Soil erosion modelling: A global review and statistical analysis

Borrelli, Pasquale; Alewell, Christine; Alvarez, Pablo Jorge Masías; Anache, Jamil Alexandre Ayach; Ballabio, Cristiano; Bezak, Nejc; Biddoccu, Marcella; Cerdà, Artemi; Chalise, Devraj; Chen, Songchao; Chen, Walter; Girolamo, Anna Maria De; Desta, Gizaw; Deumlich, Detlef; Diodato, Nazzareno; Efthimiou, Nikos; Erpul, Günay; Fiener, Peter; Freppaz, Michèle; Gentile, Francesco; Gericke, Andreas; Haregeweyn, Nigussie; Hu, Bifeng; Jeanneau, Amelie; Kaffas, Konstantinos; Kiani-Harchegani, Mahboobeh; Lizaga, Iván; Li, Changjia; Lombardo, Luigi; López‐Vicente, Manuel; Lucas‐Borja, Manuel Esteban; Maerker, Michael; Miao, Chiyuan; Mikoš, Matjaž; Modugno, Sirio; Möller, Markus; Naipal, Victoria; Nearing, M. A.; Owusu, Stephen; Panday, Dinesh; Patault, Edouard; Patriche, Cristian Valeriu; Poggio, Laura; Portes, Raquel de Castro; Quijano, Laura; Rahdari, Mohammad Reza; Renima, Mohammed; Ricci, Giovanni Francesco; Rodrigo‐Comino, Jesús; Saia, Sergio; Samani, Aliakbar Nazari; Schillaci, Calogero; Syrris, Vasileios; Kim, Hyuck Soo; Spinola, Diogo; Oliveira, Paulo Tarso Sanches de; Teng, Hongfen; Thapa, Resham Bahadur; Vantas, Konstantinos; Vieira, Diana; Yang, Jae Won; Yin, Shuiqing; Zema, Demetrio Antonio; Zhao, Guangju; Panagos, Panos

doi:10.31223/x5gs3t

Cited by 14 publications

(7 citation statements)

References 59 publications

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“…Many theoretical/empirical models can be used to study soil erosion. According to Borrelli et al [6], 435 distinct models and model variants were used to analyze soil erosion from 1994 to 2017 in 1697 scientific articles in the Scopus database. The top five most applied models are RUSLE (Revised Universal Soil Loss Equation), USLE (Universal Soil Loss Equation), WEPP (Water Erosion Prediction Project), SWAT (Soil and Water Assessment Tool), and WaTEM/SEDEM (Water and Tillage Erosion Model and Sediment Delivery Model).…”

Section: Introductionmentioning

confidence: 99%

Comparison of Ensemble Machine Learning Methods for Soil Erosion Pin Measurements

Nguyen

Chen

Lin³

et al. 2021

IJGI

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Although machine learning has been extensively used in various fields, it has only recently been applied to soil erosion pin modeling. To improve upon previous methods of quantifying soil erosion based on erosion pin measurements, this study explored the possible application of ensemble machine learning algorithms to the Shihmen Reservoir watershed in northern Taiwan. Three categories of ensemble methods were considered in this study: (a) Bagging, (b) boosting, and (c) stacking. The bagging method in this study refers to bagged multivariate adaptive regression splines (bagged MARS) and random forest (RF), and the boosting method includes Cubist and gradient boosting machine (GBM). Finally, the stacking method is an ensemble method that uses a meta-model to combine the predictions of base models. This study used RF and GBM as the meta-models, decision tree, linear regression, artificial neural network, and support vector machine as the base models. The dataset used in this study was sampled using stratified random sampling to achieve a 70/30 split for the training and test data, and the process was repeated three times. The performance of six ensemble methods in three categories was analyzed based on the average of three attempts. It was found that GBM performed the best among the ensemble models with the lowest root-mean-square error (RMSE = 1.72 mm/year), the highest Nash-Sutcliffe efficiency (NSE = 0.54), and the highest index of agreement (d = 0.81). This result was confirmed by the spatial comparison of the absolute differences (errors) between model predictions and observations using GBM and RF in the study area. In summary, the results show that as a group, the bagging method and the boosting method performed equally well, and the stacking method was third for the erosion pin dataset considered in this study.

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Section: Introductionmentioning

confidence: 99%

Comparison of Ensemble Machine Learning Methods for Soil Erosion Pin Measurements

Nguyen

Chen

Lin³

et al. 2021

IJGI

Self Cite

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“…Regional scale modeling are macroscale catchments of up to thousands of km2, thus require a spatial resolution from 30 meter to hundred meters (Mitasova et al 2013). Some of the papers that combined GIS and one of the RUSLE erosion models (Ahmed Harb Rabia 2012; Bagegnehu et al 2019;Borrelli et al 2021;K. et al 2020;Luvai et al 2022;Moges and Bhat 2017).…”

Section: Introductionmentioning

confidence: 99%

“…et al 2017;Van Remortel, Hamilton, and Hickey 2001). The RUSLE model have been applied enormously for the last 20 year and continued to be the most preferred soil erosion model used to estimate sheet & rill erosion caused by runoff (Borrelli, Alewell, and Alvarez 2021).…”

Section: Introductionmentioning

confidence: 99%

Geoinformatics of soil loss using GEE in Tigray regional state of Ethiopia.

Islam

Belay

Hadgu

et al. 2023

Preprint

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Soil loss and its geostatistical analysis was studied at the kebele level in Tigray. The method applied to estimate soil loss was the revised universal soil loss equation. Earth Engine's public data archive was used for data collection. The R-factor was developed from the SM2RAIN-ASCAT (2007–2021) global daily satellite rainfall data, the K-factor was developed from USDA-3A1A1A_M/v02 soil data, the C-factor was derived from MODIS/006/MOD13A2, and LS factor was derived from WWF Hydro SHEDS Hydrologically Conditioned DEM. By integrating all factor, the soil loss was obtained by the RUSLE model. Spatial Autocorrelation (Morans I) statistic was used to identify the pattern of soil loss and Ordinary Least Squares (OLS) linear regression was used to model a soil loss in terms of its relationships to R, K, LS, C, and P factors. The grouping analysis tool was used to Group kebele based on soil loss. The results indicate that the estimated average soil erosion is 82760 t ha− 1 y− 1. The pattern of soil loss at the kebele level was found highly clustered with a z-score of 23.39. The groping analysis tool divides the kebele into five categories to identify the cause of spatial variation of the soil loss in Tigray. Groups 1, 4 & 5 were found as in the outlier positions due to the high LS factor. The results deliver valuable information for decision-makers and planners to take suitable land administration measures to minimize the soil loss. It, therefore, indicates google earth engine is a significant platform to analyze the RUSLE model for evaluating and mapping soil erosion quantitatively and spatially.

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“…Soil erosion is one of the most widely distributed problems leading to land degradation. Currently, the universal soil loss equation (USLE), the revised universal soil loss equation (RUSLE) and its derived models are the most extensively used models among 435 types of soil erosion models (their representation in the literature accounts for 41%) (Ma et al, 2019;Xiong et al, 2019;Borrelli et al, 2021), and they are also commonly used in the soil loss research related to Electric-Transmission-Line (ETLs) (Li et al, 2021;Nie et al, 2022). In the RUSLE model, R (Rainfall erosivity factor), K (Soil erodibility factor), L (Slope length factor) and S (Slope steepness factor) are relatively stable in a region, while C (Cover and management factor) and P (Support practice factor) are very sensitive to land cover, vegetation cover and soil & water conservation activities (Feng and Zhao, 2014;Zhang et al, 2015;Huang et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Can the Soil Erosion in Coastal Mountainous Areas Disturbed by Electric-Transmission-Line Construction be Estimated with a Deep Learning Model?

Xi,

Shixiong,

Shanshan

et al. 2023

Journal of Resources and Ecology

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Soil erosion modelling: A global review and statistical analysis

Cited by 14 publications

References 59 publications

Comparison of Ensemble Machine Learning Methods for Soil Erosion Pin Measurements

Comparison of Ensemble Machine Learning Methods for Soil Erosion Pin Measurements

Geoinformatics of soil loss using GEE in Tigray regional state of Ethiopia.

Can the Soil Erosion in Coastal Mountainous Areas Disturbed by Electric-Transmission-Line Construction be Estimated with a Deep Learning Model?

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