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Anthropogenic Activities and Climate Variability Impacts on Juniperus thurifera Forest of El Houanet, Morocco

Benhssaine Khalid, Aabdousse Jamal, El Bouchti Nawfel, Nechchadi Habiba, Ettaqy Abderrahim, Ramchoun M’hamed, Abbas Younes, Berrougui Hicham

Ecological Engineering & Environmental Technology

2024

Vol. 25, iss. 3

70--94

The current case analysis aims to explore the spatio-temporal evolution of thuriferous juniper (Juniperus thurifera L.) forest formations on the El Houanet plateau within the Biological and Ecological Interest Site (BEIS) of Boutferda in Morocco, focusing on their vulnerability to extinction due to various complex reasons. Our research focused on the period from 1986 to 2022, conducting a meticulous assessment of the spatial changes observed over this chronology. To achieve these objectives, we adopted a diachronic approach, combined with a methodology supported by field examinations. We derived data, including climatic analysis and vegetation indices (NDVI and VCI), from LANDSAT 5 and 8 satellite imagery, enabling a detailed synthesis of the forest’s spatiotemporal changes. This analysis was further deepened by considering a range of parameters, including components of the physical environment, climatic variables, as well as anthropogenic influences, with the aim of refining our understanding of the dynamics governing these populations. Findings reveal significant impacts on various strata within this forest, reflecting both regressive and progressive changes that reshaped the landscape’s composition and structure.

The estimation of water erosion with RUSLE and deposition model : A case study of the Bin El-Ouidane dam catchment area (High Atlas, Morocco)

Nouaim Wafae, Rambourg Dimitri, El Harti Abderrazak, Ettaqy Abderrahim, Merzouki Mohamed, Karaoui Ismail

Journal of Water and Land Development

2023

no. 58

136--147

Water erosion is a critical issue for Morocco, especially in its semi-arid regions, where climatic and edaphic conditions only allow erratic soil formation and vegetation growth. Therefore, water erosion endangers human activity both directly (loss of arable land, landslides, mudflows) and indirectly (siltation of dams, river pollution). This study is part of the Kingdom’s effort to assess the risk of water erosion in its territory. It is dedicated to the Bin El-Ouidane dam water catchment, one of the biggest water storage facilities in the country, located in the High Atlas Mountains. The poorly developed soils are very sensitive to erosion in this mountainous area that combines steep slopes and sparse vegetation cover. The calculation of soil losses is carried out with the RUSLE model and corrected by estimating areas of deposition based on the unit stream power theory. This method produces a mean erosion rate of around 6.3 t·ha-1·y-1, or an overall annual loss of 4.1 mln t, consistently with the siltation rate of the dam. Primary risk areas (erosion rates > 40 t·ha-1·y-1) account for 54% of the total losses, while they cover only 7% of the catchment. This distribution of the soil losses also shows that the erosion risk is mainly correlated to slope, directing the means of control toward mechanical interventions.