10.6084/m9.figshare.6991655.v1 GOUTAM BANERJEE GOUTAM BANERJEE SRIKANTH GORTHI SRIKANTH GORTHI PRITAM CHATTOPADHYAY PRITAM CHATTOPADHYAY Beneficial effects of bio-controlling agent Bacillus cereus IB311 on the agricultural crop production and its biomass optimization through response surface methodology SciELO journals 2018 Bacillus cereus bio-control phytopathogens RSM field application crop production 2018-08-22 02:44:27 Dataset https://scielo.figshare.com/articles/dataset/Beneficial_effects_of_bio-controlling_agent_Bacillus_cereus_IB311_on_the_agricultural_crop_production_and_its_biomass_optimization_through_response_surface_methodology/6991655 <div><p>ABSTRACT Disease in agricultural field is a big problem that causes a massive loss in production. In this present investigation, we have reported a soil-borne bacterium Bacillus cereus IB311 which is antagonistic to plant pathogens (Pseudomonas syringae and Agrobacterium tumefaciens), and could make a substantial contribution to the prevention of plant diseases. To prove the practical application, the strain was directly applied in agricultural field. The results demonstrated that B. cereus IB311 has increased the production (20% and 26% in term of average pod number per plant, average seed number per pod, and seed yield per experimental plot) in ground nut (Arachis hypogaea var. Koushal, G201) and sesame (Sesamum indicum var. Kanak), respectively. To reduce the production cost, the biomass production was optimized through response surface methodology (RSM). Interactions of three variables (glucose, beef extract and inoculum) were studied using Central Composite Design. According to our analysis, optimum production of Bacillus cereus IB311 (5.383 µg/ mL) may be obtained at glucose 1.985%, beef extract 1.615% and inoculums size 0.757%. Therefore, we strongly believe that the application of this strain in agricultural field as bio-controlling agent will definitely enhance the production yield and will reduce the disease risk.</p></div>