Abstract
BACKGROUND: Cryoconite granules are mineral-microbial aggregates found on glacier surfaces worldwide and are hotspots of biogeochemical reactions in glacier ecosystems. However, despite their importance within glacier ecosystems, the geographical diversity of taxonomic assemblages and metabolic potential of cryoconite communities around the globe remain unclear. In particular, the genomic content of cryoconite communities on Asia's high mountain glaciers, which represent a substantial portion of Earth's ice masses, has rarely been reported. Therefore, in this study, to elucidate the taxonomic and ecological diversities of cryoconite bacterial consortia on a global scale, we conducted shotgun metagenomic sequencing of cryoconite acquired from a range of geographical areas comprising Polar (Arctic and Antarctic) and Asian alpine regions.
RESULTS: Our metagenomic data indicate that compositions of both bacterial taxa and functional genes are particularly distinctive for Asian cryoconite. Read abundance of the genes responsible for denitrification was significantly more abundant in Asian cryoconite than the Polar cryoconite, implying that denitrification is more enhanced in Asian glaciers. The taxonomic composition of Cyanobacteria, the key primary producers in cryoconite communities, also differs between the Polar and Asian samples. Analyses on the metagenome-assembled genomes and fluorescence emission spectra reveal that Asian cryoconite is dominated by multiple cyanobacterial lineages possessing phycoerythrin, a green light-harvesting component for photosynthesis. In contrast, Polar cryoconite is dominated by a single cyanobacterial species Phormidesmis priestleyi that does not possess phycoerythrin. These findings suggest that the assemblage of cryoconite bacterial communities respond to regional- or glacier-specific physicochemical conditions, such as the availability of nutrients (e.g., nitrate and dissolved organic carbon) and light (i.e., incident shortwave radiation).
CONCLUSIONS: Our genome-resolved metagenomics provides the first characterization of the taxonomic and metabolic diversities of cryoconite from contrasting geographical areas, highlighted by the distinct light-harvesting approaches of Cyanobacteria and nitrogen utilization between Polar and Asian cryoconite, and implies the existence of environmental controls on the assemblage of cryoconite communities. These findings deepen our understanding of the biodiversity and biogeochemical cycles of glacier ecosystems, which are susceptible to ongoing climate change and glacier decline, on a global scale. Video abstract.
Original language | English (US) |
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Article number | 50 |
Journal | Microbiome |
Volume | 10 |
Issue number | 1 |
DOIs | |
State | Published - Dec 2022 |
Bibliographical note
Funding Information:This study was financially supported by JSPS KAKENHI to TM (19K23766), NT (19H01143 and 20K21840), TS (21H03588), and also by the Arctic Challenge for Sustainability II (ArCS II), Program Grant Number JPMXD1420318865, and a grant from the Institute for Fermentation, Osaka (G-2020-2-133). Sample collections in Svalbard were supported by Great Britain Sasakawa Foundation Grant #3998 to NT, TI-F and AE, and NERC Grant NE/V012991/1 to AE.
Funding Information:
We are grateful to?Kotaro Fukui and Dylan Bodington for collecting glacier samples as part of their field researches. We thank?NERC Arctic Station, UNIS, and Andy Hodson?for field support on Svalbard.?We also?thank Ayumi Akiyosi for DNA analysis, and Makiko Kosugi for providing the monoculture of P. priestleyi. Computations were partially performed on the NIG supercomputer at ROIS National Institute of Genetics.
Publisher Copyright:
© 2022, The Author(s).
Keywords
- Chromatic acclimation
- Cryoconite
- Cyanobacteria
- Denitrification
- Glacier ecosystem
- Metagenomics
- Phycobilisome
- Phycoerythrin/metabolism
- Ice Cover/microbiology
- Ecosystem
- Cyanobacteria/genetics
- Nitrogen/metabolism
PubMed: MeSH publication types
- Research Support, Non-U.S. Gov't
- Video-Audio Media
- Journal Article