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论文:作物根系层土壤水分模拟的经验-机理模型

已有 4117 次阅读 2011-6-29 13:02 |个人分类:论著|系统分类:论文交流| 土壤水分, 消退过程, 广义指数消退模型

2011年的第一篇论文:
Shang, S. H. and Mao, X. M. 2011. A physicoempirical model for soil water simulation in crop root zone. Pedosphere. 21(4): 512–521. doi:10.1016/S1002-0160(11)60153-7
全文下载:

201108-Pedosphere-A Physicoempirical Model for Soil Water Simulation in Crop Root Zone.pdf

 
A Physicoempirical Model for Soil Water Simulation in Crop Root Zone

ABSTRACT: To predict soil water variation in the crop root zone, a general exponential recession (GER) model was developed to depict the recession process of soil water storage. Incorporating the GER model into the mass balance model for soil water, a GER-based physicoempirical (PE-GER) model was proposed for simulating soil water variation in the crop root zone. The PE-GER model was calibrated and validated with experimental data of winter wheat in North China. Simulation results agreed well with the field experiment results, as well as were consistent with the simulation results from a more thoroughly developed soil water balance model which required more detailed parameters and inputs. Compared with a previously developed simple exponential recession (SER) based physicoempirical (PE-SER) model, PE-GER was more suitable for application in a broad range of soil texture, from light soil to heavy soil. Practical application of PE-GER showed that PE-GER could provide a convenient way to simulate and predict the variation of soil water storage in the crop root zone, especially in case of insufficient data for conceptual or hydrodynamic models.
Key Words: general exponential recession model, irrigation scheduling, recession process, soil texture



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