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Bibliothèque Climatic Characteristics and Modeling Evaluation of Pan Evapotranspiration over Henan Province, China

Climatic Characteristics and Modeling Evaluation of Pan Evapotranspiration over Henan Province, China

Climatic Characteristics and Modeling Evaluation of Pan Evapotranspiration over Henan Province, China
Volume 9 Issue 7

Resource information

Date of publication
Juillet 2020
Resource Language
ISBN / Resource ID
10.3390/land9070229
License of the resource

Pan evapotranspiration (E) is an important physical parameter in agricultural water resources research. Many climatic factors affect E, and one of the essential challenges is to model or predict E utilizing limited climatic parameters. In this study, the performance of four different artificial neural network (ANN) algorithms i.e., multiple hidden layer back propagation (MBP), generalized regression neural network (GRNN), probabilistic neural networks (PNN), and wavelet neural network (WNN) and one empirical model namely Stephens–Stewart (SS) were employed to predict monthly E. Long-term climatic data (i.e., 1961–2013) was used for the validation of the proposed model in the Henan province of China. It was found that different models had diverse prediction accuracies in various geographical locations, MBP model outperformed other models over almost all stations (maximum R2 = 0.96), and the WNN model was the best over two sites, the accuracies of the five models ranked as MBP, WNN, GRNN, PNN, and SS. The performances of WNN and GRNN were almost the same, five-input ANN models provided better accuracy than the two-input (solar radiation (Ro) and air temperature (T)) SS empirical model (R2 = 0.80). Similarly. the two-input ANN models (maximum R2 = 0.83) also generally performed better than the two-input (Ro and T) SS empirical model. The study could reveal that the above ANN models can be used to predict E successfully in hydrological modeling over Henan Province.

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Authors and Publishers

Author(s), editor(s), contributor(s)

Zhang, Miao
Su, Bo
Nazeer, Majid
Bilal, Muhammad
Qi, Pengcheng
Han, Ge

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