A reformatted insect food product comprising a measured amount of a mixture of at least one nutrient source suitable for an aquatic organism formed into a dispensable unit, and a method of manufacturing a reformatted insect food product comprising: creating a mixture comprising at least one nutrient source suitable for an aquatic organism; separating out a pre-measured amount of the mixture; and forming a dispensable food unit using the measured amount of the mixture.

A reformatted insect food product comprising a measured amount of a mixture of at least one nutrient source suitable for an aquatic organism formed into a dispensable unit, and a method of manufacturing a reformatted insect food product comprising: creating a mixture comprising at least one nutrient source suitable for an aquatic organism; separating out a pre-measured amount of the mixture; and forming a dispensable food unit using the measured amount of the mixture.

A control system for a pet enclosure lamp with sound simulation of an ecological environment includes a control module, an audio module, and dimming control circuitry. A pet enclosure lamp is also provided. The control system can be used with any type of pet.

An aquarium having an adjustable lighting system for enhancing the display of fluorescent objects, such as fluorescent fish, contained within the aquarium under various external lighting conditions, such as a dark room or a brightly lit room. The aquarium comprises a tank and a plurality of light sources. Each light source emits light at a different wavelength spectrum which is selected to enhance the display of the fluorescent object under each type of external lighting condition. An electronic control is provided to control the operation of the plurality of light sources such that each light source may be selectively turned on/off based on the external lighting condition, or chronological criteria, to provide the best viewing experience.

An aquarium having an adjustable lighting system for enhancing the display of fluorescent objects, such as fluorescent fish, contained within the aquarium under various external lighting conditions, such as a dark room or a brightly lit room. The aquarium comprises a tank and a plurality of light sources. Each light source emits light at a different wavelength spectrum which is selected to enhance the display of the fluorescent object under each type of external lighting condition. An electronic control is provided to control the operation of the plurality of light sources such that each light source may be selectively turned on/off based on the external lighting condition, or chronological criteria, to provide the best viewing experience.

Apparatus and methods for automatically feeding fish at predetermined intervals are disclosed herein. An automatic fish feeder can include a housing, at least one cover, a feeding track, and a valve. The housing can include a peripheral outer cover and at least one access hole. The food storage reservoir can be connected to the housing and configured to be accessible by an access hole. At least one cover can be removably attached to the peripheral outer cover and substantially seal the food storage reservoir. The feeding track can be coupleable to the food storage reservoir and configured to receive and distribute food from the food storage reservoir at individual rates. The valve can be coupleable to the feeding track and configured to control the flow of food from the feeding track. The valve can include a rod and a counter configured to move the rod relative to the feeding track.

Apparatus and methods for automatically feeding fish at predetermined intervals are disclosed herein. An automatic fish feeder can include a housing, at least one cover, a feeding track, and a valve. The housing can include a peripheral outer cover and at least one access hole. The food storage reservoir can be connected to the housing and configured to be accessible by an access hole. At least one cover can be removably attached to the peripheral outer cover and substantially seal the food storage reservoir. The feeding track can be coupleable to the food storage reservoir and configured to receive and distribute food from the food storage reservoir at individual rates. The valve can be coupleable to the feeding track and configured to control the flow of food from the feeding track. The valve can include a rod and a counter configured to move the rod relative to the feeding track.

A system and method are disclosed for adjusting a future feeding cycles based on analysis of feed consumption during and at the end of a current feed cycle. The system and method are applicable to any environment where animals are fed, including containers that hold feed and containers that hold the animal and the feed, such as a fish tank.

A system and method are disclosed for adjusting a future feeding cycles based on analysis of feed consumption during and at the end of a current feed cycle. The system and method are applicable to any environment where animals are fed, including containers that hold feed and containers that hold the animal and the feed, such as a fish tank.

Monitoring systems and methods for tracking movement of one or more animals in an enclosure, such as a fish tank, include introducing various stimuli, such as food, light, and auditory stimuli, and tracking the movement of the animals in response to these stimuli. Movement patterns of the animals can be determined and analyzed from data obtain from cameras that record images/videos of the relevant portions of the enclosure.