Influence of Residue Type and Method of Placement on Dynamics of Decomposition and Nitrogen Release in Maize-Wheat-Mungbean Cropping on Permanent Raised Beds: A Litterbag Study

Decomposition influences carbon and nutrient cycling from crop residues. The nylon-mesh-bag technique was implied to study the decomposition and N-release dynamics from different crop residues under field conditions. The four types of residues were: maize (lower than 50% below the cob), wheat (lower...

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Veröffentlicht in:	Sustainability 2022-01, Vol.14 (2), p.864
Hauptverfasser:	Sandhu, Opinder Singh, Jat, Mangi L., Gupta, Rajeev Kumar, Thind, Harmeet Singh, Sidhu, Harminder Singh, Singh, Yadvinder
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Sprache:	eng
Schlagworte:	Agricultural conservation Beans Carbon Carbon/nitrogen ratio Cereal crops Conservation Corn Crop residues Crops Decay Decomposition Goodness of fit Hypotheses Nitrogen Nutrient cycles Nutrients Residues Rice Seasons Soil conservation Soil moisture Sustainability Vegetables Vigna radiata Wheat
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description	Decomposition influences carbon and nutrient cycling from crop residues. The nylon-mesh-bag technique was implied to study the decomposition and N-release dynamics from different crop residues under field conditions. The four types of residues were: maize (lower than 50% below the cob), wheat (lower than 25% of wheat stubbles), a whole mung bean residue, and a mixture of wheat + mung bean residue (1:1 ratio) put on the soil surface and in below the sub-surface. Decomposition and N release from both at-surface- and below-surface-placed residues were accurately described by a single-pool first-order exponential decay function as a function of thermal time (based on the accumulative daily mean temperature). The simple first-order exponential model met the criteria of goodness of fit. Throughout the decomposition cycle (one thermal year), the rate of decomposition as measured by a decrease in residue mass and the release of total N were statistically higher from the sub-surface compared to the surface-placed residue, irrespective of the residue type. At the end of the 150-day decomposition cycle, the release of total N was highest in mung bean (32.0 kg N ha−1), followed by maize (31.5 kg N ha−1) > wheat + mung bean (16.1 kg N ha−1), and the minimum (6.54 kg N ha−1) in wheat residue. Crop residues with a wider C/N ratio such as maize and wheat, when applied on the soil surface in conservation agriculture, caused the decomposition to occur at slower rates, thereby providing long-term beneficial effects on the soil thermal regime, soil moisture conservation, and C sequestration in North-West India.
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At the end of the 150-day decomposition cycle, the release of total N was highest in mung bean (32.0 kg N ha−1), followed by maize (31.5 kg N ha−1) > wheat + mung bean (16.1 kg N ha−1), and the minimum (6.54 kg N ha−1) in wheat residue. Crop residues with a wider C/N ratio such as maize and wheat, when applied on the soil surface in conservation agriculture, caused the decomposition to occur at slower rates, thereby providing long-term beneficial effects on the soil thermal regime, soil moisture conservation, and C sequestration in North-West India.</description><identifier>ISSN: 2071-1050</identifier><identifier>EISSN: 2071-1050</identifier><identifier>DOI: 10.3390/su14020864</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Agricultural conservation ; Beans ; Carbon ; Carbon/nitrogen ratio ; Cereal crops ; Conservation ; Corn ; Crop residues ; Crops ; Decay ; Decomposition ; Goodness of fit ; Hypotheses ; Nitrogen ; Nutrient cycles ; Nutrients ; Residues ; Rice ; Seasons ; Soil conservation ; Soil moisture ; Sustainability ; Vegetables ; Vigna radiata ; Wheat</subject><ispartof>Sustainability, 2022-01, Vol.14 (2), p.864</ispartof><rights>2022 by the authors. 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subjects	Agricultural conservation Beans Carbon Carbon/nitrogen ratio Cereal crops Conservation Corn Crop residues Crops Decay Decomposition Goodness of fit Hypotheses Nitrogen Nutrient cycles Nutrients Residues Rice Seasons Soil conservation Soil moisture Sustainability Vegetables Vigna radiata Wheat
title	Influence of Residue Type and Method of Placement on Dynamics of Decomposition and Nitrogen Release in Maize-Wheat-Mungbean Cropping on Permanent Raised Beds: A Litterbag Study
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