@article{aees20261412,
author={{DOTO, Chaim Vivien and BIAOU, Olanyan Elvis Heribert and ADJAHOUINOU, Dogb¨¨ Cl¨¦ment and AGADJIHOUEDE, Hyppolite},
title={Sustainable Management of Water Resources in Sav¨¨, Benin: Physicochemical Insights and Conservation Strategies},
journal={Applied Ecology and Environmental Sciences},
volume={14},
number={1},
pages={7--14},
year={2026},
url={https://pubs.sciepub.com/aees/14/1/2},
issn={2328-3920},
abstract={This study aims to characterize the water resources of the Sav¨¨ municipality in Benin to support sustainable management strategies. The research was structured around three complementary components: (i) the inventory and characterization of surface and groundwater resources; (ii) the assessment of water physicochemical quality; and (iii) the identification of the primary natural and anthropogenic factors contributing to water degradation. The methodology combined field surveys to locate and describe water points, systematic sampling campaigns, laboratory analyses at five representative stations, and statistical analyses using Microsoft Excel and R software (version 4.3.2). Investigated parameters included temperature, pH, electrical conductivity, total dissolved solids (TDS), dissolved oxygen, five-day biochemical oxygen demand (BOD?), chemical oxygen demand (COD), and nutrient concentrations (nitrates, nitrites, ammonium, and phosphates). Results revealed a heterogeneous spatial distribution of water resources, with a predominant reliance on groundwater. Several stations exhibited notably degraded water quality, characterized by elevated BOD?, COD, ammonium, and phosphate levels, reflecting substantial organic and domestic pollution and low dissolved oxygen concentrations. Correlation analyses further highlighted strong associations between organic pollution indicators, turbidity, and anthropogenic pressures. Based on these findings, context-specific strategies for sustainable water resource management in Sav¨¨ are proposed, emphasizing participatory approaches that integrate technical, institutional, and environmental measures to improve drinking water access, safeguard resources, and strengthen local water governance.},
doi={10.12691/aees-14-1-2}
publisher={Science and Education Publishing}
}