Assembly of abundant and rare maize root-associated bacterial communities under film mulch

In agroecosystem soils, abundant and rare biospheres have coexisted, resulting in complex interactive systems. It has remained unclear how agricultural practices have impacted the assembly of abundant and rare bacteria within root-associated compartments. The response of abundant and rare bacteria t...

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Published inApplied soil ecology : a section of Agriculture, ecosystems & environment Vol. 182; p. 104682
Main Authors Li, Yüze, Hou, Quanming, Wang, Shengnan, Wen, Xiaoxia, Liao, Yuncheng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2023
Subjects
Abundant bacteria
agroecosystems
arid lands
Community assembly
corn
crop yield
host preferences
keystone species
Maize
Plant-microbe interaction
plastic film mulches
Rare bacteria
rhizoplane
Root traits
selection pressure
soil
taxonomy
Root traits
Plant-microbe interaction
Community assembly
Maize
Rare bacteria
Abundant bacteria
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Abstract In agroecosystem soils, abundant and rare biospheres have coexisted, resulting in complex interactive systems. It has remained unclear how agricultural practices have impacted the assembly of abundant and rare bacteria within root-associated compartments. The response of abundant and rare bacteria to plastic film mulch (PM) was investigated on a fine-compartment scale from bulk soil to rhizoplane, based on an in-situ experiment. The results indicated that root-associated communities were reactive to root selection, with abundant taxa having a greater niche breadth than rare taxa. The results of SourceTracker and the reduction of niche breadths from bulk soil to rhizoplane emphasized the role of roots in bacterial recruitment, with PM exerting greater host selection pressure. The assembly of abundant taxa was primarily impacted by variable selection, whereas that of rare taxa was influenced by homogeneous selection. PM amplified the impact of deterministic and stochastic processes on abundant and rare taxa. In contrast to rare taxa, abundant taxa were more frequently located in the center of networks, and PM greatly strengthened co-occurrence. Several abundant operational taxonomy units (OTUs) reflected their roles in maintaining microbial co-occurrence as keystone species. While the stochastic assembly of rare taxa was closely related to crop yield at the community level. Overall, these findings demonstrated how agricultural practices have had an impact on soil microbial communities along with the fine-scale compartments. They have demonstrated that PM would be having a major impact on the assembly of abundant and rare root-associated bacteria in drylands. [Display omitted] •Root-associated abundant and rare taxa within fine-scale compartments were studied.•Distinct abundant and rare subcommunities were shaped by plastic film mulch (PM).•PM altered the recruitment and assembly process of abundant and rare subcommunities.•Root traits play a vital role in the assembly of abundant and rare subcommunities.•Rhizoplane under PM enriched abundant taxa with plant growth-promoting ability.
AbstractList In agroecosystem soils, abundant and rare biospheres have coexisted, resulting in complex interactive systems. It has remained unclear how agricultural practices have impacted the assembly of abundant and rare bacteria within root-associated compartments. The response of abundant and rare bacteria to plastic film mulch (PM) was investigated on a fine-compartment scale from bulk soil to rhizoplane, based on an in-situ experiment. The results indicated that root-associated communities were reactive to root selection, with abundant taxa having a greater niche breadth than rare taxa. The results of SourceTracker and the reduction of niche breadths from bulk soil to rhizoplane emphasized the role of roots in bacterial recruitment, with PM exerting greater host selection pressure. The assembly of abundant taxa was primarily impacted by variable selection, whereas that of rare taxa was influenced by homogeneous selection. PM amplified the impact of deterministic and stochastic processes on abundant and rare taxa. In contrast to rare taxa, abundant taxa were more frequently located in the center of networks, and PM greatly strengthened co-occurrence. Several abundant operational taxonomy units (OTUs) reflected their roles in maintaining microbial co-occurrence as keystone species. While the stochastic assembly of rare taxa was closely related to crop yield at the community level. Overall, these findings demonstrated how agricultural practices have had an impact on soil microbial communities along with the fine-scale compartments. They have demonstrated that PM would be having a major impact on the assembly of abundant and rare root-associated bacteria in drylands.
In agroecosystem soils, abundant and rare biospheres have coexisted, resulting in complex interactive systems. It has remained unclear how agricultural practices have impacted the assembly of abundant and rare bacteria within root-associated compartments. The response of abundant and rare bacteria to plastic film mulch (PM) was investigated on a fine-compartment scale from bulk soil to rhizoplane, based on an in-situ experiment. The results indicated that root-associated communities were reactive to root selection, with abundant taxa having a greater niche breadth than rare taxa. The results of SourceTracker and the reduction of niche breadths from bulk soil to rhizoplane emphasized the role of roots in bacterial recruitment, with PM exerting greater host selection pressure. The assembly of abundant taxa was primarily impacted by variable selection, whereas that of rare taxa was influenced by homogeneous selection. PM amplified the impact of deterministic and stochastic processes on abundant and rare taxa. In contrast to rare taxa, abundant taxa were more frequently located in the center of networks, and PM greatly strengthened co-occurrence. Several abundant operational taxonomy units (OTUs) reflected their roles in maintaining microbial co-occurrence as keystone species. While the stochastic assembly of rare taxa was closely related to crop yield at the community level. Overall, these findings demonstrated how agricultural practices have had an impact on soil microbial communities along with the fine-scale compartments. They have demonstrated that PM would be having a major impact on the assembly of abundant and rare root-associated bacteria in drylands. [Display omitted] •Root-associated abundant and rare taxa within fine-scale compartments were studied.•Distinct abundant and rare subcommunities were shaped by plastic film mulch (PM).•PM altered the recruitment and assembly process of abundant and rare subcommunities.•Root traits play a vital role in the assembly of abundant and rare subcommunities.•Rhizoplane under PM enriched abundant taxa with plant growth-promoting ability.
ArticleNumber 104682
Author Wen, Xiaoxia
Liao, Yuncheng
Li, Yüze
Hou, Quanming
Wang, Shengnan
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  givenname: Quanming
  surname: Hou
  fullname: Hou, Quanming
  organization: College of Agriculture, Shanxi Agricultural University, Taigu, Shanxi 030801, PR China
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  givenname: Shengnan
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  fullname: Wang, Shengnan
  organization: School of Biological and Chemical Engineering, Panzhihua University, Panzhihua, Sichuan 617000, PR China
– sequence: 4
  givenname: Xiaoxia
  surname: Wen
  fullname: Wen, Xiaoxia
  email: wenxiaoxia6811@163.com
  organization: College of Agriculture, Shanxi Agricultural University, Taigu, Shanxi 030801, PR China
– sequence: 5
  givenname: Yuncheng
  surname: Liao
  fullname: Liao, Yuncheng
  email: yunchengliao@163.com
  organization: College of Agriculture, Shanxi Agricultural University, Taigu, Shanxi 030801, PR China
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Keywords Root traits
Plant-microbe interaction
Community assembly
Maize
Rare bacteria
Abundant bacteria
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  doi: 10.1111/1462-2920.14993
– volume: 13
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  year: 2015
  ident: 10.1016/j.apsoil.2022.104682_bb0230
  article-title: Ecology and exploration of the rare biosphere
  publication-title: Nat. Rev. Microbiol.
  doi: 10.1038/nrmicro3400
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  start-page: 362
  year: 2022
  ident: 10.1016/j.apsoil.2022.104682_bb0275
  article-title: Responses of soil bacterial community structure and function to dry–wet cycles more stable in paddy than in dryland agricultural ecosystems
  publication-title: Glob. Ecol. Biogeogr.
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Snippet In agroecosystem soils, abundant and rare biospheres have coexisted, resulting in complex interactive systems. It has remained unclear how agricultural...
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SubjectTerms Abundant bacteria
agroecosystems
arid lands
Community assembly
corn
crop yield
host preferences
keystone species
Maize
Plant-microbe interaction
plastic film mulches
Rare bacteria
rhizoplane
Root traits
selection pressure
soil
taxonomy
Title Assembly of abundant and rare maize root-associated bacterial communities under film mulch
URI https://dx.doi.org/10.1016/j.apsoil.2022.104682
https://www.proquest.com/docview/2986656004
Volume 182
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