There is provided herein a method of treating a poikilothermic organism, such as marine bivalves, in a decreasing temperature environment which method comprises exposing the organism to a source of eicosapentaenoic acid (EPA) at temperatures of from 18° C. to about 12° C., and then exposing the organism to a source of docosahexaenoic acid (DHA) at temperatures of from about 11° C. to about 5° C. There is also provided herein a method of just conducting the first or second exposing step without the other, and also a method of using a decrease in temperature to catalyze the organism to produce EPA and/or DHA and/or non-methylene-interrupted fatty acids (NMIs).

A method and apparatus incorporating erosion preventing mats or blankets having oyster spat are placed to prevent or reduce erosion. The method and apparatus incorporates seeding with oyster spat and/or oyster larvae onto a blanket having rough surfaces and comprising calcium. After seeding and setting natural growth of the oyster larvae can create a barrier that helps prevent erosion by breaking the kinetic energy of waves.

Disclosed are a cement coating for inducing the settlement of marine sessile organisms and an application technology therefor, and, in particular, a construction method for an ecological riprap breakwater, an induced cement-based coating, and a preparation method thereof. The cement coating for inducing the settlement of marine sessile organisms is coated on surfaces of rocks, and a reasonable spatial layout is applied, such that each rock pile (block) can effectively break waves and ensure smooth exchange between water bodies on two sides. After oysters attached to each rock pile (block) breed a large amount, the water bodies can be purified, and the ecological environment in the surrounding sea area can be improved.

Disclosed are a cement coating for inducing the settlement of marine sessile organisms and an application technology therefor, and, in particular, a construction method for an ecological riprap breakwater, an induced cement-based coating, and a preparation method thereof. The cement coating for inducing the settlement of marine sessile organisms is coated on surfaces of rocks, and a reasonable spatial layout is applied, such that each rock pile (block) can effectively break waves and ensure smooth exchange between water bodies on two sides. After oysters attached to each rock pile (block) breed a large amount, the water bodies can be purified, and the ecological environment in the surrounding sea area can be improved.

A catamaran-shaped floatation device wherein an oyster basket can be attached to the upside of the device for elevation of the oysters above the water level, and then inverted to submerge the oysters below the water level.

The current invent relates to the construction and application of a three-line breeding system in the bay scallop southern subspecies×Peruvian scallop hybrids. The said three-line consists of a male sterile line, a maintainer line and a restorer line. A combination of male sterile line and maintainer line is obtained by continuously backcrossing the male sterile individuals selected from F.sub.1 inter-specific hybrid families with sperm of the selfing family of the sperm-providing Peruvian scallops until the progenies are all male sterile. The restorer line is obtained by continuously backcrossing selected individuals from the male sterile line with sperm of the selfing family of a Peruvian scallop until the progenies are all hermaphroditic and exhibit excellent production traits. Commercial male sterile brood stocks are produced by backcrossing the male sterile line with the maintainer line and commercial hybrid spats are produced by backcrossing the male sterile line and the restorer line.

The current invent relates to the construction and application of a three-line breeding system in the bay scallop southern subspecies×Peruvian scallop hybrids. The said three-line consists of a male sterile line, a maintainer line and a restorer line. A combination of male sterile line and maintainer line is obtained by continuously backcrossing the male sterile individuals selected from F.sub.1 inter-specific hybrid families with sperm of the selfing family of the sperm-providing Peruvian scallops until the progenies are all male sterile. The restorer line is obtained by continuously backcrossing selected individuals from the male sterile line with sperm of the selfing family of a Peruvian scallop until the progenies are all hermaphroditic and exhibit excellent production traits. Commercial male sterile brood stocks are produced by backcrossing the male sterile line with the maintainer line and commercial hybrid spats are produced by backcrossing the male sterile line and the restorer line.

A seafood storage and/or transportation container is provided. The seafood container comprises a container, the container having a bottom wall, two side walls and two end walls. The container also comprises at least one channel, the channel having an inlet at the lower portion of the interior of the container, a hollow body that extends upward, and an outlet that communicates with the exterior of the container. The at least one channel assists in removal of water from the lower portion of the container, which will be accompanied by some of the waste product from the stored seafood. When a water source is provided overhead, the container of the present invention allows the stored seafood product to be submerged in water, while also obtaining a substantially complete turnover of water within the container (including waste products). This facilitates the mixing of water in the container by drawing away the possibly contaminated water from near the bottom of the container and pulling down the cleaner, oxygen rich water from near the top of the container. Preferably, there is a lid hingedly attached to the top of the seafood container, having at least one trough that serves to trap water as it passes over the lid. The water is retained in the trough until it enters the inside of the container through a plurality of holes contained therein.

A pneumatically controlled shellfish aquaculture apparatus and method for growing shellfish using the apparatus are provided. A frame has containers for holding shellfish secured to the top side of the frame and tanks secured to the bottom side of the frame. Each tank has an air supply line connected to the tank and an opening on the bottom side of the tank. Each air supply line is connected to a manifold for controlling airflow to the tanks. Air is used to displace water in the tanks by pushing the water out of the openings in the bottom of the tanks in order to float the frame. To submerge the frame, the tanks are depressurized to allow water to displace the air in the tanks. When floating, the tanks lift the frame and the containers out of the water to allow air desiccation in order to prevent bio-fouling of the equipment and shellfish.

A pneumatically controlled shellfish aquaculture apparatus and method for growing shellfish using the apparatus are provided. A frame has containers for holding shellfish secured to the top side of the frame and tanks secured to the bottom side of the frame. Each tank has an air supply line connected to the tank and an opening on the bottom side of the tank. Each air supply line is connected to a manifold for controlling airflow to the tanks. Air is used to displace water in the tanks by pushing the water out of the openings in the bottom of the tanks in order to float the frame. To submerge the frame, the tanks are depressurized to allow water to displace the air in the tanks. When floating, the tanks lift the frame and the containers out of the water to allow air desiccation in order to prevent bio-fouling of the equipment and shellfish.