Changes in the bacterial community of soybean rhizospheres during growth in the field.

Changes in the bacterial community of soybean rhizospheres during growth in the field.

Highly diverse communities of bacteria inhabiting soybean rhizospheres play pivotal roles in plant growth and crop production; however, little is known about the changes that occur in these communities during growth. We used both culture-dependent physiological profiling and culture independent DNA-...

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Main Authors: Akifumi Sugiyama, Yoshikatsu Ueda, Takahiro Zushi, Hisabumi Takase, Kazufumi Yazaki
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4067361?pdf=render
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spelling doaj-5ecdbaeaae30426981f04e5dd199f71d2020-11-25T01:12:16ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0196e10070910.1371/journal.pone.0100709Changes in the bacterial community of soybean rhizospheres during growth in the field.Akifumi SugiyamaYoshikatsu UedaTakahiro ZushiHisabumi TakaseKazufumi YazakiHighly diverse communities of bacteria inhabiting soybean rhizospheres play pivotal roles in plant growth and crop production; however, little is known about the changes that occur in these communities during growth. We used both culture-dependent physiological profiling and culture independent DNA-based approaches to characterize the bacterial communities of the soybean rhizosphere during growth in the field. The physiological properties of the bacterial communities were analyzed by a community-level substrate utilization assay with BioLog Eco plates, and the composition of the communities was assessed by gene pyrosequencing. Higher metabolic capabilities were found in rhizosphere soil than in bulk soil during all stages of the BioLog assay. Pyrosequencing analysis revealed that differences between the bacterial communities of rhizosphere and bulk soils at the phylum level; i.e., Proteobacteria were increased, while Acidobacteria and Firmicutes were decreased in rhizosphere soil during growth. Analysis of operational taxonomic units showed that the bacterial communities of the rhizosphere changed significantly during growth, with a higher abundance of potential plant growth promoting rhizobacteria, including Bacillus, Bradyrhizobium, and Rhizobium, in a stage-specific manner. These findings demonstrated that rhizosphere bacterial communities were changed during soybean growth in the field.http://europepmc.org/articles/PMC4067361?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Akifumi Sugiyama
Yoshikatsu Ueda
Takahiro Zushi
Hisabumi Takase
Kazufumi Yazaki
spellingShingle Akifumi Sugiyama
Yoshikatsu Ueda
Takahiro Zushi
Hisabumi Takase
Kazufumi Yazaki
Changes in the bacterial community of soybean rhizospheres during growth in the field.
PLoS ONE
author_facet Akifumi Sugiyama
Yoshikatsu Ueda
Takahiro Zushi
Hisabumi Takase
Kazufumi Yazaki
author_sort Akifumi Sugiyama
title Changes in the bacterial community of soybean rhizospheres during growth in the field.
title_short Changes in the bacterial community of soybean rhizospheres during growth in the field.
title_full Changes in the bacterial community of soybean rhizospheres during growth in the field.
title_fullStr Changes in the bacterial community of soybean rhizospheres during growth in the field.
title_full_unstemmed Changes in the bacterial community of soybean rhizospheres during growth in the field.
title_sort changes in the bacterial community of soybean rhizospheres during growth in the field.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description Highly diverse communities of bacteria inhabiting soybean rhizospheres play pivotal roles in plant growth and crop production; however, little is known about the changes that occur in these communities during growth. We used both culture-dependent physiological profiling and culture independent DNA-based approaches to characterize the bacterial communities of the soybean rhizosphere during growth in the field. The physiological properties of the bacterial communities were analyzed by a community-level substrate utilization assay with BioLog Eco plates, and the composition of the communities was assessed by gene pyrosequencing. Higher metabolic capabilities were found in rhizosphere soil than in bulk soil during all stages of the BioLog assay. Pyrosequencing analysis revealed that differences between the bacterial communities of rhizosphere and bulk soils at the phylum level; i.e., Proteobacteria were increased, while Acidobacteria and Firmicutes were decreased in rhizosphere soil during growth. Analysis of operational taxonomic units showed that the bacterial communities of the rhizosphere changed significantly during growth, with a higher abundance of potential plant growth promoting rhizobacteria, including Bacillus, Bradyrhizobium, and Rhizobium, in a stage-specific manner. These findings demonstrated that rhizosphere bacterial communities were changed during soybean growth in the field.
url http://europepmc.org/articles/PMC4067361?pdf=render
work_keys_str_mv AT akifumisugiyama changesinthebacterialcommunityofsoybeanrhizospheresduringgrowthinthefield
AT yoshikatsuueda changesinthebacterialcommunityofsoybeanrhizospheresduringgrowthinthefield
AT takahirozushi changesinthebacterialcommunityofsoybeanrhizospheresduringgrowthinthefield
AT hisabumitakase changesinthebacterialcommunityofsoybeanrhizospheresduringgrowthinthefield
AT kazufumiyazaki changesinthebacterialcommunityofsoybeanrhizospheresduringgrowthinthefield
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