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

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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
Effect of Application of Rice Straw and Compost on the Bacterial Communities Associated with Moina sp. in the Floodwater of a Paddy Soil Microcosm : Estimation Based on DGGE Pattern and Sequence Analyses (Soil Biology)
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)
Comparison of Bacterial Communities Associated with Microcrustaceans from the Floodwater of a Paddy Field Microcosm : Estimation Based on DGGE Pattern and Sequence Analyses (Soil Biology)
Vertical Changes in Bacterial Communities in Percolating Water of a Japanese Paddy Field as Revealed by PCR-DGGE (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)
Nutrient Leaching from the Plow Layer by Water Percolation and Accumulation in the Subsoil in an Irrigated Paddy Field(Soil Physics)
Bacterial Community Associated with Five Species of Microcrustaceans in the Floodwater of a Paddy Field Microcosm
Analysis of communities of ammonia oxidizers, methanotrophs, and methanogens associated with microcrustaceans in the floodwater of a rice field microcosm
Analysis of Communities of Ammonia Oxidizers, Methanotrophs, and Methanogens Associated with Microcrustaceans in the Floodwater of a Rice Field Microcosm(Soil Biology)
Comparison of Microbial Communities in Percolating Water from Plow Layer and Subsoil Layer Estimated by Phospholipid Fatty Acid (PLFA) Analysis
Sites and Processes of Nutrient Accumulation in the Subsoil through Water Percolation from the Plow Layer in a Submerged Paddy Soil Microcosm(Soil Physics)
Methane Emission from Plots with Differences in Fertilizer Application in Thai Paddy Fields
6-14 Phylogenetic characterization of methane oxidizing bacteria inhabiting in rice straw incorporated into rice fields
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
Methane Production and Its Fate in Paddy Fields : V. Fate of Methane Remaining in Paddy Soil at Harvesting Stage
Studies on Saline Soils in Khon Kaen Region, Northeast Thailand : V. Nitrification and Nitrifying Bacteria
Methane Production and Its Fate in Paddy Fields : III. Effects of Percolation on Methane Flux Distribution to the Atmosphere and the Subsoil
Suppression of Methane Fluxes from Flooded Paddy Soil with Rice Plants by Foliar Spray of Nitrogen Fertilizers
Methane Production and Its Fate in Paddy Fields : II. Oxidation of Methane and Its Coupled Ferric Oxide Reduction in Subsoil
Methane Production and Its Fate in Paddy Fields : I. Effects of Rice Straw Application and Percolation Rate on the Leaching of Methane and Other Soil Components into the Subsoil
Studies on Saline Soils in Khon Kaen Region, Northeast Thailand : IV. Effect of Chemical and Physical Properties of Saline Soils on Microorganisms
Effect of Application of Rice Straw and Compost on the Community Structure of Bacteria Associated with Microcrustaceans in the Floodwater of a Paddy Field Microcosm
Effect of Application of Rice Straw and Compost on the Community Structure of Bacteria Associated with Microcrustaceans in the Floodwater of a Paddy Field Microcosm (Soil Biology)
6-32 Community of bacteria inhabiting aquatic organisms in the floodwater of paddy fields. : Part III : Effect of the application of organic materials on the bacterial community associated with Moina sp in the floodwater of a paddy field microcosm.
Dynamics of methane in mesotrophic Lake Biwa, Japan
Sources of dissolved methane in Lake Biwa
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
Population of Arbuscular Mycorrhizal Fungi (AMF) by Different Land Use in Sumatra, Indonesia : Comparison of AMF Spore Numbers in Primary Forest, Secondary Forest, Fields Growing Coffee and Native Grass
6-15 Diversity of Ammonium Oxidizing Bacteria Associated with Weeds Growing in a Japanese Paddy Field
6-3 Community structure of microbiota responsible for rice straw decomposition in a paddy field estimated by PCR-RFLP analysis
Carbon flow into ammonia-oxidizing bacteria and archaea during decomposition of ^C-labeled plant residues in soil(Soil biology)
6-14 Bacterial communities incorporating carbon of root cap cells under upland soil conditions (DNA-SIP approach)

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