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.

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.

A remote insect monitor and associated method include a container configured to allow an insect attractant within the container to escape into ambient air proximate a landing area. At least one detection sensor generating sensor data of insects proximate the landing area, and a control module has a processor and a memory storing machine readable instructions executable by the processor to process the sensor data and count insects proximate the landing area. The remote insect monitor and associated method may also include an analyzer for analyzing an insect of interest to determine whether the insect carries a disease, wherein the control module sends an indication of whether the insect carries the disease to the remote server.

A fly catcher combination includes a frame having an opening formed by a peripheral fence, an attachment attached to the frame for attaching to a supporting facility, and a receptacle engaged in the opening of the frame and supported on the frame, and the receptacle includes a housing having a chamber, and a cover engaged with the housing, and the cover includes a compartment formed in the cover and communicating with the chamber of the housing, and the cover includes one or more slots communicating with the compartment of the cover for allowing the flies or the mosquitos to fly into the compartment of the cover, but prevent the flies or the mosquitos from flying out of the receptacle.

An insect trap device for attracting mosquitoes includes a main body including an upper inlet and a lower outlet, a suction fan disposed in the main body and configured to draw air from the upper inlet to the lower outlet, an insect filter disposed upstream of the suction fan, the insect filter including a plurality of openings, an upper body disposed in a spaced relationship with the upper inlet, an ultraviolet (UV) light source disposed between the upper inlet and the upper body, an air collector disposed downstream of the suction fan, and an insect collector disposed on the lower outlet under the air collector, in which the air collector has a substantially conical shape including a central opening at a distal apex and a plurality of side openings including mesh.

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.

A light tube apparatus includes a tubular housing, a first light source, a second light source, a driver and a controller. The tubular housing having a first light passing window and a second light passing window. The first light source is for emitting a white light from the first light passing window in an illuminating mode. The second light source is for emitting an ultraviolet light from the second light passing window in a sanitizing mode. The driver is for converting an external power source to a first driving current to the first light source and a second driving current to the second light source. The controller is for determining when to enter the sanitizing mode or the illuminating mode based on a stored criterion.

It is important to trap and identify mosquitos to ensure the safety of the population where mosquitos gather. The classification of a type of mosquito is typically accomplished by a unique wingbeat signature that is characteristic of different types of mosquitos. One of the goals of the trap is to quickly identify the mosquito and then quickly release the mosquito. This application will allow the user to obtain an approximate population so that the appropriate type and amount of insecticide can be applied to control the population to insure the health of the human and animal population while at the same time minimizing danger to the environment or surrounding ecosystem.

A system may include a trap and a consumable. The trap may include a data capture mechanism configured to capture data and send the data to a system operator. The consumable may include a device having an associated electronic identification code. A status-determining mechanism may be configured to determine a status of the consumable, which status may be readable via the data capture mechanism. The consumable may include a sensor configured to detect flying insects via mutual capacitance sensing. The sensor may be configured to provide a directional fringe field responsive to a flying insect. The sensor may include a plurality of sensor triplets arranged in a grid array. Each sensor triplet may include a sensor conductor and two electrically conductive un-grounded conductors. The two un-grounded conductors may be disposed one on either side of the sensor conductor to form the sensor triplet.

An insect trap includes a base and a lid, the base having an inner cavity configured to receive a refillable container that can be filled with an insect attractant. The lid may have a plurality of openings that allow access to the inner cavity, for insects to enter through. Each of the plurality of openings may have a chamfered surface to facilitate a landing space for insects. The plurality of openings have a first opening and a second opening that opens into the inner cavity of the base, housing an insect attractant.