Developing empirical relationship between interrill erosion, rainfall intensity, slope gradient and soil types in highlands of Salale, Ethiopia

Science, Technology and Arts Research Journal Pub Date : 2018-04-20 DOI:10.4314/STAR.V5I1.8

Habtamu Adenew Weletu

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Abstract

In order to develop an empirical relationship for interrill erosion based on rainfall intensity, slope steepness and soil types, an interrill erosion experiment was conducted using laboratory rainfall simulator on three soil types (Vertisols, Cambisols and Leptosols) for the highlands of North Shewa Zone of Oromia Region. From simulation work done using 450 x 320 x 100 mm erosion test pan; splashed soils, runoff and washed soils were collected at 5 minute interval for each 15 minutes simulation run at various combinations of design rainfall intensities of 25.67, 52.14, 73.50, and 99.20 mmhr-1, slope steepness of 5, 20, 35, and 50% and the three soil types. Runoff rate, splash and wash loss were measured to obtain a total soil loss from the test pan. Different models relating interrill erosion with rainfall intensity and runoff rate were considered and their coefficients and parameters were estimated. From the models, those with highest prediction potential (R2) were selected to be incorporated into models consisting soil properties and used to form six basic models of which three of them had shown average R2 values of more than 0.95. Accordingly, five slope factor equations were combined with the three selected models and thus 15 models were formed. Out of these models, three of them had shown R2 > 0.90 and were further compared with each other using the graph plotted for observed versus predicted interrill erosion. This showed that model incorporating rainfall intensity, runoff rate, median soil particle diameter, % clay and quadratic form of slope factor carried higher prediction potential than the other two models and selected as the final model for predicting interrill erosion. As this model incorporates more factors than those previously developed models, it ensures more accurate estimation of interrill erosion. Keywords : Interrill erosion Empirical equations Erosion models

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埃塞俄比亚萨拉勒高地沟间侵蚀、降雨强度、坡度和土壤类型的经验关系研究

为了建立降雨强度、坡度和土壤类型与细沟侵蚀的经验关系，利用室内降雨模拟器对奥罗米亚州北谢瓦地区高原3种土壤类型(垂直土壤、Cambisols土壤和leptosolols土壤)进行了细沟侵蚀试验。从模拟工作完成使用450 × 320 × 100毫米侵蚀试验盘;在设计降雨强度为25.67、52.14、73.50和99.20 mmhr-1、坡度为5%、20%、35%和50%以及三种土壤类型的不同组合下，每15分钟模拟运行间隔5分钟收集飞溅土壤、径流土壤和冲刷土壤。测量了径流速率、飞溅和冲刷损失，以获得试验盘的总土壤流失量。考虑了不同的沟间侵蚀与降雨强度和径流速率的关系模型，并估计了它们的系数和参数。从模型中选取预测潜力(R2)最高的模型纳入土壤性质模型，组成6个基本模型，其中3个模型的平均R2值大于0.95。据此，将5个斜率因子方程与选定的3个模型进行组合，形成15个模型。在这些模型中，有三个模型显示出R2 > 0.90，并使用绘制的观察到的与预测的沟间侵蚀图进一步相互比较。结果表明，考虑降雨强度、径流速率、中位土壤粒径、粘土%和坡度因子二次型的模型预测潜力高于其他两种模型，可作为预测沟间侵蚀的最终模型。由于该模型比以前开发的模型包含更多的因素，因此可以确保更准确地估计细沟间侵蚀。关键词:细沟侵蚀;经验方程;侵蚀模型

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Science, Technology and Arts Research Journal

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