Nutrient supply controls the linkage between species abundance and ecological interactions in marine bacterial communities
Nutrient scarcity is pervasive for natural microbial communities, affecting species reproduction and co-existence. However, it remains unclear whether there are general rules of how microbial species abundances are shaped by biotic and abiotic factors. Here we show that the ribosomal RNA gene operon...
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| Published in | Nature communications Vol. 13; no. 1; pp. 175 - 9 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
10.01.2022
Nature Publishing Group Nature Portfolio |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2041-1723 2041-1723 |
| DOI | 10.1038/s41467-021-27857-6 |
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| Abstract | Nutrient scarcity is pervasive for natural microbial communities, affecting species reproduction and co-existence. However, it remains unclear whether there are general rules of how microbial species abundances are shaped by biotic and abiotic factors. Here we show that the ribosomal RNA gene operon (
rrn
) copy number, a genomic trait related to bacterial growth rate and nutrient demand, decreases from the abundant to the rare biosphere in the nutrient-rich coastal sediment but exhibits the opposite pattern in the nutrient-scarce pelagic zone of the global ocean. Both patterns are underlain by positive correlations between community-level
rrn
copy number and nutrients. Furthermore, inter-species co-exclusion inferred by negative network associations is observed more in coastal sediment than in ocean water samples. Nutrient manipulation experiments yield effects of nutrient availability on
rrn
copy numbers and network associations that are consistent with our field observations. Based on these results, we propose a “hunger games” hypothesis to define microbial species abundance rules using the
rrn
copy number, ecological interaction, and nutrient availability.
Environmental and biotic factors control ecological communities. Here, the authors study community ribosomal rRNA gene copy number in coastal sediment and ocean bacterial communities, and in microcosm nutrient addition experiments, to propose a conceptual framework of how nutrient supply and ecological interactions shape the community. |
|---|---|
| AbstractList | Nutrient scarcity is pervasive for natural microbial communities, affecting species reproduction and co-existence. However, it remains unclear whether there are general rules of how microbial species abundances are shaped by biotic and abiotic factors. Here we show that the ribosomal RNA gene operon (
rrn
) copy number, a genomic trait related to bacterial growth rate and nutrient demand, decreases from the abundant to the rare biosphere in the nutrient-rich coastal sediment but exhibits the opposite pattern in the nutrient-scarce pelagic zone of the global ocean. Both patterns are underlain by positive correlations between community-level
rrn
copy number and nutrients. Furthermore, inter-species co-exclusion inferred by negative network associations is observed more in coastal sediment than in ocean water samples. Nutrient manipulation experiments yield effects of nutrient availability on
rrn
copy numbers and network associations that are consistent with our field observations. Based on these results, we propose a “hunger games” hypothesis to define microbial species abundance rules using the
rrn
copy number, ecological interaction, and nutrient availability. Nutrient scarcity is pervasive for natural microbial communities, affecting species reproduction and co-existence. However, it remains unclear whether there are general rules of how microbial species abundances are shaped by biotic and abiotic factors. Here we show that the ribosomal RNA gene operon (rrn) copy number, a genomic trait related to bacterial growth rate and nutrient demand, decreases from the abundant to the rare biosphere in the nutrient-rich coastal sediment but exhibits the opposite pattern in the nutrient-scarce pelagic zone of the global ocean. Both patterns are underlain by positive correlations between community-level rrn copy number and nutrients. Furthermore, inter-species co-exclusion inferred by negative network associations is observed more in coastal sediment than in ocean water samples. Nutrient manipulation experiments yield effects of nutrient availability on rrn copy numbers and network associations that are consistent with our field observations. Based on these results, we propose a “hunger games” hypothesis to define microbial species abundance rules using the rrn copy number, ecological interaction, and nutrient availability. Nutrient scarcity is pervasive for natural microbial communities, affecting species reproduction and co-existence. However, it remains unclear whether there are general rules of how microbial species abundances are shaped by biotic and abiotic factors. Here we show that the ribosomal RNA gene operon (rrn) copy number, a genomic trait related to bacterial growth rate and nutrient demand, decreases from the abundant to the rare biosphere in the nutrient-rich coastal sediment but exhibits the opposite pattern in the nutrient-scarce pelagic zone of the global ocean. Both patterns are underlain by positive correlations between community-level rrn copy number and nutrients. Furthermore, inter-species co-exclusion inferred by negative network associations is observed more in coastal sediment than in ocean water samples. Nutrient manipulation experiments yield effects of nutrient availability on rrn copy numbers and network associations that are consistent with our field observations. Based on these results, we propose a "hunger games" hypothesis to define microbial species abundance rules using the rrn copy number, ecological interaction, and nutrient availability.Nutrient scarcity is pervasive for natural microbial communities, affecting species reproduction and co-existence. However, it remains unclear whether there are general rules of how microbial species abundances are shaped by biotic and abiotic factors. Here we show that the ribosomal RNA gene operon (rrn) copy number, a genomic trait related to bacterial growth rate and nutrient demand, decreases from the abundant to the rare biosphere in the nutrient-rich coastal sediment but exhibits the opposite pattern in the nutrient-scarce pelagic zone of the global ocean. Both patterns are underlain by positive correlations between community-level rrn copy number and nutrients. Furthermore, inter-species co-exclusion inferred by negative network associations is observed more in coastal sediment than in ocean water samples. Nutrient manipulation experiments yield effects of nutrient availability on rrn copy numbers and network associations that are consistent with our field observations. Based on these results, we propose a "hunger games" hypothesis to define microbial species abundance rules using the rrn copy number, ecological interaction, and nutrient availability. Environmental and biotic factors control ecological communities. Here, the authors study community ribosomal rRNA gene copy number in coastal sediment and ocean bacterial communities, and in microcosm nutrient addition experiments, to propose a conceptual framework of how nutrient supply and ecological interactions shape the community. Nutrient scarcity is pervasive for natural microbial communities, affecting species reproduction and co-existence. However, it remains unclear whether there are general rules of how microbial species abundances are shaped by biotic and abiotic factors. Here we show that the ribosomal RNA gene operon (rrn) copy number, a genomic trait related to bacterial growth rate and nutrient demand, decreases from the abundant to the rare biosphere in the nutrient-rich coastal sediment but exhibits the opposite pattern in the nutrient-scarce pelagic zone of the global ocean. Both patterns are underlain by positive correlations between community-level rrn copy number and nutrients. Furthermore, inter-species co-exclusion inferred by negative network associations is observed more in coastal sediment than in ocean water samples. Nutrient manipulation experiments yield effects of nutrient availability on rrn copy numbers and network associations that are consistent with our field observations. Based on these results, we propose a “hunger games” hypothesis to define microbial species abundance rules using the rrn copy number, ecological interaction, and nutrient availability.Environmental and biotic factors control ecological communities. Here, the authors study community ribosomal rRNA gene copy number in coastal sediment and ocean bacterial communities, and in microcosm nutrient addition experiments, to propose a conceptual framework of how nutrient supply and ecological interactions shape the community. Nutrient scarcity is pervasive for natural microbial communities, affecting species reproduction and co-existence. However, it remains unclear whether there are general rules of how microbial species abundances are shaped by biotic and abiotic factors. Here we show that the ribosomal RNA gene operon ( rrn ) copy number, a genomic trait related to bacterial growth rate and nutrient demand, decreases from the abundant to the rare biosphere in the nutrient-rich coastal sediment but exhibits the opposite pattern in the nutrient-scarce pelagic zone of the global ocean. Both patterns are underlain by positive correlations between community-level rrn copy number and nutrients. Furthermore, inter-species co-exclusion inferred by negative network associations is observed more in coastal sediment than in ocean water samples. Nutrient manipulation experiments yield effects of nutrient availability on rrn copy numbers and network associations that are consistent with our field observations. Based on these results, we propose a “hunger games” hypothesis to define microbial species abundance rules using the rrn copy number, ecological interaction, and nutrient availability. Environmental and biotic factors control ecological communities. Here, the authors study community ribosomal rRNA gene copy number in coastal sediment and ocean bacterial communities, and in microcosm nutrient addition experiments, to propose a conceptual framework of how nutrient supply and ecological interactions shape the community. |
| ArticleNumber | 175 |
| Author | Dai, Tianjiao Guo, Xue Lei, Jiesi Su, Yifan Zhou, Jizhong Yang, Yunfeng Wen, Donghui Liu, Suo Bates, Colin T. Wu, Linwei |
| Author_xml | – sequence: 1 givenname: Tianjiao surname: Dai fullname: Dai, Tianjiao organization: State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University, College of Environmental Sciences and Engineering, Peking University – sequence: 2 givenname: Donghui surname: Wen fullname: Wen, Donghui email: dhwen@pku.edu.cn organization: College of Environmental Sciences and Engineering, Peking University – sequence: 3 givenname: Colin T. surname: Bates fullname: Bates, Colin T. organization: Institute for Environmental Genomics and Department of Microbiology and Plant Biology, University of Oklahoma – sequence: 4 givenname: Linwei orcidid: 0000-0002-6649-5072 surname: Wu fullname: Wu, Linwei organization: Institute for Environmental Genomics and Department of Microbiology and Plant Biology, University of Oklahoma – sequence: 5 givenname: Xue orcidid: 0000-0002-4309-6140 surname: Guo fullname: Guo, Xue organization: State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University – sequence: 6 givenname: Suo surname: Liu fullname: Liu, Suo organization: State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University – sequence: 7 givenname: Yifan surname: Su fullname: Su, Yifan organization: State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University – sequence: 8 givenname: Jiesi surname: Lei fullname: Lei, Jiesi organization: State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University – sequence: 9 givenname: Jizhong orcidid: 0000-0003-2014-0564 surname: Zhou fullname: Zhou, Jizhong organization: Institute for Environmental Genomics and Department of Microbiology and Plant Biology, University of Oklahoma, School of Civil Engineering and Environmental Sciences, University of Oklahoma, Earth and Environmental Sciences, Lawrence Berkeley National Laboratory – sequence: 10 givenname: Yunfeng orcidid: 0000-0001-8274-6196 surname: Yang fullname: Yang, Yunfeng email: yangyf@tsinghua.edu.cn organization: State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/35013303$$D View this record in MEDLINE/PubMed https://www.osti.gov/servlets/purl/2470923$$D View this record in Osti.gov |
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| Title | Nutrient supply controls the linkage between species abundance and ecological interactions in marine bacterial communities |
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