A system for controlling insects, comprising a first lure module for attracting insects to eat a toxicant and a second cooling module for lowing environmental temperature to a temperature lethal to insects but above the ice crystallization of fruit. The lure comprises: wax; oil; ethyl methyl eugenol or other suitable attractant; and spinosad or other suitable toxicant.

Disclosed herein are bait formulations for attracting and controlling pest insects such as ants. The bait compositions include a specific ratio of lipids and protein sources that are effective in both discovery and recruitment and are superior to current commercial ant bait formulations as they are effective throughout the different seasons and against diverse species of ants. The ant bait compositions may be combined with an insecticide to reduce or eliminate ant populations. Methods for making and using the compositions are also disclosed.

Disclosed herein are bait formulations for attracting and controlling pest insects such as ants. The bait compositions include a specific ratio of lipids and protein sources that are effective in both discovery and recruitment and are superior to current commercial ant bait formulations as they are effective throughout the different seasons and against diverse species of ants. The ant bait compositions may be combined with an insecticide to reduce or eliminate ant populations. Methods for making and using the compositions are also disclosed.

The subject invention concerns new classes of insecticidally-active proteins and the polynucleotide sequences which encode these proteins. More specifically, insecticidal proteins of approximately 12-24 kDa and of approximately 12-14 kDa are used for controlling corn rootworms. The subject invention includes methods and transgenic plants for controlling Western Corn Rootworm and other coleopteran insects.

An insecticidal gel formulation including an insecticide active agent, sugar, sorbitol, hydrophilic fumed silica, xanthan gum, and a solvent is disclosed. Further, the insecticidal gel formulation comprises a total amount of hydrophilic fumed silica and xanthan gum of at least 3.6% by weight of the total insecticidal gel formulation.

An insecticidal gel formulation including an insecticide active agent, sugar, sorbitol, hydrophilic fumed silica, xanthan gum, and a solvent is disclosed. Further, the insecticidal gel formulation comprises a total amount of hydrophilic fumed silica and xanthan gum of at least 3.6% by weight of the total insecticidal gel formulation.

The invention relates to methods of trapping a pest, said method comprising providing ferromagnetic particles for ingestion by the pest, and trapping the pest using one or more magnets, wherein a trapped pest has ingested and internally accumulated an amount of the ferromagnetic particles sufficient to permit immobilization of the pest using said one or more magnets. Devices for use with the methods of the instant invention are also disclosed.

The invention includes a mammal-safe method of killing or harming an insect. The method comprises administering to the insect a composition comprising erythritol ((2R,3S)-butane-1,2,3,4-tetraol).

The invention includes a mammal-safe method of killing or harming an insect. The method comprises administering to the insect a composition comprising erythritol ((2R,3S)-butane-1,2,3,4-tetraol).

Insecticide dispensing devices and methods of the present technology provide for the prolonged release of insecticide for the eradication of insect populations. Insecticide dispensing devices include an attractive toxic sugar bait, and have a housing configured with at least one aperture to allow a gaseous compound to exit the internal cavity and sized to allow entry of a target insect into the internal cavity. Methods of insecticide dispensing include activating the attractive toxic sugar bait in the device, and placing the activated device in an area where insects are present.