Abstract: This invention relates generally to the field of compositions and methods for developing biofertilizers of organic origin and mycorrhizal origin in particular. The invention focuses on the isolation and characterization of the various formulations and ensuing compositions developed thereof from the arbuscular mycorrhizal fungal propagules whose benefit in crop productivity is well known. The invention more particularly describes the isolation and characterization, including but not confined to, novel mycorrhizae-based biofertilizer compositions and biofertilizer formulations for use in soil fertilization and reclamation of industrially created wastelands.

Abstract: The present invention describes the isolation and characterization of the novel biopesticide compositions and/or biopesticide formulations obtained from Eucalyptus species capable of serving as effective biocontrol agents and/or pest control management agents. The invention focuses on the isolation of these biopesticide compositions and formulations that are known to possess pesticidal properties and are derived from natural sources having biological origin. The invention more particularly describes the isolation and characterization, including but not confined to, novel biopesticide compositions possessing pesticidal attributes along with other pharmaceutically important attributes so as to also function as effective biocontrol agents.

Abstract: The present invention provides a microbial consortium containing three hyperthermophilic, barophilic, acidogenic, anaerobic bacterial strains for enhanced oil recovery from oil reservoirs where temperatures range from 70° C. to 90? C. The said microbial consortium is unique in producing a variety of metabolic products mainly CO2, methane, biosurfactant, volatile fatty acids and alcohols in the presence of specially designed nutrient medium. These metabolic products increase sweep efficiency of crude oil from oil bearing poles of rock formation. The present invention also provides a process for enhancing the oil recovery by in situ application of the said microbial consortium.

Abstract: A biofiltration apparatus and method for reducing methyl bromide concentration in a volume of a gas are disclosed. The apparatus includes a housing and a substrate component located in the housing. The substrate component includes a population of methyl bromide degrading microorganisms. The housing receives a volume of contaminated gas, such as exhaust from a fumigation site, through a contaminated gas inlet. The contaminated gas is exposed to the methyl bromide degrading microorganisms where the methyl bromide is biodegraded. The filtered gas, or the gas with a reduced methyl bromide concentration, is then directed out of the housing. The apparatus may also include a contaminated gas load dampening device.

Abstract: The present invention provides a microbial consortium containing three hyperthermophilic, barophilic, acidogenic, anaerobic bacterial strains for enhanced oil recovery from oil reservoirs where temperatures range from 70° C. to 90? C. The said microbial consortium is unique in producing a variety of metabolic products mainly CO2, methane, biosurfactant, volatile fatty acids and alcohols in the presence of specially designed nutrient medium. These metabolic products increase sweep efficiency of crude oil from oil bearing poles of rock formation. The present invention also provides a process for enhancing the oil recovery by in situ application of the said microbial consortium.