An insect trapping cartridge is provided. The cartridge has a proximal end receivable into a base of an insect trapping device. The proximal end has a substantially planar, longitudinally extending tab that activates a switch in the base. The tab of the cartridge is laterally offset from a centerline of the cartridge.

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.

This invention relates to fly traps and specifically a window mounted fly trap which allows flies to enter from below or above and which has an internal barrier to prevent passage upward or downward through the trap. A window mounted fly trap comprising: (a) a frame for mounting to a window surface by detachable window mounting means; (b) a resilient cover having a non-adhesive first surface facing to the exterior of the frame and an adhesive second fly capture surface within the interior of the frame; said frame and cover defining therein a fly capture chamber; (c) the capture chamber having at least one ingress slot for permitting flies to enter the chamber; (d) wherein the flies walking on the surface of said window are permitted to enter the capture chamber and whereby the flies, when attempting to fly, contact the fly capture adhesive and are captured by said capture surface.

Mosquito attractant compositions including a gellan gum, a humectant, and water are disclosed. The mosquito attractant compositions attract mosquitoes when exposed to air for a period of at least 7 days. Methods of using and forming the mosquito attractant compositions as well as insect attractant devices are also disclosed.

Mosquito attractant compositions including lactic acid, a gelling agent, a humectant other than lactic acid, and water are disclosed. The gelling agent includes a gellan gum or agar and has a pH from about 2.5 to about 5. The mosquito attractant compositions attract mosquitoes when exposed to air for a period of at least 7 days. Methods of using and forming the mosquito attractant compositions as well as insect attractant devices are also disclosed.

A flying insect station for attracting and killing insects on the exterior and interior of a structure is disclosed. The flying insect station includes features for attracting and killing files within a shortened window of time, preferably within one hour. The station includes in one aspect a surface being substantially dark in color and substantially reflective in nature to provide a facade of an opening. Suppression means such as a pesticide is included on one or more of the surfaces of the station for killing flying insects staging on the surface(s). An attractant may be used to provide a plume of attractant around surfaces of the housing to attract and lure flying insects to stage about a reflective surface. Increased catch rates for insect suppression devices are realized when used in combination with embodiments of the station.

An insect trapping device having a base and a cartridge is provided. The cartridge has an adhesive portion that is positioned adjacent a shroud when the cartridge is attached to the base. The shroud has an electric heating element which heats the shroud and the adhesive portion. The heated adhesive portion mimics biological tissue to function as an insect attractant. The insect trapping device can have additional insect attractants as well, such as a lighting source.

An insect trapping device having a base and a cartridge is provided. The cartridge has a shell and an insert. The insert is releaseably retained within the shell and has an adhesive portion for trapping insects. Gravitational force can pull the insert from the shell when the cartridge is removed from the base and the shell is squeezed by a user. The insect trapping device can have insect attractants, such as a light source and a heating element.

A replaceable insert for an insect trapping device is provided. The insert is releaseably retained within the shell and has an adhesive portion for trapping insects. The insert has a substantially planar, longitudinally extending tab. The tab of the cartridge is laterally offset from a centerline of the insert.

Certain embodiments are directed to device that use a Spectrum Modulated Frequency controlled LED source that strongly attracts a selected target insect or insect population to a trapping and/or killing system to facilitate the capture or disposal of selected genus of flying insects while limiting the attraction of other flying insects.