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Oxic-anoxic regime shifts mediated by feedbacks between biogeochemical processes and microbial community dynamics

Timothy Bush, Muhe Diao, Rosalind J. Allen, Ruben Sinnige, Gerard Muyzer () and Jef Huisman
Additional contact information
Timothy Bush: University of Amsterdam
Muhe Diao: University of Amsterdam
Rosalind J. Allen: University of Edinburgh
Ruben Sinnige: University of Amsterdam
Gerard Muyzer: University of Amsterdam
Jef Huisman: University of Amsterdam

Nature Communications, 2017, vol. 8, issue 1, 1-9

Abstract: Abstract Although regime shifts are known from various ecosystems, the involvement of microbial communities is poorly understood. Here we show that gradual environmental changes induced by, for example, eutrophication or global warming can induce major oxic-anoxic regime shifts. We first investigate a mathematical model describing interactions between microbial communities and biogeochemical oxidation-reduction reactions. In response to gradual changes in oxygen influx, this model abruptly transitions between an oxic state dominated by cyanobacteria and an anoxic state with sulfate-reducing bacteria and phototrophic sulfur bacteria. The model predictions are consistent with observations from a seasonally stratified lake, which shows hysteresis in the transition between oxic and anoxic states with similar changes in microbial community composition. Our results suggest that hysteresis loops and tipping points are a common feature of oxic-anoxic transitions, causing rapid drops in oxygen levels that are not easily reversed, at scales ranging from small ponds to global oceanic anoxic events.

Date: 2017
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DOI: 10.1038/s41467-017-00912-x

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