Abstract
Landslides present major problems in the mountains and hills of the Atlas of Beni Mellal, Morocco. Therefore, the main objective of the present work is to study the relationship between the geological, geotechnical, and geochemical data of the red layers at risk of landslides and to propose adequate solutions to limit the risk of these landslides. Atterberg limits were made to classify soil samples into swelling or non-swelling. Liquidity and plasticity limits ranged from 38 to 41 and 16 to 21, respectively, favoring the instability of the slopes along these hills, especially during the rainy period. The physicochemical and mineralogical analysis showed that the studied soil is alkaline, strongly rich in carbonates with higher levels of Ca, Si, Al, and Fe, with a clayey texture characteristic of the geological formations of the study area. From the geological point of view, this area shows the dominance of marl–limestone and marl–clayey formations and altered basaltic intrusions in some places. The results also showed that these hills present corners of gravity instability due to the geotechnical behavior of the materials during the rainy periods. These results provide decision-makers with valuable data to limit the risks of landslides in this region.
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References
Ahmed, B., & Dewan, A. (2017). Application of bivariate and multivariate statistical techniques in landslide susceptibility modeling in Chittagong City Corporation, Bangladesh. Remote Sensing, 9(4), 304. https://doi.org/10.3390/rs9040304
Alaoui, M., Housni, F., Abdessamad, N., Bracamontes, D. T. H., & Wafik, A. (2017). Impact of climate change on the landslide in the central high atlas of Morocco: case of TIT N’ZIZA, EL KSIBA. International Journal of Advanced Research, 5(12), 584–592.
Aleotti, P., & Chowdhury, R. (1999). Landslide hazard assessment: Summary review and new perspectives. Bulletin of Engineering Geology and the Environment, 58(1), 21–44.
Avenard, J. (1965). La Cartographie de L’érosion Actuelle Dans le Bassin du SEBOU (Maroc). Inst. Nat. Rech. Agron. Serv. Cartogr. Sols, Sec. Erosion, Rabat.
Barakat, A., Baghdadi, M. E., & Rais, J. (2015). A GIS-based inventory of ornamental stone and aggregate operations in the Beni-Mellal region (Morocco). Arabian Journal for Science and Engineering, 40(7), 2021–2031.
Barakat, A., El Baghdadi, M., Rais, J., & Nadem, S. (2012). Assessment of heavy metal in surface sediments of Day River at Beni-Mellal region, Morocco. Research Journal of Environmental and Earth Sciences, 4(8), 797–806.
Barakat, A., Khellouk, R., Ennaji, W., & Mosaid, H. (2022). Investigation of heavy metal contamination and ecological and health risks in farmland soils from southeastern phosphate plateaus of Khouribga (Morocco). Ecological Questions, 33(4), 1–27.
Barakat, A., Ouargaf, Z., & Touhami, F. (2016). Identification of potential areas hosting aggregate resources using GIS method: A case study of Tadla-Azilal Region, Morocco. Environmental Earth Sciences, 75, 1–16.
Basu, T., Das, A., & Pal, S. (2022). Application of geographically weighted principal component analysis and fuzzy approach for unsupervised landslide susceptibility mapping on Gish River Basin, India. Geocarto International, 37(5), 1294–1317.
Benouis, D.E. (2010). Etude d'un glissement de terrain par différente méthodes. Université de Saida (Algérie)
Carrière, S., Jongmans, D., Chambon, G., Bièvre, G., Lanson, B., Bertello, L., Berti, M., Jaboyedoff, M., Malet, J.-P., & Chambers, J. (2018). Rheological properties of clayey soils originating from flow-like landslides. Landslides, 15(8), 1615–1630.
Coussot, P., Laigle, D., Arattano, M., Deganutti, A., & Marchi, L. (1998). Direct determination of rheological characteristics of debris flow. Journal of Hydraulic Engineering, 124(8), 865–868.
Daoudi, L., Knidiri, A., El Idrissi, H. E. B., Rhouta, B., & Fagel, N. (2015). Role of the texture of fibrous clay minerals in the plasticity behavior of host materials (Plateau du Kik, Western High Atlas, Morocco). Applied Clay Science, 118, 283–289.
Diko, M.L., Banyini, S.C., and Monareng, B.F. (2014). Landslide susceptibility on selected slopes in Dzanani, Limpopo Province, South Africa.
Ekosse, G., Ngole, V., Sendze, Y., & Ayonghe, S. (2005). Environmental mineralogy of unconsolidated surface sediments associated with the 2001 landslides on volcanic cones, Mabeta New Layout, Limbe, Cameroon. Global Journal of Environmental Sciences, 4(2), 115–122.
El Baghdadi, M., Jakani, K., Barakat, A., & Bay, Y. (2011). Magnetic susceptibility and heavy metal contamination in agricultural soil of Tadla plain. Journal of Material Environmental Science, 2, 513–519.
El Jazouli, A., Barakat, A., & Khellouk, R. (2019). GIS-multicriteria evaluation using AHP for landslide susceptibility mapping in Oum Er Rbia high basin (Morocco). Geoenvironmental Disasters, 6(1), 1–12.
El Jazouli, A., Barakat, A., & Khellouk, R. (2022). Geotechnical studies for Landslide susceptibility in the high basin of the Oum Er Rbia river (Morocco). Geology, Ecology, and Landscapes, 6(1), 40–47.
Heiri, O., Lotter, A. F., & Lemcke, G. (2001). Loss on ignition as a method for estimating organic and carbonate content in sediments: Reproducibility and comparability of results. Journal of Paleolimnology, 25(1), 101–110.
Hilali, A., El Baghdadi, M., & Halim, Y. (2022). Environmental monitoring of heavy metals distribution in the agricultural soil profile and soil column irrigated with sewage from the Day River, Beni-Mellal City (Morocco). Modeling Earth Systems and Environment, 9, 1859–1872.
Hilali, A., El Baghdadi, M., Barakat, A., Ennaji, W., & El Hamzaoui, E. H. (2020). Contribution of GIS techniques and pollution indices in the assessment of metal pollution in agricultural soils irrigated with wastewater: Case of the Day River, Beni Mellal (Morocco). Euro-Mediterranean Journal for Environmental Integration, 5(3), 1–19.
Hungr, O., Leroueil, S., & Picarelli, L. (2014). The Varnes classification of landslide types, an update. Landslides, 11(2), 167–194.
Malet, J.-P., Van Asch, T. W., Van Beek, R., & Maquaire, O. (2005). Forecasting the behaviour of complex landslides with a spatially distributed hydrological model. Natural Hazards and Earth System Sciences, 5(1), 71–85.
Manal, A. (2003). Réflexion sur le guide Marocain des terrassements routiers. La Revue marocaine du génie civil (101), 42–44. ISSN 0851-7916.
Marcelino, E.V., Fonseca, L.M.G., Ventura, F., and Rosa, A., (2003). Evaluation of IHS, PCA and wavelet transform fusion techniques for the identification of landslide scars using satellite data. Proceedings of IX Simpósio Brasileiro de Sensoriamento Remoto Belo Horizonte, Brasil
Ministère de l'équipement (2001). Guide marocain pour les terrassement routiers (GMTR). Direction des routes et de la circulation routière, Royaume du Maroc, Fascicule I
Mohcine, H., Saber, N., & Moustarhfer, K. (2016). Heavy metal in agricultural soils in the Sahel Region of Doukkala (Morocco). International Journal of Science and Engineering Research, 7(6), 414–422.
Mosaid, H., Barakat, A., Bustillo, V., & Rais, J. (2022). Modeling and mapping of soil water erosion risks in the Srou basin (Middle Atlas, Morocco) Using the EPM Model, GIS and Magnetic Susceptibility. Journal of Landscape Ecology, 15(1), 126–147.
Ngole, V.M., Georges-Ivo, E., & Ayonghe, S.N. (2007). Physico-chemical, mineralogical and chemical considerations in understanding the 2001 Mabeta New Layout landslide, Cameroon. Journal of Applied Sciences and Environmental Management, 11(2), 201–208.
Sabokbar, H. F., Roodposhti, M. S., & Tazik, E. (2014). Landslide susceptibility mapping using geographically-weighted principal component analysis. Geomorphology, 226, 15–24.
Tang, Y., Feng, F., Guo, Z., Feng, W., Li, Z., Wang, J., Sun, Q., Ma, H., & Li, Y. (2020). Integrating principal component analysis with statistically-based models for analysis of causal factors and landslide susceptibility mapping: A comparative study from the loess plateau area in Shanxi (China). Journal of Cleaner Production, 277, 124159.
Vakhshoori, V., & Zare, M. (2016). Landslide susceptibility mapping by comparing weight of evidence, fuzzy logic, and frequency ratio methods. Geomatics, Natural Hazards and Risk, 7(5), 1731–1752.
Yalcin, A. (2008). GIS-based landslide susceptibility mapping using analytical hierarchy process and bivariate statistics in Ardesen (Turkey): comparisons of results and confirmations. CATENA, 72(1), 1–12.
Yalcin, A. (2011). A geotechnical study on the landslides in the Trabzon Province, NE, Turkey. Applied Clay Science, 52(1–2), 11–19.
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El Afi, M., Alaoui, M., Hilali, A. et al. Contribution to the study of landslides in Dir-El Ksiba (Atlas of Beni Mellal, Morocco) using the geological, geotechnical, and geochemical approaches. J. Sediment. Environ. 8, 605–615 (2023). https://doi.org/10.1007/s43217-023-00150-w
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DOI: https://doi.org/10.1007/s43217-023-00150-w