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Impact of grazing on shaping abundance and composition of active methanotrophs and methane oxidation activity in a grassland soil

Impact of grazing on shaping abundance and composition of active methanotrophs and methane oxidation activity in a grassland soil
Impact of grazing on shaping abundance and composition of active methanotrophs and methane oxidation activity in a grassland soil
The effect of grazing on the abundance, composition, and methane (CH4) uptake of methanotrophs in grasslands has been well documented in the past few decades, but the dominant communities of active methanotrophs responsible for CH4 oxidation activity in grazed soils are still poorly understood. In this study, we characterized the metabolically active, aerobic methanotrophs in grasslands with three different levels of grazing (light, medium, and heavy) by combining DNA-stable isotope probing (SIP) and quantitative PCR (qPCR) for methane monooxygenase (pmoA) gene– and 16S rRNA gene–based amplicon sequencing. The CH4 oxidation potential was as low as 0.51 μmol g dry weight−1 day−1 in the ungrazed control, while it decreased as grazing intensity increased in grazed fields, ranging from 2.25 μmol g dry weight−1 day−1 in light grazed fields to 1.59 in heavily grazed fields. Increased CH4 oxidation activity was paralleled by twofold increases in abundance of pmoA genes and relative abundance of methanotroph-affiliated 16S rRNA genes in the total microbial community in grazed soils. SIP and sequencing revealed that the genera Methylobacter and Methylosarcina (type I; Gammaproteobacteria) and Methylocystis (type II; Alphaproteobacteria) were active methanotrophs responsible for CH4 oxidation in grazed soils. Light and intermediate grazing stimulated the growth and activity of methanotrophs, while heavy grazing decreased the abundance and diversity of the active methanotrophs in the typical steppe. Redundancy and correlation analysis further indicated that the variation of bulk density and soil C and N induced by grazing determined the abundance, diversity of active methanotrophs, and methane oxidation activity in the long-term grazed grassland soil.
Active methanotrophs, Grassland, Grazing, SIP, pmoA
0178-2762
799-810
Li, Yong
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Liu, Yaowei
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Pan, Hong
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Hernandez Garcia, Marcela
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Guan, Xiongming
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Wang, Wei
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Zhang, Qichun
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Luo, Yu
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Di, Hongjie
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Xu, Jianming
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Li, Yong
21062174-76a0-44a2-91db-1ecdb0b3526b
Liu, Yaowei
f3d552c0-88db-429a-a7e3-45d988ee7bf9
Pan, Hong
89ffb703-039c-4adc-9de9-1a125d3b2cf1
Hernandez Garcia, Marcela
e73477e7-cf3e-4f50-97c8-4494c5b05cd0
Guan, Xiongming
604cc457-902a-4a8f-a6d8-1f5b310c2d3a
Wang, Wei
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Zhang, Qichun
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Luo, Yu
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Di, Hongjie
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Xu, Jianming
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Li, Yong, Liu, Yaowei, Pan, Hong, Hernandez Garcia, Marcela, Guan, Xiongming, Wang, Wei, Zhang, Qichun, Luo, Yu, Di, Hongjie and Xu, Jianming (2020) Impact of grazing on shaping abundance and composition of active methanotrophs and methane oxidation activity in a grassland soil. Biology and Fertility of Soils, 56 (6), 799-810. (doi:10.1007/s00374-020-01461-0).

Record type: Article

Abstract

The effect of grazing on the abundance, composition, and methane (CH4) uptake of methanotrophs in grasslands has been well documented in the past few decades, but the dominant communities of active methanotrophs responsible for CH4 oxidation activity in grazed soils are still poorly understood. In this study, we characterized the metabolically active, aerobic methanotrophs in grasslands with three different levels of grazing (light, medium, and heavy) by combining DNA-stable isotope probing (SIP) and quantitative PCR (qPCR) for methane monooxygenase (pmoA) gene– and 16S rRNA gene–based amplicon sequencing. The CH4 oxidation potential was as low as 0.51 μmol g dry weight−1 day−1 in the ungrazed control, while it decreased as grazing intensity increased in grazed fields, ranging from 2.25 μmol g dry weight−1 day−1 in light grazed fields to 1.59 in heavily grazed fields. Increased CH4 oxidation activity was paralleled by twofold increases in abundance of pmoA genes and relative abundance of methanotroph-affiliated 16S rRNA genes in the total microbial community in grazed soils. SIP and sequencing revealed that the genera Methylobacter and Methylosarcina (type I; Gammaproteobacteria) and Methylocystis (type II; Alphaproteobacteria) were active methanotrophs responsible for CH4 oxidation in grazed soils. Light and intermediate grazing stimulated the growth and activity of methanotrophs, while heavy grazing decreased the abundance and diversity of the active methanotrophs in the typical steppe. Redundancy and correlation analysis further indicated that the variation of bulk density and soil C and N induced by grazing determined the abundance, diversity of active methanotrophs, and methane oxidation activity in the long-term grazed grassland soil.

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More information

Accepted/In Press date: 1 April 2020
e-pub ahead of print date: 20 April 2020
Published date: 1 August 2020
Additional Information: Funding Information: This work was financially supported by the Natural Science Foundation of China (41671249 and 41721001), Fundamental Research Funds for the Central Universities (2019QNA6011), and National Key Basic Research Program of China (2014CB138801). Yong Li extends his thanks to the Pao Yu-Kong and Pao Zhao-Long Scholarships for financial support. Publisher Copyright: © 2020, Springer-Verlag GmbH Germany, part of Springer Nature.
Keywords: Active methanotrophs, Grassland, Grazing, SIP, pmoA
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Identifiers

Local EPrints ID: 441891
URI: http://eprints.soton.ac.uk/id/eprint/441891
DOI: doi:10.1007/s00374-020-01461-0
ISSN: 0178-2762
PURE UUID: 27a260a0-7e4d-4293-a9c3-a0bb78664bc5

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Date deposited: 01 Jul 2020 16:31
Last modified: 16 Mar 2024 07:49

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Contributors

Author: Yong Li
Author: Yaowei Liu
Author: Hong Pan
Author: Marcela Hernandez Garcia
Author: Xiongming Guan
Author: Wei Wang
Author: Qichun Zhang
Author: Yu Luo
Author: Hongjie Di
Author: Jianming Xu

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