Climate Change and Water Resources Management in Ghis-Nekor Watershed (North of Morocco) – A Comprehensive Analysis Using SPI, RDI and DI Indices
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Research team: Biology, Environment and Health, Department of Biology, Errachidia Faculty of Science and Technology, University of Moulay Ismaïl, Meknes, Morocco
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Laboratory of Applied Sciences, National School of Applied Sciences, Abdelmalek Essaadi University, 32 003 Al Hoceima, Morocco
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Laboratory for Improvement of Agricultural Production, Biotechnology and Environment (LAPABE) / Water, Environment and Health Team, Faculty of Science, Mohamed Premier University, PB 717 60000, BV M6, Oujda, Morocco
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LGA Laboratory of Applied Geosciences, Department of Geology, Faculty of Sciences, Mohammed Premier University, PB 717, 60000, BV M6, Oujda, Morocco
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Research team: Biology, Environment and Health, Department of Biology, Errachidia Faculty of Science and Technology, University of Moulay Ismaïl, Meknes, Morocco.
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Laboratory of Natural Resources and Sustainable Development (LNRSD), Faculty of Sciences, University IbnTofail, Kenitra-Morocco
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LABASE Laboratory, Faculty of Science of Meknes, Moulay Ismail University, Meknes, Morocco
These authors had equal contribution to this work
Corresponding author
Mourad Arabi
Laboratory for Improvement of Agricultural Production, Biotechnology and Environment (LAPABE) / Water, Environment and Health Team, Faculty of Science, Mohamed Premier University, PB 717 60000, BV M6, Oujda, Morocco
Laboratory for Improvement of Agricultural Production, Biotechnology and Environment (LAPABE) / Water, Environment and Health Team, Faculty of Science, Mohamed Premier University, PB 717 60000, BV M6, Oujda, Morocco
Ecol. Eng. Environ. Technol. 2024; 2:199-209
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ABSTRACT
Morocco is currently facing significant challenges due to the ever–changing climate, with its critical water sources crucial for agriculture, economy, and daily life being greatly affected. In order to thoroughly understand the impact of climate change on the Ghis–Nekor watershed, an in–depth study spanning 38 years (1978–2016) was conducted. This involved examining meteorological data from three stations and utilizing advanced indices such as SPI, RDI, and DI. The findings of this study reveal prominent shifts in precipitation patterns, indicating a vulnerability in the region. While there was a general increase in annual rainfall during the specified time period, a sharp decline was observed post–2008. Further analysis of drought confirmed the presence of persistent dry spells and recurring episodes, highlighting the urgent need for effective water management strategies. These crucial findings must be considered by decision–makers for successful climate adaptation, emphasizing the crucial role played by this study in mitigating the effects of climate change.
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