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.

An insect trap can include a ramp, a planar surface that can include a coating of pressure sensitive adhesive, and one or a plurality of attractant elements, the attractant elements containing a carbon dioxide generating material.

A composition in compacted form for use for termite monitoring and control comprises a cellulose material which may be purified cellulose or micro-crystalline cellulose as a base bait, the composition being compacted to an optimum density of not less than approximately 1.033 g/cc. Also disclosed is a method for monitoring and controlling termite infestations which comprises the steps of a) preparing such a composition; b) placing the composition in a bait station; c) monitoring the station at periodic time intervals for termites; and d) upon observing termite infestation in the bait station, replacing the above composition with a bait composition containing a termite killing agent.

Composite materials that are palatable to a wood-destroying pest species and also pesticidal to the pest species can be used in pest control devices and can be used as wood substitutes for structural components, which are resistant to destruction by wood-destroying pests. The composite materials include a thermoplastic polymer, a food material for the pest and a pesticide. The composite material is formed by mixing a thermoplastic polymer, wood fragments or other cellulosic materials and a quantity of pesticide, and thereafter creating a molten material within a mixer, compounder, extruder or the like. The molten material is extruded or molded to form the desired shape.

A monitoring camera includes a housing having a tip end cylindrical portion in which a lens is disposed, the tip end cylindrical portion being covered with a front glass, an eave member that is provided on an upper surface of the housing and that has a tip end flange portion protruding forward from the front glass, and a repellent member that is provided at the tip end flange portion and contains a drug for repelling a pest such as a spider.

A termite detection and mitigation system can gather data describing conditions at a location, including the location's elevation, soil type, topography, weather conditions, and season. The termite detection and mitigation system can additionally obtain sensor data describing environmental conditions within a structure (e.g., a home or other building) at the location. Sensor data may be obtained using a termite sensing device placed within the structure. The termite detection and mitigation system can develop models that characterize how likely it is that termites are present within a structure based on its sensor data and associated location data. Using the models, the termite detection and mitigation system can alert users when there is a likelihood that termites are present. The termite detection and mitigation system can also deploy mitigation responses, such as poisons or sealants, to mitigate the termite intrusion.

Composite materials that are palatable to a wood-destroying pest species and also pesticidal to the pest species can be used in pest control devices and can be used as wood substitutes for structural components, which are resistant to destruction by wood-destroying pest. The composite materials include a thermoplastic polymer, a food material for the pest and a pesticide. The composite material is formed by mixing a thermoplastic polymer, wood fragments or other cellulosic materials and a quantity of pesticide, and thereafter creating a molten material within a mixer, compounder, extruder or the like. The molten material is extruded or molded to form the desired shape.

A system, method, and kit for monitoring, capturing, or killing crawling insects, including the population of a colony of insects, is provided. A station is provided including a lower member that may be flat, curved or of varying contour, a curved or angled upper member connected directly or by one or more intermediate members to the lower member, and an adhesive on one of the lower member or the upper member. A secondary element can include a repellant or non-repellant pesticide, an adhesive, and/or an attractant to aid in killing the crawling insects. As the insects interact with the station and secondary element, they can take a portion of the pesticide back to the colony to kill more insects.

An insect trap may include a first housing; a reservoir at least partially defined by the first housing; a protrusion disposed within the reservoir and extending inward from an interior surface of the first housing, the protrusion configured to pierce a package disposed within the reservoir; an actuator connected to the protrusion such that when the actuator is moved, the protrusion moves with the actuator within the reservoir; a second housing moveably engaging the first housing; a trap chamber partially formed by the first and second housings; an inlet into the trap chamber; and wherein the second housing is movable between a first position where the inlet is open and a second position where the inlet is closed. The trap may include a package enclosing an attractant composition. The package has a release rate of the attractant composition from about 5 g per day to about 500 g per day.

A termite bait includes a plurality of cellulosic food material pieces palatable to termites embedded within a water resistant polyurethane foam matrix. Another termite bait includes a plurality of cellulosic food material pieces embedded within a water-absorbent polyurethane foam matrix. Yet another termite bait includes at least one cellulosic food material piece encapsulated within a water resistant polyurethane foam coating. Such termite baits can be used alone or in a monitoring device or other termite control device. Another termite control device includes a container, a cellulosic food material within the container and a water resistant polyurethane foam positioned to separate the food material from its environment. The container can contain a termite bait as described above or can include a chamber containing a cellulosic food material and at least one pocket containing a polyurethane foam barrier to reduce intrusion of water through the pocket to the food material.