A tray for positioning in an exit path of a bee hive comprises a base, a bee entrance end, and a bee exit end. Spaced apart side walls extend upwardly from the base. The sidewalls extend generally lengthwise between the bee entrance end and bee exit end. A plurality of posts extend upwardly from the base and are positioned between the bee entrance end and the bee exit end. The posts are generally circular in cross-section. The posts act as obstacles around which the bees must walk to reach the bee exit end from the bee entrance end.

A tray for positioning in an exit path of a bee hive comprises a base, a bee entrance end, and a bee exit end. Spaced apart side walls extend upwardly from the base. The sidewalls extend generally lengthwise between the bee entrance end and bee exit end. A plurality of posts extend upwardly from the base and are positioned between the bee entrance end and the bee exit end. The posts are generally circular in cross-section. The posts act as obstacles around which the bees must walk to reach the bee exit end from the bee entrance end.

An apparatus for vaporizing and dispensing a pesticide features an elongated body structure, and heatsink attached to the elongated body structure at a distal end thereof. A loading port on the elongated structure feeds solid pesticide material into a closed-ended vaporization chamber inside the heatsink via a delivery passage running longitudinally of the elongated structure. A heater is operably arranged with the heatsink to vaporize the solid pesticide material. The heatsink interior features a second exhaust chamber that is radially offset from the vaporization chamber, and is only fluidly communicated therewith by a radial port near the end of the vaporization chamber fed by the delivery passage. The loaded solid pesticide falls past the radial port into the vaporization chamber, while the resulting vapor is forced through the radial port into the exhaust chamber by pressurized air fed through the delivery passage.

An apparatus for vaporizing and dispensing a pesticide features an elongated body structure, and heatsink attached to the elongated body structure at a distal end thereof. A loading port on the elongated structure feeds solid pesticide material into a closed-ended vaporization chamber inside the heatsink via a delivery passage running longitudinally of the elongated structure. A heater is operably arranged with the heatsink to vaporize the solid pesticide material. The heatsink interior features a second exhaust chamber that is radially offset from the vaporization chamber, and is only fluidly communicated therewith by a radial port near the end of the vaporization chamber fed by the delivery passage. The loaded solid pesticide falls past the radial port into the vaporization chamber, while the resulting vapor is forced through the radial port into the exhaust chamber by pressurized air fed through the delivery passage.

A treatment device for a beehive includes a strip having at least one layer. The at least one layer is formed from a biodegradable material permeable to water, such as paper. At least one layer is saturated with a treatment fluid. A reinforcement or join is provided to or adjacent each longitudinal edge of the strip, to protect and/or reinforce the longitudinal edges to mechanically resist attack by bees in the hive.

A treatment device for a beehive includes a strip having at least one layer. The at least one layer is formed from a biodegradable material permeable to water, such as paper. At least one layer is saturated with a treatment fluid. A reinforcement or join is provided to or adjacent each longitudinal edge of the strip, to protect and/or reinforce the longitudinal edges to mechanically resist attack by bees in the hive.

A honeybee collector includes a collector body having a sidewall with an outer surface and an inner surface. The inner surface defines a brood frame slot and a funnel defined below the brood frame slot. The funnel is angled towards a bottom opening defined by a bottom rim of the sidewall. An upper rim of the sidewall defines a top opening leading into the brood frame slot, and the brood frame slot is sized to receive a brood frame. A catch bottle is used for catching bees. A connector couples a mouth of the catch bottle to the bottom rim of the collector body.

A treatment device for a beehive includes a strip having at least one layer. The at least one layer is formed from a biodegradable material permeable to water, such as paper. At least one layer is saturated with a treatment fluid. A reinforcement or join is provided to or adjacent each longitudinal edge of the strip, to protect and/or reinforce the longitudinal edges to mechanically resist attack by bees in the hive.

A treatment device for a beehive includes a strip having at least one layer. The at least one layer is formed from a biodegradable material permeable to water, such as paper. At least one layer is saturated with a treatment fluid. A reinforcement or join is provided to or adjacent each longitudinal edge of the strip, to protect and/or reinforce the longitudinal edges to mechanically resist attack by bees in the hive.

Monitoring system, device and method for detecting chemicals in an insect environment, such as a beehive or colony. The method can include monitoring the insect environment for the presence of at least one chemical or environmental factor using at least one sensor located within the insect environment, the at least one sensor operative to generate data in response to the presence of at least one chemical or factor in the environment and communicate the data to an associated data processing device, monitoring a population of insects in the insect environment to detect a change in the population or health of insects that make up the population, and generating a correlation between a detected change in the population or health of insects in the insect environment with an increase or decrease of the at least one chemical outside the insect environment.