A mosquito surveillance device includes one or more mosquito traps having a camera capable of taking images of mosquitos and transmitting the images electronically to a receiver. Suitable traps include an ovitrap, for example. Images may be transmitted from inside or outside the trap to a receiver using low bandwidth cellular phone networks. The images are processed and displayed using software forming mosquito data. The images may be analyzed and the number of live mosquitos identified, the number of dead mosquitos identified, the species of mosquitos identified, or mapped vector densities in real time identified preferably at high resolution.

The present invention discloses an easy-to-clean visual grain monitoring device which includes a housing. A circuit board is provided within the housing and is connected with a monitoring unit; an insect collecting pipe, which is provided within the housing, includes multiple first entrances; the housing includes multiple second entrances which are corresponding to the first entrances respectively; an execution element, which is installed on a base, is connected with a lower end of the insect collecting pipe for driving the insect collecting pipe to move up and down; an insect leaking passage, which is provided at an upper end of the base, extends downwards along a side wall of the base; a tail end of the insect leaking passage has a first insect leaking hole for discharging pests, the housing has a second insect leaking hole in a position corresponding to the first insect leaking hole, and the lower end of the insect collecting pipe has a third insect leaking hole staggered with the insect leaking passage. The insect leaking passage is blocked and unblocked by moving the insect collecting pipe up and down, so as to achieve rapid cleaning. The present invention is simple in structure, convenient to operate, and rapid in cleaning.

An insect egress device for use with a window or door screen has a portal that is attached to the window screen with a portion of the portal extending through the screen from the inside to the outside. The portal may be provided with various insect attracting features and includes a flange, an extension extending outwardly from the flange surface that terminates at a free end, and an egress passage extending completely through the flange and the extension. The extension has a frusto-pyramidal shaped section and a second extension section that is generally straight and includes the free end. The egress passage has a first sidewall section of a tapering stair-step configuration and a second sidewall section that is not stair-step and is generally straight and terminates at the free end. In aspects, a phosphorescent material is disposed on the first sidewall section and visible through the egress passage from an interior position.

An insect egress device for use with a window or door screen has a portal that is attached to the window screen with a portion of the portal extending through the screen from the inside to the outside. The portal may be provided with various insect attracting features and includes a flange, an extension extending outwardly from the flange surface that terminates at a free end, and an egress passage extending completely through the flange and the extension. The extension has a frusto-pyramidal shaped section and a second extension section that is generally straight and includes the free end. The egress passage has a first sidewall section of a tapering stair-step configuration and a second sidewall section that is not stair-step and is generally straight and terminates at the free end. In aspects, a phosphorescent material is disposed on the first sidewall section and visible through the egress passage from an interior position.

Insect storage and dispensing system are described. An example system may include a dispensing container including at least one wall defining an interior volume for retaining a plurality of adult insects. The system may also include a piston that extends through a first opening of the dispensing container so as to expose a top face of the piston to the interior volume. Longitudinal movement of the piston toward a second opening of the dispensing container may dispense a portion of the plurality of insects from the dispensing container when the plurality of insects is retained in the dispensing container.

A method of detecting the presence of insects, including larvae, in an indoor environment, which includes the steps of (a) obtaining a sample of volatile organic compounds (VOCs); (b) separating the sampled VOCs; (c) detecting the presence or absence of “target” VOCs from at least one category: “category 1 VOCs”—VOCs emitted independently of the support on which the insects develop and emitted only in an insect infestation VOCs, “category 2 VOCs”—VOCs emitted independently of the support but may have biological origins other than insects, and “category 3 VOCs”—VOCs emitted depending on the support and emitted only in an insect infestation; (d) calculating both an insect infestation index (“3I”) and a limit value (“VL”) based on the presence or absence of the target VOCs; and (e) comparing the “3I” and “VL” values. The environment is infested for a “3I” value strictly greater than the “VL” value.

Improved devices for the capture, detection, or quantification of insect vectors such as gravid female insects, are provided. The devices include surface coloration, design, and dimension that improved their ability to attract and/or capture target insect vectors. The traps are used in process for detection or control of insect vectors in indoor and outdoor environments.

Improved devices for the capture, detection, or quantification of insect vectors such as gravid female insects, are provided. The devices include surface coloration, design, and dimension that improved their ability to attract and/or capture target insect vectors. The traps are used in process for detection or control of insect vectors in indoor and outdoor environments.

The invention is directed at to a pest entrapment device for attracting and trapping flying pests around the head of a person. The apparatus includes an attachable device having at least one member, which member contains at least one cavity to hold a pest attractant. The attachable device is affixed to a head covering on the underside of a bill, brim, visor or the like. The pest attractant can be of a combination of grease, carbon dioxide, sweetener, and a sticky, viscid matter. The pest attractant also acts as a trapping substance to capture the flying insects. The pest entrapment device can be removed for cleaning and reapplication of the pest attractant.

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.