Gully Erosion Risk Assessment Using Multi-Criteria Analysis: A Case Study of the Oued Rhéraya Watershed

Morocco's climate is predominantly semi-arid and arid, with 93% of its territory falling under these classifications. Land degradation poses a significant environmental risk, particularly in the mountainous regions of the High Atlas. These areas are marginalized in development and economic growth, with an average soil loss of 35 t. ha־ˡ. yr־ˡ according to REEM, 2015.The severity of this phenomenon is expected to escalate due to the interplay of natural and anthropogenic factors, often exacerbated by unsustainable resource management and exploitation practices. Among the various forms of water-induced soil erosion, gully erosion is the most dynamic and destructive, adversely affecting the land and the livelihoods of local populations in mountainous regions, such as the Rhéraya watershed in the Western High Atlas. Mitigating this degradation process and addressing its impacts are critical for reducing local vulnerabilities and enhancing the resilience of socio-ecological systems. Effective risk reduction necessitates the adoption of decision-making tools tailored to specific territories, enabling comprehensive diagnostics and prioritization of intervention areas based on severity. This study aims to systematically classify gully erosion risk within the Rhéraya watershed using an ordinal scale. The risk assessment integrates two components: hazard and vulnerability, evaluated through indicators aggregated via multi-criteria analysis (MCA). These indicators encompass biophysical factors (e.g., land use, slope inclination and length, rock friability, and soil type) and social dimensions (e.g., human, infrastructural, and economic stakes associated with soil degradation). The methodology draws inspiration from the SCALES model (Spatialisation d'éChelle fine de l'ALéa d'Erosion des Sols), the Analytic Hierarchy Process (AHP), and spatial modelling techniques using Geographic Information Systems (GIS). The developed model serves as a strategic tool for soil conservation and restoration efforts, protecting environmental goods and services while bolstering the resilience of local communities. Key outcomes include a systematic territorial classification highlighting gully erosion risk and its implications for both environmental and socio-economic assets. The main objective of this study is to assess the vulnerability to soil erosion in the Riraya basin by implementing a multi-criteria methodology for evaluating erosion risks, taking into account the characteristics of erosion risk and vulnerability in order to create a comprehensive system for diagnosing and monitoring the state of erosion in the watershed, which makes it possible to identify the areas at risk that need to be protected as a priority. In light of the results obtained, the risk of gully erosion appears to be active and significant across more than half of the watershed (51.20% of the area, or 11,531 ha), with fairly high hazard and vulnerability rates. The accuracy rate was estimated at approximately 86.67%, which guarantees the reliability of the results obtained and the validity of this model in estimating erosion risk.

Keywords: gully erosion, risk, AHP multi-criteria analysis, Rhéraya watershed, SCALES model.

DOI https://doi.org/10.55463/issn.1674-2974.52.9.15

DESTA, L. and ADUGNA, B. 2012. Nile Basin Initiative Eastern Nile Subsidiary Action Program (ENSAP) Eastern Nile Technical Regional Office (ENTRO) Eastern Nile Watershed Management Project A Field Guide on Gully Prevention and Control. www.nilebasin.org/entro.

ROUET, I. 2009. Characterization and quantification of natural hazards linked to slope evolution in the ultrabasic massifs of New Caledonia. PhD thesis in applied geology, University of New Caledonia, France, 163p.

FAO, 1990. Soil and water conservation in semi-arid zones. Soil Bulletin, vol. 57, p. 182.

SABIR, M., MADDI, M., NAOURI, A., BARTHES, B. and ROOSE E. 2002. Runoff and Erosion Risks Indicators on the Main Soils of the Mediterranean Mountains of Occidental Rif Area (Morocco). 12th ISCO Conference, Beijing. Online: https://topsoil.nserl.purdue.edu/isco/isco12/VolumeII/RunoffandErosionRisks.pdf.

NOUAIM, W., RAMBOURG, D., EL HARTI, A., ETTAQY, A., MERZOUKI, M. and KARAOUI, I. 2023. The estimation of water erosion with RUSLE and deposition model: A case study of the Bin El-Ouidane dam catchment area (High Atlas, Morocco). Journal of Water and Land Development, vol. 58 (VII-IX), pp. 136-147. DOI: 10.24425/jwld.2023.146606.

AIT YACINE, E., OUDIJA, F., NASSIRI, L. and Essahlaoui, A. 2019. Modeling and Mapping of Soil Water Erosion Risks through the Application of GIS, Remote Sensing, and PAP/CAR Guidelines. Case Study of the Beht Watershed, Morocco. European Scientific Journal, vol.15, p. 259-285. DOI - 10.19044/esj.2019.v15n12p259.

ROOSE, E., SABIR, M. and LAOUINA, A. 2010. Sustainable water and soil management in Morocco: Promoting traditional Mediterranean techniques. IRD Éditions, Institut De Recherche Pour Le Développement, Marseille, pp. 15-30.

MELIHO, M., KHATTABI, A., NOUIRA, A. and ORLANDO, C.A. 2021. Role of Agricultural Terraces in Flood and Soil Erosion Risks Control in the High Atlas Mountains of Morocco. Earth, vol. 2, p. 746-763. https://doi.org/10.3390/earth2040044.

SAIDI, M. E. M., BOUKRIM, S., FNIGUIRE, F. and RAMROMI, A. 2012. Surface runoff in the High Atlas of Marrakech, Case of extreme debits. Larhyss Journal, n° 10, p. 75-90.

HAJHOUJI, Y. 2018. Rain-flow modeling and regime analysis of a semi-arid catchment under nival influence. Case of the Rhéraya catchment (High Atlas, Morocco). PhD thesis. Hydrology. Université Paul Sabatier - Toulouse III, France, 150p.

CHAPONNIERE, A. 2005. Hydrological functioning of a semi-arid mountain watershed: case study of the Rhéraya watershed (Moroccan High Atlas). PhD, Institut National Agronomique, Paris.

AHT GROUP and AG-RESING, 2016. Atlas of the Haouz-Mejjate Basin, Reraya Sub-basin. Atlas of the Haouz-Mejjate Basin, p. 122.

LAMOUROUX, M. 1983. Fersiallitic soils. Garcia d'Orta, Sér. Est. Agron., Lisboa, vol. 10 (1-2), p. 11-18.

LE GOUÉE, P., DELAHAYE, D., BERMOND, M., MARIE, M., DOUVINET, J. and VIEL, V. 2010. SCALES : a large-scale assessment model of soil erosion hazard in Basse-Normandie (northwestern France). Earth Surface Processes and Landforms, vol. 35, n° 8, p. 887-901.

CHEVALIER, P., HEBERT, A., KAUFMANT, Y. and MOYEN, J. 2001. Mapping the "soil erosion" hazard on Reunion Island: characterization and mapping of erosive phenomena. Report BRGM RP -51236-FR - 2001 SGR/REU 27. Saint-Denis: BRGM, 78 p.

SOTI, V. 2003. Contribution of spatial remote sensing to the integrated management of the Saint-Gilles/La Saline lagoon on Reunion Island. An application example: mapping and monitoring of areas susceptible to soil erosion between 1995 and 2002 using Spot data integration. Montpellier : SILAT, Master's thesis, 39 p.

SAATY, T.L. 1980. The Analytic Hierarchy Process. New York, USA, McGraw-Hill, 287, ISBN 0-07-054371-2.

HENRY, J.B. 2006. Spatial information systems for flood risk management in lowlands. Doctoral thesis, University of Strasbourg I, France, 271p.

BOU KHEIR, R., GIRARD, M.C., KHAWLIE, M. and ABADALLAH, C. 2001. Water erosion of soils in Mediterranean environments: a literature review. Soil Study and Management, vol. 8, no. 4, pp. 231–245.

N'DRI, B.E., N'GO, Y.A., KADIO, H.N., OUATTARA, A., TOURÉ, B. and BIÉMI, J. 2008. Effect of soil slope and cover on runoff and rate of soil loss from experimental plots in the area of Attécoubé. European Journal of Scientific Research, vol. 21, n° 3, p. 459-470.

RAMOS, S.C.E., GILBES, F., TORRES, P.D., RODRÍGUEZ, G.V. and ACEITUNO, J. 2014. Application of the Soil and Water Assessment Tool (SWAT) to estimate discharge and sediment yields from the Río Grande de Añasco Watershed, Puerto Rico. Unpublished report to the University of Puerto Rico-Sea Grant College Program.

LUONG, A.T. 2012. Flood risk assessment in the Huong River basin, Thua Thien Hue province, central Vietnam. Thesis, Montreal (Quebec, Canada), University of Quebec in Montreal, Doctorate in Environmental Sciences. http://archipel.uqam.ca/id/eprint/4950.

BARA, F. 2012. Development of a geographic database for studying the vulnerability of Moroccan soils to water erosion in Morocco. Final thesis. National Forestry Engineering School, Salé, Morocco. 95 p.

O'KEEFE, P., WESTGATE, K. and WESNER, B. 1976. Taking the naturalness out of natural disasters. Nature, vol. 260, p. 566-567.