A composition for controlling plant diseases comprising Paecilomyces fumosoroseus, and one or more nematicidal active ingredients selected from specific groups has an excellent controlling effect on plant diseases.

A composition for controlling plant diseases comprising Paecilomyces fumosoroseus, and one or more nematicidal active ingredients selected from specific groups has an excellent controlling effect on plant diseases.

The present disclosure concerns a method for enhancing or promoting or increasing the fermentative potential of microbial populations and/or the growth rate of microorganisms. The present disclosure also proposes a method for improving survival, viability and/or stability of microorganisms in microbial products, suspensions or of microbial inoculants, during storage.

The present disclosure concerns a method for enhancing or promoting or increasing the fermentative potential of microbial populations and/or the growth rate of microorganisms. The present disclosure also proposes a method for improving survival, viability and/or stability of microorganisms in microbial products, suspensions or of microbial inoculants, during storage.

Disclosed are shelf stable water miscible suspension systems for suspending microbes and/or microbe derived metabolites so they are water dispersible and can be combined with a variety of agricultural chemicals in an aqueous solution. The microbes and/or microbe derived metabolites are initially suspended in a plant derived oil and then this oil suspension is converted to a water dispersible suspension using one of the disclosed suspension systems. The microbe and/or microbe derived metabolites in the suspension systems are shelf stable for at least 52 weeks at 25° C.

Disclosed are shelf stable water miscible suspension systems for suspending microbes and/or microbe derived metabolites so they are water dispersible and can be combined with a variety of agricultural chemicals in an aqueous solution. The microbes and/or microbe derived metabolites are initially suspended in a plant derived oil and then this oil suspension is converted to a water dispersible suspension using one of the disclosed suspension systems. The microbe and/or microbe derived metabolites in the suspension systems are shelf stable for at least 52 weeks at 25° C.

Disclosed are shelf stable water miscible suspension systems for suspending microbes and/or microbe derived metabolites so they are water dispersible and can be combined with a variety of agricultural chemicals in an aqueous solution. The microbes and/or microbe derived metabolites are initially suspended in a plant derived oil and then this oil suspension is converted to a water dispersible suspension using one of the disclosed suspension systems. The microbe and/or microbe derived metabolites in the suspension systems are shelf stable for at least 52 weeks at 25° C.

The present disclosure provides a process for preventing, and alleviating citrus greening infection of citrus plants including identifying the causative agent, providing consortia comprising Trichoderma spp. and Pseudomonas spp. in definite ratios effective in targeting the causative agent Phytophthora spp. and thereby preventing or alleviating the citrus greening disease in an effective manner. The present disclosure also provides consortia comprising standardized cultures of Trichoderma spp. in varying ratios and Pseudomonas spp. in varying ratios effective in preventing and controlling the causative agent Phytophthora spp. at different ages of citrus plants and stages of infection. The present disclosure further provides formulations comprising the antagonist microbial consortia and tailor made kits comprising one or more formulations of the present disclosure for managing citrus greening disease.

The present disclosure provides a process for preventing, and alleviating citrus greening infection of citrus plants including identifying the causative agent, providing consortia comprising Trichoderma spp. and Pseudomonas spp. in definite ratios effective in targeting the causative agent Phytophthora spp. and thereby preventing or alleviating the citrus greening disease in an effective manner. The present disclosure also provides consortia comprising standardized cultures of Trichoderma spp. in varying ratios and Pseudomonas spp. in varying ratios effective in preventing and controlling the causative agent Phytophthora spp. at different ages of citrus plants and stages of infection. The present disclosure further provides formulations comprising the antagonist microbial consortia and tailor made kits comprising one or more formulations of the present disclosure for managing citrus greening disease.

The present disclosure provides a process for preventing, and alleviating citrus greening infection of citrus plants including identifying the causative agent, providing consortia comprising Trichoderma spp. and Pseudomonas spp. in definite ratios effective in targeting the causative agent Phytophthora spp. and thereby preventing or alleviating the citrus greening disease in an effective manner. The present disclosure also provides consortia comprising standardized cultures of Trichoderma spp. in varying ratios and Pseudomonas spp. in varying ratios effective in preventing and controlling the causative agent Phytophthora spp. at different ages of citrus plants and stages of infection. The present disclosure further provides formulations comprising the antagonist microbial consortia and tailor made kits comprising one or more formulations of the present disclosure for managing citrus greening disease.