Interactive effect of rhizobacterium Bacillus sp. strain MRD-17 and macro-nutrients on the amelioration of drought stress in mustard (Brassica juncea L.)

Abstract

ABSTRACT Drought is a major abiotic stress in mustard. In the present investigation, the interactive effects of rhizobacterium Bacillus sp. MRD-17 and nutrients nitrogen, phosphorus, and potassium (N, P, K), 100% and 50% of the recommended dose of fertiliser (RDF) on shoot-root growth and nutrient uptake by mustard under well-watered (−0.33 bar) and water deficit (−8 bar) conditions were determined. Drought stress for 30 days, reduced root growth, but rhizobacterial inoculation under drought and nutrient stress improved root viability (73%, and 39%, respectively) and architecture, nitrate reductase (20% and 12%, respectively) and glutamine synthetase activity (21% and 14%, respectively), shoot nitrogen, phosphorus, and potassium and seed K content. The protective effects of Bacillus sp. MRD-17 to mustard under drought stress was also accompanied by decreased acid phosphatase activity. However, rhizobacterial and macro-nutrient interactions had no impact on seed N and P content on drought and nutrient-stressed plants. Therefore, in terms of plant growth and nutrient uptake, the efficiency of Bacillus sp. MRD-17 was dependent on the soil nutrient status. Furthermore, rhizobacterial application might facilitate a higher uptake of water and nutrients by the plant from the soil and thus sustain crop productivity under water and nutrient stress scenarios.