A beehive pest trap includes a first surface, second surface, and side beams. The side beams are coupled to and support the second surface. The side beams are coupled to and positioned on the first surface. The second surface is coupled to and positioned on the side beams. The first surface, second surface, and side beams form a gate entrance. The second surface is positioned parallel to the first surface. The second surface is wider than the first surface. The gate entrance is positioned proximate to an insect trap. The second surface is L-shaped. The trap also includes a screen and a trap drawer. The first surface comprises a lateral side. The lateral side and the side beam form a cavity. The trap door is slidably positioned in the cavity. The insect trap includes the trap drawer. The second surface includes a pest door slidably coupled thereto.

Problems associated with the use of fluorescent tubes in insect traps are resolved by providing a replacement lamp employing multiple sets of light emitting diodes that each emit light at different specific wavelengths each positioned within a translucent sleeve have a surface coated with an environmentally safe light diffusion material creating a pattern on the surface comprising areas of more intense light dominated by the light cast by a single LED separated by areas of less intense light where light cast by adjacent LEDs is more mixed.

Problems associated with the use of fluorescent tubes in insect traps are resolved by providing a replacement lamp employing multiple sets of light emitting diodes that each emit light at different specific wavelengths each positioned within a translucent sleeve have a surface coated with an environmentally safe light diffusion material creating a pattern on the surface comprising areas of more intense light dominated by the light cast by a single LED separated by areas of less intense light where light cast by adjacent LEDs is more mixed.

Mosquito control systems and devices are described herein. The devices include a connector positioned at a first end of the device, the connector configured to couple to a light bulb socket to provide power to the device; an LED light source positioned at a second end of the device; an electrocuting mechanism disposed between the connector and the LED light source, the electrocuting mechanism configured to electrocute the mosquitos upon the mosquitos upon contact; a carbon dioxide generating device configured to generate and release carbon dioxide to attract the mosquitos to the device; and a heater configured to generate and release heat to attract the mosquitos to the device.

Mosquito control systems and devices are described herein. The devices include a connector positioned at a first end of the device, the connector configured to couple to a light bulb socket to provide power to the device; an LED light source positioned at a second end of the device; an electrocuting mechanism disposed between the connector and the LED light source, the electrocuting mechanism configured to electrocute the mosquitos upon the mosquitos upon contact; a carbon dioxide generating device configured to generate and release carbon dioxide to attract the mosquitos to the device; and a heater configured to generate and release heat to attract the mosquitos to the device.

An effective dried attractive toxic bait station that acts as a lure and kill device for Ae. aegypti and other mosquitoes. The bait station is a simulated refuge at least part of which is coated with a dried mixture of poison and sugar forming a dried toxic sugar-containing bait. The simulated refuge attracts Ae. aegypti and other mosquitoes to bait station and encourages them to land on the coated portion. Once a mosquito has landed, it detects the sugar in the dried mixture of sugar and poison and ingests some of it. Once ingested, the dried mixture of poison and sugar will eventually kill the mosquito.

An effective dried attractive toxic bait station that acts as a lure and kill device for Ae. aegypti and other mosquitoes. The bait station is a simulated refuge at least part of which is coated with a dried mixture of poison and sugar forming a dried toxic sugar-containing bait. The simulated refuge attracts Ae. aegypti and other mosquitoes to bait station and encourages them to land on the coated portion. Once a mosquito has landed, it detects the sugar in the dried mixture of sugar and poison and ingests some of it. Once ingested, the dried mixture of poison and sugar will eventually kill the mosquito.

An insect barrier system configured for positioning about a tree trunk. The system includes a barrier member having an extending portion which includes an inner edge extending along a plane and an outer edge positioned a distance from the plane. The barrier member is configured to be positioned about the tree trunk such that the inner edge is in sealing engagement therewith and a containment area is defined between the extending portion and the tree trunk. A collection sack is configured to be positioned above the barrier member. A tunnel member having a passage therethrough is positioned such that an inlet opening thereof opens into the containment area and on outlet opening thereof opens into the collection sack.

On its outside, an insect trap has at least one black area or is completely black. Above a temperature that lies between 25 C. and 40 C., the black color changes into a color that is preferred by the insect pest that is to be captured. The color change takes place either by having an initially black coating be see-through and the color that is provided under the coating and is preferred by the insect pest be visible, or by the black color of the insect trap or its black area changing into a color that is preferred by the insect pest that is to be captured.

On its outside, an insect trap has at least one black area or is completely black. Above a temperature that lies between 25 C. and 40 C., the black color changes into a color that is preferred by the insect pest that is to be captured. The color change takes place either by having an initially black coating be see-through and the color that is provided under the coating and is preferred by the insect pest be visible, or by the black color of the insect trap or its black area changing into a color that is preferred by the insect pest that is to be captured.