Evaluation of shelf life and rock phosphate solubilization of Burkholderia sp in nutrient-amended clay, rice bran and rock phosphate-based granular formulation

Five phosphate-solubilizing bacteria (PSB) used in this study were isolated based on their ability to solubilize tricalcium phosphate (TCP) in Pikovskaya's medium. Among the tested bacterial strains Burkholderia sp. strain CBPB-HIM showed the highest solubilization (363 mu g of soluble P ml(-1)) activity at 48 h of incubation. Further, this strain has been selected to assess its shelf life in nutrient-amended and -unamended clay, rice bran and rock phosphate (RP) pellet-based granular formulation. The results showed that the maximum viability of bacterium was observed in clay and rice bran (1:1) + 10% RP pellets than clay-RP pellets, irrespective of tested storage temperatures. Further, clay and rice bran (1:1) + 10% RP pellets amended with 1% glucose supported the higher number of cells compared to glycerol-amended and nutrient-unamended pellets. In this carrier solubilization of Morocco rock phosphate (MRP) by Burkholderia sp. strain CBPB-HIM was also investigated. The maximum of water and bicarbonate extractable P (206 and 245 mu g P g(-1) of pellet respectively) was recorded in clay and rice bran (1:1) + 10% RP pellets amended with 1% glucose and glycerol respectively on day 5 of incubation. Therefore, this study proved the possibility of developing granular inoculant technology combining clay, rice bran and RP as substrates with phosphate-solubilizing Burkholderia.