Your search keyword '"Lamya, Ouali"' showing total 5 results

1. Mapping Favorable Groundwater Potential Recharge Areas Using a GIS-Based Analytical Hierarchical Process – A Case Study of Ferkla Oasis, Morocco.

Author

Ismail, Ait Lahssaine, Lahcen, Kabiri, Badre, Messaoudi, Badre, Essafraoui, Mohamed, El Ouali, Lamya, Ouali, Jean, Albergel, Meryem, El Amraoui, Amina, Kassou, and Essahlaoui, Ali

Subjects

GROUNDWATER, ANALYTIC hierarchy process, SOCIOECONOMICS, WATER management

Abstract

In the Ferkla Oasis, much like in numerous other oases across the southeastern region of Morocco, a range of socioeconomic and environmental challenges are intricately linked to the inadequate management of water resources. One proposed remedy to address these concerns is the implementation of artificial aquifer recharge, which stands as an alternative strategy to safeguard the crucial oasis ecosystems. Thus, to evaluate the viability of this method in promoting sustainable water resource usage, it becomes imperative to delineate groundwater recharge potential zones (GRPZs). This study aims to achieve this objective by mapping GRPZs within the Ferkla Oasis, employing a fusion of the analytical hierarchy process (AHP), geospatial information derived from remote sensing (RS), and geographic information system (GIS) technologies. In pursuit of this goal, an array of geological, topographical, pedological, hydrological, and climatic criteria have been meticulously selected, classified, and assigned weights following their relevance to water infiltration suitability. This comprehensive approach culminates in the generation of seven thematic maps: slope, lineament density, lithology, soil type, drainage density, land use/land cover, and rainfall distribution. Through the integration of these aforementioned maps, a tripartite classification of potential GRPZs emerges, comprising low, medium, and high categories. The findings underscore the distribution: 30% of the total study area exhibits a low potential for GRPZs, 50% of the total land area is characterized as having medium potential GRPZs, while the remaining 20% is designated as high potential GRPZs. These outcomes have been substantiated through validation against piezometric levels, which have been ascertained through recent field surveys. Consequently, these results stand as a testament to the efficacy of the presented approach as a robust decision-making tool. The approach effectively facilitates the establishment of conditions conducive to viable artificial recharge, thereby offering a means to safeguard the groundwater reservoirs that sustain the fragile oasis environments. [ABSTRACT FROM AUTHOR]

Published

2024

2. Mapping of potential sites for rainwater harvesting structures using GIS and MCDM approaches: case study of the Toudgha watershed, Morocco

Author

Lamya Ouali, Mohammed Hssaisoune, Lahcen Kabiri, Moulay M’hamed Slimani, Kamal El Mouquaddam, Mustapha Namous, Abdelkrim Arioua, Asma Ben Moussa, Hanane Benqlilou, and Lhoussaine Bouchaou

Published

2022

3. Diachronic Study of the Vegetation Covers Spatiotemporal Change Using GIS and Remote Sensing in the Ferkla Oasis: Case Study, Bour El Khourbat, Tinjdad, Morocco

Author

Meryem El Amraoui, Lahcen Kabiri, Amina Kassou, Lamya Ouali, and Alexis Nutz

Published

2022

4. Spatial Prediction of Groundwater Withdrawal Potential Using Shallow, Hybrid, and Deep Learning Algorithms in the Toudgha Oasis, Southeast Morocco

Author

Lamya Ouali, Lahcen Kabiri, Mustapha Namous, Mohammed Hssaisoune, Kamal Abdelrahman, Mohammed S. Fnais, Hichame Kabiri, Mohammed El Hafyani, Hassane Oubaassine, Abdelkrim Arioua, and Lhoussaine Bouchaou

Subjects

machine learning, Renewable Energy, Sustainability and the Environment, water supply, Geography, Planning and Development, spatial prediction, groundwater potential, Building and Construction, oasis, Management, Monitoring, Policy and Law, performance

Abstract

Water availability is a key factor in territorial sustainable development. Moreover, groundwater constitutes the survival element of human life and ecosystems in arid oasis areas. Therefore, groundwater potential (GWP) identification represents a crucial step for its management and sustainable development. This study aimed to map the GWP using ten algorithms, i.e., shallow models comprising: multilayer perceptron, k-nearest neighbor, decision tree, and support vector machine algorithms; hybrid models comprising: voting, random forest, adaptive boosting, gradient boosting (GraB), and extreme gradient boosting; and the deep learning neural network. The GWP inventory map was prepared using 884 binary data, with “1” indicating a high GWP and “0” indicating an extremely low GWP. Twenty-three GWP-influencing factors have been classified into numerical data using the frequency ration method. Afterwards, they were selected based on their importance and multi-collinearity tests. The predicted GWP maps show that, on average, only 11% of the total area was predicted as a very high GWP zone and 17% and 51% were estimated as low and very low GWP zones, respectively. The performance analyses demonstrate that the applied algorithms have satisfied the validation standards for both training and validation tests with an average area under curve of 0.89 for the receiver operating characteristic. Furthermore, the models’ prioritization has selected the GraB model as the outperforming algorithm for GWP mapping. This study provides decision support tools for sustainable development in an oasis area.

Published

2023

5. Spatial modeling of water erosion vulnerability and mapping potential sites of control measures using GIS and MCDM: a case study from the drylands of southeastern Morocco

Author

Lamya Ouali, Lahcen kabiri, Badre Essafraoui, Meryem El Amaraoui, Mohamed El Ouali, Amina Kassou, Ismail Ait Lahssaine, Badre Messaoudi, and Paola Minoia

Subjects

Computers in Earth Sciences, Statistics, Probability and Uncertainty, General Agricultural and Biological Sciences, General Environmental Science

Published

2023