Litcius/Paper detail

Response of potential activity, abundance and community composition of nitrite‐dependent anaerobic methanotrophs to long‐term fertilization in paddy soils

Yuling Yang, Lidong Shen, Yanan Bai, Xu Zhao, Shuwei Wang, Jiaqi Liu, Xin Liu, Mao-hui Tian, Wangting Yang, Jinghao Jin, Hechen Huang, Hongsheng Wu

2022Environmental Microbiology23 citationsDOI

Abstract

Abstract The process of nitrite‐dependent anaerobic methane oxidation (n‐damo) catalysed by Candidatus Methylomirabilis oxyfera ( M . oxyfera )‐like bacteria is a novel pathway in regulating methane (CH 4 ) emissions from paddy fields. Nitrogen fertilization is essential to improve rice yields and soil fertility; however, its effect on the n‐damo process is largely unknown. Here, the potential n‐damo activity, abundance and community composition of M . oxyfera ‐like bacteria were investigated in paddy fields under three long‐term (32 years) fertilization treatments, i.e. unfertilized control (CK), chemical fertilization (NPK) and straw incorporation with chemical fertilization (SNPK). Relative to the CK, both NPK and SNPK treatments significantly ( p < 0.05) increased the potential n‐damo activity (88%–110%) and the abundance (52%–105%) of M . oxyfera ‐like bacteria. The variation of soil organic carbon (OrgC) content and inorganic nitrogen content caused by the input of chemical fertilizers and straw returning were identified as the key factors affecting the potential n‐damo activity and the abundance of M . oxyfera ‐like bacteria. However, the community composition and diversity of M . oxyfera ‐like bacteria did not change significantly by the input of fertilizers. Overall, our results provide the first evidence that long‐term fertilization greatly stimulates the n‐damo process, indicating its active role in controlling CH 4 emissions from paddy fields.

Topics & Concepts

BiologyHuman fertilizationAbundance (ecology)Microbial population biologyRelative species abundanceAnaerobic oxidation of methanePaddy fieldBacteriaAgronomyNitrogenEnvironmental chemistryAnimal scienceBotanyEcologyMethaneChemistryOrganic chemistryGeneticsMethane Hydrates and Related PhenomenaMicrobial Community Ecology and PhysiologyAtmospheric and Environmental Gas Dynamics