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DNA Stable-Isotope Probing Delineates Carbon Flows from Rice Residues into Soil Microbial Communities Depending on Fertilization

Yali Kong, Yakov Kuzyakov, Yang Ruan, Junwei Zhang, Tingting Wang, Min Wang, Shiwei Guo, Qirong Shen, Ning Ling

2020Applied and Environmental Microbiology80 citationsDOIOpen Access PDF

Abstract

Identifying and understanding the active microbial communities and interactions involved in plant residue utilization are key questions to elucidate the transformation of soil organic matter (SOM) in agricultural ecosystems. Microbial community composition responds strongly to management, but little is known about specific microbial groups involved in plant residue utilization and, consequently, microbial functions under different methods of fertilization. We combined DNA stable-isotope ( 13 C) probing and high-throughput sequencing to identify active fungal and bacterial groups degrading residues in soils after 3 years of mineral fertilization with and without manure. Manuring changed the active microbial composition and complexified microbial interactions involved in residue C flow. Most fungal genera, especially Chaetomium , Staphylotrichum, Penicillium , and Aspergillus , responded to residue addition faster in soils that historically had received manure. We generated a valuable library of microorganisms involved in plant residue utilization for future targeted research to exploit specific functions of microbial groups in organic matter utilization and C sequestration.

Topics & Concepts

Stable-isotope probingMicrobial population biologyManureResidue (chemistry)MicroorganismBiologySoil waterHuman fertilizationEnvironmental chemistryMicrobial ecologyAgronomySoil organic matterOrganic matterChemistryBacteriaEcologyBiochemistryGeneticsMicrobial Community Ecology and PhysiologySoil Carbon and Nitrogen DynamicsGenomics and Phylogenetic Studies
DNA Stable-Isotope Probing Delineates Carbon Flows from Rice Residues into Soil Microbial Communities Depending on Fertilization | Litcius