A device for capturing insects can include a handle and a head fastened to one end of the handle. The head can include a holder intended to contain a pack of adhesive sheets suitable for holding an insect and a frame that matches the holder and has at least one rim intended to cover part of the pack of adhesive sheets. The rim can be configured so as to constitute a predetermined tear-away zone on the pack of adhesive sheets, so that each adhesive sheet from the pack of adhesive sheets can be peeled apart from each other without multiple sheets being removed together. The frame can define a cavity adjacent to one adhesive face of the pack of adhesive sheets so that insects present in the cavity adhere to the adhesive sheet.

An environmental and crop monitoring system is disclosed, comprising a plurality of sensors disposed in an environment. The plurality of sensors is configured to dynamically detect environmental anomalies (e.g., within crops) and transmit output data to a processing system in communication with the plurality of sensors. The processing system is configured to predict the anomalies associate with environmental or crop monitoring.

An environmental and crop monitoring system is disclosed, comprising a plurality of sensors disposed in an environment. The plurality of sensors is configured to dynamically detect environmental anomalies (e.g., within crops) and transmit output data to a processing system in communication with the plurality of sensors. The processing system is configured to predict the anomalies associate with environmental or crop monitoring.

An insect trap useful for trapping flying insects, the insect trap comprising an upper housing including at least one horizontal row of light emitting diodes extending across an outer surface of a curved front wall such that light from each of the light emitting diodes is projected outwardly from the upper housing at a different angle than adjacent light emitting diodes in the horizontal row of light emitting diodes, a base housing including an opening through which insects can enter an interior of the base housing, and an insect trapping element facing the opening in the base housing.

An insect trap useful for trapping flying insects, the insect trap comprising an upper housing including at least one horizontal row of light emitting diodes extending across an outer surface of a curved front wall such that light from each of the light emitting diodes is projected outwardly from the upper housing at a different angle than adjacent light emitting diodes in the horizontal row of light emitting diodes, a base housing including an opening through which insects can enter an interior of the base housing, and an insect trapping element facing the opening in the base housing.

An insert for an arthropod trapping device. The insert comprising a substrate and a frame for supporting the substrate, where a surface of the substrate has an adhesive disposed thereon, an optional mounting bracket spaced apart from the adhesive surface of the insert and located at a first end of the insert, and an optional graspable tab extending from the frame at a second end of the insert.

The disclosure discloses a viscous outdoor mosquito killing lamp including a lamp body which includes a housing within which a lighting lamp is disposed; wherein the housing is provided with a trapping chamber, a sidewall of the trapping chamber is provided with a first through hole for flying insects to pass through; a trapping plate is detachably connected to the sidewall of the trapping chamber, and a viscous sticker is attached onto the trapping plate. The outdoor mosquito killing lamp is safe and environmentally friendly, and is more convenient to be cleaned up.

The disclosure discloses an outdoor viscous trap mosquito killing lamp including a lamp body, wherein the outdoor viscous trap mosquito killing lamp further includes a frame and a base, the lamp body is positioned above the base, the frame is connected between the lamp body and the base; a light emitting assembly of the lamp body extends into the frame; a trapping plate is arranged on the base and is positioned within the frame, the trapping plate is positioned below the light emitting assembly; an area between the light emitting assembly and the trapping plate serves as a trapping area. The outdoor mosquito eradication lamp is both safe and environmentally friendly and is convenient to be cleaned up.

The disclosure discloses an outdoor viscous mosquito killing lamp, including a lamp body including a housing within which is disposed a lighting lamp, wherein a viscous trap chamber and a viscous trap plate are provided on the housing, and a side wall of the viscous trap chamber is provided with a first through hole configured for passage of flying insects; the side wall of the viscous trap chamber is further provided with a draw opening through which the viscous trap plate is pushed into or pulled out of the viscous trap chamber; a first viscous sticker is provided on the viscous trap plate. The outdoor mosquito eradication lamp is both safe and environmentally friendly and is convenient to be cleaned up.

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.