2004 and 2012) in Northeast Asia. Comparison of ET from Eh-RSPM algorithm with five flux tower measurement agreed well with the flux tower datasets at the entire validation sites. Especially, Eh-RSPM showed advantages in improving the accuracy of ET at stations with relatively short canopy height (e.g. QHB and KBU site) as well as the forest site (e.g. SMK). Focusing on the forest site, Eh-RSPM exhibited slightly better statistical performance compared to MOD16. Specifically, the temporal mean bias and RMSD showed a slight improvement, decreasing from −15.40 W m−2 to −12.58 W m−2 and from 28.41 W m−2 to 25.26 W m−2, respectively. This is a key finding of this study, demonstrating the applicability of the improved ET algorithm to regions with significant forest cover. Similarly, spatial distribution of Eh-RSPM showed similar patterns with MOD16 and SEBS. Eh-RSPM strongly showed advantages over the land cover types with relatively shorter canopy height (e.g. grassland and alpine meadow) as well as the heterogeneous forest showed significant improvement in Eh-RSPM through considering the actual physiological behavior variation and influence of photosynthesis into ET calculation.

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利用遥感图像评估考虑土地覆被类型和光合作用视角的蒸散算法

ABSTRACT 在本研究中，通过将总初级生产力纳入修订的基于遥感的彭曼-蒙蒂斯算法（RS-PM），开发了基于遥感的生态水文气象彭曼-蒙蒂斯算法（Eh-RSPM）。对 Eh-RSPM 的评估是通过与东北亚地区两年（2004 年和 2012 年）的实地测量数据以及基于模式的产品（如中分辨率成像分光仪（MODIS）16 全球蒸散发产品（MOD16 蒸散发）和地表能量平衡系统（SEBS））进行比较得出的。Eh-RSPM 算法的蒸散发与五个通量塔的测量结果进行了比较，结果与整个验证地点的通量塔数据集非常吻合。特别是，Eh-RSPM 在提高冠层高度相对较低的站点（如 QHB 和 KBU 站点）以及森林站点（如 SMK）的蒸散发精度方面表现出优势。在森林站点，Eh-RSPM 的统计性能略优于 MOD16。具体而言，时间平均偏差和 RMSD 略有改善，分别从 -15.40 W m-2 降至 -12.58 W m-2 和从 28.41 W m-2 降至 25.26 W m-2。这是本研究的一个重要发现，表明改进的蒸散发算法适用于有大量森林覆盖的地区。同样，Eh-RSPM 的空间分布也显示出与 MOD16 和 SEBS 相似的模式。Eh-RSPM 在冠层高度相对较低的土地覆被类型（如草地和高山草甸）和异质森林中表现出很强的优势，通过考虑实际生理行为变化和光合作用对蒸散发计算的影响，Eh-RSPM 得到了显著改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

GIScience & Remote Sensing 地学-遥感

CiteScore

11.20

自引率

9.00%

发文量

审稿时长

6 months

期刊介绍： GIScience & Remote Sensing publishes original, peer-reviewed articles associated with geographic information systems (GIS), remote sensing of the environment (including digital image processing), geocomputation, spatial data mining, and geographic environmental modelling. Papers reflecting both basic and applied research are published.