Susceptibility to Gully Erosion: Applying Random Forest (RF) and Frequency Ratio (FR) Approaches to a Small Catchment in Ethiopia

Amare, Selamawit; Langendoen, Eddy J.; Keesstra, Saskia; Ploeg, Martine van der; Gelagay, Habtamu Sewnet; Lemma, Hanibal; Zee, S.E.A.T.M. van der

doi:10.3390/w13020216

Cited by 50 publications

(18 citation statements)

References 91 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…While land use/cover change is demonstrably an important factor in gully erosion (Arabameri et al, 2018,Amare et al, 2021, and affects the spatial distribution of erosion, research on how land use change impacts gully erosion intensity is less common. Following classification, validation and field verification of Landsat/TM images for 1965, 2005, and 2015, and this paper presents a detailed assessment of land use changes and its impact on soil erosion for a 50-year period in the black soil area in northeast China.…”

Section: Discussionmentioning

confidence: 99%

Effect of Land Use Change on Gully Erosion Density in the Black Soil Region of Northeast China From 1965 to 2015: A Case Study of the Kedong County

Zhu

et al. 2021

Front. Environ. Sci.

View full text Add to dashboard Cite

Kedong County is typical of the black soil region of northeast China in being highly susceptible to accelerated soil erosion by gullying. Using data sourced from Corona satellite imagery for 1965, SPOT5 for 2005 and GF-1 for 2015, the spatial distribution of gullies in the research area was mapped. Land use data for 1965, 2005, and 2015 were obtained from the topographic map of 1954, and from Landsat images for 2005 and 2015. Over the last 50 years, the extent of gully erosion in the study area has increased markedly, most notably on cultivated land, while gully density rose from 2,756.16 m2/km2 to 14,294.19 m2/km2. Cultivating land on slopes, especially on slopes greater than ∼4°, may rapidly aggravate gully erosion. The greatest increases in gully density occurred in situations when cultivated land and other/degraded land were transformed, which gully erosion density increased by 49,526.69 m2/km2. Other/degraded land is the most vulnerable land in the study area, with the highest gully erosion density. In these cases, gully density initially increases and, although the “Grain for Green” project has been implemented, gully erosion density has not always declined in the recent past.

show abstract

Section: Discussionmentioning

confidence: 99%

Effect of Land Use Change on Gully Erosion Density in the Black Soil Region of Northeast China From 1965 to 2015: A Case Study of the Kedong County

Zhu

et al. 2021

Front. Environ. Sci.

View full text Add to dashboard Cite

show abstract

“…Numerous studies have used random forest (RF) models to evaluate erosion process (e.g., 90 – 92 , gully erosion susceptibility (e.g., 56 – 58 , 93 , floods mapping (e.g., 55 , 94 ) and groundwater nitrate concentration susceptibility 95 . Random decision forests were first introduced by Ho 96 who added randomness in the decision trees with increased accuracy for both training and unseen datasets.…”

Section: Methods and Datamentioning

confidence: 99%

Designing grazing susceptibility to land degradation index (GSLDI) in hilly areas

Minea

Ciobotaru

Ioana-Toroimac

et al. 2022

Sci Rep

View full text Add to dashboard Cite

Evaluation of grazing impacts on land degradation processes is a difficult task due to the heterogeneity and complex interacting factors involved. In this paper, we designed a new methodology based on a predictive index of grazing susceptibility to land degradation index (GSLDI) built on artificial intelligence to assess land degradation susceptibility in areas affected by small ruminants (SRs) of sheep and goats grazing. The data for model training, validation, and testing consisted of sampling points (erosion and no-erosion) taken from aerial imagery. Seventeen environmental factors (e.g., derivatives of the digital elevation model, small ruminants’ stock), and 55 subsequent attributes (e.g., classes/features) were assigned to each sampling point. The impact of SRs stock density on the land degradation process has been evaluated and estimated with two extreme SRs’ density scenarios: absence (no stock), and double density (overstocking). We applied the GSLDI methodology to the Curvature Subcarpathians, a region that experiences the highest erosion rates in Romania, and found that SRs grazing is not the major contributor to land degradation, accounting for only 4.6%. This methodology could be replicated in other steep slope grazing areas as a tool to assess and predict susceptible to land degradation, and to establish common strategies for sustainable land-use practices.

show abstract

“…Selecting non-correlated attributes that affect the target attribute is one of the main steps before the modeling procedure that helps to reduce the prediction error (Adeboye et al 2014). The tolerance coefficient (TC) is one of the most common techniques used to remove strongly correlated variables and to select non-correlated variables (Amare et al 2021), which was applied in this study. The TC>0.1 indicates a weak correlation between a variable with other predictor variables.…”

Section: Multi-collinearity Test (Mct)mentioning

confidence: 99%

Predicting the dust events frequency around a degraded ecosystem and determining the contribution of their controlling factors using gradient boosting-based approaches and game theory

Ebrahimi-Khusfi

Dargahian

Nafarzadegan

2022

Environ Sci Pollut Res

View full text Add to dashboard Cite

In this study, for the rst time, an attempt was made to evaluate the performance of Gradient Boosting Machine (GBM) and extreme gradient boosting (XGB) models with linear, tree, and Dart boosters to predict monthly DEF (MDEF) around a degraded wetland in southwestern Iran. The monthly required data were obtained through observational data recorded at ground stations and satellite imagery from 1988 to 2018. The best predictor variables were selected among the eighteen climatic, terrestrial, and hydrological variables based on the multi-collinearity test (MCT) and Boruta algorithm. The models' performance was evaluated using the Taylor diagram. Game theory (i.e., SHAP values: SHV) was then used to determine the contribution of factors controlling MDEF in different seasons. Mean wind speed, maximum wind speed, rainfall, standardized precipitation evapotranspiration index (SPEI), soil moisture, erosive winds frequency, vapor pressure, vegetation area, water body area, and dried bed area of the wetland were con rmed as the best predictive variables. The XGB-linear and XGB-tree showed a higher capability in predicting the MDEF variations in summer and spring seasons. However, the XGB-Dart yielded a better than other study models in forecasting the MDEF in the autumn and winter seasons. The results also showed that the rainfall (SHV = 1.6), surface water discharge (SHV = 2.4), mean wind speed (SHV = 10.1), and erosive winds frequency (SHV = 1.6) had the largest contribution in the variability of MDEF in winter, spring, summer, and autumn, respectively. The results can be useful to provide different scenarios for combating hazards caused by wind erosion events around degraded wetlands.

show abstract

Susceptibility to Gully Erosion: Applying Random Forest (RF) and Frequency Ratio (FR) Approaches to a Small Catchment in Ethiopia

Cited by 50 publications

References 91 publications

Effect of Land Use Change on Gully Erosion Density in the Black Soil Region of Northeast China From 1965 to 2015: A Case Study of the Kedong County

Effect of Land Use Change on Gully Erosion Density in the Black Soil Region of Northeast China From 1965 to 2015: A Case Study of the Kedong County

Designing grazing susceptibility to land degradation index (GSLDI) in hilly areas

Predicting the dust events frequency around a degraded ecosystem and determining the contribution of their controlling factors using gradient boosting-based approaches and game theory

Contact Info

Product

Resources

About