Rhizosphere effect has no effect on marker genes related to autotrophic CO2 fixation in paddy soils?

Purpose The rhizosphere is a hotspot for microbial activities as well as microbial ecology studies. This study aimed to explore the “rhizosphere effect” on marker genes of CO 2 fixation autotrophic microorganisms. Materials and methods Microcosm experiments were conducted using two different types o...

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Published in	Journal of soils and sediments Vol. 14; no. 6; pp. 1082 - 1087
Main Authors	Xiao, Ke-Qing, Nie, San-An, Bao, Peng, Wang, Feng-Hua, Bao, Qiong-Li, Zhu, Yong-Guan
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.06.2014 Springer Nature B.V
Subjects	Calvin cycle Carbon dioxide Carbon dioxide fixation DNA Earth and Environmental Science Environ Risk Assess Environment Environmental Physics genes Genetic markers microbial activity microbial ecology Microorganisms paddy soils planting quantitative polymerase chain reaction Rhizosphere Rice Rice fields Sec 2 • Global Change Soil microorganisms Soil Science & Conservation Soil types Soils Sustainable Land Use • Research Article tillering tricarboxylic acid cycle Urea Marker genes fixation CO Rhizosphere effect Paddy soil
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ISSN	1439-0108 1614-7480
DOI	10.1007/s11368-014-0864-x

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Abstract	Purpose The rhizosphere is a hotspot for microbial activities as well as microbial ecology studies. This study aimed to explore the “rhizosphere effect” on marker genes of CO 2 fixation autotrophic microorganisms. Materials and methods Microcosm experiments were conducted using two different types of paddy soil, planted with rice and added with urea. At tillering and ripening stages, bulk and rhizosphere soils were sampled separately for DNA extraction and quantitative PCR analyses. Results and discussion Six marker genes ( cbbL G, cbbL R, cbbM , aclB , oorA , accA ) of three autotrophic pathways (the Calvin cycle, the reductive tricarboxylic acid cycle, and the 4-hydroxybutyrate cycle) were detected, suggesting their pervasiveness in paddy soil. Redundancy analysis and variation partitioning based on partial redundancy analysis revealed higher contributions of growth stage (explaining 37 %) and soil type (explaining 19 %) on the variation of these genes, lower but significant impact of rhizosphere effect (explaining 12 %), and no significant effect of urea addition ( P > 0.05). Conclusions These results suggested that the composition of CO 2 fixation autotrophic microorganisms in the paddy soil was subject to combined actions of soil type and growth stage as well as rhizosphere effect.
AbstractList	Purpose The rhizosphere is a hotspot for microbial activities as well as microbial ecology studies. This study aimed to explore the “rhizosphere effect” on marker genes of CO 2 fixation autotrophic microorganisms. Materials and methods Microcosm experiments were conducted using two different types of paddy soil, planted with rice and added with urea. At tillering and ripening stages, bulk and rhizosphere soils were sampled separately for DNA extraction and quantitative PCR analyses. Results and discussion Six marker genes ( cbbL G, cbbL R, cbbM , aclB , oorA , accA ) of three autotrophic pathways (the Calvin cycle, the reductive tricarboxylic acid cycle, and the 4-hydroxybutyrate cycle) were detected, suggesting their pervasiveness in paddy soil. Redundancy analysis and variation partitioning based on partial redundancy analysis revealed higher contributions of growth stage (explaining 37 %) and soil type (explaining 19 %) on the variation of these genes, lower but significant impact of rhizosphere effect (explaining 12 %), and no significant effect of urea addition ( P > 0.05). Conclusions These results suggested that the composition of CO 2 fixation autotrophic microorganisms in the paddy soil was subject to combined actions of soil type and growth stage as well as rhizosphere effect. PURPOSE: The rhizosphere is a hotspot for microbial activities as well as microbial ecology studies. This study aimed to explore the “rhizosphere effect” on marker genes of CO₂fixation autotrophic microorganisms. MATERIALS AND METHODS: Microcosm experiments were conducted using two different types of paddy soil, planted with rice and added with urea. At tillering and ripening stages, bulk and rhizosphere soils were sampled separately for DNA extraction and quantitative PCR analyses. RESULTS AND DISCUSSION: Six marker genes (cbbLG, cbbLR, cbbM, aclB, oorA, accA) of three autotrophic pathways (the Calvin cycle, the reductive tricarboxylic acid cycle, and the 4-hydroxybutyrate cycle) were detected, suggesting their pervasiveness in paddy soil. Redundancy analysis and variation partitioning based on partial redundancy analysis revealed higher contributions of growth stage (explaining 37 %) and soil type (explaining 19 %) on the variation of these genes, lower but significant impact of rhizosphere effect (explaining 12 %), and no significant effect of urea addition (P > 0.05). CONCLUSIONS: These results suggested that the composition of CO₂fixation autotrophic microorganisms in the paddy soil was subject to combined actions of soil type and growth stage as well as rhizosphere effect. The rhizosphere is a hotspot for microbial activities as well as microbial ecology studies. This study aimed to explore the "rhizosphere effect" on marker genes of CO2 fixation autotrophic microorganisms. Microcosm experiments were conducted using two different types of paddy soil, planted with rice and added with urea. At tillering and ripening stages, bulk and rhizosphere soils were sampled separately for DNA extraction and quantitative PCR analyses. Six marker genes (cbbLG, cbbLR, cbbM, aclB, oorA, accA) of three autotrophic pathways (the Calvin cycle, the reductive tricarboxylic acid cycle, and the 4-hydroxybutyrate cycle) were detected, suggesting their pervasiveness in paddy soil. Redundancy analysis and variation partitioning based on partial redundancy analysis revealed higher contributions of growth stage (explaining 37 %) and soil type (explaining 19 %) on the variation of these genes, lower but significant impact of rhizosphere effect (explaining 12 %), and no significant effect of urea addition (P>0.05). These results suggested that the composition of CO2 fixation autotrophic microorganisms in the paddy soil was subject to combined actions of soil type and growth stage as well as rhizosphere effect.[PUBLICATION ABSTRACT]
Author	Bao, Peng Zhu, Yong-Guan Nie, San-An Xiao, Ke-Qing Bao, Qiong-Li Wang, Feng-Hua
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Snippet	Purpose The rhizosphere is a hotspot for microbial activities as well as microbial ecology studies. This study aimed to explore the “rhizosphere effect” on... The rhizosphere is a hotspot for microbial activities as well as microbial ecology studies. This study aimed to explore the "rhizosphere effect" on marker... PURPOSE: The rhizosphere is a hotspot for microbial activities as well as microbial ecology studies. This study aimed to explore the “rhizosphere effect” on...
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SubjectTerms	Calvin cycle Carbon dioxide Carbon dioxide fixation DNA Earth and Environmental Science Environ Risk Assess Environment Environmental Physics genes Genetic markers microbial activity microbial ecology Microorganisms paddy soils planting quantitative polymerase chain reaction Rhizosphere Rice Rice fields Sec 2 • Global Change Soil microorganisms Soil Science & Conservation Soil types Soils Sustainable Land Use • Research Article tillering tricarboxylic acid cycle Urea
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Title	Rhizosphere effect has no effect on marker genes related to autotrophic CO2 fixation in paddy soils?
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