Agricultural research communication centre
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Key words
: Biological nitrogen fixation, Chickpea, Environment, Growth attributes, Nodules, Rhizobium , Salinity, Yield. Chickpea ( Cicer arietinum L.), also called Bengal gram, is an important winter season pulse crop. In India, it was grown on area of 8.25 million ha during 2014-15, contributing 7.33 million tonnes to the national pulse basket with productivity of 889 kg/ha (Anonymous, 2016). Nutritionally, it is an important source of protein (16-20%) in vegetarian diet and has become more important to mitigate the problem of protein energy malnutrition (Prasad, 2012). It is also a rich source of carbohydrates, fat, total dietary fibre, vitamins and minerals (Hirdyani, 2014). Soil is the habitat for prodigious number of living organisms which include the living forms both visible to the naked eye and on the other hand ones with microscopic dimensions. Among these, bacteria play a vital role in a various biochemical processes taking place in the soil and are very much beneficial as far as the plant growth and soil properties are concerned (Anonymous, 2014). Bacteria are able to promote plant growth by establishing symbiotic association with plant or as free living entities. Rhizobia are a unique group of bacterial symbionts of legumes that fix inert elemental atmospheric nitrogen (Araujo et al, 2008). Among all the N 2 fixing micro-organisms, symbiotic relationships between legumes and rhizobia are responsible for the largest contributions of fixed N to farming systems (Unkovich et al, 2008). Furthermore, it has been reported that rhizobial strains promote plant growth through other mechanisms such as phosphate solubilisation ability in some legumes (Sridevi and Mallaiah, 2009) and lowering of plant ethylene levels due to presence of ACC deaminase activity (Glick, 2012). During the green revolution, the nutrient demand was substantially increased due to the introduction of high yielding varieties of wheat and rice which resulted in increased use of synthetic fertilizers. Till date, nitrogen (N) fertilizers are crucial part of crop production and rank first among the external inputs to maximize agricultural production. However, N fertilizers contribute significantly to environmental pollution and have capability to disrupt every form of life to a great extent (Verma et al , 2014). Thus, emphasis should be laid on developing new production techniques that are sustainable both agronomically and economically. Biological nitrogen fixation (BNF) carried out by rhizobia-legume symbiosis can act as a renewable and environmentally sustainable source of N and can complement fertilizer inputs in crop production. It accounts for 65% of N currently used in agriculture (Gopalakrishnan et al, 2014). Under favourable conditions, the symbiotic N 2 fixation can produce as high as 176 kg N/ha and provide up to 85% of its N requirements in legumes. Yüklə 302,71 Kb. Dostları ilə paylaş:
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