Abstract
Land degradation caused by soil erosion remains an important global issue due to its adverse consequences on food security and environment. Geospatial prediction of erosion through susceptibility analysis is very crucial to sustainable watershed management. Previous susceptibility studies devoid of some crucial conditioning factors (CFs) termed dynamic CFs whose impacts on the accuracy have not been investigated. Thus, this study evaluates erosion susceptibility under the influence of both non-redundant static and dynamic CFs using support vector machine (SVM), remote sensing and GIS. The CFs considered include drainage density, lineament density, length-slope and soil erodibility as non-redundant static factors, and land surface temperature, soil moisture index, vegetation index and rainfall erosivity as the dynamic factors. The study implements four kernel tricks of SVM with sequential minimal optimization algorithm as a classifier for soil erosion susceptibility modeling. Using area under the curve (AUC) and Cohen’s kappa index (k) as the validation criteria, the results showed that polynomial function had the highest performance followed by linear and radial basis function. However, sigmoid SVM underperformed having the lowest AUC and k values coupled with higher classification errors. The CFs’ weights were implemented for the development of soil erosion susceptibility map. The map would assist planners and decision makers in optimal land-use planning, prevention of soil erosion and its related hazards leading to sustainable watershed management.
Highlights
Soil erosion has been recognized as one of the serious geohazards in recent time that threatens soil sustainability
The results of the analysis showed a success rate (SR) of 92.48% indicating the proportion of correctly classified instances with respective mean absolute error (MAE) and root mean squared error (RMSE) of 0.0752 and 0.2743
The results indicated that support vector machine (SVM)-LNR had the highest success and prediction rates followed by SVM-Poly, SVMRBF and SVM-Sgmd
Summary
Soil erosion has been recognized as one of the serious geohazards in recent time that threatens soil sustainability. Erosion phenomenon is often caused by human activities (e.g. agricultural intensification, urbanization, indiscriminate deforestation) and natural activities (tectonic and climatic changes) [2, 3] These factors and processes vary spatially and temporally from one location to another. Soil erosion has become a serious environmental challenge in Cameron Highlands due to its terrain characteristics, urbanization, intensive agricultural activities, indiscriminate deforestation among others [3, 7,8,9,10]. Sustainable management practices that will dampen these challenges require indices to quantify soil erosion, analyze its spatial distribution, identify critical locations and evaluate its susceptibility for geospatial prediction of active/potential erosion zones [15, 16]
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