Metabolic and trophic interactions modulate methane production in response to warming
Permanent lenke
https://hdl.handle.net/10037/7689Dato
2015-04-27Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
Arctic permafrost soils store large amounts of soil organic carbon
(SOC) that could be released into the atmosphere as methane
(CH4) in a future warmer climate. How warming affects the complex
microbial network decomposing SOC is not understood. We
studied CH4 production of Arctic peat soil microbiota in anoxic
microcosms over a temperature gradient from 1 to 30 °C, combining
metatranscriptomic, metagenomic, and targeted metabolic profiling.
The CH4 production rate at 4 °C was 25% of that at 25 °C and
increased rapidly with temperature, driven by fast adaptations of
microbial community structure, metabolic network of SOC decomposition,
and trophic interactions. Below 7 °C, syntrophic propionate
oxidation was the rate-limiting step for CH4 production;
above this threshold temperature, polysaccharide hydrolysis became
rate limiting. This change was associated with a shift within
the functional guild for syntrophic propionate oxidation, with Firmicutes
being replaced by Bacteroidetes. Correspondingly, there was
a shift from the formate- and H2-using Methanobacteriales to Methanomicrobiales
and from the acetotrophic Methanosarcinaceae to
Methanosaetaceae. Methanogenesis from methylamines, probably
stemming from degradation of bacterial cells, became more important
with increasing temperature and corresponded with an
increased relative abundance of predatory protists of the phylum
Cercozoa. We concluded that Arctic peat microbiota responds rapidly
to increased temperatures by modulating metabolic and trophic
interactions so that CH4 is always highly produced: The microbial
community adapts through taxonomic shifts, and cascade effects of
substrate availability cause replacement of functional guilds and
functional changes within taxa.
Forlag
National Academy of Sciences of the USASitering
PNAS E2507–E2516 (2015)Metadata
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