DISCUSSION A total of 20 soil and c

DISCUSSION
A total of 20 soil and chickpea nodule isolates were tentatively assigned to genera rhizobia on the basis of morphological and microscopic observations. Similarly, Gauri et al. (2012) and Rai et al. (2013) also characterized mesorhizobial isolates on the basis of their colony shape, colour and texture. Our results are in concordance with those of Gauri et al. (2012) who have also reported that microscopic examination of Rhizobium strain were gram negative rod shaped bacteria. On the basis of biochemical observations results are in well agreement with earlier findings of Gauri et al. (2012), Singh et al. (2013) and Wani and Khan (2013) who have obtained positive results for catalase and oxidase activities and was negative for 3-ketolactose test. Sustainable and efficient disease control strategy demand for eco-friendly technology. In the present study, we have shown that tentative Rhizobium sp. can be exploited as biological agent for control of Fusarium wilt in chickpea. Chickpea form specific symbiosis with its cognate N2 fixing bacterium Mesorhizobium that convert atmospheric N2 to ammonia and helps in replenishing nitrogen in soils and simultaneously can be applied as biological seed treatment for control of Fusarium wilt in chickpea. In vitro reduction of fungal growth by certain Rhizobium sp. with the formation of inhibition zone were presumably due to the metabolites released by bacteria into culture medium. Previous studies have implicated Rhizobium sp. for release of anti-fungal secondary metabolites for the control of phytopathogens (Wani and Khan, 2013). In the present study isolates from soil and chickpea nodules were able to produce siderophores, HCN, cell wall degrading enzymes,volatiles and Psolubilization (data not shown) and earlier observations also suggested that bacteria possessing these traits can enhance plant growth (Kucuk et al., 2013). Pseudomonas putida strain with cyanide production results in reduction of leaf rust and bacterial wilt in wheat and common bean respectively. Our results are in well agreement with the findings of Arfaoui et al. (2006) who observed 8 Rhizobium isolates significantly inhibited fungal growth in dual culture technique by production of volatiles. Our results are in accordance with those of Ahemad and