Provided is a method for rearing Artemias in a feeding water tank, wherein a feed containing a mollusk-derived feed is poured into the feeding water tank. Provided is a feed for Artemia that contains a mollusk-derived feed. Provided is an Artemia which satisfies at least one of the following requirements at 6 days of age: body width being greater than 0.183 mm; body height being greater than 0.179 mm; and volume greater than 0.099 mm.sup.3.

The feed production device includes a first water tank in which bacteria and plankton are raised, and a second water tank in which the bacteria and plankton that are raised in the first water tank are annihilated to create a feed for leptocephalus.

The feed production device includes a first water tank in which bacteria and plankton are raised, and a second water tank in which the bacteria and plankton that are raised in the first water tank are annihilated to create a feed for leptocephalus.

A buoy that includes a first sensor to measure a change of an environmental event, a compartment that contains at least one organism, a second sensor to determine a maturity of the at least one organism, a release mechanism to release the at least one organism from the compartment to the body of water, an adjustable aperture nozzle mounted to the buoy to disperse the at least one organism from the compartment in a rate proportionate to the change of the environmental event with a quantity of the water from the body of water, and a control operable to adjust the release mechanism.

A buoy that includes a first sensor to measure a change of an environmental event, a compartment that contains at least one organism, a second sensor to determine a maturity of the at least one organism, a release mechanism to release the at least one organism from the compartment to the body of water, an adjustable aperture nozzle mounted to the buoy to disperse the at least one organism from the compartment in a rate proportionate to the change of the environmental event with a quantity of the water from the body of water, and a control operable to adjust the release mechanism.

A coral ring mount device and method for the propagative culture of sessile benthic marine organisms (for example, stony corals) employing either a ring, washer or threaded nut or similar as a propagule mount upon which the coral is set in order to attach, grow and overgrow within a coral nursery system. In the preferred embodiment of the invention, once the coral is grown onto the ring mount and to its requisite size and condition, the ring mount becomes the washer through which passes a screw to secure the ring and coral to the seafloor.

A coral ring mount device and method for the propagative culture of sessile benthic marine organisms (for example, stony corals) employing either a ring, washer or threaded nut or similar as a propagule mount upon which the coral is set in order to attach, grow and overgrow within a coral nursery system. In the preferred embodiment of the invention, once the coral is grown onto the ring mount and to its requisite size and condition, the ring mount becomes the washer through which passes a screw to secure the ring and coral to the seafloor.

This disclosure provides wave-powered vessels equipped for fish stock management. The vessels have observational sensors for monitoring fish, a positional sensor to determine the geographical location of the vessel, and a transmitter for sending data to a central control unit. The observational sensors may be deployed on a tow body pulled behind the vessel, or the tow body may relay information from sensors located on a separate unit on the bottom or at a defined depth. The control unit communicates with each of the monitor vessels to direct navigation and obtain data from the sensors. Substance distribution vessels in the fleet are equipped to distribute fish food in target area for the purpose of fish farming.

The present invention discloses a homogeneous microstructured ceramic material that allows replicating the microstructure of the skeleton of a stony coral, as well as its physical, chemical, and biological behavior, useful for promoting the growth of biological material and obtaining a scalable structure for the standardized measurement of seafloor parameters. Furthermore, it discloses a method that allows obtaining the material with the desired properties and a device to be placed in the oceans and wetlands, which comprises said microstructured ceramic material.

The present invention discloses a homogeneous microstructured ceramic material that allows replicating the microstructure of the skeleton of a stony coral, as well as its physical, chemical, and biological behavior, useful for promoting the growth of biological material and obtaining a scalable structure for the standardized measurement of seafloor parameters. Furthermore, it discloses a method that allows obtaining the material with the desired properties and a device to be placed in the oceans and wetlands, which comprises said microstructured ceramic material.