6-3 Community structure of microbiota responsible for rice straw decomposition in a paddy field estimated by PCR-RFLP analysis

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概要

• 論文の詳細を見る
• 社団法人日本土壌肥料学会の論文
• 2002-03-25

著者

• Tun C

  Graduate School Of Bioagricultural Sciences Nagoya University

• Tun Cho

  名大院 生命農

• Asakawa S

  Kyushu National Agricultural Experiment Station

• Ikenaga M

  Graduate School Of Bioagricultural Sciences Nagoya University

• Asakawa Susumu

  名大院生命農学

• Kimura Makoto

  名大院生命農学

• Cho Cho

  名大院生命農

• Ikenaga Makoto

  名大院生命農

• Asakawa Susumu

  名大院生命農

関連論文

• Bacterial Communities Associated with Nodal Roots of Rice Plants along with the Growth Stages : Estimation by PCR-DGGE and Sequence Analyses (Soil Biology)
• Methanogenic archaeal communities in paddy field soils in north-east China as evaluated by PCR-DGGE, sequencing and real-time PCR analyses(Soil Biology)
• Low diversity of T4-type bacteriophages in applied rice straw, plant residues and rice roots in Japanese rice soils : Estimation from major capsid gene (g23) composition(Soil Biology)
• Change in T4-type bacteriophage communities during the composting process of rice straw : Estimation from the major capsid gene (g23) sequences(Soil Biology)
• T4-type bacteriophage communities estimated from the major capsid genes (g23) in manganese nodules in Japanese paddy fields(Soil Biology)
• Methanogenic archaeal communities developed in paddy fields in the Kojima Bay polder, estimated by denaturing gradient gel electrophoresis, real-time PCR and sequencing analyses(Soil Biology)
• Bacterial communities in iron mottles in the plow pan layer in a Japanese rice field : Estimation using PCR-DGGE and sequencing analyses(Soil Biology)
• Bacterial communities in manganese nodules in rice field subsoils : Estimation using PCR-DGGE and sequencing analyses(Soil Biology)
• 6-7 Bacterial communities inhabiting manganese nodules in rice field subsoils estimated by PCR-DGGE of 16S rDNA
• Bacterial Communities Responsible for the Decomposition of Rice Straw Compost in a Japanese Rice Paddy Field Estimated by DGGE Analysis of Amplified 16S rDNA and 16S rRNA Fragments (Soil Biology)
• Microbial Communities Responsible for the Decomposition of Rice Straw Compost in a Japanese Rice Paddy Field Determined by Phospholipid Fatty Acid (PLFA) Analysis(Soil Biology)
• Succession and Phylogenetic Profile of Eukaryote in the Composting Process of Rice Straw Estimated by PCR-DGGE Analysis
• Analysis of communities of ammonia oxidizers, methanotrophs, and methanogens associated with microcrustaceans in the floodwater of a rice field microcosm
• Succession and Phylogenetic Profile of Methanogenic Archaeal Communities during the Composting Process of Rice Straw Estimated by PCR-DGGE Analysis(Soil Biology)
• Analysis of Communities of Ammonia Oxidizers, Methanotrophs, and Methanogens Associated with Microcrustaceans in the Floodwater of a Rice Field Microcosm(Soil Biology)
• Succession and Phylogenetic Composition of Bacterial Communities Responsible for the Composting Process of Rice Straw Estimated by PCR-DGGE Analysis (Soil Biology)
• Succession of Microbiota Estimated by Phospholipid Fatty Acid Analysis and Changes in Organic Constituents during the Composting Process of Rice Straw
• PA-22 Bacterial communities in paddy fields with long-term application of rice straw compost(Agricultural ecosystem,Poster presentation A)
• PA-19 Molecular ecological analyses of methanogenic archaeal 16S rRNA and mcrA genes in Japanese paddy field soils(Agricultural ecosystem,Poster presentation A)
• Molecular analyses reveal stability of bacterial communities in bulk soil of a Japanese paddy field : Estimation by denaturing gradient gel electrophoresis of 16S rRNA genes amplified from DNA accompanied with RNA(Soil Biology)
• B-20 Molecular Identification of Methane-Oxidizing Bacteria in Rice Paddy Field
• Effect of elevated atmospheric CO_2 concentration on ammonia oxidizing bacteria communities inhabiting in rice roots(Soil Biology)
• Effect of Free-Air CO_2 Enrichment (FACE ) on Methanogenic Archaeal Communities Inhabiting Rice Roots in a Japanese Rice Field (Soil Biology)
• Vertical changes in bacterial and archaeal communities with soil depth in Japanese paddy fields(Soil Biology)
• Molecular characterization of methane-oxidizing bacteria associated with rice straw decomposition in a rice field(Soil Biology)
• Succession and phylogenetic profile of eukaryotic communities in rice straw incorporated into a rice field : Estimation by PCR-DGGE and sequence analyses(Soil Biology)
• 6-14 Phylogenetic characterization of methane oxidizing bacteria inhabiting in rice straw incorporated into rice fields
• Succession and Phylogenetic Profile of Eubacterial Communities in Rice Straw Incorporated into a Rice Field : Estimation by PCR-DGGE Analysis (Soil Biology)
• Community Structure of Eukaryotes in Rice Roots Estimated by PCR-DGGE Pattern and Sequence Analyses(Soil Biology)
• Morphology, host range and phylogenetic diversity of Sphingomonas phages in the floodwater of a Japanese paddy field(Soil Biology)
• P6-5 Comparison of T4-type bacteriophage communities in paddy soils between Japan and Northeast China as estimated from major capsid gene (g23) sequences
• Ecology of viruses in soils : Past, present and future perspectives
• Abundance of bacteriophages of common heterotrophic bacteria in the floodwater of a Japanese paddy field(Soil Biology)
• Seasonal variations in the abundance of virus-like particles and bacteria in the floodwater of a Japanese paddy field(Soil Biology)
• Succession and phylogenetic composition of eubacterial communities in rice straw during decomposition on the surface of paddy field soil(Soil Biology)
• 6-16 Changes of Organic Constituents of Rice Straw and Succession of Responsible Microbiota During Composting Process : I. The community structure of microbiota estimated by Phospholipid Fatty Acids analysis
• P6-4 水田土壌中に埋設した稲わらの分解過程に関与する真核生物群集のPCR-DGGE解析(ポスター紹介,6.土壌生物,日本土壌肥料学会 2005年度大会講演要旨集)
• B-23 水田土壊中における稲わらの分解過程に関与するメタン生成古細菌群集の解析(群集構造解析,口頭発表)
• 水田土壌中の稲わらの分解過程に関与する微生物群集のPCR-DGGE解析(中部支部講演会, 日本土壌肥料学会支部講演会講演要旨集2004年度)
• Molecular analysis of the ammonia oxidizing bacterial community in the surface soil layer of a Japanese paddy field(Soil Biology)
• 6-7 Community of bacteria inhabiting aquatic organisms in the floodwater of paddy fields. Part II : Effect of compost and rice straw application into the soil on the structure of bacterial community associated with microcrustacean
• Characterization of ammonia oxidizing bacteria associated with weeds in a Japanese paddy field using amoA gene fragments(Soil Biology)
• 6-15 Diversity of Ammonium Oxidizing Bacteria Associated with Weeds Growing in a Japanese Paddy Field
• Methanogenic Archaeal Communities in Rice Roots Grown in Flooded Soil Pots : Estimation by PCR-DGGE and Sequence Analyses(Soil Biology)
• Phylogenetic Study on CTO Primer-Amplified Ammonia-Oxidizing Bacteria and β-Proteobacteria Associated with Rice Roots Grown in a Flooded Paddy Soil (Soil Biology)
• Community Structure of Bacteria and Fungi Responsible for Rice Straw Decomposition in a Paddy Field Estimated by PCR-RFLP Analysis
• 6-3 Community structure of microbiota responsible for rice straw decomposition in a paddy field estimated by PCR-RFLP analysis
• High frequency of phage-infected bacterial cells in a rice field soil in Japan(Soil Biology)
• Carbon flow into ammonia-oxidizing bacteria and archaea during decomposition of ^C-labeled plant residues in soil(Soil biology)
• Bacterial communities that decompose root cap cells in an anaerobic soil : estimation by DNA-SIP method using rice plant callus cells
• 6-14 Bacterial communities incorporating carbon of root cap cells under upland soil conditions (DNA-SIP approach)
• リン脂質脂肪酸組成の分析による水田土壌中の稲わら分解過程における微生物群集構造の解析(2002年度大会一般講演要旨)
• T4-type bacteriophage communities in Japanese paddy fields estimated from major capsid gene (g23) sequences(The annal Meeting of the Society in 2008)
• Succession and phylogenetic profile of methanogenic archaeal communities during the composting process of rice straw estimated by PCR-DGGE analysis(The annual Meeting of the Society in 2004)
• Bacterial communities that decompose root cap cells in an anaerobic soil : estimation by DNA-SIP method using rice plant callus cells(Soil biology)

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