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 swaddling blanket and pouch combination (SBPC) (10) that allows an infant to be comfortably and easily swaddled. The blanket (12) is comprised of a right blanket flap (28) and a left blanket flap (46) and includes a designated area to which is removably attached the pouch (70). The pouch features a lower end (78) which includes an opening and closing means that allows an infant's soiled diaper to be easily removed and replaced or to take a rectal temperature. The SBPC (10) is used by first placing the left blanket flap (46) over the pouch (70), which is then followed by placing the right blanket flap (28) over the pouch. The right and left blanket flaps (28,46) as well as the pouch (70) are preferably held in place by hook and loop fasteners (88).

Dispenser devices suitable for use on unmanned aerial vehicles are described having utility for dispensing solid larvicides to difficult to reach insect habitats.

A swaddling blanket and pouch combination (SBPC) (10) that allows an infant to be comfortably and easily swaddled. The blanket (12) is comprised of a right blanket flap (28) and a left blanket flap (46) and includes a designated area to which is removably attached the pouch (70). The pouch features a lower end (78) which includes an opening and closing means that allows an infant's soiled diaper to be easily removed and replaced or to take a rectal temperature. The SBPC (10) is used by first placing the left blanket flap (46) over the pouch (70), which is then followed by placing the right blanket flap (28) over the pouch. The right and left blanket flaps (28,46) as well as the pouch (70) are preferably held in place by hook and loop fasteners (88).

A device for controlling at least one insect bait station (100), in particular for insects harmful to humans, animals and plants, in which the bait station is provided with: at least one container (3, 5) provided with an insect entrance opening, the container containing bait and being at least partially transparent or translucent, a lighting device (10) lighting the inside of the container but located outside same, a telecommunication module (23, 25) and a printed circuit comprising, inter alia, a memory and a processor connected to said telecommunication means. The device comprises an optical sensor essentially opposite the lighting device, and connected to the printed circuit (12), which measures the general opacity caused by the insect(s) in the container, the corresponding value being transmitted for processing and analysis of the status of the bait station.

An insect control sheet containing a Cry polyhedron prepared by fixing an insecticidal protein (a Cry toxin) produced by Bacillus thuringiensis to a polyhedron of polyhedrin protein is provided. The insect control sheet contains the Cry polyhedron and is used by floating on water. The insect control sheet is floatable on water, and includes a pure matrix layer 20 and a toxin-containing matrix layer 30 containing the Cry polyhedron 51 which are layered on the underside of a sheet-shaped first sheet substrate 10. The pure matrix layer 20 is composed of a degradable or water-soluble second material and the toxin-containing matrix layer 30 is composed of a degradable or water-soluble third material and the Cry polyhedron. The toxin-containing matrix layer sustainably releases the Cry polyhedron to the water on which the insect control sheet is floated.

This disclosure concerns insect pheromone blend compositions comprising pheromones particular to reproductively isolated insects. In some aspects, the disclosure concerns non-natural insect pheromone blend compositions containing (Z)-13-Octadecenal or (Z)-9-Octadecenal that are surprisingly effective for the purpose of modifying the behavior of yellow stem borer (Scirpophaga incertulas) and/or striped stem borer (Chilo suppressalis) insect pests.

Described herein are systems and methods for attracting insects to a trap or surface containing insecticide. One embodiment described herein is an insect attractant releasing system comprising a quantity of a volatile insect attractant where the attractant is released at a defined rate and has a particular product lifetime under field conditions. In another embodiment, the attractant releasing system is integrated into an apparatus having insecticide immobilized on one or more surfaces where attracted insects can crawl or land and contact the insecticide, which subsequently kills the insects.

Dispenser devices suitable for use on unmanned aerial vehicles are described having utility for dispensing solid larvicides to difficult to reach insect habitats.

Mosquito attractant composition for attracting a mosquito to a pre-determined location. The composition includes a combination of nonanal and lilac aldehydes.