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Long‐term soil warming decreases soil microbial necromass carbon by adversely affecting its production and decomposition

Xiaofei Liu, Ye Tian, Jakob Heinzle, Erika Salas, Steve Kwatcho Kengdo, Werner Borken, Andreas Schindlbacher, Wolfgang Wanek

2024Global Change Biology58 citationsDOI

Abstract

Microbial necromass carbon (MNC) accounts for a large fraction of soil organic carbon (SOC) in terrestrial ecosystems. Yet our understanding of the fate of this large carbon pool under long-term warming is uncertain. Here, we show that 14 years of soil warming (+4°C) in a temperate forest resulted in a reduction in MNC by 11% (0-10 cm) and 33% (10-20 cm). Warming caused a decrease in the content of MNC due to a decline in microbial biomass carbon and reduced microbial carbon use efficiency. This reduction was primarily caused by warming-induced limitations in available soil phosphorus, which, in turn, constrained the production of microbial biomass. Conversely, warming increased the activity of soil extracellular enzymes, specifically N-acetylglucosaminidase and leucine aminopeptidase, which accelerated the decomposition of MNC. These findings collectively demonstrate that decoupling of MNC formation and decomposition underlie the observed MNC loss under climate warming, which could affect SOC content in temperate forest ecosystems more widespread.

Topics & Concepts

Environmental scienceSoil carbonBiomass (ecology)Global warmingSoil organic matterCarbon cycleEnvironmental chemistryEcosystemSoil waterEcologyClimate changeSoil scienceChemistryBiologyForest Ecology and Biodiversity StudiesSoil Carbon and Nitrogen DynamicsMycorrhizal Fungi and Plant Interactions
Long‐term soil warming decreases soil microbial necromass carbon by adversely affecting its production and decomposition | Litcius