Abstract: The present disclosure relates to system and method(s) for determining the physical characteristics of fish using image processing and machine learning. Images of fish are captured and preprocessed. Further, characteristics determination machine learning model is trained to identify anatomical segments and calculate physical attributes thereof. These attributes are then used to determine the physical characteristics of the fish.

Abstract: An aquarium water filtering system includes a first filtering section, a second filtering section, and a third filtering section. The first filtering section has a first housing configured to receive water, perform a first filtering action on the received water, and produce a first filtered water. The second filtering section has a second housing placed horizontally adjacent to the first housing and configured to receive first filtered water, perform a second filtering action on the first filtered water, and produce a second filtered water. The third filtering section has a third housing placed horizontally adjacent to the second housing and configured to receive the second filtered water, perform a third filtering action on the second filtered water, and produce a third filtered water for return to the aquarium.

Abstract: An ammonia adsorption product is described which may be used for fresh caught fish and bait. The product may comprise functionalized tectosilicate compound and a buffer. High concentrations of ammonia produced by fish waste can be lethal, even though oxygen availability is rich enough to keep fish breathing. The product is a user-friendly, sustainable, affordable product which is able to extend the life of the fish by safely removing ammonia by an ion-exchange mechanism. This product can convert toxic ammonia into ammonium and uptake ammonium by releasing sodium ions in the water.

Abstract: The present invention relates to natural crude salt formulations arid their cost-effective preparation. In particular, the invention discloses the fractionation of seawater into three fractions which can thereafter be suitably combined to reconstitute seawater in its pristine form for its various applications such as growth of marine microbes, flora and fauna in a marine environment, especially where such environments have to be created in locations far removed from the sea and/or where there is a requirement to modify the composition of seawater to better its performance. The fractions can also be blended appropriately to exclude the major constituent, namely sodium chloride, and thereby be useful for mineralization/re-mineralization of waters which are deficient in mineral nutrients such as calcium, magnesium, potassium, sulphate and bicarbonate including rain water and desalinated waters obtained through thermal/RO desalination.

Abstract: Provided herein are methods of sterilizing fish by contacting an embryonic or juvenile fish with a compound of formula (I). In some embodiments, the compound is primordazine or a derivative thereof.

Abstract: Method and apparatus for producing an oxygenated fluid. In accordance with various embodiments, a vessel of water is provided for housing a population of fish. A stream of oxygenated water is generated to have a dissolved oxygen content of at least about 70 milligrams/liter (mg/l). The stream of oxygenated water is diluted with a second stream of water to provide an output stream with a dissolved oxygen content of from about 5 mg/l to about 14 mg/l. The output stream is injected into the vessel to maintain the population of fish.

Abstract: The invention relates to systems and methods for reducing algal biomass in eutrophic water, wherein organism that feed on algae are introduced into the eutrophic water and cultured in the eutrophic water, until the algal biomass is reduced or the organisms have reach desirable size. The body of eutrophic water can be restocked with juveniles after harvesting. The organisms can be fishes and/or shellfishes. The methods further comprising producing biofuel, specialty chemicals, nutraceuticals, food, and/or fish meal from the harvested fish.

Abstract: Disclosed is a geodesic aquaculture fish cage formed from an injection molded composite structure having adjustable buoyancy. The composition structure is component based made and constructed from standardized structural tube members that are coupled together to form independently sealable chambers. Junction nodes interconnect with the structural tube members and are constructed and arranged to provide a standardized support platform through hole that can be capped with an access port, harvester port, feeder port, tower support, or with individual tie-down brackets. A tower with a self contained power supply can be attached for use in navigation identification, communication, and automation.

Abstract: The present invention provides a method of sequestering carbon dioxide in aqueous environments. In a first step, an area is assessed to determine whether the area is capable of supporting the addition of organisms of higher trophic level (OHTL). Next, OHTL are added to the area in order to produce enough rapidly sinking and refractory particulate matter (PM) to sequester carbon dioxide above the level of carbon dioxide sequestration that exists before the addition of OHTL. Preferably, the PM produced by the OHTL sinks at rates significantly greater than and/or is significantly less biodegradable than that produced by other components of the biological carbon pump. Finally, this increase in the level of carbon dioxide sequestration is quantified. The method of the present invention may also include the step of reporting the quantified increase in the level of carbon dioxide sequestration.

Abstract: A method for reducing ammonia concentration in an aqueous medium caused by the presence of fish gill/urine discharge, fish faeces and uneaten organic fish-feed particulate matter in recirculating aquaculture tanks. Fish in fish tank water are remotely located or partially isolated from the fish tank water utilized by the sono-molecular-conversion apparatus. Transient cavitation-created, collapsing microsized bubbles generated in the fishless portion of the fish tank water completes ammonia nitrification, mineralization and denitrification therein.

Abstract: Provided are methods for preparing edible aquatic animals for storage by placing a living aquatic animal into a medium containing trehalose, allowing the live animal to remain in the trehalose solution for a period of time, and removing and processing the animal for storage and/or use for human consumption. The medium may contain a sugar alcohol, such as maltitol. Also, the living aquatic animal may be placed in a medium containing an acid, such as citric acid.

Abstract: The invention provides for a process that enables live-bearing fresh water fish to live and breed in a salt water environment such as an aquarium. The process starts with a live birth of fry in an aquarium where the salinity of the water matches the salinity of amniotic fluids. Once the fry stabilize, the salinity can be gradually increased to match the salinity of a standard salt water aquarium. The fry and their offspring mature, live, and breed in salt water with no future intervention.

Abstract: The purpose of this invention is to provide compositions useful for promoting the growth of calcareous organisms present in a closed system aquatic habitat. Particularly, to composition capable of efficiently delivering calcium and carbonate to the calcareous organisms. Most particularly, to a composition effective for enhanced delivery of aragonite to a closed system aquatic habitat where it dissociates into bioavailable supplements, such as, calcium, strontium, magnesium, and carbonate ions, whereby enhanced growth of the calcareous organisms is achieved.

Abstract: Method for site-specific application of a topical medicant for fishes, amphibians, reptiles, and aquatic macroinvertebrates applied in a site-specific manner for the localized treatment of skin wounds, lesions and diseases. The medicant comprises a hydrophilic carrier with an antimicrobial therapeutant formulated as a water-soluble resistant, hydrated gel or dry powder that hydrates and gels on contact with a moistened integument area.

Abstract: The invention relates to anti-microbial and immunostimulatory molecules of the cathelicidin family derived from fish. The invention provides a novel cathelicidin molecule, fragments, derivatives and uses thereof, and nucleic acids encoding the same.

Abstract: A topical medicant for fishes, amphibians, reptiles, and aquatic macroinvertebrates applied in a site-specific manner for the localized treatment of skin wounds, lesions and diseases. The medicant comprises a hydrophilic carrier with an antimicrobial therapeutant formulated as a water-soluble resistant, hydrated gel or dry powder that hydrates and gels on contact with a moistened integument area.

Abstract: Process for reconditioning a hermetic package (12) containing water (14P) and at least one alive aquatic animal (16), in particular intended for aquariums, the aim being to extend the maximum duration of transportation while keeping the animal alive, which includes the following steps: (a) opening the package (12) to access the water (14P) contained in it since the initial packing; (b) replacing all or some of the polluted transportation water (14P) with an unpolluted reconditioning water (26) prepared in such a way as to present physical and chemical parameters analogous to those of the polluted water (14P), and in particular at least a substantially identical pH value; (c) re-closing the package (12) in a leaktight manner in order to permit a further stage of transportation.

Abstract: The present invention relates to methods of imprinting fish in freshwater with at least one odorant for the fish and causing the imprinted fish to react to the odorant in seawater, wherein the fish are maintained in freshwater prior to transfer to seawater, The method includes: adding at least one Polyvalent Cation Sensing Receptor (PVCR) modulator to the freshwater in an amount sufficient to modulate expression and/or sensitivity of at least one PVCR, the PVCR modulator being one which alters olfactory sensing of the fish to the odorant; adding feed for fish consumption to the freshwater, the feed containing the odorant and an amount of NaCl sufficient to contribute to a significantly increased level of the PVCR modulator in serum of the fish upon consumption of the feed, whereby the fish are imprinted with the odorant; transferring the imprinted fish to seawater; and providing a source of said odorant in the seawater to which the imprinted fish are transferred, thereby causing the imprinted fish to react to

Abstract: A composition and method is disclosed for suppressing infections and treating one or more injured or diseased aquatic vertebrate animals, by adding to the water containing the aquatic animal(s) a solution containing the extracted juice and fine particles of walnut husks or the combination of walnut husks and walnut leaves of the walnut trees of the genus Juglans, family Juglandaceae (also referred to herein as “Juglans blend”). Effective amounts of walnut husks or the combination of walnut husks and walnut leaves which inhibit or promote recovery from aquatic bacterial, fungal, protozoan, and dinoflagellate diseases on the surface of or in the skin of the animal or from wounds and abrasions, or to control or eliminate metazoan parasites, or to control or eliminate aquatic single-celled green algae are in the range from 0.035 grams to 0.

Abstract: A composition for conditioning water in an aquarium in order to both control water pH and reduce and/or eliminate chlorine, chloramine and ammonia build-up is provided. The composition includes monopotassium phosphate in an amount between about 10 and 50 weight percent and sodium hydrosulfite in an amount between 1 and 20 weight percent, with the balance being deionized water.

Abstract: A composition for long term improvement of water quality in biological tank systems is described as: 1) at least one highly or poorly soluble Al3+, Fe3+, TiO2+ or ZrO2+ salt of an organic carboxylic acid, optionally mixed with an organic carboxylic acid; 2) at least one water soluble N free biologically degradable organic compound; 3) at least one soluble alkali or alkaline earth metal salt of an organic carboxylic acid; and 4) at least one Mg2+ salt of an organic carboxylic acid, optionally mixed with at least one Ca2+ of an organic carboxylic acid; and also 5) trace elements and vitamins, particularly water soluble vitamins of the B series. Changes in water quality determining parameters can be reduced, minimized or eliminated by using the described agent and thus a significant reduction in partial water change frequency or a clear extension of periods without water changing can be achieved.

Abstract: A method of enhancing aquatic organism growth is provided. The method comprises the step of introducing an alkane into water containing the organism. The alkane can be introduced intermittently, either alone or with another gas such as oxygen. Nutrients can be introduced with the alkane or separately. The alkane can comprise a butane substrate and can include at least one of n-butane and iso-butane. The organism can be selected from the group of: fish, crustaceans, mollusks, algae and aquatic plants. Organisms grown by the method and systems for practicing the method are also included.

Abstract: Fecal bacterial contamination in an animal is reduced by providing it with drinking water containing a microbiocidally-effective amount of halogen-based microbiocide resulting from mixing with water (A) a product formed in water from (i) bromine, chlorine, or bromine chloride, or any two or more thereof, (ii) a water-soluble source of sulfamate anion, and (iii) a water-soluble base; (B) at least one 1,3-dihalo-5,5-dialkylhydantoin in which one of the halogen atoms is a chlorine atom and the other is a chlorine or bromine atom, and in which each alkyl group, independently, contains in the range of 1 to about 4 carbon atoms; (C) at least one 1,3-dibromo-5,5-dialkylhydantoin in which one of the alkyl groups is a methyl group and the other alkyl group contains in the range of 1 to about 4 carbon atoms; or (D) any two or more of (A), (B), and (C).

Abstract: The invention relates to methods, compositions and kits for raising marine fish in freshwater. 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 significant increased level of the PVCR modulator in serum of the marine fish.

Abstract: A method for achieving a biocidal effect by means of the application of quinone compounds similar to menadione in the prevention of development or eradication of the presence of autotrophic or heterotrophic microorganisms in masses of water, preferably ballast water in marine practice, or in animals. When the method is performed in water it provides for a simple mixing of a series of compounds into the mass of liquid to be treated, whereas if one intends to use the biocidal properties of the described compounds in the zootechnical field, the compounds are incorporated in medicinal compositions, which are then administered to the animals to be treated.

Abstract: The present invention relates to methods of imprinting fish in freshwater with at least one odorant for the fish and causing the imprinted fish to react to the odorant in seawater, wherein the fish are maintained in freshwater prior to transfer to seawater, The method includes: adding at least one Polyvalent Cation Sensing Receptor (PVCR) modulator to the freshwater in an amount sufficient to modulate expression and/or sensitivity of at least one PVCR, the PVCR modulator being one which alters olfactory sensing of the fish to the odorant; adding feed for fish consumption to the freshwater, the feed containing the odorant and an amount of NaCl sufficient to contribute to a significantly increased level of the PVCR modulator in serum of the fish upon consumption of the feed, whereby the fish are imprinted with the odorant; transferring the imprinted fish to seawater; and providing a source of said odorant in the seawater to which the imprinted fish are transferred, thereby causing the imprinted fish to react to

Abstract: The present invention relates to methods of imprinting fish in freshwater with at least one odorant for the fish and causing the imprinted fish to react to the odorant in seawater, wherein the fish are maintained in freshwater prior to transfer to seawater.

Abstract: A method of increasing the fish catch in the ocean is to fertilize the ocean surface, creating a short-term phytoplankton bloom, which forms a fish attractive device (FAD). The FAD attracts the fish to a planned location for fishing boats to catch with reduced fishing effort. The bloom may be created by the short-term addition of a chelated iron fertilizer to the ocean surface, and may have a duration of from about 1 to about 2 months.

Abstract: The present invention provides an effective oxygen generating materials, carbon dioxide absorbing materials, and transport system and transport method of live fishery products for use upon transporting live fishery products. An oxygen generating materials of the present invention is prepared by packaging solid peroxide and peroxide decomposition catalyst with a moisture-permeable material having a cup method moisture permeability (40° C., 90% RH) of more than 20 g/m2/24 hr and being impervious to water at normal pressure. Furthermore, a carbon dioxide absorbing materials are prepared by packaging alkaline earth metal hydroxide and/or oxide with a gas-permeable material having a Gurley method gas permeability (JIS P8117) of 0.1˜3000 sec./100 ml of gas and being impervious to water at normal pressure.

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 growth inhibitor comprising a porous container 2A, 2B, housing a non-resinous wood charcoal 5, such as a hardwood charcoal. The container may further contain hydrous silicates and/or granite chips.

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 PVCR modulators (e.g., calcium and/or magnesium) 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 contains 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: The present invention is concerned with agents and processes for the production of biologically advantageous to almost natural maintenance water, especially for aquaria and garden pond water and also from biologically unfavorable to harmful starting water.

Abstract: A method of improving conditions for breeding aquatic life in a breeding farm comprising the steps of injecting an ozonated gas into a stream of water to achieve a level of ozonation; adding a reducing chemical species to the stream of water in order to substantially remove a possible content of oxidizing by-products and/or ozone resulting from the step of injecting the ozonated gas; and feeding the stream of water to a breeding basin wherein the reducing chemical species is added to the stream of water in situ and continuously between the step of injecting the ozonated gas and the step of feeding the stream of water into the breeding basin.

Abstract: The invention relates to methods, compositions and kits for raising marine fish in freshwater. 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 significant increased level of the PVCR modulator in serum of the marine fish.

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 of increasing seafood production in the oceans comprises testing the water at the surface of the ocean in order to determine the nutrients that are missing, applying to the surface of the ocean a first fertilizer that comprises an iron chelate, and harvesting the increased production of seafood that results. The method may further comprise applying a microorganism that fixes nitrogen such as phytoplankton, applying additional fertilizers, and seeding the ocean with fish. Each fertilizer releases the nutrient(s) over time in the photic zone and in a form that does not precipitate before use by the phytoplankton.

Abstract: A method of increasing seafood production in the oceans comprises testing the water at the surface of the ocean in order to determine the nutrients that are missing, applying to the surface of the ocean a first fertilizer that comprises an iron chelate, and harvesting the increased production of seafood that results. The method may further comprise applying a microorganism that fixes nitrogen such as phytoplankton, applying additional fertilizers, and seeding the ocean with fish. Each fertilizer releases the nutrient(s) over time in the photic zone and in a form that does not precipitate before use by the phytoplankton.

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: 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: 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 saltwater aquarium environmental control system contains a salt mixing tank and has a specific gravity float switch to maintain proper salinity in the mixing tank so that a ready supply of fresh saltwater is available for replenishing water in the aquarium tank. The system may contain a second specific gravity float switch to monitor the saline concentration in the aquarium tank. The system provides for mixing replenishment saltwater, for automatically dispensing replenishment saltwater at timed intervals in predetermined volumes, and for monitoring and adjusting proper salinity in a saltwater aquarium. A routine exchange of saltwater into and out of the aquarium tank is maintained in order to maintain clean, fresh saltwater in the aquarium tank at all times.

Abstract: Process for controlling growth and/or removing parasites from pond water comprising adding to the pond water peracetic acid and hydrogen peroxide, simultaneously or separated in time, in amounts effective to control and/or remove said parasites.

Abstract: A dietary inclusion model for an integrated aquaculture-hydroponics system is derived from the concept of mass conservation. The model enables the maintenance of near-equilibrium concentrations of Ca, K, Mg, N, and P, suitable concentrations of Mn and Cu, and acceptable accumulation rates of Na and Zn, in representative integrated aquaculture-hydroponics systems, by modifying the mineral concentrations of the fish diets according to the model. The model is readily applicable to virtually any freshwater recirculating fish culture system operating at a recycle ratio sufficiently high to maintain appropriate nitrogen concentrations and having an environment suitable for hydroponic plant culture.

Abstract: A biological treatment system for removal of gaseous waste materials. The system comprises a column containing microorganisms which break down components of the waste materials; a pond in series with the column containing life forms in addition to the microorganisms in the column, which life forms provide essential nutrients for the microorganisms in the column; a treatment bed containing a reaction medium for removing undesirable biological metabolic by-products from the action of said microorganisms upon the gaseous waste materials; a fluid distribution means for circulating water between the pond, column and bed and a means for delivering gaseous waste materials through the column before such gaseous waste materials reach the pond.

Abstract: A method of increasing seafood production in the oceans comprises testing the water at the surface of the ocean in order to determine the nutrients that are missing, applying to the surface of the ocean a first fertilizer that comprises an iron chelate, and harvesting the increased production of seafood that results. The method may further comprise applying a microorganism that fixes nitrogen such as phytoplankton, applying additional fertilizers, and seeding the ocean with fish. Each fertilizer releases the nutrient(s) over time in the photic zone and in a form that does not precipitate before use by the phytoplankton.

Abstract: A process for optimizing the growth of fish reared in a pond, comprising injecting oxygen into the pond in a controlled quantity according to different cycles.

Abstract: There is provided a system for water quality control and improvement in intensive fish culture systems. The aim of the water treatment is to reduce the content of inorganic nitrogen and of organic matter. The system comprises a fish pond, a settling pond, a fluidized bed reactor and a trickling filter. The system according to the invention can be an essentially closed one, except for periodic water replenishment. It is suited for ponds with sweet or salt water.

Abstract: A method of increasing seafood production in the oceans comprises (1) testing the water at the surface of the ocean in order to determine the nutrients that are missing, (2) applying to the ocean water a fertilizer that comprises a microorganism that fixes nitrogen and sufficient nutrients to cause the microorganism to fix nitrogen (if the ocean water is missing nitrates), and the other missing nutrients, and (3) harvesting the increased production of seafood that results from the fertilization.

Abstract: A growth promoter for aquatic plants, which increases the carbonate concentration in water to promote the growth of aquatic plants and contains phosphate as an active component, and a method for applying said growth promoter, which comprises placing an aqueous solution or dispersion of the growth promoter in a container of which one end is narrowly opened and placing the container in water in a water tank thereby to allow the growth promoter to ooze through the narrowly opened end.