Here we provide the first extensive examination of the community composition of this cosmopolitan phylum in a range of pelagic habitats (176 datasets) and highlight the impact of salinity and depth on their phylogenomic composition. Reconstructed genomes (53 in total) provide a perspective on the phylogeny, metabolism and distribution of three novel classes and two family-level taxa within the phylum Chloroflexi. We unraveled a remarkable genomic diversity of pelagic freshwater Chloroflexi representatives that thrive not only in the hypolimnion as previously suspected, but also in the epilimnion.
Our results suggest that the lake hypolimnion provides a globally stable habitat reflected in lower species diversity among hypolimnion specific CL500-11 and TK10 clusters in distantly related lakes compared to a higher species diversity of the epilimnion specific SL56 cluster. Cell volume analyses show that the CL500-11 are amongst the largest prokaryotic cells in the water column of deep lakes and with a biomass:abundance ratio of two they significantly contribute to the deep lake carbon flow. Metabolic insights indicate participation of JG30-KF-CM66 representatives in the global cobalamin production via cobinamide to cobalamin salvage pathway.
Extending phylogenomic comparisons to brackish and marine habitats suggests salinity as the major influencer of the community composition of the deep-dwelling Chloroflexi in marine (SAR202) and freshwater (CL500-11) habitats as both counterparts thrive in intermediate brackish salinity however, freshwater habitats harbor the most phylogenetically diverse community of pelagic Chloroflexi representatives that reside both in epi- and hypolimnion.
For more detailed information, check the publication:
Mehrshad M., Salcher M.M., Okazaki Y., Nakano S., Šimek K., Andrei A., Ghai R. (2018) Hidden in plain sight—highly abundant and diverse planktonic freshwater Chloroflexi Microbiome 6: 176.
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