Abstract: A fertilizer and method of making a fertilizer that include bioactivated nutrients derived from immobile/less mobile elements. The immobile/less elements are made available to plants by the action of element mobilizing microorganisms, which are isolated, cultured, and combined with organic material and sources of the immobile element.

Abstract: A fertilizer and method of making a fertilizer that include bioactivated nutrients derived from immobile/less mobile elements. The immobile/less elements are made available to plants by the action of element mobilizing microorganisms, which are isolated, cultured, and combined with organic material and sources of the immobile element.

Abstract: A fertilizer and method of making a fertilizer that include bioactivated nutrients derived from immobile/less mobile elements. The immobile/less elements are made available to plants by the action of element mobilizing microorganisms, which are isolated, cultured, and combined with organic material and sources of the immobile element.

Abstract: A fertilizer and method of making a fertilizer that include bioactivated nutrients derived from immobile/less mobile elements. The immobile/less elements are made available to plants by the action of element mobilizing microorganisms, which are isolated, cultured, and combined with organic material and sources of the immobile element.

Abstract: A bio-organo-phosphate fertilizer having a consortia of microorganisms including phosphorus solubilizing microorganisms and rock phosphate enriched compost is described. The bio-organo-phosphate fertilizer can also include plant growth regulating microorganisms.

Abstract: A fertilizer and method of making a fertilizer that include bioactivated nutrients derived from immobile/less mobile elements. The immobile/less elements are made available to plants by the action of element mobilizing microorganisms, which are isolated, cultured, and combined with organic material and sources of the immobile element.

Abstract: A method and processes to solubilize and transform phosphorus contents of rock phosphate (RP) into bio-organo-phosphate (BOP) fertilizer have been developed and integrated. The methods include collecting and sorting of organic wastes; blending with RP; subjecting the blend to biocomposting; collection, isolation, selection and growth optimization of consortia of efficient phosphorus solubilizing microorganisms (PSM) and novel plant growth regulating microorganisms (PGRM); where in PSM produce organic acids and other organic compounds using compost substate at mesophilic stage, whereas the organic acids released during composting also act in synergism of PSM, thus forming a carbon rich acidic culture resulting in the solubilization of rock phosphate.

Abstract: A method and processes to solubilize and transform phosphorus contents of rock phosphate (RP) into bio-organo-phosphate (BOP) fertilizer have been developed and integrated. The methods include collecting and sorting of organic wastes; blending with RP; subjecting the blend to biocomposting; collection, isolation, selection and growth optimization of consortia of efficient phosphorus solubilizing microorganisms (PSM) and novel plant growth regulating microorganisms (PGRM); where in PSM produce organic acids and other organic compounds using compost substrate at mesophillic stage, whereas the organic acids released during composting also act in synergism of PSM, thus forming a carbon rich acidic culture resulting in the solubilization of rock phosphate.

Abstract: A method and processes to solubilize and transform phosphorus contents of rock phosphate (RP) into bio-organo-phosphate (BOP) fertilizer have been developed and integrated. The methods include collecting and sorting of organic wastes; blending with RP; subjecting the blend to biocomposting; collection, isolation, selection and growth optimization of consortia of efficient phosphorus solubilizing microorganisms (PSM) and novel plant growth regulating microorganisms (PGRM); where in PSM produce organic acids and other organic compounds using compost substrate at mesophillic stage, whereas the organic acids released during composting also act in synergism of PSM, thus forming a carbon rich acidic culture resulting in the solubilization of rock phosphate.