Bacterial communities that decompose root cap cells in an anaerobic soil : estimation by DNA-SIP method using rice plant callus cells
スポンサーリンク
概要
著者
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Asakawa Susumu
Laboratory Of Soil Biology And Chemistry Graduate School Of Bio-agricultural Sciences Nagoya Univers
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Asakawa S
Kyushu National Agricultural Experiment Station
関連論文
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- Change in T4-type bacteriophage communities during the composting process of rice straw : Estimation from the major capsid gene (g23) sequences(Soil Biology)
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- Analysis of Communities of Ammonia Oxidizers, Methanotrophs, and Methanogens Associated with Microcrustaceans in the Floodwater of a Rice Field Microcosm(Soil Biology)
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- PA-19 Molecular ecological analyses of methanogenic archaeal 16S rRNA and mcrA genes in Japanese paddy field soils(Agricultural ecosystem,Poster presentation A)
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- B-20 Molecular Identification of Methane-Oxidizing Bacteria in Rice Paddy Field
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- 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
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- 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
- Molecular analysis of the ammonia oxidizing bacterial community in the surface soil layer of a Japanese paddy field(Soil Biology)
- Application of the First-Order Reaction (FOR) Model to Nodulation by Bradyrhizobium japonicum in the Nodulation-Dilution Frequency Method and Estimation of Time of Initiation of Nodulation
- Characterization of ammonia oxidizing bacteria associated with weeds in a Japanese paddy field using amoA gene fragments(Soil Biology)
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- 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
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- Molecular analysis of fungal communities of biodegradable plastics in two Japanese soils(Soil Biology)
- 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)
- 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)
- Bacterial consortia in iron-deposited colonies formed on paddy soil surface under microaerobic conditions(Soil biology)