Mitigating N2O emissions from agricultural soils with fungivorous mites

Nitrous oxide (N 2 O) is an important greenhouse gas and an ozone-depleting substance. Due to the long persistence of N 2 O in the atmosphere, the mitigation of anthropogenic N 2 O emissions, which are mainly derived from microbial N 2 O-producing processes, including nitrification and denitrificati...

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Bibliographic Details
Published in:The ISME Journal 2021-08, Vol.15 (8), p.2427-2439
Main Authors: Shen, Haoyang, Shiratori, Yutaka, Ohta, Sayuri, Masuda, Yoko, Isobe, Kazuo, Senoo, Keishi
Format: Article
Language:English
Subjects:
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Abundance
Agricultural land
Agriculture
Anthropogenic factors
Archaea
Bacteria
Biomass
Biomedical and Life Sciences
Denitrification
Ecology
Emissions
Evolutionary Biology
Experiments
Farm buildings
Fungi
Greenhouse gases
Hypotheses
Life Sciences
Microbial Ecology
Microbial Genetics and Genomics
Microbiology
Microorganisms
Mites
Mitigation
Nitrification
Nitrous oxide
Ozone depletion
Soil conditioners
Soil conditions
Soil microorganisms
Soils
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Summary:Nitrous oxide (N 2 O) is an important greenhouse gas and an ozone-depleting substance. Due to the long persistence of N 2 O in the atmosphere, the mitigation of anthropogenic N 2 O emissions, which are mainly derived from microbial N 2 O-producing processes, including nitrification and denitrification by bacteria, archaea, and fungi, in agricultural soils, is urgently necessary. Members of mesofauna affect microbial processes by consuming microbial biomass in soil. However, how microbial consumption affects N 2 O emissions is largely unknown. Here, we report the significant role of fungivorous mites, the major mesofaunal group in agricultural soils, in regulating N 2 O production by fungi, and the results can be applied to the mitigation of N 2 O emissions. We found that the application of coconut husks, which is the low-value part of coconut and is commonly employed as a soil conditioner in agriculture, to soil can supply a favorable habitat for fungivorous mites due to its porous structure and thereby increase the mite abundance in agricultural fields. Because mites rapidly consume fungal N 2 O producers in soil, the increase in mite abundance substantially decreases the N 2 O emissions from soil. Our findings might provide new insight into the mechanisms of soil N 2 O emissions and broaden the options for the mitigation of N 2 O emissions.
ISSN:1751-7362
1751-7370
DOI:10.1038/s41396-021-00948-4