Dogbè Clément Adjahouinou^1,, Mouhamadou Nourou Dine Liady², Chaim Vivien Doto³, Richard Adandé⁴, Elias Alexandre Sètondji Adanlokonon⁵, Yaovi Zounon^{2, 6}, Sètondé Baptiste Karen Dossoukpèvi^{2, 6}, Simon Ahouansou Montcho¹, Zacharie Sohou^{2, 6}

This study aimed to evaluate the physicochemical pollution levels in the Cotonou Lagoon, focusing on the dry season, when it receives raw wastewater through various stormwater sewers and drains in the city. Six stations were identified and monthly sampled on the lagoon for this purpose, taking into account the discharge point of the sewers. Temperature, pH, electrical conductivity, dissolved oxygen content, and water transparency of the lagoon waters were measured in situ. Turbidity, suspended solids, and nutrient concentrations, including ammonium, nitrites, nitrates, orthophosphates, and sulfates, of the water samples, were determined using molecular spectrophotometry. Through the assessed physico-chemical, the lagoon waters were found to be nutrient-rich, particularly with ammonium and orthophosphates (up to 10 mg L^-1 and 0.5 mg L^-1, respectively), detected at levels toxic to aquatic life and indicating early risk of eutrophication, despite the high dissolved oxygen levels recorded. The organic pollution index calculated (varying from 2.67 to 4.33), revealed a heterogenous a moderate organic pollution in most of the lagoon sectors, but a strong and a weak pollution level noticed in other sectors. An effective management of wastewater should be undertaken to significantly reduce the pollution of the lagoon, thereby preventing ecological disasters that may result from eutrophication.

Aquatic ecosystem, estuary, pollution, eutrophication, aquatic biodiversity, sanitation