Abderrahim Ettaqy scite author profile

The Ikkour watershed located in the Middle Atlas Mountain (Morocco) has been a subject of serious soil erosion problems. This study aimed to assess the soil erosion susceptibility in this mountainous watershed using Universal Soil Loss Equation (USLE) and spectral indices integrated with Geographic Information System (GIS) environment. The USLE model required the integration of thematic factors' maps which are rainfall aggressiveness, length and steepness of the slope, vegetation cover, soil erodibility, and erosion control practices. These factors were calculated using remote sensing data and GIS. The USLE-based assessment showed that the estimated total annual potential soil loss was about 70.66 ton ha. This soil loss is favored by the steep slopes and degraded vegetation cover. The spectral index method, offering a qualitative evaluation of water erosion, showed different degrees of soil degradation in the study watershed according to FI, BI, CI, and NDVI. The results of this study displayed an agreement between the USLE model and spectral index approach, and indicated that the predicted soil erosion rate can be due to the most rugged land topography and an increase in agricultural areas. Indeed, these results can further assist the decision makers in implementation of suitable conservation program to reduce soil erosion.

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Mapping the water erosion risk in the Lakhdar river basin (central High Atlas, Morocco)

Nouaim

Chakiri

Rambourg

et al. 2018

Geology, Ecology, and Landscapes

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The objective of this study is to develop a methodology using the remote sensing and Geographic Information System to map soil degradation by water erosion and highlighting the various levels of soil degradation in the Lakhdar river basin (central High Atlas) during the period between 1987 and 2014. This allows producing a map of soil degradation risk, which can be used as reference document for the decision-makers. The methodology develops a geomatics approach based on the processing of satellite images, using the analysis and the interpretation of spectral indices, such as the Form Index, the Coloration Index, the Brightness Index, and the Normalized Difference Vegetation Index (NDVI). The results show that the surface of soil strongly degraded decreased about 900 ha during the period of study whereas the surface of soil weakly and moderately degraded was subject of a progressive increase for an approximate total of 2800 ha over 27 years. Moreover, the method of spectral indices allowed us to assess and locate soil quantitative loss (organic matter, mineral salts, texture, fertility, etc.) due to the water erosion and climate change. These results are decisive when it comes to establish priority zonation for the interventions of erosion control.

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Forests and woodlands in Morocco: review of historical evolution, services, priorities for conservation measures and future research

et al. 2023

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Forests and woodland ecosystems in Morocco play a crucial role in maintaining biodiversity and providing ecological and economic services. Despite advances in administration, technology, and research tools in Morocco, these ecosystems have received limited attention. This paper highlights the importance of forests and woodland ecosystems in Morocco, focusing on their economic significance and the factors that pose a threat to them. Furthermore, guidelines are provided for appropriate conservation measures and future research to better understand the current situation of forests in Morocco. The results show that Moroccan forests and woodlands are rich in flora and fauna, including species with significant economic value, such as medicinal plants. These ecosystems also provide important ecological services, such as serving as habitats for endemic and threatened species. Despite the efforts of the government, human activities have negatively affected these ecosystems. To ensure that these resources are preserved for future generation, we recommend considering the human element as a central factor in all conservation approaches and actions.

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New data on the ecological distribution ofEuphorbia resiniferaO.Berg in the Beni Mellal-Khenifra region

et al. 2020

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Euphorbia resinifera O. Berg, also called Euphorbusresin, is a species belonging to the Euphorbiaceae family. It is endemic to the Beni Mellal Khenifra region and extends discontinuously between El Ksiba and Demnate. Currently, this plant is known as a meliferous species and its product is considered as a terroir product with a Protected Geographical Indication (PGI). However, few studies have conducted on its ecology and particularly its mapping in relation to the environmental conditionswhere it thrives. That’s why in this study, we tried to establish, for the first time in the region of Beni Mellal, a distribution mapping of E. resinifera according to the ecological needs of the plant, the exploration of high-resolution satellite imagery and on the field by observing a representative sample of the study area. Results showed that it spread from Demnate to Elksiba in the Atlas piedmont area but appears as scattered individuals from Demnate to AitOurir due to a complexity of factors mainly related to the soil characteristics, paleogeography and the climate exacerbated by the negative results of anthropogenic impacts. It extends also into the central high Atlas valley as small isolated units which reach 1900 m of altitude. This could explain why other ecological requirements should be considered in terms of the distribution of this endemic species in the context of climate change.

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