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Vegetation and microbes interact to preserve carbon in many wooded peatlands

Hongjun Wang, Jianqing Tian, Huai Chen, Mengchi Ho, Rytas Vilgalys, Zhao‐Jun Bu, Xingzhong Liu, Curtis J. Richardson

2021Communications Earth & Environment52 citationsDOIOpen Access PDF

Abstract

Abstract Peatlands have persisted as massive carbon sinks over millennia, even during past periods of climate change. The commonly accepted theory of abiotic controls (mainly anoxia and low temperature) over carbon decomposition cannot fully explain how vast low-latitude shrub/tree dominated (wooded) peatlands consistently accrete peat under warm and seasonally unsaturated conditions. Here we show, by comparing the composition and ecological traits of microbes between Sphagnum - and shrub-dominated peatlands, that slow-growing microbes decisively dominate the studied shrub-dominated peatlands, concomitant with plant-induced increases in highly recalcitrant carbon and phenolics. The slow-growing microbes metabolize organic matter thirty times slower than the fast-growing microbes that dominate our Sphagnum -dominated site. We suggest that the high-phenolic shrub/tree induced shifts in microbial composition may compensate for positive effects of temperature and/or drought on metabolism over time in peatlands. This biotic self-sustaining process that modulates abiotic controls on carbon cycling may improve projections of long-term, climate-carbon feedbacks in peatlands.

Topics & Concepts

PeatShrubSphagnumAbiotic componentEnvironmental scienceEcologyCarbon sinkCarbon cycleCarbon fibersClimate changeEcosystemBiologyMaterials scienceComposite materialComposite numberPeatlands and Wetlands EcologyCoastal wetland ecosystem dynamicsGeology and Paleoclimatology Research
Vegetation and microbes interact to preserve carbon in many wooded peatlands | Litcius