Abstract: The disclosure relates to pheromone extracts from nematode growth medium, and methods of using such nematode extracts to increase the abundance of fungal and bacterial microbials in the soil to promote plant growth, plant health, and to protect plants from environmental stresses including abiotic and biotics stresses.

Abstract: The invention relates to biocontrol compositions comprising an entomopathogenic fungus, kits comprising such an entomopathogenic fungus, and methods of using such a fungus and compositions to reduce or kill the population of agricultural, vegetable, or horticultural crop insect pests.

Abstract: The invention relates to biocontrol compositions comprising an entomopathogenic fungus, kits comprising such an entomopathogenic fungus, and methods of using such a fungus and compositions to reduce or kill the population of agricultural, vegetable, or horticultural crop insect pests.

Abstract: Disclosed are methods for increasing infectivity of entomopathogenic nematodes in any target area for the purposes of insect control, said method comprising: (a) mixing an aqueous nematode infectivity increasing composition with (i) entomopathogenic nematodes to activate said entomopathogenic nematodes for increased infectivity prior to application of said entomopathogenic nematodes to said target area, or (ii) seeds to produce coated seeds, and (b) applying said entomopathogenic nematodes to said target area or planting said coated seeds in said target area; wherein said aqueous nematode infectivity increasing composition is produced by methods disclosed herein.

Abstract: The fungicidal activity of TCA and cell-free extracts of X. szentirmaii is superior compared to other Xenorhabdus and Photorhabdus species. The effectiveness of TCA and X. szentirmaii metabolites to synergize and enhance fungicidal efficacy of commercial fungicides when combined with them at particular concentrations to suppress growth of Monilinia fructicola and Rhizoctonia solani was evaluated. Fungicidal activity was measured by phytopathogen growth on PDA plates with and without treatments. For suppression of M. fructicola, synergy was observed between TCA when combined with certain concentrations of Elast®, PropiMax®, Regalia® or Serenade®, and for combinations of X. szentirmaii, strain 17C+E, when combined with Abound®. For suppression of R. solani, synergy was observed between TCA combined with Regalia® or Serenade®. TCA combined with X. szentirmaii resulted in synergistic levels of suppression of M. fructicola. Utilizing TCA and X.

Abstract: This invention relates to using bacterial metabolites to suppress phytopathogens, more particularly this invention relates to bacterial metabolites applied to Carya illinoensis and Prunus persica as a fungicide to suppress and inhibit Glomerella cingulata, Phomopsis sp., Phytophthora cactorum, Fusicladosporium effusum, and Monilinia fructicola.

Abstract: Disclosed is a taping apparatus for packaging arthropods having been infected with entomopathogenic nematodes wherein the tape forms a continuous line of packaged arthropods. In one embodiment of the invention, the tape formulation has the arthropods Tenebrio molitor, Aethina tumida, or Diaprepes abbreviatus infected with the nematodes of Heterorhabditis indica or Steinernema carpocapsae.

Abstract: The automated insect separation system processes an aggregate mixture of insects and other materials so that selected insects are separated from the other components of the mix. Specifically, the aggregate mix is directed into a separator apparatus so that the mix flows vertically through a series of vibrating screens. In the preferred embodiment, the screening process separates two different sizes of mealworm larvae from the aggregate mixture. The mix includes the mealworm larvae, unconsumed food materials (usually wheat bran), and insect frass.

Abstract: The insect inoculation system and method optimizes the conditions wherein host insect cadavers are infected by a selected parasite. Host insect cadavers are exposed to the selected parasite within the inoculation chamber. The inoculation chamber is configured to optimize the parasite infection and reproduction process. The insect parasites produce multiple offspring which remain in the infected insect cadavers. At the end of the inoculation process, the infected cadavers are removed from the chamber and the insect parasites are harvested and used in bio-pest control processes.

Abstract: Pesticidal and/or antimicrobial biological agent-infected hard-bodied arthropod cadavers, such as from the family Tenebrionidae are used to control pest and/or microbial infestations in agriculture, commercial and urban environments.

Abstract: A biopesticidal composition for controlling insects (e.g., pecan weevils, the diaprepes root weevil, fall armyworm, fire ants), containing an agriculturally acceptable carrier and an effective insect (e.g., pecan weevils, the diaprepes root weevil, fall armyworm, fire ants) biopesticidal amount of a fungus selected from the group consisting of Beauveria bassiana having the identifying characteristics of Beauveria bassiana NRRL 30593, Metarhizium anisopliae having the identifying characteristics of Metarhizium anisopliae NRRL 30594, Beauveria bassiana having the identifying characteristics of Beauveria bassiana NRRL 30601, Beauveria bassiana having the identifying characteristics of Beauveria bassiana NRRL 30600, or mixtures thereof. Also, a method for controlling insects (e.g., pecan weevils, the diaprepes root weevil, fall armyworm, fire ants), involving applying an effective insect biopesticidal amount of the composition to the insects or to the plants, areas or substrates infested with the insects.

Abstract: A biopesticidal composition for controlling insects (e.g., pecan weevils, the diaprepes root weevil, fall armyworm, fire ants), containing an agriculturally acceptable carrier and an effective insect (e.g., pecan weevils, the diaprepes root weevil, fall armyworm, fire ants) biopesticidal amount of a fungus selected from the group consisting of Beauveria bassiana having the identifying characteristics of Beauveria bassiana NRRL 30593, Metarhizium anisopliae having the identifying characteristics of Metarhizium anisopliae NRRL 30594, Beauveria bassiana having the identifying characteristics of Beauveria bassiana NRRL 30601, Beauveria bassiana having the identifying characteristics of Beauveria bassiana NRRL 30600, or mixtures thereof. Also, a method for controlling insects (e.g., pecan weevils, the diaprepes root weevil, fall armyworm, fire ants), involving applying an effective insect biopesticidal amount of the composition to the insects or to the plants, areas or substrates infested with the insects.