Plastic film mulch changes the microbial community in maize root-associated compartments

Aims Plastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated microbiomes under PFM to enhance the basic knowledge in the agroecosystem. Methods The microbial composition, assembly, and co-occurrence in four...

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Published in	Plant and soil Vol. 470; no. 1-2; pp. 5 - 20
Main Authors	Li, Yüze, Li, Tong, Wang, Ziting, Wang, Shengnan, Qin, Xiaoliang, Liao, Yuncheng
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.01.2022 Springer Springer Nature B.V
Subjects	Agricultural ecosystems Agriculture agroecosystems Analysis Aspergillaceae Assembly Biomedical and Life Sciences carbon Compartments Composition Corn Crop production Ecology fungi Growth Hypocreaceae Life Sciences microbiome Microbiomes Microorganisms phenotype Plant growth Plant Physiology Plant Sciences Planting plastic film mulches Plastic films Plastics Polymer films Regular Article Rhizoplane Rhizosphere Root zone Roots (Botany) soil Soil Science & Conservation Soils Sphingomonadales Taxa China Root traits Root compartments Plastic film mulch High-throughput sequencing
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Abstract	Aims Plastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated microbiomes under PFM to enhance the basic knowledge in the agroecosystem. Methods The microbial composition, assembly, and co-occurrence in four compartments (bulk soil, root zone, rhizosphere, and rhizoplane) under maize field adopting PFM and flat planting were analyzed at the V12 stage. The root phenotypic traits were measured to explore their interaction mechanisms with microbes. Results The compartment was the dominant factor shaping the bacterial communities, while fungal communities were recruited by treatment. With a variety of plant growth-promoting abilities, bacteria order SBR1013, S085, genera Aquicella , and fungi family Aspergillaceae , Laslosphaeriaceae , Hypocreaceae were identified significantly enriched by PFM across all compartments. PFM harbored a more stable and complex co-occurrence network than that of flat planting, and the Chitinophagales with the ability to utilize recalcitrant carbon was the keystone taxa while they were Sphingomonadales under flat planting. Root traits were found closely related to root-associated microbiomes, and interkingdom networks further revealed that the relationships between rhizoplane microbes and root weight/root length density were greatly enhanced by PFM compared to flat planting. Conclusions PFM changed maize root traits and assembly, composition, and co-occurrence patterns of root-associated microbiomes, recruited specific taxa potentially benefit to plant growth. The interactions of root traits and microbes were strengthened by PFM. These findings enhanced understanding of root-soil interactions in the agroecosystem.
AbstractList	AimsPlastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated microbiomes under PFM to enhance the basic knowledge in the agroecosystem.MethodsThe microbial composition, assembly, and co-occurrence in four compartments (bulk soil, root zone, rhizosphere, and rhizoplane) under maize field adopting PFM and flat planting were analyzed at the V12 stage. The root phenotypic traits were measured to explore their interaction mechanisms with microbes.ResultsThe compartment was the dominant factor shaping the bacterial communities, while fungal communities were recruited by treatment. With a variety of plant growth-promoting abilities, bacteria order SBR1013, S085, genera Aquicella, and fungi family Aspergillaceae, Laslosphaeriaceae, Hypocreaceae were identified significantly enriched by PFM across all compartments. PFM harbored a more stable and complex co-occurrence network than that of flat planting, and the Chitinophagales with the ability to utilize recalcitrant carbon was the keystone taxa while they were Sphingomonadales under flat planting. Root traits were found closely related to root-associated microbiomes, and interkingdom networks further revealed that the relationships between rhizoplane microbes and root weight/root length density were greatly enhanced by PFM compared to flat planting.ConclusionsPFM changed maize root traits and assembly, composition, and co-occurrence patterns of root-associated microbiomes, recruited specific taxa potentially benefit to plant growth. The interactions of root traits and microbes were strengthened by PFM. These findings enhanced understanding of root-soil interactions in the agroecosystem. Aims Plastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated microbiomes under PFM to enhance the basic knowledge in the agroecosystem. Methods The microbial composition, assembly, and co-occurrence in four compartments (bulk soil, root zone, rhizosphere, and rhizoplane) under maize field adopting PFM and flat planting were analyzed at the V12 stage. The root phenotypic traits were measured to explore their interaction mechanisms with microbes. Results The compartment was the dominant factor shaping the bacterial communities, while fungal communities were recruited by treatment. With a variety of plant growth-promoting abilities, bacteria order SBR1013, S085, genera Aquicella, and fungi family Aspergillaceae, Laslosphaeriaceae, Hypocreaceae were identified significantly enriched by PFM across all compartments. PFM harbored a more stable and complex co-occurrence network than that of flat planting, and the Chitinophagales with the ability to utilize recalcitrant carbon was the keystone taxa while they were Sphingomonadales under flat planting. Root traits were found closely related to root-associated microbiomes, and interkingdom networks further revealed that the relationships between rhizoplane microbes and root weight/root length density were greatly enhanced by PFM compared to flat planting. Conclusions PFM changed maize root traits and assembly, composition, and co-occurrence patterns of root-associated microbiomes, recruited specific taxa potentially benefit to plant growth. The interactions of root traits and microbes were strengthened by PFM. These findings enhanced understanding of root-soil interactions in the agroecosystem. Aims Plastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated microbiomes under PFM to enhance the basic knowledge in the agroecosystem. Methods The microbial composition, assembly, and co-occurrence in four compartments (bulk soil, root zone, rhizosphere, and rhizoplane) under maize field adopting PFM and flat planting were analyzed at the V12 stage. The root phenotypic traits were measured to explore their interaction mechanisms with microbes. Results The compartment was the dominant factor shaping the bacterial communities, while fungal communities were recruited by treatment. With a variety of plant growth-promoting abilities, bacteria order SBR1013, S085, genera Aquicella , and fungi family Aspergillaceae , Laslosphaeriaceae , Hypocreaceae were identified significantly enriched by PFM across all compartments. PFM harbored a more stable and complex co-occurrence network than that of flat planting, and the Chitinophagales with the ability to utilize recalcitrant carbon was the keystone taxa while they were Sphingomonadales under flat planting. Root traits were found closely related to root-associated microbiomes, and interkingdom networks further revealed that the relationships between rhizoplane microbes and root weight/root length density were greatly enhanced by PFM compared to flat planting. Conclusions PFM changed maize root traits and assembly, composition, and co-occurrence patterns of root-associated microbiomes, recruited specific taxa potentially benefit to plant growth. The interactions of root traits and microbes were strengthened by PFM. These findings enhanced understanding of root-soil interactions in the agroecosystem.
Audience	Academic
Author	Liao, Yuncheng Li, Tong Li, Yüze Qin, Xiaoliang Wang, Shengnan Wang, Ziting
Author_xml	– sequence: 1 givenname: Yüze surname: Li fullname: Li, Yüze organization: College of Agronomy, Northwest A&F University – sequence: 2 givenname: Tong surname: Li fullname: Li, Tong organization: College of Agronomy, Northwest A&F University – sequence: 3 givenname: Ziting surname: Wang fullname: Wang, Ziting organization: College of Agronomy, Northwest A&F University, Guangxi Key Laboratory of Sugarcane Biology, State Key Laboratory for Conservation & Utilization of Subtropical Agro-Bioresources, Guangxi University – sequence: 4 givenname: Shengnan surname: Wang fullname: Wang, Shengnan organization: College of Agronomy, Northwest A&F University, School of Biological and Chemical Engineering, Panzhihua University – sequence: 5 givenname: Xiaoliang surname: Qin fullname: Qin, Xiaoliang email: xiaoliangqin2006@163.com organization: College of Agronomy, Northwest A&F University – sequence: 6 givenname: Yuncheng orcidid: 0000-0002-3697-7281 surname: Liao fullname: Liao, Yuncheng email: yunchengliao@163.com organization: College of Agronomy, Northwest A&F University
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Snippet	Aims Plastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated... Aims Plastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated... AimsPlastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated... AIMS: Plastic film mulch (PFM) was an important agricultural measure to promote crop production. It is important to reveal the patterns of root-associated...
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SubjectTerms	Agricultural ecosystems Agriculture agroecosystems Analysis Aspergillaceae Assembly Biomedical and Life Sciences carbon Compartments Composition Corn Crop production Ecology fungi Growth Hypocreaceae Life Sciences microbiome Microbiomes Microorganisms phenotype Plant growth Plant Physiology Plant Sciences Planting plastic film mulches Plastic films Plastics Polymer films Regular Article Rhizoplane Rhizosphere Root zone Roots (Botany) soil Soil Science & Conservation Soils Sphingomonadales Taxa
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Title	Plastic film mulch changes the microbial community in maize root-associated compartments
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