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Depth heterogeneity of lignin-degrading microbiome and organic carbon processing in mangrove sediments

Jijuan Ding, Fei Liu, Jiaxiong Zeng, Hang Gu, Jing Huang, Bo Wu, Longfei Shu, Qingyun Yan, Zhili He, Cheng Wang

2025npj Biofilms and Microbiomes12 citationsDOIOpen Access PDF

Abstract

Mangrove ecosystems are globally recognized for their blue carbon (C) sequestration capacity. Lignocellulosic detritus constitutes the primary C input to mangrove sediments, but the microbial processes involved in its bioprocessing remain unclear. Using lignocellulosic analysis and metagenomic sequencing across five 100-cm sediment cores, we found a high proportion of lignin (95.0-97.7%) within sediments' lignocellulosic detritus, with a small fraction of lignin-degrading genes (1.24-1.98%) of lignin-degrading genes within the carbohydrate-active enzyme coding genes. Depth stratification was observed in genes and microbial communities involved in lignin depolymerization and mineralization of lignin monomer derivatives. Further microbe-centered analyses of biomass production rates and adaptive metabolism revealed diminished microbial C use efficiency potential and augmented "enzyme latch" with increasing sediment depths. These findings enhance our understanding of sedimentary organic C cycling and storage in coastal blue C ecosystems.

Topics & Concepts

LigninLignocellulosic biomassBlue carbonEnvironmental chemistryMetagenomicsMangroveMineralization (soil science)DetritusChemistryEcosystemBiologyBotanyEcologyBiochemistryOrganic chemistryNitrogenGeneSeagrassCoastal wetland ecosystem dynamicsMicrobial Community Ecology and PhysiologyPeatlands and Wetlands Ecology
Depth heterogeneity of lignin-degrading microbiome and organic carbon processing in mangrove sediments | Litcius