A sexual attraction pheromone exclusively obtained from Tribolium castaneum male insects, a method to obtain said pheromone and a device useful for controlling insects in grain silos are disclosed. The device comprises an outer shell, a membrane impregnated with the sexual attraction pheromone and a nucleus containing an insecticide formulation comprising effective amount of an isolated microsclerotia of Beauvaria bassiana and an agronomically acceptable carrier.

A crawling insect detection and protection system includes a curved member for attachment to a surface. The curved member has a coarse textured outer surface and a smooth interior surface, the interior surface includes a grooved upper lip located at a top portion of the curved member and a smooth lower lip located at a bottom portion of the curved member. The width of the grooved upper lip is recessed from the bottom lip to allow a crawling insect to fall into the lower lip portion. The system includes an attachment means which may be an adhesive fastener and/or a mechanical fastener for affixing a mounting surface of the flexible curved member to an attachment surface.

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.

A bed bug attracting assembly is positioned at an upper location. A bed bug killing assembly is positioned at an intermediate location beneath the attracting assembly. A base assembly is positioned at a lower location beneath the killing assembly for maximizing the number of bed bugs attracted and killed. A control assembly has a user visible digital UPC code, a battery power percentage indicator with an ON/OFF button and a sound activated switch, a cell phone with a macro-lens, and two light emitting diode positioned adjacent thereto to illuminate bed bugs. An electric grid triggers a camera detector. A CO2 self-emitting device includes graphite and an electrical charge. A platform with pores holds a lure over a miniature fan. A programmable computer is preprogrammed to modulate attraction modalities. A GPS transmitter is activated to sent to receives to secure the area of infestation.

A biodegradable bait station is disclosed that can be used with liquid baits targeting pest ants in urban, agricultural, and natural setting, which can overcome several limitations that most of other liquid bait stations currently experience. For example, instead of keeping a large quantity of liquid bait in a reservoir, a small amount, for example, 10-20 ml of sugary liquid bait with an insecticide, for example, boric acid, thiamethoxam, imidacloprid, will be contained in a biodegradable cylindrical container with one open end. The open end will be plugged with a piece of water absorbent polymer or gel, for example, polyacrylamide gel, sodium alginate. The water absorbent polymer or gel absorbs the liquid bait and expands inside of the cylindrical container so that it will function as a polymer wick to deliver a small amount of the liquid bait to foraging ants.

A bedbug trap that has a series of stacked containers. The top container holds a quantity of water, sugar and yeast, which generates carbon dioxide. The central container holds a small heating pad to attract the bedbugs and to heat the water and yeast mixture to aid in the fermentation. A hose with a water trap system brings the generated carbon dioxide from the upper chamber to the bottom chamber. This chamber sits in a bowl that has a rough exterior and a smooth interior. Holes, formed around the base of the bottom chamber allow the carbon dioxide to escape into the room, which attracts the bedbugs. The assembled unit is large, to trap as many bedbugs as possible in the shortest amount of time. Finally, the water, sugar and yeast are common household items that are easily and cheaply replenished as needed.

An apparatus includes a housing having an aperture extending through a wall of the housing, a carbon dioxide delivery device coupled to the housing through the aperture, a non-biological skin substitute substrate, and a heater coupled to the substrate.

In an embodiment, as insect trap is disclosed including: a trap portion including a frame and a membrane having an adhesive surface, wherein the membrane is at least partially contained within the frame and is configured to adhere to an insect; and a base portion including a lighting element and a housing portion, wherein the housing portion is configured to receive and retain the trap portion when engaged therewith.

The present invention relates to a mosquito-killing illuminating lamp which comprises a casing and a control unit. The casing comprises an illuminating portion and a mosquito-killing portion. The illuminating portion is provided with illuminating components therein. An electrolysis carbon dioxide generating device and a fan are provided inside the mosquito-killing portion. The control unit controls operation of the illuminating components, the carbon dioxide generating device and the fan. The electrolysis carbon dioxide generating device comprises a box body and electrolysis components. The electrolysis components are provided inside the box body. An electrolyte solution is provided inside the box body. The box body is provided with a venting hole. The electrolysis components comprise a graphite electrode and a cathode plate. After conduction between the graphite electrode and the cathode plate, electrolysis is performed on the electrolyte solution to generate carbon dioxide.

Disclosed is a capture device for attracting and trapping mosquitoes comprising a sound emitter, a distress cancelling emitter for use in a mosquito trapping device for minimizing or eliminating distress signals given off by trapped mosquitoes from exiting the device. A system for minimizing mosquito populations and infestation in an area comprising: an apparatus for attracting disease-carrying female gravid mosquitoes that can trap the mosquitoes and capture/destroy the eggs released from such mosquitoes, a capture device that emits a sound that attracts male mosquitoes and a means for instantly killing the captured mosquitoes.