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School Of Agriculture Nagoya University | 論文
- Succession and Phylogenetic Composition of Bacterial Communities Responsible for the Composting Process of Rice Straw Estimated by PCR-DGGE Analysis (Soil Biology)
- Sites and Processes of Nutrient Accumulation in the Subsoil through Water Percolation from the Plow Layer in a Submerged Paddy Soil Microcosm(Soil Physics)
- Quantitative Estimation of Decomposition Process of Plant Debris in Paddy Field : II. Amounts and C/N Ratios of Plant Debris in Tropical Paddy Soils
- NITROGEN DYNAMICS IN THE UPPERMOST PART OF SUBMERGED PADDY SOILS IN TEMPERATE AND TROPICAL REGIONS : II. Effect of Segregation of Soil Particles by Puddling on the Dynamics of Submerged Sandy Soil
- NITROGEN DYNAMICS IN THE UPPERMOST PART OF SUBMERGED PADDY SOILS IN TEMPERATE AND TROPICAL REGIONS : I. Effect of long-term Fertilization Treatment
- 7-4 (Part II.) Influence of segregation of soil particles and plant residues by puddling on the dynamics of submerged paddy soils
- EFFECTS OF DIRECT SOWING CULTIVATION ON THE RHIZOSPHERE OF LOWLAND RICE
- INFLUENCES OF ORGANIC DEBRIS AND RICE ROOT ON THE NITROGEN FIXATION IN THE SUBMERGED SOIL
- ORGANIC DEBRIS AS MICRO-SITE FOR NITROGEN FIXATION
- APPLICATION OF N_2/Ar RATIO METHOD FOR N_2 FIXATION STUDIES IN SUBMERGED SOIL
- NITROGEN FIXATION IN PADDY SOILS : III. N_2 Fixation and Its Active-sites in Soil and Rhizosphere
- THE STUDIES ON THE RHIZOSPHERE OF PADDY RICE : VI. The Effects of Anaerobiosis on Microbes
- NITROGEN FIXATION IN PADDY SOILS : II. A Model Experiment for Paddy Soil
- NITROGEN FIXATION IN PADDY SOILS : I. Factors Affecting N_2 Fixation
- THE PROCESS OF MANGANESE DEPOSITION IN PADDY SOILS : II. The Microorganisms Responsible for Manganese Deposition
- THE PROCESS OF MANGANESE DEPOSITION IN PADDY SOILS : I. A Hypothesis and Its Verification
- 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