Microbial diversity of an Antarctic subglacial community and high‐resolution replicate sampling inform hydrological connectivity in a polar desert

Summary Antarctic subglacial environments host microbial ecosystems and are proving to be geochemically and biologically diverse. The Taylor Glacier, Antarctica, periodically expels iron‐rich brine through a conduit sourced from a deep subglacial aquifer, creating a dramatic red surface feature know...

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Veröffentlicht in:Environmental microbiology 2019-07, Vol.21 (7), p.2290-2306
Hauptverfasser: Campen, Richard, Kowalski, Julia, Lyons, W. Berry, Tulaczyk, Slawek, Dachwald, Bernd, Pettit, Erin, Welch, Kathleen A., Mikucki, Jill A.
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Sprache:eng
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Zusammenfassung:Summary Antarctic subglacial environments host microbial ecosystems and are proving to be geochemically and biologically diverse. The Taylor Glacier, Antarctica, periodically expels iron‐rich brine through a conduit sourced from a deep subglacial aquifer, creating a dramatic red surface feature known as Blood Falls. We used Illumina MiSeq sequencing to describe the core microbiome of this subglacial brine and identified previously undetected but abundant groups including the candidate bacterial phylum Atribacteria and archaeal phylum Pacearchaeota. Our work represents the first microbial characterization of samples collected from within a glacier using a melt probe, and the only Antarctic subglacial aquatic environment that, to date, has been sampled twice. A comparative analysis showed the brine community to be stable at the operational taxonomic unit level of 99% identity over a decade. Higher resolution sequencing enabled deconvolution of the microbiome of subglacial brine from mixtures of materials collected at the glacier surface. Diversity patterns between this brine and samples from the surrounding landscape provide insight into the hydrological connectivity of subglacial fluids to the surface polar desert environment. Understanding subice brines collected on the surfaces of thick ice covers has implications for analyses of expelled materials that may be sampled on icy extraterrestrial worlds.
ISSN:1462-2912
1462-2920
DOI:10.1111/1462-2920.14607