Molecular diversity, effectiveness and competitiveness of indigenous rhizobial population infecting mungbean Vigna radiata (L. Wilczek) under semi-arid conditions.

Nodules from mungbean crop raised for the first time at Ram Dhan Singh (RDS) farm of Chaudhary Charan Singh (CCS) Haryana Agricultural University, Hisar were collected from 17 different locations. Twenty-five mungbean rhizobia were isolated and authenticated by plant infection test. DNA of all these rhizobia was extracted purified and amplified using enterobacterial repetitive intergenic consensus (ERIC) primers. All the mungbean rhizobial isolates were clustered into 4 groups at 65% of similarity and were further divided into 17 subclusters at 80% of similarity. All the 4 types of rhizobia were not present at any of the location and group 2 or 4 rhizobia were invariably present. Efficacy of these rhizobia in terms of nodulation, nitrogen uptake and chlorophyll a fluorescence was determined under pot culture conditions. Strain MB 307 showed maximum nitrogen uptake of 31.9 mg N plant(-1) followed by strain MB 1205, MB 1206(2), MB 308, MB 1524 and strain MB 1521 was found to be the least efficient in terms of N 2 fixation. Nodule occupancy by different rhizobia ranged from 5.5 to 40.3%. Most of the strains belonging to the 2nd group which clustered maximum number of strains were comparatively better competitors and formed 19.5-40.3% of the nodules and were also effective. Isolate MB 307, the most efficient strain, was found to have nodule occupancy of 31.5%. Such type of predominant, efficient and better competitor strains should be selected for enhancing nodule competitiveness.