Sensitivity analysis of estimated evapotranspiration using soil moisture content, energy balance model of SEBAL algorithm

Water Supply Pub Date : 2023-12-11 DOI:10.2166/ws.2023.327

Yunzhong Dai, Kuan-yu Chen

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Abstract

Evapotranspiration is the main factor of plant growth, which can be estimated using different methods. Accurate estimation of evaporation and transpiration helps in planning to meet the actual needs of the plant. In general, daily evapotranspiration depends on temperature, climate, soil moisture, plant, growth period, root length, and the texture of the root zone porous media. In this study, the moisture balance of the soil surface is simulated daily and the components of deep percolation, evaporation, irrigation, and transpiration are calculated. The obtained results have been compared with the output of the surface energy balance algorithm for land (SEBAL) algorithm to determine the energy balance on the earth's surface and to estimate evapotranspiration. Normalized objective function (NOF), Nash–Sutcliffe efficiency index, and mean absolute error were incorporated into the problem for evaluating the predicted values. The energy balance of the soil surface and the moisture balance of the root zone each have a different process in estimating the actual evaporation and transpiration, but the correlation between them was acceptable. The interval between the calculated values can be used as input data to determine the irrigation requirement.

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利用土壤含水量和 SEBAL 算法能量平衡模型估算蒸散量的敏感性分析

蒸腾作用是植物生长的主要因素，可以通过不同的方法进行估算。准确估算蒸发量和蒸腾量有助于制定计划，满足植物的实际需求。一般来说，日蒸散量取决于温度、气候、土壤湿度、植物、生长期、根系长度和根区多孔介质的质地。本研究模拟了每天土壤表层的水分平衡，并计算了深层渗漏、蒸发、灌溉和蒸腾的成分。所得结果与用于确定地表能量平衡和估算蒸散量的土地表面能量平衡算法（SEBAL）的输出结果进行了比较。在问题中加入了归一化目标函数（NOF）、纳什-苏特克利夫效率指数和平均绝对误差，以评估预测值。土壤表面的能量平衡和根区的水分平衡在估算实际蒸发量和蒸腾量时各有不同的过程，但它们之间的相关性是可以接受的。计算值之间的间隔可用作确定灌溉需求的输入数据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water Supply

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