A swift let breeding facility, for use in creating and harvesting edible bird's nests. The facility includes sub-systems for injecting live insect and worm prey, and water, into an aerial enclosure to provide a feeding system imitative of a natural swift let feeding environment.

A swift let breeding facility, for use in creating and harvesting edible bird's nests. The facility includes sub-systems for injecting live insect and worm prey, and water, into an aerial enclosure to provide a feeding system imitative of a natural swift let feeding environment.

An at least partially floorless semirigid poultry enclosure configured to flex and/or adjust to accommodate undulating terrain during movement across a field. The semirigid poultry enclosure may comprise a semirigid foundation. The semirigid foundation may include one or more flexible portions disposed between two or more rigid structural elements. The semirigid poultry enclosure may include an automated movement system configured to facilitate movement of the semirigid poultry enclosure on a field. The automated movement system may be configured to move a semirigid poultry enclosure that is at least 90 feet in length via multiple drive units coupled to a semirigid foundation.

The invention provides an illumination system arranged to illuminate a space for rearing a flock of birds, wherein the illumination system comprises: a visible light source configured to emit visible light; an ultraviolet light source configured to emit ultraviolet light; a controller configured to: (i) entrain a circadian rhythm of the flock of birds by controlling the visible light source to emit the visible light for a predetermined period of light, and not to emit the visible light for a predetermined period of dark; (ii) control the ultraviolet light source to emit the ultraviolet light at an ultraviolet light intensity for at least one subperiod within the predetermined period of dark, wherein the ultraviolet light comprises a peak wavelength within the UV-A wavelength range.

A reduced-weight poultry cage is used in conjunction with a reduced-weight trailer to transport live poultry for maximizing the poundage of poultry being transported while reducing the number of trips and fuel expenses. The poultry cage includes a combination of aluminum and plastic elements that reduce cage weight, provide for nesting of cages in stacks as well as easy replacement of failed parts. Furthermore, a drop-deck aluminum trailer with a reduced floor and guide rail alignment stops allows for a durable yet lightweight trailer that can haul a plurality of stacks of these poultry cages, thereby maximizing cubic feet availability while being compliant with various road and bridge laws.

Facilities, methods, and systems to produce therapeutic protein(s) can include collecting eggs from transgenic avian in a production unit in a building; transferring the eggs to a harvesting unit in the building; and harvesting egg white or egg yolk from the eggs in the harvesting unit.

A keeping facility for keeping poultry animals includes a floor defining a first dwelling surface for laying hens and an inlay defining a second dwelling surface for rearing chicks, wherein the inlay is detachably arranged above the floor. The floor defining the first dwelling surface and/or the inlay defining the second dwelling surface are formed as a mesh floor.

A reduced-weight poultry cage is used in conjunction with a reduced-weight trailer to transport live poultry for maximizing the poundage of poultry being transported while reducing the number of trips and fuel expenses. The poultry cage includes a combination of aluminum and plastic elements that reduce cage weight, provide for nesting of cages in stacks as well as easy replacement of failed parts. Furthermore, a drop-deck aluminum trailer with a reduced floor and guide rail alignment stops allows for a durable yet lightweight trailer that can haul a plurality of stacks of these poultry cages, thereby maximizing cubic feet availability while being compliant with various road and bridge laws.

A reduced-weight poultry cage is used in conjunction with a reduced-weight trailer to transport live poultry for maximizing the poundage of poultry being transported while reducing the number of trips and fuel expenses. The poultry cage includes a combination of aluminum and plastic elements that reduce cage weight, provide for nesting of cages in stacks as well as easy replacement of failed parts. Furthermore, a drop-deck aluminum trailer with a reduced floor and guide rail alignment stops allows for a durable yet lightweight trailer that can haul a plurality of stacks of these poultry cages, thereby maximizing cubic feet availability while being compliant with various road and bridge laws.

A system, method, and computer program product for an aquaponics, and greenhouse system, including a solar greenhouse insulated on north, east and west sides and with glazing on a south side at an angle to maximize winter sunlight, and housing: a fish tank; grow beds coupled to the fish tank; and hydroponic tanks respectively coupled to the grow beds. The grow beds are coupled to a fish tank geyser pump internal to the fish tank, and a hydroponic tank geyser pump internal to a respective one of the hydroponic tanks. The fish tank and hydroponic tank geyser pumps are powered by an external air pump via an air selector switch to pump and aerate water from the hydroponic tank to the grow bed and to pump water from the fish tank to the grow bed and aerate water of the fish tank.