Abstract: The present invention relates to a method of manipulating the physiological state of algae cultured in raceway ponds by altering one or more environmental parameter to simulate algal bloom forming conditions and to raceway ponds suitable for culturing algae according to the present invention. The alteration of the one or more environmental parameters in a specifically timed manner can be used to induce and maintain synchronous cell division.

Abstract: Provided herein are systems and methods for extracting lipids and/or producing biofuel from algae in marine and freshwater environments, wherein algae and bivalves are co-cultured in a system of enclosures comprising water that comprises recycled nutrients that are essential for algal growth. The system also include enclosures for culturing fishes which are used to harvest the algae.

Abstract: A process includes microbially degrading harvested polyculture plant material to form a concentrated microbial biomass and providing the concentrated microbial biomass to an intermediary animal for consumption. The process may also be directed to producing a product animal which includes providing a growth area having an outlet for waste and providing a harvested plant material collection area having an outlet for degradation products. The process may also include providing a microbial growth system for producing a bacterial biomass and directing at least some waste from the outlet of the product animal growth area to the harvested plant material collection area. The process may also include directing at least some degradation products to the microbial growth system, directing some of the microbial biomass produced in the microbial growth system to an intermediary animal for consumption, and directing the intermediary animal to a product animal growth area.

Abstract: Provided herein are systems and methods for extracting lipids and/or producing biofuel from algae in marine and freshwater environments, wherein algae and bivalves are co-cultured in a system of enclosures comprising water that comprises recycled nutrients that are essential for algal growth. The system also include enclosures for culturing fishes which are used to harvest the algae.

Abstract: This invention relates to the use of free L-proline in the preparation of a supplement, and to a supplement so prepared, as well as a method using such a supplement for supplementing the concentration of cellular free L-proline in abalone and for restricting the dehydration of abalone. The supplement is further effective in reducing the levels of free radicals in abalone experiencing water stress and hypoxic stress. The invention further relates to a method of restricting the dehydration of abalone during storage and transportation including the step of administering to abalone an effective amount of free L-proline.

Abstract: The invention provides for an apparatus (1) for growing aquatic animals comprising at least two securing members (3, 6) adapted to be removably fixed together such that a feed substrate (7) can be reversibly sandwiched between the securing members. The invention also provides for modular assemblies of the apparatus, and further provides methods of culturing aquatic animals and methods of increasing roe content of aquatic animals.

Abstract: Provides is a food having an increased effect of inhibiting accumulation of polychlorinated biphenyls in a living body contains a carbonaceous material that has a pore structure capable of exhibiting adsorbability and to which calcium is bound. The carbonaceous material used herein usually has an average pore diameter of 0.70 to 0.90 nm and a specific surface area of 950 to 1,600 m2/g. The food can adsorb dioxins inclusive of polychlorinated biphenyls that are contained in the food or accumulated in the living body by the carbonaceous material. The carbonaceous material contained in the food, after being taken in, can be excreted from the living body together with the excrement.

Abstract: The invention relates to methods, compositions and kits for improving the raising of pre-adult anadromous fish, or preparing pre-adult anadromous fish for transfer to seawater. The methods involve adding at least one Polyvalent Cation Sensing Receptor (PVCR) modulator to the freshwater in an amount sufficient to increase expression and/or sensitivity of at least one PVCR; and adding feed for fish consumption to the freshwater, wherein the feed comprises an amount of NaCl sufficient to contribute to a significantly increased level of the PVCR modulator in serum of the pre-adult anadromous fish.

Abstract: A method is provided for producing prey organisms such as Artermia and rotifers, for feeding aquacultural organisms in particular at the larval stage. The method comprises cultivating the prey organisms during at least part of their life cycle in an aqueous medium comprising at least one lipid component having a DHA content of at least 30 wt %. The enriched prey organisms preferably have a DHA content of at least 12 wt % of their total lipid content. The prey organisms are suitable feed for larvae of fish including halibut, turbot, bass, and flounder, and crustaceans and molluscs.

Abstract: Controlled release compositions of matter are disclosed comprising complexes for treating a population of one or more aquatic organisms in a column of water. The complexes comprise at least one system wherein the system comprises at least one bioactive agent as a component selected for treating a population of aquatic organisms, at least one carrier component, and at least one coating component for regulating the controlled release rate and release profile of the bioactive agent in water or at least one bioactive agent and one joint-function component that can serve as both a carrier and coating to regulate the controlled release rate and release profile of the bioactive agent in water, with or without optional binder components and/or additional formulation materials. The components are selected to sink or float so that the complexes will permeate and/or remain in any planar or volumetric segment of a water column for a period of time that is sufficient to effectively treat a population of aquatic organisms.

Abstract: A land-based, closed facility for the production of bivalve mollusks in a fluidized bed using shrimp pond water. The facility comprises a vertical column built on a base tank that circulates shrimp pond water from a system of pipes. The shrimp pond water flows upward through the vertical column at specific intermediate velocities, allowing oysters in the column to be individually suspended in the fluid currents. The bed remains motionless relative to the column walls. At low velocities, the oysters in the vertical column lie on one another and on the bottom of the column, and at high flow velocities the fluid flow become a hydraulic transport, pushing the oysters out of the column. The column has a vertical viewing window. An overflow valve releases water from the column. Attached to the base tank is a site gauge to determine the pressure of the fluid supplied to the base of the column. The pipe carrying the shrimp pond water to the base tank has two shut-off valves.