Artigos de 2023

  • First Polyphasic Study of Cheffia Reservoir (Algeria) Cyanobacteria Isolates Reveals Toxic Picocyanobacteria Genotype

    Lamia Benredjem, João Morais, Guilherme Scotta Hentschke, Akila Abdi, Hajira Berredjem and Vitor Vasconcelos

    Abstract: Monitoring water supply requires, among other quality indicators, the identification of the cyanobacteria community and taking into account their potential impact in terms of water quality. In this work, cyanobacteria strains were isolated from the Cheffia Reservoir and identified based on morphological features, the 16S rRNA gene, phylogenetic analysis, and toxin production by polymerase chain reaction PCR screening of the genes involved in the biosynthesis of cyanotoxins (mcyA, mcyE, sxtA, sxtG, sxtI, cyrJ, and anaC). Thirteen strains representing 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 in 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 into species with picoplanktonic (or small) cell size and potentially toxic genotypes in this ecosystem. Thus, conventional water treatment methods in this ecosystem have to be adapted, indicating the requirement for pre-treatment methods that can effectively eliminate picocyanobacteria while preserving cell integrity to prevent toxin release.

    https://pubmed.ncbi.nlm.nih.gov/38004676/

  • Polyphasic description of Ciimarium marinum gen. et sp. nov. (Prochlorococcaceae, Synechococcales): a new picocyanobacterial taxon from the Portuguese coastal ecosystem

    Lamia Benredjem, João Morais, Guilherme Scotta Hentschke, Akila Abdi, Hajira Berredjem and Vitor Vasconcelos

    Abstract: In this paper, we describe Ciimarium marinum gen. et sp. nov. (Prochlorococcaceae, Synechococcales) based on 16S rRNA gene phylogenies, 16S-23S ITS secondary structures, ultrastructure (TEM), morphological, pigments and ecological data of “Synechococcus” sp. LEGE 11466. The strain was isolated from a sample collected at Leixões Harbour, Portugal (41°11’08.1”N 8°43’08.8”W) on September 26th, 2011, by scraping an epilithic biofilm under 10-13m depth, less than 1km offshore. Bayesian Inference and Maximum Likelihood phylogenies demonstrate that the Ciimarium sequence is placed in a monophyletic clade with strong phylogenetic support (BI=1, ML=100), within the Prochlorococcaceae cluster. The type strain LEGE 11466 is phylogenetically distant from other reference strains of Cyanobacteria and is grouped with Uncultured “Synechococcus” MLS1228cl3 , “Synechococcus” MLCB, “Cyanobium” ATX 6A2 ATX-6A2-C45 and “Synechococcus” MBIC10613.. The secondary structures of 16S-23S ITS corroborate with the separation of Ciimarium from all the Prochlorococcaceae genera. Also, they show that MLCB and ATX 6A2 ATX-6A2-C45 may be different species from the type LEGE 11466. The ultrastructure analysis shows parietal thylakoids, in agreement with the family description. Morphologically the genus is indistinguishable from other Prochlorococcaceae genera. The pigments analysis shows Zeaxanthin and β-carotene as the main pigments, and also a low concentration of phycocyanin. Finally, our phylogenies indicate that a revision of the Prochlorococcaceae family is necessary, as there are still many Synechococcus-like Cyanobacteria strains that should be described as new genera in the future.

    https://phytotaxa.mapress.com/pt/article/view/phytotaxa.637.2.2

  • Molecular, morphological and ecological studies of Limnospira platensis (Cyanobacteria), from saline and alkaline lakes, Pantanal Biome, Brazil.

    Kleber Renan de Souza Santo, Guilherme Scotta Hentschke, Graciela Ferrari, Ana Paula Dini Andreote, Marli de Fátima Fiore, Vitor Vasconcelos and Célia Leite Sant’Anna

    Abstract: We studied nineteen populations of A. platensis (Microcoleaceae, Cyanobacteria), from Pantanal (Brazil) shallow, saline and alkaline lakes. The lakes are connected to the Paraná and Paraguay Rivers Basins, and during wet seasons, the waters flow towards La Plata River estuary. Morphology of natural populations and cultures were analyzed using optical microscope, and 16S rDNA sequences were used for the BI and ML phylogenetic analysis. The morphological analysis shows that our populations fit in the original description of A. platensis, but with additional aerotopes. Also, it is evident that these structures are facultative and the species is planktonic, rather than benthic without aerotopes, as originally described. The phylogenetic analysis shows our strains in the monophyletic Limnospira clade. Considering that, in this paper we transfer the species A. platensis to the genus Limnospira, based on phylogenetic and morphological data. This new taxonomical combination is supported also by ecological data, and indicates that the species is more related and abundant in Pantanal, than in La Plata Basin, region from where it was originally described. According to our results, L. platensis is planktonic or benthic and typical from saline, alkaline and warm waters.

    https://www.frontiersin.org/articles/10.3389/fenvs.2023.1204787/full