Rare microbial taxa as the major drivers of ecosystem multifunctionality in long-term fertilized soils
Soil microbial communities play an essential role in driving multiple functions (i.e., multifunctionality) that are central to the global biogeochemical cycles. Long-term fertilization has been reported to reduce the soil microbial diversity, however, the impact of fertilization on multifunctionalit...
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| Published in | Soil biology & biochemistry Vol. 141; no. C; p. 107686 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United Kingdom
Elsevier Ltd
01.02.2020
Elsevier |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Soil microbial communities play an essential role in driving multiple functions (i.e., multifunctionality) that are central to the global biogeochemical cycles. Long-term fertilization has been reported to reduce the soil microbial diversity, however, the impact of fertilization on multifunctionality and its relationship with soil microbial diversity remains poorly understood. We used amplicon sequencing and high-throughput quantitative-PCR array to characterize the microbial community compositions and 70 functional genes in a long-term experimental field station with multiple inorganic and organic fertilization treatments. Compared with inorganic fertilization, the application of organic fertilizer improved the soil multifunctionality, which positively correlated with the both bacterial and fungal diversity. Random Forest regression analysis indicated that rare microbial taxa (e.g. Cyanobacteria and Glomeromycota) rather than the dominant taxa (e.g. Proteobacteria and Ascomycota) were the major drivers of multifunctionality, suggesting that rare taxa had an over-proportional role in biological processes. Therefore, preserving the diversity of soil microbial communities especially the rare microbial taxa could be crucial to the sustainable provision of ecosystem functions in the future.
[Display omitted]
•Inorganic fertilization decreased soil multifunctionality.•Organic fertilization increased microbial diversity and multifunctionality.•Rare microbial taxa had an over-proportional role in multifunctionality. |
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| AbstractList | Soil microbial communities play an essential role in driving multiple functions (i.e., multifunctionality) that are central to the global biogeochemical cycles. Long-term fertilization has been reported to reduce the soil microbial diversity, however, the impact of fertilization on multifunctionality and its relationship with soil microbial diversity remains poorly understood. We used amplicon sequencing and high-throughput quantitative-PCR array to characterize the microbial community compositions and 70 functional genes in a long-term experimental field station with multiple inorganic and organic fertilization treatments. Compared with inorganic fertilization, the application of organic fertilizer improved the soil multifunctionality, which positively correlated with the both bacterial and fungal diversity. Random Forest regression analysis indicated that rare microbial taxa (e.g. Cyanobacteria and Glomeromycota) rather than the dominant taxa (e.g. Proteobacteria and Ascomycota) were the major drivers of multifunctionality, suggesting that rare taxa had an over-proportional role in biological processes. Therefore, preserving the diversity of soil microbial communities especially the rare microbial taxa could be crucial to the sustainable provision of ecosystem functions in the future. Soil microbial communities play an essential role in driving multiple functions (i.e., multifunctionality) that are central to the global biogeochemical cycles. Long-term fertilization has been reported to reduce the soil microbial diversity, however, the impact of fertilization on multifunctionality and its relationship with soil microbial diversity remains poorly understood. We used amplicon sequencing and high-throughput quantitative-PCR array to characterize the microbial community compositions and 70 functional genes in a long-term experimental field station with multiple inorganic and organic fertilization treatments. Compared with inorganic fertilization, the application of organic fertilizer improved the soil multifunctionality, which positively correlated with the both bacterial and fungal diversity. Random Forest regression analysis indicated that rare microbial taxa (e.g. Cyanobacteria and Glomeromycota) rather than the dominant taxa (e.g. Proteobacteria and Ascomycota) were the major drivers of multifunctionality, suggesting that rare taxa had an over-proportional role in biological processes. Therefore, preserving the diversity of soil microbial communities especially the rare microbial taxa could be crucial to the sustainable provision of ecosystem functions in the future. [Display omitted] •Inorganic fertilization decreased soil multifunctionality.•Organic fertilization increased microbial diversity and multifunctionality.•Rare microbial taxa had an over-proportional role in multifunctionality. |
| ArticleNumber | 107686 |
| Author | Delgado-Baquerizo, Manuel Hu, Hang-Wei He, Ji-Zheng Ma, Yi-Bing Zhu, Dong Zhu, Yong-Guan Chen, Qing-Lin Ding, Jing |
| Author_xml | – sequence: 1 givenname: Qing-Lin orcidid: 0000-0002-5648-277X surname: Chen fullname: Chen, Qing-Lin organization: Key Laboratory of Urban Environment and Health, Institute of Urban Environment, Chinese Academy of Sciences, 1799 Jimei Road, Xiamen, 361021, China – sequence: 2 givenname: Jing surname: Ding fullname: Ding, Jing organization: School of Environmental and Material Engineering, Yantai University, 30 Qingquan Road, Yantai, 264005, China – sequence: 3 givenname: Dong surname: Zhu fullname: Zhu, Dong organization: Key Laboratory of Urban Environment and Health, Institute of Urban Environment, Chinese Academy of Sciences, 1799 Jimei Road, Xiamen, 361021, China – sequence: 4 givenname: Hang-Wei orcidid: 0000-0002-3294-102X surname: Hu fullname: Hu, Hang-Wei organization: Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Parkville, Victoria, 3010, Australia – sequence: 5 givenname: Manuel orcidid: 0000-0002-6499-576X surname: Delgado-Baquerizo fullname: Delgado-Baquerizo, Manuel organization: Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, CO, 80309, USA – sequence: 6 givenname: Yi-Bing surname: Ma fullname: Ma, Yi-Bing organization: Ministry of Agriculture Key Laboratory of Plant Nutrition and Nutrient Cycling, Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing, 100081, China – sequence: 7 givenname: Ji-Zheng orcidid: 0000-0002-9169-8058 surname: He fullname: He, Ji-Zheng organization: Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Parkville, Victoria, 3010, Australia – sequence: 8 givenname: Yong-Guan orcidid: 0000-0003-3861-8482 surname: Zhu fullname: Zhu, Yong-Guan email: ygzhu@iue.ac.cn organization: Key Laboratory of Urban Environment and Health, Institute of Urban Environment, Chinese Academy of Sciences, 1799 Jimei Road, Xiamen, 361021, China |
| BackLink | https://www.osti.gov/biblio/1691984$$D View this record in Osti.gov |
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| SubjectTerms | algorithms Ascomycota biodiversity biogeochemical cycles Biogeochemical cycling Biological processes Cyanobacteria ecological function Ecosystem functions ecosystems fertilizer application fungi genes Glomeromycota microbial communities Microbial diversity mineral fertilizers organic fertilizers Proteobacteria quantitative polymerase chain reaction Rare taxa regression analysis soil soil microorganisms |
| Title | Rare microbial taxa as the major drivers of ecosystem multifunctionality in long-term fertilized soils |
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