Multi-omics of permafrost, active layer and thermokarst bog soil microbiomes

Dates

Publication Date: 2015-05-14

Citation

Jenni Hultman, Mark P Waldrop, Rachel Mackelprang, Maude M. David, Jack W McFarland, Steven J Blazewicz, Jennifer W Harden, Merritt R. Turetsky, A. David McGuire, Manesh B. Shah, Nathan C. VerBerkmoes, Lang Ho Lee, Kostas Mavrommatis, and Janet K. Jansson, 2015-05-14, Multi-omics of permafrost, active layer and thermokarst bog soil microbiomes: Nature, v. 521, iss. 7551.

Summary

Abstract (from http://www.nature.com/nature/journal/v521/n7551/full/nature14238.html): Over 20% of Earth’s terrestrial surface is underlain by permafrost with vast stores of carbon that, once thawed, may represent the largest future transfer of carbon from the biosphere to the atmosphere1. This process is largely dependent on microbial responses, but we know little about microbial activity in intact, let alone in thawing, permafrost. Molecular approaches have recently revealed the identities and functional gene composition of microorganisms in some permafrost soils2, 3, 4 and a rapid shift in functional gene composition during short-term thaw experiments3. However, the fate of permafrost carbon depends on climatic, hydrological and [...]

Summary

Abstract (from http://www.nature.com/nature/journal/v521/n7551/full/nature14238.html): Over 20% of Earth’s terrestrial surface is underlain by permafrost with vast stores of carbon that, once thawed, may represent the largest future transfer of carbon from the biosphere to the atmosphere1. This process is largely dependent on microbial responses, but we know little about microbial activity in intact, let alone in thawing, permafrost. Molecular approaches have recently revealed the identities and functional gene composition of microorganisms in some permafrost soils2, 3, 4 and a rapid shift in functional gene composition during short-term thaw experiments3. However, the fate of permafrost carbon depends on climatic, hydrological and microbial responses to thaw at decadal scales5, 6. Here we use the combination of several molecular ‘omics’ approaches to determine the phylogenetic composition of the microbial communities, including several draft genomes of novel species, their functional potential and activity in soils representing different states of thaw: intact permafrost, seasonally thawed active layer and thermokarst bog. The multi-omics strategy reveals a good correlation of process rates to omics data for dominant processes, such as methanogenesis in the bog, as well as novel survival strategies for potentially active microbes in permafrost.

Contacts

Author :: Jenni Hultman, Mark P Waldrop, Rachel Mackelprang, Maude M. David, Jack W McFarland, Steven J Blazewicz, Jennifer W Harden, Merritt R. Turetsky, A. David McGuire, Manesh B. Shah, Nathan C. VerBerkmoes, Lang Ho Lee, Kostas Mavrommatis, Janet K. Jansson

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Hultman et al., 2015; Nature	http://www.nature.com/nature/journal/v521/n7551/full/nature14238.html#affil-auth

Multi-omics of permafrost, active layer and thermokarst bog soil microbiomes

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