Optimizing crop residue-based composts for enhancing soil fertility and crop yield of rice
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Keywords:
Composts, Microbiological activity, Nutrient availability, Organic carbon, Rice cropAbstract
A field experiment was conducted using rice crop (var. Pusa Basmati1) to evaluate the effect of different crop residue based composts (prepared using pigeon pea stover, chickpea stover and mustard stover) on the post-harvest availability of macronutrients, crop growth and yields along with soil microbiological parameters. Significant enhancement in the soil microbial activity in terms of dehydrogenase and alkaline phosphatase was recorded in the pigeonpea composts amended treatments (T3) vis a vis 100% recommended dose of N and P (N120P60; T2). Grain and straw yields of rice were significantly higher in this treatment, as compared to 50% recommended dose of N and P fertilizer (N60P30). Compost application also increased the soil available P and K as compared to N60P30 indicating that compost@ 5tonnes/ha fulfils the requirement of P and K in rice crop. The observations emphasized the utility of using on-farm residues as composts as supplements with chemical fertilizers for improving soil health and plant productivity of rice crop.
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References
Casida L E Jr, Klein D A and Santoro T. 1964. Soil dehydrogenase activity. Soil Science 98: 371–6.
Das A, Munda G C, Patel D P, Ghosh P K, Ngachan S and Baisawar P. 2010.Productivity, nutrient uptake and post harvest soil fertility in lowland rice as influenced by composts made from locally available plant biomass. Archives of Agronomy and Soil Science 56: 671–80.
Gaind S and Nain L. 2010. Exploration of composted cereal waste and poultry manure for soil restoration. Bioresource Technology 101: 2096–3003.
Gaind S, Pandey A K and Lata. 2006. Microbial biomass, P nutrition and enzymatic activities of wheat soil in response to phosphorus enriched organic and inorganic manures. Journal of Environmental Science and Health, Part B-Pesticides, Food Contaminants and Agricultural Wastes 41(2): 177–87.
Hesse P R. 1971. A Textbook of Soil Chemical Analysis. John Murray, London. England.
Jacobsen S T. 1995. Aerobic decomposition of organic wates 2. Value of compost as a fertilizer. Resource Conservation and Recycycling 13: 57–71.
Lata, Gaind S and Pandey A K. 2005. Chemical characterization of composts prepared with diversified agro wastes. Indian Journal of Microbiology 45(3): 245–7.
Pandey A K, Gaind S, Ali A, Lata. 2009. Effect of bioaugmentation and nitrogen supplementation on composting of paddy straw. Biodegradation 20: 293–06.
Tabatabai M A and Bremner J M. 1969. Use of p-nitrophenyl phosphate for assay of soil phosphatase activity. Soil Biology Biochemistry 1: 301–7.
Vasanthi D, Kumaraswamy K. 2000. Effects of manure-fertilizer schedules on the yield and uptake of nutrients by cereal fodder crops and on soil fertility. Journal of Indian Society of Soil Science 48: 510–5.
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