Integrated tillage-water-nutrient management effects on selected soil physical properties in a rice-wheat system in the Indian subcontinent |
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Authors: | Debarati Bhaduri TJ Purakayastha Debashis Chakraborty K Chakraborty Man Singh |
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Institution: | 1. Division of Soil Science and Agricultural Chemistry, ICAR-Indian Agricultural Research Institute, New Delhi, India;2. ICAR-National Rice Research Institute, Cuttack, Indiadebarati.ssiari@gmail.com;4. Division of Agricultural Physics, ICAR-Indian Agricultural Research Institute, New Delhi, India;5. ICAR-National Rice Research Institute, Cuttack, India;6. Water Technology Centre, ICAR-Indian Agricultural Research Institute, New Delhi, India |
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Abstract: | We studied few soil physical indicators after eighth cropping cycle of rice-wheat. The experiment was laid out in split-split plot design with two tillage (rice: puddling vs. non-puddling; wheat: conventional tillage vs. no-tillage), three water management (rice: submergence vs. drainage; wheat: five/three/two irrigations) and nine nutrient (N) management treatments (inorganic vs. integrated nutrient management). The bulk density (t m?3) in non-puddled soil (1.33) was significantly less than puddled soil (1.59); while mean weight diameter (0.55 mm) and saturated hydraulic conductivity (0.43 cm h?1) were higher in the former treatment. Irrigation after 3-days of drainage was found to enhance soil aggregation (0.54 mm) and moisture retention (71.6%) during rice. No-tillage in wheat had overall positive impact. Organic sources of nutrients increased soil water retention (biofertilizer for rice), water conductivity and aggregate stability (combined organics for rice and wheat). Interactions between (tillage × N), (water × N), (tillage × water) revealed crop-wise variations. The saturated hydraulic conductivity and soil aggregation for rice; and bulk density, water retention and saturated hydraulic conductivity for wheat were identified as sensitive soil physical indicators. We suggest an effective combination of no tillage and intermittent irrigation with integrated nutrient management for sustaining soil physical quality in rice-wheat rotation. |
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Keywords: | Soil aggregates no-tillage organic nutrient sources rice-wheat soil physical quality |
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