Shift of microbial taxa and metabolisms relying on carbon sources of rhizodeposits and straw of Zea mays L

verfasst von
Yingyi Fu, Yu Luo, Jiejun Qi, Xinhua He, Haoqing Zhang, Georg Guggenberger, Jianming Xu
Abstract

Decoding the fundamental taxa that decompose crop rhizodeposits (rhizo-C) and/or straw residue (straw-C) is crucial for understanding the role of plant-derived carbon (C) in driving microbial community assembly and consequent C decomposition. Here, a parallel 13C-labeling design, DNA-SIP, and metagenomics techniques were combined to separate maize rhizo-C utilizers from straw-C utilizers in agriculture soils containing both C sources. Also, by comparing bacterial utilizers and their C metabolisms in soils amended with a single C source (e.g., straw-13C only) and two C sources (e.g., straw-13C and rhizo-12C), we investigated the shift of composition and metabolisms of soil bacterial utilizers responding to C sources shift (e.g., compositional and metabolic changes of straw-13C utilizers from soil containing straw-13C to soil containing both straw-13C and rhizo-12C). We revealed i) Proteobacteria predominantly utilized rhizo-13C, while Firmicutes dominated the community specializing in straw-13C decomposition in soil containing both straw-C and rhizo-C; ii) the planted maize (i.e. rhizo-C input) changed community composition and metabolisms of straw-C utilizers, which shifted from K-strategists characterized by an enrichment of lignin-degrading genes to r-strategists which exhibited an enrichment of genes related to polysaccharide degradation. This metabolic shift of straw-C utilizer ultimately reduced straw-13C mineralization by 25.6% when maize was planted. This study identified the distinct utilizers of rhizo-C and straw-C in soils containing both C sources, and shed light on the shift of bacterial community and their metabolic activities responding to the changes of maize-derived C sources.

Organisationseinheit(en)
Institut für Bodenkunde
Externe Organisation(en)
Zhejiang University
Northwest Agriculture and Forestry University
University of Western Australia
University of California at Davis
Ningbo University
Typ
Artikel
Journal
Soil Biology and Biochemistry
Band
198
ISSN
0038-0717
Publikationsdatum
11.2024
Publikationsstatus
Veröffentlicht
Peer-reviewed
Ja
ASJC Scopus Sachgebiete
Mikrobiologie, Bodenkunde
Elektronische Version(en)
https://doi.org/10.1016/j.soilbio.2024.109578 (Zugang: Geschlossen)