Abstract
This study continues a previous study with further analysis of watershed-scale erosion pin measurements. Three machine learning (ML) algorithms—Support Vector Machine (SVM), Adaptive Neuro-Fuzzy Inference System (ANFIS), and Artificial Neural Network (ANN)—were used to analyze depth of erosion of a watershed (Shihmen reservoir) in northern Taiwan. In addition to three previously used statistical indexes (Mean Absolute Error, Root Mean Square of Error, and R-squared), Nash–Sutcliffe Efficiency (NSE) was calculated to compare the predictive performances of the three models. To see if there was a statistical difference between the three models, the Wilcoxon signed-rank test was used. The research utilized 14 environmental attributes as the input predictors of the ML algorithms. They are distance to river, distance to road, type of slope, sub-watershed, slope direction, elevation, slope class, rainfall, epoch, lithology, and the amount of organic content, clay, sand, and silt in the soil. Additionally, measurements of a total of 550 erosion pins installed on 55 slopes were used as the target variable of the model prediction. The dataset was divided into a training set (70%) and a testing set (30%) using the stratified random sampling with sub-watershed as the stratification variable. The results showed that the ANFIS model outperforms the other two algorithms in predicting the erosion rates of the study area. The average RMSE of the test data is 2.05 mm/yr for ANFIS, compared to 2.36 mm/yr and 2.61 mm/yr for ANN and SVM, respectively. Finally, the results of this study (ANN, ANFIS, and SVM) were compared with the previous study (Random Forest, Decision Tree, and multiple regression). It was found that Random Forest remains the best predictive model, and ANFIS is the second-best among the six ML algorithms.
Highlights
Background and IntroductionSoil erosion is of major concern to agriculture and has had a detrimental long-term effect on both soil productivity and the sustainability of agriculture in particular
Soil erosion in the watershed was evaluated using USLE on different Digital Elevation Models (DEMs), and the average annual soil erosion rate varied greatly depending on the DEM [7]
An Adaptive Neuro-Fuzzy Inference System (ANFIS) is a combination of Artificial Neural Network (ANN) and fuzzy logic, which utilizes the strengths of both techniques
Summary
Soil erosion is of major concern to agriculture and has had a detrimental long-term effect on both soil productivity and the sustainability of agriculture in particular. Soil erosion can lead to water pollution, increased flooding, and sedimentation, which damage the environment [1] This has influenced the introduction of erosion control practices and policies as a necessity in almost every country of the world and under virtually every type of land use. Soil erosion in the watershed was evaluated using USLE on different Digital Elevation Models (DEMs), and the average annual soil erosion rate varied greatly depending on the DEM [7]. Chiu et al [8] used 137Cs radionuclide collected from 60 hillslope sampling sites of the basin of the Shihmen reservoir to determine the soil erosion rate and found it to be one or two orders of magnitude lower than predicted by USLE. We collected various data about the locations of the installed erosion pins as well as the measurements of the erosion pins themselves, as described
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