Document Type : Research Article
Authors
- A.A. Sabziparvar 1
- F. Tafazoli 1
- H. Aareabyaneh 1
- M. Mousavi baygi 2
- M. Ghafoori 3
- S.A. Mohseni Movahed 4
- Z. Merianji 5
1 College of Agriculture Bu-Ali Sina University
2 Department of Water Engineering, Faculty of Agriculture, Ferdowsi University of Mashhad
3 Ferdowsi University of Mashhad
4 Soil – Conservation and watershed Management Research Center
5 Agromerological Research Center, Isfahan
Abstract
Abstract
The estimation of reference evapotranspiration (ETo) is of great importance due to its applications in water resource management as well as irrigation scheduling. Difficulties associated with using lysimeters have encouraged researchers to use various ETo models, while the shortage of actual radiation data seems the main obstacle for users of radiation-based models. In this research the output of four radiation-based evapotranspiration models including: Penman-Montieth-FAO56 (PMF56), Penman-Montieth FAO-Irmak (PMFI), modified Jensen-Haise (JH1), and Jensen-Haise (JH2) are evaluated for a cold semi-arid climate. The daily ETo values were generated for 16 different scenarios and the results were compared against a two-year lysimeter data during the growing season (May to November). Deviations of model results were investigated using mean of R2, RMSE, MBE and t-test criteria. The results indicated that the JH2 model which uses radiation model of Daneshyar, can generate the most accurate ETo values (R2>0.85, P
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