FORMATION OF METHYL MERCAPTAN IN PADDY SOILS I.
スポンサーリンク
概要
著者
-
Takai Yasuo
Faculty Of Agriculture The University Of Tokyo
-
Asami Teruo
Faculty Of Agriculture Ibaraki University
-
Takai Y.
Faculty of Agriculture, The University of Tokyo
関連論文
- 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
- 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
- EASILY DECOMPOSABLE ORGANIC MATTER IN PADDY SOIL : VI Kinetics of Nitrogen Mineralization in Submerged Soils
- FACTORS INFLUENCING THE DETERMINATION OF MICROBIAL BIOMASS-NITROGEN IN SUBMERGED SOIL
- DETERMINATION OF MICROBIAL BIOMASS-NITROGEN IN SUBMERGED SOIL
- EASILY DECOMPOSABLE ORGANIC MATTER IN PADDY SOIL : IV. Relationship between Reduction Process and Organic Matter Decomposition
- THE MECHANISM OF METHANE FERMENTATION IN FLOODED PADDY SOIL
- DISTRIBUTION PATTERNS OF PG FRACTION OF P-TYPE HUMIC ACID AND IRON IN A DARK BROWN FOREST SOIL
- MICROBIOLOGICAL STUDIES ON THE HUMIFICATION PROCESS(Part 2) : ON THE AEROBIC DECOMPOSITION OF THE FRESH PLANT RESIDUE IN THE CASE OF SINGLE INOCULATION
- RAPID DEGRADATION OF γ-HCH IN UPLAND SOIL AFTER MULTIPLE APPLICATIONS
- Composition of Storage Carbohydrate in Tubers of Yacon : Polymnia sonchifolia
- VOLATILIZATION OF NITROUS ACID FROM UPLAND SOILS
- SOURCE OF NITROUS ACID VOLATILIZED FROM UPLAND SOILS
- MICROBIAL BIOMASS IN PADDY SOIL : II. "Microbial Biomass Carbon" Measured by Jenkinson's Fumigation Method
- MICROBIAL BIOMASS IN PADDY SOIL : I. Microbial Biomass Calculated from Direct Count Using Fluorescence Microscope
- A NEW METHOD FOR DETERMINING FERROUS IRON IN PADDY SOILS
- MICROBIAL MECHANISM OF EFFECTS OF WATER PERCOLATION ON Eh, IRON, AND NITROGEN TRANSFORMATION IN THE SUBMERGED PADDY SOILS
- A NEW METHOD FOR DETERMINING FREE IRON IN PADDY SOILS
- COMPARISON OF SEVERAL METHODS FOR DETERMINING FREE IRON IN SOILS
- FORMATION OF METHYL MERCAPTAN IN PADDY SOILS (II)
- THE FORMING PROCESS OF THE PECULIAR Mn-MOTTLING IN THE POLDER
- MICROBIAL METABOLISM IN REDUCTION PROCESS OF PADDY SOILS (PART 2) : Effect of Iron and Organic Matter on the Reduction Process (1)
- MICROBIAL REDUCTION MECHANISM OF FERRIC IRON IN PADDY SOILS (Part I)
- MICROBIAL METABOLISM IN REDUCTION PROCESS OF PADDY SOILS (Part 3) : Effect of Iron and Organic Matter on the Reduction Process (2)
- FORMATION OF METHYL MERCAPTAN IN PADDY SOILS I.
- BERYLLIUM SOILS CONTENTS OF UNCONTAMINATED AND SEDIMENTS IN JAPAN