Potential evapotranspiration estimation in the upper Huaihe River basin China

Authored by Meixiu Yu, Published in 2016

Item Content
Title Potential evapotranspiration estimation in the upper Huaihe River basin China
Author Xianghong Xu and Meixiu Yu and Jinli Lu and Xiaolong Liu
Journal Procedia Engineering
Year 2016
Volume 154
Issue /
Pages 1018-1025
Abstract The atmospheric evaporative demand, one of principal components in water cycle, its accurate estimation is essential for hydrological simulation and forecasting. The purpose of this paper was to propose a plant-growth based dual-source potential evapotranspiration distributed model and investigate its feasibility with the upper Huaihe River basin (China) above the Xixian station as a case study site. Based on the topography, land-use, hydrological, and meteorological data in the Xixian basin, daily gridded potential evapotranspiration was calculated by the newly-build dual-source potential evapotranspiration model during 2000-2010. The relationship between potential evapotranspiration and pan evaporation at different time scales was investigated thereafter. The result revealed that the newly-built model could capture the temporal and spatial variation patterns of potential evapotranspiration moderately well in …
Cited by 2 (Updated on Jun-11-2021)
Url https://www.sciencedirect.com/science/article/pii/S1877705816319804
Achive https://www.sciencedirect.com/science/article/pii/S1877705816319804/pdf?md5=81b0321092831a142e42dacc3925c8cd&pid=1-s2.0-S1877705816319804-main.pdf

Share on:

« PREVIOUS: Hydrological drought forecasting and assessment based on the standardized stream index in the Southwest China
NEXT: Quantifying the effect on flood regime of land-use pattern changes via hydrological simulation in the upper Huaihe River basin China »