An aerobic treatment system includes a plurality of highly porous, high surface area, inert, synthetic, inorganic, or natural material particles, having a specific gravity of less than 1.0 that float on an enclosed aqueous environment whereby plants and/or microbes can be grown thereon and/or animals such as fish can be raised therein. The inert particles trap air bubbles and nutrients for the growth of diverse types of plants, animals, or microbial systems, which enable phyto treatment of an aqueous waterbody with the ability to limit the growth of unwanted plant and algae such as blue-green algae. The above aerobic bio treatment system contains desirably bioremediation media having one or more microorganisms that are able to withstand system shocks while minimizing energy usage associated with aeration. The system can generally be utilized in any aqueous environment such as waste water and/or polluted water in an enclosed area such as a container, tank, pond, lake, or the like.

An actuated aquarium decoration system is placed within an aquarium in order to provide an aesthetic appeal to onlookers of the aquarium. The actuated aquarium decoration system includes an aquarium decoration, an actuation mechanism, and a control system. The aquarium decoration is an object placed into the aquarium to provides a theme or habitat within the aquarium. The actuation mechanism engages an accenting feature of the aquarium decoration in order to provide motion or character to the aquarium decoration. The control system the duration, intensity, and frequency of the accenting feature through managing the output of the actuation mechanism.

System for detecting the level of discomfort of aquatic animals during experimental studies, with a water tank, a reference electrode placed at one of the sides of the tank, at least one recording electrode placed at another side of the tank, a bio amplifier for amplifying a received bio-signal at the recording electrode, a microprocessor for treating the signals and a low-pass filter for filtering the signals received. The system can provide a precise, quantifiable and specific indication of the level of stress/wellbeing of aquatic animals in normal living conditions as well as in experimental conditions without interfering with the animals' life.

An aeration fitting for an aquarium including a hollow outer fitting having an interior channel, a cylindrical back portion, a cylindrical front portion having a threaded outer surface, a tapered cylindrical middle portion, and a frontwardly flared outer lip. A floating ball is disposed within the interior channel of the outer fitting. A hollow inner fitting has an inner channel, a cylindrical posterior portion, a cylindrical anterior portion having a threaded inner surface, a tapered cylindrical central portion, and a frontwardly flared inner lip. A spring is disposed within the inner channel of the inner fitting. Each of the back portion of the outer fitting and the posterior portion of the inner fitting is connectable to an air hose, and the threaded outer surface of the front portion is selectively engageable with the threaded inner surface of the anterior portion within an aperture in a wall of an aquarium.

The device for screening for bioactive materials using the visual recognition of animals according to the present invention includes: an accommodating member (100) in which animals administered with a candidate bioactive material are accommodated; an imaging member (200) which captures images of the animals; and a detecting member (300) which reads the images in order to detect the visual recognition reactions of the animals. According to the method of the present invention for screening for bioactive materials using visual recognition of animals, the animals are administered with the candidate bioactive material, and the visual recognition reactions of the animals are detected.

An overflow system is disclosed for use with a tank having a side wall. The overflow system includes an overflow device having a front wall, a back wall, a first sidewall and a second sidewall all secured to a bottom wall and extending upward therefrom to create a chamber having an open top. The front wall, back wall and first and second sidewalls have a plurality of slots formed therethrough. The overflow device is positioned in the tank such that a portion of the plurality of slots is disposed below the fluid line of the tank so as to receive fluid from the tank into the chamber. The bottom wall has an enlarged aperture formed therethrough. The overflow system also includes a first aperture formed through the sidewall of the tank. The first aperture is positioned below the bottom wall of the overflow device. An attachment mechanism attaches the bottom wall of the overflow device to an inside surface of the sidewall of the tank. The attachment means passes through the first aperture.

A sorting device for live fish includes: an upwardly open water tank; and a vertical grid unit connected to an inside of the water tank via a circumferential sealing element, dividing the water tank into two separate regions, the vertical grid unit having a plurality of slit openings which are delimited by horizontal and vertical webs and which are adaptable in shape and size to the fish to be sorted and are closeable. The grid unit includes at least one carrier plate and at least one adjustment plate having an identical design and arrangement of the slit openings and of the horizontal and vertical webs. The at least one carrier plate divides the water tank into the two regions and the adjustment plate is displaceably arranged on the at least one carrier plate, and depending on a position of the adjustment plate, the slit openings are covered.

An aquaponic housing unit fits over standard aftermarket aquariums. The system utilizes the natural symbiotic relationship between fish and plants to achieve adequate filtration for the aquarium below. A large planting container is elevated over the aquarium by two support legs so that the planting container is larger than the aquarium. The support legs can be used to hide wires or control boxes, along with using the legs as storage compartments or additional planting area. An aquarium pump delivers water to the planting container so that fish waste can be used as nutrients for plants in the container. The nitrogen cycle transforms the fish waste into useable nutrients for the plants, thus cleaning the water for the aquarium. The system can be used as a learning tool for students of all ages. It also creates a low maintenance, self-watering and self-fertilizing garden.

The invention relates to a water inlet arrangement for the use in fish tanks in aquaculture, including a pipe to feed water into the tank, the pipe having a plurality of openings and, for a better adjustment of the flow, a surrounding second element having a plurality of openings and/or a fixed or adjustable shield are provided.

An example aquatic imaging system comprises a light source, a first platform coupled with a image capture device and a second platform that is parallel to the platform, the image capture device having a first field of view, and, the second platform being coupled to a organism tank, first organism tank having an inner wall, outer wall and a base that defines a well capable of retaining water, the base being parallel to the second platform, the organism tank configured to receive a light beam originating from the light source and configured to project at least a portion of the light beam through the well and in a directional plane that is parallel to the base, the image capture device configured to direct the first field of view from the first platform through the well in the organism tank.