An animal trap sensor includes a base having a distal end and a proximal end, a switch having a first metallic element and a second metallic element, and a signal unit, in which, when the first metallic element contacting the second metallic element, thereby forming a closed circuit, such that the signal unit transmits a signal to an off-site receiver. Or, an animal trap sensor includes a first portion and a second portion electrically connected with a signal unit including a power supply, in which, when the first and the second portions are disposed at a first distance between each other, thereby generating an output property, in which, when the first and the second portions are disposed at a second distance between each other, which is different from the first distance, thereby changing the output property and causing the signal unit to transmit a signal to an off-site receiver.

Implementations of sewer cleanout caps may include a cap having a first side and the second side opposite the first side. The cap may be configured to be inserted into a sewer cleanout line with the second side facing an inside of the sewer cleanout line. Implementations of sewer cleanout caps may include a rod coupled to and extending from the second side of the cap. The rod may be configured to extend through and couple to a bait. Implementations of sewer cleanout caps may also include a bait retainer configured to couple to the rod and secure the rodenticide to the rod and a spacer coupled over the rod and configured to provide space between the rodenticide and the second side. A length of the rod extending from the second side may be adjustable.

An animal injection system under the control of a remote operator. The system may be used to inject animals with medications and/or RFID chips. Food bait is provided in such a manner as to require an animal to expose its chest and underside. Cameras are used to determine the orientation of the animal and its gender. Images of the animal are sent to the remote operator who determines whether or not to inject an animal. Cellphone networks may be used to transmit animal images to the remote operator and send commands from the operator to the injection system. The system may include a temperature control system to maintain medications in a pre-selected temperature range.

Method and apparatus for a pest control device mounting system configured for mounting pest control devices in a building and using them to control pests. The pest control device mounting system including a mounting bracket, which may have a circumferential portion defining a portal. In some examples, the mounting bracket includes a flange portion suitable for attaching to the perimeter of a cavity in a building surface. The pest control device mounting system including a plug configured to be removably attached to the mounting bracket and to substantially close the portal when attached to the mounting bracket, wherein the plug is configured to accommodate a pest control device.

A pest monitoring system generally includes a circuit, wherein the circuit is initially in a first impedance state that is configured to change to a second impedance state due to pest activity, wherein the second impedance state is lower than the first impedance state.

A rodent capturing system includes a bucket that may be positioned on a support surface. A fluid is contained in the bucket and the fluid is comprised of a toxic material with respect to rodents. A pair of ramps is provided and each of the ramps extends between the bucket and the support surface thereby facilitating a rodent to climb the ramps. A lure is rotatably coupled to the bucket. The rodent climbs on the lure thereby facilitating the lure to drop the rodent into the fluid. In this way the fluid kills the rodent.

In a novel method and composition of heterodissemination technology, small mammals attracted to a food bait in a dissemination station acquire electrostatically charged acaricide laden microspheres that can he polymeric nano-porous microspheres loaded with one or more chemical acaricides, or calcium or sodium alginate microspheres that encapsulate an entomopathogen. Microspheres loaded with either type of acaricide kill ticks on the small mammals that acquire them, and when shed along small mammal pathways and in their dens, they also kill free-living ticks.

Disclosed herein are embodiments of a feral hog control system including bait comprising a carrier material and an amount of warfarin, wherein the amount of warfarin is not greater than about 0.01% by weight of the bait. Further disclosed herein are embodiments of a selective access device for permitting selective access to the bait when the bait is disposed within a feeder.

Animal feeders are disclosed that include housings resilient to specific species, feed compartments resilient to selected species, a protected region in the housing, a barrier between the protected region and the feed compartment, an access door, a species recognition device, an access door actuator, a controller, and an arm projecting through the housing or the barrier.

A selective access system, and methods of making and using such a system, whereby the selective access system includes a container having an interior space defined by a side wall disposed between opposing top and bottom walls; an opening disposed within the side wall, the opening communicating with the interior space; and a cover slidably engaged with the container, the cover configured to slide upward and downward between a first position and a second position. In the first position, the cover overlays the opening; in the second position, the cover disposes away from at least a portion of the opening to permit access to the interior space. The selective access system can further include an electrical conductor coupled to the container, whereby the electrical conductor can deliver a nonlethal electrical shock to an animal which comes into contact therewith to deter the animal from the selective access system.