<italic>Geminocystis urbisnovae</italic> sp. nov. (Chroococcales, Cyanobacteria): polyphasic description complemented with a survey of the family <italic>Geminocystaceae</italic>


Citation
Polyakova et al. (2023). Algae 38 (2)
Names (1)
Abstract
Progress in phylogenomic analysis has led to a considerable re-evaluation of former cyanobacterial system, with many new taxa being established at different nomenclatural levels. The family <i>Geminocystaceae</i> is among cyanobacterial taxa recently described on the basis of polyphasic approach. Within this family, there are six genera: <i>Geminocystis</i>, <i>Cyanobacterium</i>, <i>Geminobacterium</i>, <i>Annamia</i>, <i>Picocyanobacterium</i>, and <i>Microcrocis</i>. The genus <i>Geminocystis</i> previously encompassed two species: <i>G. herdmanii </i>and <i>G. papuanica</i>. Herein, a new species <i>G. urbisnovae</i> was proposed under the provision of the International Code of Nomenclature for algae, fungi, and plants (ICN). Polyphasic analysis was performed for five strains from the CALU culture collection (St. Petersburg State University, Russian Federation), and they were assigned to the genus Geminocystis in accordance with high 16S rRNA gene similarity to existing species, as well as because of proximity to these species on the phylogenetic trees reconstructed with RaxML and Bayes methods. Plausibility of their assignment to a separate species of the genus <i>Geminocystis</i> was substantiated with smaller cell size; stenohaline freshwater ecotype; capability to complementary chromatic adaptation of second type (CA2); distinct 16S rRNA gene clustering; sequences and folding of D1−D1′ and B box domains of the 16S−23S internal transcribed spacer region. The second objective pursued by this communication was to provide a survey of the family <i>Geminocystaceae</i>. The overall assessment was that, despite attention of many researchers, this cyanobacterial family has been understudied and, especially in the case of the crucially important genus Cyanobacterium, taxonomically problematic.
Authors
Publication date
2023-06-15
DOI
10.4490/algae.2023.38.6.12

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