A poultry behavioral development system includes a left end plate and right end plate; a top beam, attachable to upper ends of the left end plate and right end plate; a plurality of connection assemblies, which each include a connection beam that detachably attaches between the left end plate and right end plate; such that preadolescent poultry perch and jump between the top beam and the plurality of connection beams.

A bird feeder includes a pushbutton activated positioning mechanism in a hub of a hinged cover for fastening or unfastening a rope having a bottom end secured to a feeding pan. The cover is releasably secured to a seed container by a latch. Together they prevent the cover from being accidentally disengaged from the seed container.

A bird feeder includes a pushbutton activated positioning mechanism in a hub of a hinged cover for fastening or unfastening a rope having a bottom end secured to a feeding pan. The cover is releasably secured to a seed container by a latch. Together they prevent the cover from being accidentally disengaged from the seed container.

A poultry nesting system has a nest house with an adjacent platform raised above the surface of the surrounding substrate. The platform has an upper surface and at least a portion of a perimeter of the platform comprises a wire mesh covering a space between the substrate and the upper surface. The wire mesh is formed by a plurality of strands including an upper strand and a lower strand. At least a portion of the upper surface of the platform is supported by a plurality of platform floor supports positioned on a perimeter of the platform. Each of the plurality of platform floor supports includes a bracing member, an upper cap on an upper end of the bracing member and a lower cap on a lower end of the bracing member. The upper cap has an attachment mechanism on an upper portion thereof configured to interact with the upper surface to lock the platform floor support to the upper surface of the platform such that the platform floor support supports the upper surface in its raised position above the substrate. The upper cap has an upper catch configured to interact with the wire mesh and hold the wire mesh in place, wherein the upper catch forms an upward-facing valley for receiving the upper strand. The lower cap has a lower catch configured to interact with the wire mesh and hold the wire mesh in place, wherein the lower catch forms a downward-facing arch for receiving the lower strand. A length of a travel space under the downward-facing arch of the lower catch is greater that a length of a travel space in the upward-facing valley of the upper catch.

A poultry nesting system has a nest house with an adjacent platform raised above the surface of the surrounding substrate. The platform has an upper surface and at least a portion of a perimeter of the platform comprises a wire mesh covering a space between the substrate and the upper surface. The wire mesh is formed by a plurality of strands including an upper strand and a lower strand. At least a portion of the upper surface of the platform is supported by a plurality of platform floor supports positioned on a perimeter of the platform. Each of the plurality of platform floor supports includes a bracing member, an upper cap on an upper end of the bracing member and a lower cap on a lower end of the bracing member. The upper cap has an attachment mechanism on an upper portion thereof configured to interact with the upper surface to lock the platform floor support to the upper surface of the platform such that the platform floor support supports the upper surface in its raised position above the substrate. The upper cap has an upper catch configured to interact with the wire mesh and hold the wire mesh in place, wherein the upper catch forms an upward-facing valley for receiving the upper strand. The lower cap has a lower catch configured to interact with the wire mesh and hold the wire mesh in place, wherein the lower catch forms a downward-facing arch for receiving the lower strand. A length of a travel space under the downward-facing arch of the lower catch is greater that a length of a travel space in the upward-facing valley of the upper catch.

The present disclosure describes an apparatus, system, and method for trapping and exterminating arthropods, particularly red mites. The apparatus includes an opaque housing and a heat strip configured to have separate temperature zones. The method includes warming the heat strip to lure the mites into the trap, heating outer heat strip segments to drive the mites toward the center of the trap, and then raising the entire heat strip to a temperature sufficient to exterminate the mites. The system includes placing one or more of the traps in animal hold structures, including nesting boxes in poultry houses.

The present disclosure describes an apparatus, system, and method for trapping and exterminating arthropods, particularly red mites. The apparatus includes an opaque housing and a heat strip configured to have separate temperature zones. The method includes warming the heat strip to lure the mites into the trap, heating outer heat strip segments to drive the mites toward the center of the trap, and then raising the entire heat strip to a temperature sufficient to exterminate the mites. The system includes placing one or more of the traps in animal hold structures, including nesting boxes in poultry houses.

A multifunctional birdhouse can be configured into a birdhouse or a birdfeeder and provides easy cleaning access. The multifunctional birdhouse comprises a birdhouse enclosure and a reversible drawer. The birdhouse enclosure is the main structural housing for the multifunctional birdhouse. The reversible drawer allows the multifunctional birdhouse to be configured as a birdhouse or a birdfeeder based on the orientation of the reversible drawer when engaged to the birdhouse enclosure. The reversible drawer can be slid into and out of the birdhouse enclosure when desired. Further, the reversible drawer allows for easy cleaning of the multifunctional birdhouse due to the capability to detach the reversible drawer from the birdhouse enclosure when desired.

A multifunctional birdhouse can be configured into a birdhouse or a birdfeeder and provides easy cleaning access. The multifunctional birdhouse comprises a birdhouse enclosure and a reversible drawer. The birdhouse enclosure is the main structural housing for the multifunctional birdhouse. The reversible drawer allows the multifunctional birdhouse to be configured as a birdhouse or a birdfeeder based on the orientation of the reversible drawer when engaged to the birdhouse enclosure. The reversible drawer can be slid into and out of the birdhouse enclosure when desired. Further, the reversible drawer allows for easy cleaning of the multifunctional birdhouse due to the capability to detach the reversible drawer from the birdhouse enclosure when desired.

A bird feeder includes a container and a lid. The container includes a body and a neck. The neck includes an opening and the outer surface of the neck includes a first thread. The lid is configured to engage the neck. The lid includes a top wall and a side wall bounding a peripheral edge of the top wall. An inner surface of the side wall includes a second thread that is configured to engage the first thread of the neck so as to close the lid onto the container. The top wall includes an opening and a perch is disposed on the lid. An attachment member is formed on an outer surface of the lid.