Abstract
The Sahara Desert is characterized by extreme environmental conditions, which are a unique challenge for life. Cyanobacteria are key players in the colonization of bare soils and form assemblages with other microorganisms in the top millimetres, establishing biological soil crusts (biocrusts) that cover most soil surfaces in deserts, which have important roles in the functioning of drylands. However, knowledge of biocrusts from these extreme environments is limited. Therefore, to study cyanobacterial community composition in biocrusts from the Sahara Desert, we utilized a combination of methodologies in which taxonomic assignation, for next-generation sequencing of soil samples, was based on phylogenetic analysis (16S rRNA gene) in parallel with morphological identification of cyanobacteria in natural samples and isolates from certain locations. Two close locations that differed in microenvironmental conditions were analysed. One was a dry salt lake (a “chott”), and the other was an extension of sandy, slightly saline soil. Differences in cyanobacterial composition between the sites were found, with a clear dominance of Microcoleus spp. in the less saline site, while the chott presented a high abundance of heterocystous cyanobacteria as well as the filamentous non-heterocystous Pseudophormidium sp. and the unicellular cf. Acaryochloris. The cyanobacteria found in our study area, such as Microcoleus steenstrupii, Microcoleus vaginatus, Scytonema hyalinum, Tolypothrix distorta, and Calothrix sp., are also widely distributed in other geographic locations around the world, where the conditions are less severe. Our results, therefore, indicated that some cyanobacteria can cope with polyextreme conditions, as confirmed by bioassays, and can be considered extremotolerant, being able to live in a wide range of conditions.
Highlights
Taleb Larbi soil belongs to the slightly gypsiferous class, and the Chott Kralla soil belongs to the medium gypsiferous class
Biocrusts of the topsoil of the Desert are exposed to extreme conditions, as high ultraviolet light irradiation, large changes in temperatures and low moisture availas high ultraviolet light irradiation, large changes in temperatures and low moisture ability, including long periods of desiccation
Desert an exceptional polyextreme environment. These polyextreme environmental conditions influence the the polyextreme environment. These polyextreme environmental conditions influence structure of existing cyanobacterial communities in biocrusts, since only those able to to structure of existing cyanobacterial communities in biocrusts, since only those able withstand these hostile conditions will live under such stress; cyanobacteria withstand these hostile conditions will live under such stress; cyanobacteria from these biocrusts and experiencing these conditions must bemust polyextremophiles or pol- or from these biocrusts and experiencing these conditions be polyextremophiles yextremotolerants
Summary
The Sahara is the largest desert in the world, is subjected to a wide range of climatic conditions and is one of the most hyperarid regions on Earth, with an aridity index
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