The present invention pertains to a device that is designed to specifically be mounted to any available corner wherein the device will entrap spiders and other insects that go into various corners. The device is formed in a double-sided equilateral triangular shape. The device includes an aperture for an entry point for spiders and other insects to enter and become trapped on the backside of the device which includes a capturing adhesive. The front side of the device is designed to blend with various interior designs. The device will have grabbing points near the vertices of the device that allow the user to safely remove the device.

One nonlimiting variation of a detection arrangement includes one or more sensors each structured to detect at least one biochemical substance indicative of biochemistry of one or more target insect species and provide a corresponding sensor signal, a controller responsive to the sensor signal of each of the one or more sensors to determine if the one or more insect species are present and generate a corresponding output signal, and an indicator responsive to the output signal to indicate the presence of the one or more insect species.

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 harborage for growing and harvesting insects includes a substrate and a mesh material. The substrate has first and second edges extending along the length of the substrate and separated by a shorter width. The substrate includes an absorbent material and is formed into at least one channel extending in a direction along the length of the substrate, in some cases such that the channel is perpendicular to the width and has a depth that is less than the width of the substrate. The mesh material is disposed on the substrate, extends along substantially all of the length of the substrate and includes openings that are smaller than juveniles of a target insect, but sufficiently large to permit liquid feeding of the target insect through the mesh material, which is affixed along the substrate so as to prevent insect egress.

Disclosed herein is an insect trapping device comprising an inner passageway structure defining an inner passageway which, when in an upright orientation, extends from an insect entry zone to an insect delivery zone, the inner passageway structure bordered by at least a pair of opposed insect-facing traction-reducing boundary surface regions to cause an insect to progress toward the insect delivery zone under gravity, with each boundary surface region including at least one of at least a pair of electrode surface regions, wherein each electrode surface region is configured for operative coupling with an electrode power supply to deliver electrical power thereto, the electrode surface regions configured to form an electrocution zone therebetween, with a designated spacing which is configured to initiate electrocution of an instance of the insect descending through the electrocution zone.

A monitoring trap and classification system may help pest control professionals, landlords, and homeowners identify, monitor, and manage insects. The trap may have an adhesive area that traps an insect, as well as several features that assist in identifying the insect. A classification system may use a picture or image of the trap to extract the trap's identifier, orient and adjust the image to standardize the image's color and scale, and have the insect identified. The trap and classification system may be used by individual homeowners, tenants, landlords, farmers, and pest professionals to capture, identify, and manage insects. The classification system may reduce the complexity of counting and classifying trapped insects, and it may generate a history through a series of reminders and keeping a database of previous observations.

One example system for insect detection includes a block of material defining a transit opening and a sensing opening, the transit opening defined along a first axis in a first direction, and the sensing opening defined to provide a light path to traverse a cross-section of the transit opening; a light emitter positioned at a first end of the sensing opening and oriented to project light through the sensing opening and across the transit opening; and a plurality of light detectors positioned at a second end of the sensing opening and oriented to receive the projected light and to output detector signals based on an amount of detected light.

An insect monitoring device and method of monitoring insects having a body with a slide out tray assembly. The tray assembly has a replaceable sheet assembly with an exposed adhesive surface. The tray assembly has an aperture through which insects may pass to encounter the adhesive surface. Spaced from the adhesive surface is a heating element to warm the interior of the monitoring device. A sheet assembly has a reflective side to reflect heat back onto the adhesive surface and an insulating side to increase efficiency. A sensor array images the adhesive surface and transmits images to a remote computer. Other sensors may also be present on the sensor array.

An arthropod trapping device comprising a suspension element, an engagement section including an extension that extends from the suspension element, the engagement section including an engagement element with a pest immobilization surface, wherein externally facing surfaces of the engagement element have a sticky contact substance to form the pest immobilization surface, wherein all corners, faces, and edges of the externally facing surfaces of the engagement element have the sticky contact substance, a contact lead segment formed from fibers and extending from the extension near an end of the pest immobilization surface, the contact lead segment comprising a first end and a second end, where only the first end of the contact lead segment is adjacent the pest immobilization surface, where the contact lead segment is devoid of the sticky contact substance, and where the contact lead segment forms a pest pathway to the pest immobilization surface.

Provided is a test plate with which a test can be carried out in a simple manner and problems that may otherwise occur along with the lapse of time hardly occur. This invention provides a nematode trap plate (1) including: a container (10); and a solid medium (11) formed in the container (10), the solid medium (11) allowing nematodes to move over its surface, and the surface of the solid medium (11) having at least one fall-in cavity (2a) for catching nematodes.