Monitoring water supply requires, among other quality indicators, the identification of the cyanobacte-ria community taking into account their potential impact in terms of water quality. In this work, cya-nobacteria strains were isolated from Cheffia reservoir and identified based on morphological features, 16S rRNA gene, phylogenetic analysis, and toxin production by PCR screening of the genes involved in the biosynthesis of cyanotoxins (mcyA, mcyE, sxtA, sxtG, sxtI, cyrJ, and anaC). Thirteen strains repre-senting six different genera: Aphanothece, Microcystis, Geitlerinema, Lyngbya, Microcoleus, and Pseudanabaena were obtained. The results demonstrated the importance of morphological features in determining the genus or the species when incongruence between the morphological and phylogenetic analysis occurs and only the utility of the 16S rRNA gene on determining higher taxonomic levels. The phylogenetic analysis confirmed the polyphyly of cyanobacteria for the Microcystis and Oscillatoriales genera. Unexpectedly, Aphanothece sp. CR 11 had the genetic potential to produce microcystins. Our study gives new insight instead of picocyanobacteria toxic genotype in this ecosystem. Thus, conven-tional water treatment methods in this ecosystem have to be adapted.