Agricultural research communication centre
Table 1: Increase in grain yield of chickpea due to inoculation with different Rhizobium strains. Species
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- Bu səhifədəki naviqasiya:
- Environmental factors affecting legume-rhizobia symbiosis
- Soil salinity
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Table 1:
Increase in grain yield of chickpea due to inoculation with different Rhizobium strains. Species Strain Yield (q/ha) Yield (q/ha) Percent increase Reference (Uninoculated) (Inoculated) Rhizobium sp. Thal-8 15.2 18.6 22.4 Aslam et al (2000) Rhizobium sp. TAL-620 15.2 18.1 19.1 Aslam et al (2000) Rhizobium sp. CC-1192 13.8 17.3 25.4 Khattak et al (2006) Rhizobium leguminosarum bv. Ciceri - 11.6 12.6 8.3 Namwar et al (2011) Mesorhizobium ciceri LN 7007 19.0 22.1 11.8 Sahai and Chandra (2011) Sinorhizobium ciceri EAL 001 7.90 8.7 11.2 Messele and Pant (2012) Mesorhizobium ciceri CH-1233 19.4 21.7 11.8 Bhattacharjya and Chandra (2013) Rhizobium sp. BHURC03 20.1 23.8 22.8 Verma et al (2010) Mesorhizobium ciceri LGR33 21.4 23.1 7.9 Mansotra et al (2015) Mesorhizobium sp. Cp41 21.7 25.9 19.3 Tena et al (2016) 34 AGRICULTURAL REVIEWS which consequently enhances N availability to subsequent crops. Environmental factors affecting legume-rhizobia symbiosis: Suboptimal levels of several environmental factors can limit both legume plant growth as well as N 2 - fixing activities. Fluctuations in pH, nutrient availability, salinity, temperature, herbicides and moisture greatly influence the growth, survival, and metabolic activity of nitrogen fixing bacteria and plants, and their ability to enter into symbiotic relationship (Mohammadi et al, 2012). Soil salinity: Salinization is the accumulation of water- soluble salts in the soil profile to a level that have detrimental impacts on agricultural production, environmental health, and economic welfare. Salinity is an increasing agricultural problem in many regions worldwide. The total global area of salt-affected soils including saline and sodic soils is 831 million hectares, extending over all the continents including Asia, Africa, America, Australia and Europe. It is a serious threat to the production of grain legumes in the semi-arid and arid regions of the world (Rengasamy, 2006). Over 40 years ago, Bhardwaj (1975) reported that in legume- Rhizobium symbiosis legumes are more sensitive to salinity as compared to their microbial symbionts. Salinity does not affect colonization of root by rhizobia (Flowers et al, 2010) but it causes significant reduction in nodulation, nodule weight and efficiency of fully formed nodules in chickpea (Singleton and Bohlool, 1984) and hence decreases the proportion of those nodules that are initiated in saline conditions that are able to develop into active nitrogen fixing nodules. Elsheikh and Wood (1990) reported that nodulation was completely inhibited at 7 dS m -1 and the chickpea plants died at 8 dS m -1 . Rao et al (2002) revealed that plants at pH 8.9 showed the least effect of stress and nodules were healthy and pink. But with increase in pH to 9.0 and 9.2 the nodules became black in colour and were damaged. Reduced nodule formation by the chickpea could have been due to the adverse effects of salinity on the nodule initiation. Yüklə 302,71 Kb. Dostları ilə paylaş:
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