Effect of inorganic N and organic fertilizers on nitrogen-fixing (acetylene-reducing) activity associated with wetland rice plants
- 1 January 1989
- book chapter
- Published by Springer Nature
Abstract
No abstract availableKeywords
This publication has 10 references indexed in Scilit:
- A plant sampling procedure for acetylene reduction assay to detect rice varietal differences in ability to stimulate N2 fixationSoil Biology and Biochemistry, 1988
- Nitrogen-Fixing (C2H2-Reducing) Activity and Plant Growth Characters of 16 Wetland Rice VarietiesSoil Science and Plant Nutrition, 1987
- Plant-Associated N2Fixation (C2H2-Reduction) by Five Rice Varieties, and Relationship with Plant Growth Characters as Affected by Straw IncorporationSoil Science and Plant Nutrition, 1986
- Dynamics of Available Nitrogen in Paddy SoilsSoil Science and Plant Nutrition, 1986
- Nitrogen fixation by non-legumes in tropical agriculture with special reference to wetland ricePlant and Soil, 1986
- Rhizosphere soil nitrogenase (C2H2reduction) as influenced by the nitrogen management in intermediate deep water riceThe Journal of Agricultural Science, 1983
- Free-Living Rhizobium Strain Able To Grow on N 2 as the Sole Nitrogen SourceApplied and Environmental Microbiology, 1983
- The effect of nitrogen fertilizer on N2 fixation in the paddy field measured byin situ acetylene reduction assayPlant and Soil, 1981
- Nitrogenase activity of rice plant root systemsSoil Biology and Biochemistry, 1978
- Influence of some environmental factors on nitrogen fixation in the rhizosphere of ricePlant and Soil, 1977