Estimating reference crop evapotranspiration with elevation based on an improved HS model

Tang Pengcheng; Xu Bing; Gao Zhanyi; Li Heping; Gao Xiaoyu; Wang Chaozi

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Estimating reference crop evapotranspiration with elevation based on an improved HS model

机译：基于改进的HS模型估算高程参考作物的蒸散量

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摘要

Estimation of ET0 in high-elevation (above sea level, ASL) areas of Tibet presents unique challenges: scarcity of monitoring stations, short-time coverage of meteorological data, low-oxygen and low-pressure environment, and strong solar radiation. In this study, altitude factors and modified temperature constants are utilized to improve the Hargreaves (HS) model based on 30-year daily meteorological data from 20 typical sites in Tibet. The improved model, Hargreaves-Elevation (HS-E) improved model, could provide better results at different time scales. Negative ET0 values were unavoidable in the HS model when applied to high-elevation areas. However, the HS-E model solved this problem and improved the accuracy of estimated ET0. In particular, the HS-E model performs better when the time scale becomes larger. Therefore, the HS-E model is highly recommended to estimate ET0 in high-elevation areas where the meteorological data are scarce, for example, in Tibet above 2,000 m.

机译：西藏高海拔（ASL以上）地区的ET0估算面临着独特的挑战：监测站稀缺，气象数据覆盖时间短，低氧和低压环境以及强烈的太阳辐射。在这项研究中，基于来自西藏20个典型地点的30年每日气象数据，利用海拔因子和修正的温度常数来改进Hargreaves（HS）模型。改进的模型Hargreaves-Elevation（HS-E）改进的模型可以在不同的时间范围内提供更好的结果。当应用于高海拔地区时，HS模型中不可避免的负ET0值是不可避免的。但是，HS-E模型解决了该问题，并提高了估计ET0的准确性。特别是，当时间尺度变大时，HS-E模型的性能会更好。因此，强烈建议使用HS-E模型在气象数据稀缺的高海拔地区（例如在2,000 m以上的西藏）估算ET0。

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来源
《Nordic Hydrology》 |2019年第2期|187-199|共13页
作者
Tang Pengcheng; Xu Bing; Gao Zhanyi; Li Heping; Gao Xiaoyu; Wang Chaozi;
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作者单位

State Key Lab Simulat & Regulat Water Cycle River, Beijing 100038, Peoples R China|China Inst Water Resources & Hydropower Res, Beijing 100038, Peoples R China|China Inst water Resources & Hydropower Res, Inst Water Resources Pastoral Area, Hohhot 010020, Peoples R China;

China Inst water Resources & Hydropower Res, Inst Water Resources Pastoral Area, Hohhot 010020, Peoples R China;

State Key Lab Simulat & Regulat Water Cycle River, Beijing 100038, Peoples R China|China Inst Water Resources & Hydropower Res, Beijing 100038, Peoples R China;

China Inst water Resources & Hydropower Res, Inst Water Resources Pastoral Area, Hohhot 010020, Peoples R China;

Inner Mongolia Agr Univ, Water Conservancy & Civil Engn Coll, Hohhot 010018, Peoples R China;

Univ Calif Davis, Dept Land Air & Water Resources, Davis, CA 95616 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Hargreaves-Elevation model; Hargreaves model; high-elevation areas; Penman-Monteith equation; reference crop evapotranspiration; Tibet;

机译：Hargreaves-Elevation模型;Hargreaves模型;高海拔地区;Penman-Monteith方程;参考作物蒸散量;西藏;

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专利

1. Estimating reference crop evapotranspiration with elevation based on an improved HS model [J] . Tang Pengcheng, Xu Bing, Gao Zhanyi, Nordic Hydrology . 2019,第1a2期

机译：基于改进的HS模型，估算参考作物蒸发术
2. Estimating crop-specific evapotranspiration using remote-sensing imagery at various spatial resolutions for improving crop growth modelling [J] . Guadalupe Sepulcre-Canto, Francoise Gellens-Meulenberghs, Alirio Arboleda, International journal of remote sensing . 2013,第9a10期

机译：使用遥感图像在各种空间分辨率下估算特定作物的蒸散量，以改善作物生长模型
3. Comment on the application of the Szilagyi-Jozsa advection-aridity model for estimating actual terrestrial evapotranspiration in"Estimating actual, potential, reference crop and pan evaporation using standard meteorological data: a pragmatic synthesis"by McMahon et al. (2013) [J] . T. A. McMahon, M. C. Peel, J. Szilagyi Hydrology and Earth System Sciences . 2013,第12期

机译：麦克马洪（McMahon）等人在“利用标准气象数据估算实际，潜在，参考作物和平底锅蒸发量：实用合成”中，估算了Szilagyi-Jozsa对流干旱模型在估算实际陆地蒸散量中的应用。（2013年）
4. Estimating actual crop evapotranspiration using Deep Stochastic Configuration Networks model and UAV-based crop coefficients in a pomegranate orchard [C] . Haoyu Niu, Dong Wang, YangQuan Chen Autonomous Air and Ground Sensing Systems for Agricultural Optimization and Phenotyping Conference . 2020

机译：使用深随机配置网络模型和石榴园中基于无人机的作物系数估算实际作物的蒸散量
5. Estimating Crop Evapotranspiration Using a Satellite Remote Sensing Based Energy Balance Model [D] . Scarborough, Charles. 2020

机译：使用基于卫星遥感的能量平衡模型估算作物蒸发
6. Comparison of five Boosting-based models for estimating daily reference evapotranspiration with limited meteorological variables [O] . Tianao Wu, Wei Zhang, Xiyun Jiao, 2020

机译：估计数气象变量的每日参考蒸发的五种升压模型的比较
7. Comment on the application of the Szilagyi–Jozsa advection–aridity model for estimating actual terrestrial evapotranspiration in "Estimating actual, potential, reference crop and pan evaporation using standard meteorological data: a pragmatic synthesis" by McMahon et al. (2013) [O] . T. A. McMahon, M. C. Peel, J. Szilagyi 2013

机译：评论szilagyi＆ndash; Jozsa平流和ndash;干旱模型用于估算实际陆地蒸发蒸腾量的评估在“使用标准气象数据估算实际，潜在，参考作物和蒸发蒸发：实用综合”中由mcmahon等人提出。（2013）

Estimating reference crop evapotranspiration with elevation based on an improved HS model

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