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Title: | Integrated plant nutrient system – with special emphasis on mineral nutriton and biofertilizers for Black pepper and cardamom – A review |
Authors: | Sangeeth, K P Suseela Bhai, R |
Keywords: | Biofertilizer consortium elettaria cardamomum, encapsulation N2 fixers PGPR Piper nigrum P solubilizers |
Issue Date: | Apr-2015 |
Citation: | Critical Reviews in Microbiology, 42(3), pp.439-453, 2015 DOI: 10.3109/1040841X.2014.958433 |
Abstract: | Integrated Plant Nutrition System (IPNS) as a concept and farm management strategy embraces and transcends from single season crop fertilization efforts to planning and management of plant nutrients in crop rotations and farming systems on a long-term basis for enhanced productivity, profitability and sustainability. It is estimated that about two-thirds of the required increase in crop production in developing countries will have to come from yield increases from lands already under cultivation. IPNS enhances soil productivity through a balanced use of soil nutrients, chemical fertilizers, combined with organic sources of plant nutrients, including bioinoculants and nutrient transfer through agro-forestry systems and has adaptation to farming systems in both irrigated and rainfed agriculture. Horticultural crops, mainly plantation crops, management practices include application of fertilizers and pesticides which become inevitable due to the depletion of soil organic matter and incidence of pests and diseases. The extensive use of chemical fertilizers in these crops deteriorated soil health that in turn affected the productivity. To revitalize soil health and to enhance productivity, it is inexorable to enrich the soil using microorganisms. The lacunae observed here is the lack of exploitation of indigenous microbes having the potential to fix atmospheric nitrogen (N) and to solubilize Phosphorus (P) and Potassium (K). The concept of biofertilizer application appears to be technically simple and financially feasible, but the task of developing biofertilizers with efficient strains in appropriate combinations in a consortia mode is not easier. More than developing consortia, a suitable delivery system to discharge the microbial inoculants warranted much effort. This review focuses on the integrated plant nutrition system incorporating biofertilizer with special emphasis on developing and formulating biofertilizer consortium. |
URI: | http://hdl.handle.net/123456789/2431 |
Appears in Collections: | CROP PROTECTION |
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CRITical reviews 2015.pdf | 217.22 kB | Adobe PDF | View/Open |
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