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SRX24128325: 16S amp of moss microbiome
1 ILLUMINA (Illumina MiSeq) run: 185,963 spots, 93.2M bases, 51.1Mb downloads

Design: In a three-week microcosm experiment, prokaryotic microbial communities exposted to a community of ciliate predators at two different field-relevant/climate relevant temperatures and nutrient levels, reflective of forecasted climate shifts
Submitted by: Oak Ridge National Laboratory
Study: Peatland microbiomes after protist feeding
show Abstracthide Abstract
Temperature significantly impacts microbial communities' composition and function, which subsequently plays a vital role in the global carbon cycle, potentially exacerbating climate change. Recent research indicates that the interactions between different microorganisms might be critical in shaping how these communities react to temperature changes. Nonetheless, we still lack a comprehensive understanding of how predation influences microbial communities in future climate scenarios. Here, we assess whether predation by key bacterial consumer - ciliates - influences a microbial community's freshwater temperature and nutrient response regarding biomass, diversity, structure, and function. In a three-week microcosm experiment, we exposed mostly prokaryotic microbial communities to a community of ciliate predators at two different field-relevant, climate relevant temperatures and nutrient levels, reflective of forecasted climate shifts. Nutrients, temperature, and ciliate presence influenced microbial biomass and function. Interestingly, however, the interaction between nutrients, temperature, and ciliate presence more comprehensively explained the observed changes in microbial community biomass, structure, and function. Our study supports previous findings that temperature and nutrients are essential drivers of microbial community structure and function but also demonstrates that the presence of predators can mediate microbial community, prey, microbiome and their responses to warming.
Sample:
SAMN40710803 • SRS20913679 • All experiments • All runs
Organism: peat metagenome
Library:
Name: S79-Full22-Yes-16S
Instrument: Illumina MiSeq
Strategy: AMPLICON
Source: GENOMIC
Selection: PCR
Layout: PAIRED
Runs: 1 run, 185,963 spots, 93.2M bases, 51.1Mb
Run# of Spots# of BasesSizePublished
SRR28527415185,96393.2M51.1Mb2024-04-02

ID:
32438827

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