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Microbially mediated climate feedbacks from wetland ecosystems

Pieter Candry, Britt Abrahamson, David A. Stahl, Mari K.H. Winkler

2023Global Change Biology27 citationsDOIOpen Access PDF

Abstract

while also sequestering 20%-30% of all soil carbon. Both greenhouse gas fluxes and carbon storage are driven by microbial communities in wetland soils. However, these key players are often overlooked or overly simplified in current global climate models. Here, we first integrate microbial metabolisms with biological, chemical, and physical processes occurring at scales from individual microbial cells to ecosystems. This conceptual scale-bridging framework guides the development of feedback loops describing how wetland-specific climate impacts (i.e., sea level rise in estuarine wetlands, droughts and floods in inland wetlands) will affect future climate trajectories. These feedback loops highlight knowledge gaps that need to be addressed to develop predictive models of future climates capturing microbial contributions. We propose a roadmap connecting environmental scientific disciplines to address these knowledge gaps and improve the representation of microbial processes in climate models. Together, this paves the way to understand how microbially mediated climate feedbacks from wetlands will impact future climate change.

Topics & Concepts

WetlandEnvironmental scienceClimate changeEcosystemCarbon cycleEcologyEnvironmental resource managementGreenhouse gasGlobal warmingTemporal scalesBiologyMicrobial Community Ecology and PhysiologyGut microbiota and healthCoastal wetland ecosystem dynamics
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