Simulation of soil evaporation under different ground coverage with semi-empirical models

SPIE Optics + Photonics Pub Date : 2006-09-27 DOI:10.1117/12.682846

Suying Chen, Xiying Zhang, Silong Chen, Pei Dong, Hongyong Sun

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Abstract

Minimizing soil evaporation is a key element in improving water use efficiency in dry areas. Experiments were conducted in the winter wheat field during 2004-2005 to compare effects of different row spacing on soil evaporation. A model to estimate soil evaporation was developed based on the experimental data. The reference crop evapotranspiration (ET0) was estimated by the Penman-Montieth equation, and the factors affecting evaporation under crop canopy were divided into both the radiation item (ETs1) and the aerodynamics item (ETs2) according to the degree of crop canopy coverage (fc). The simulation equation for actual evaporation, combining with soil moisture parameter, was established in this paper. In this study, a light meter was utilized to measure fc, which replaced leaf are index (LAI) in evaporation estimation. In comparison with the measured evaporation by micro-lysimeters (ML) in four row spacing: 7.5 cm, 15 cm, 22.5 cm and 30 cm, tested in a randomized block design, the simulated daily evaporation had root mean square errors (RMSE) of 0.22 mm, 0.24 mm, 0.25 mm 0.26 mm and a bias of 0.01 mm, 0.02 mm, -0.08 mm, -0.03 mm respectively. Results showed that using canopy coverage factor to replace leaf area index could effectively estimate soil evaporation.

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不同地表覆盖下土壤蒸发的半经验模型模拟

尽量减少土壤蒸发是提高干旱地区水分利用效率的关键因素。2004-2005年在冬小麦大田试验中，比较了不同行距对土壤蒸发的影响。在试验数据的基础上，建立了估算土壤蒸发的模型。利用Penman-Montieth方程估算作物参考蒸散发(ET0)，并根据作物冠层覆盖程度(fc)将影响作物冠层下蒸散发的因子分为辐射项(ETs1)和空气动力学项(ETs2)。结合土壤水分参数，建立了实际蒸发量的模拟方程。在本研究中，利用光度计测量fc，取代叶片指数(LAI)估算蒸发量。在随机区组设计中，与微型蒸发仪(ML)在7.5 cm、15 cm、22.5 cm和30 cm行距下的蒸发量进行比较，模拟的日蒸发量均方根误差(RMSE)分别为0.22 mm、0.24 mm、0.25 mm、0.26 mm，偏差分别为0.01 mm、0.02 mm、-0.08 mm、-0.03 mm。结果表明，利用冠层盖度代替叶面积指数可以有效地估算土壤蒸发量。

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SPIE Optics + Photonics

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