An automated oyster maturation system including a containment assembly rotatably disposed within a housing. The containment assembly includes a spiral construction that includes compartments that are in communication with one another, walls that define the compartments, and ramps. Openings disposed in the walls and ramps increase in size from the outer diameter to the inner diameter of the spiral construction so that, with every complete rotation of the containment assembly, every oyster will tumble further into the spiral construction and ascend from its original compartment into the adjacent inner compartment where opening size is larger than in the original compartment such that only oysters which have grown sufficiently can remain in the adjacent inner compartment while oysters that have not grown sufficiently yet will fall through the openings of the adjacent inner compartment into the original compartment.

An automated oyster maturation system including a containment assembly rotatably disposed within a housing. The containment assembly includes a spiral construction that includes compartments that are in communication with one another, walls that define the compartments, and ramps. Openings disposed in the walls and ramps increase in size from the outer diameter to the inner diameter of the spiral construction so that, with every complete rotation of the containment assembly, every oyster will tumble further into the spiral construction and ascend from its original compartment into the adjacent inner compartment where opening size is larger than in the original compartment such that only oysters which have grown sufficiently can remain in the adjacent inner compartment while oysters that have not grown sufficiently yet will fall through the openings of the adjacent inner compartment into the original compartment.

A shoreline restoration method utilizes a plurality of apparatuses facilitating the formation of a vertical oyster reef. Each apparatus includes a rod frame and a plurality of individual mesh bags are positioned between an inner and an outer frame. The inner and outer frames include top and bottom frame portions and a plurality of side support frame members extending there between. Each individual mesh bag is aligned with at least one outer side support frame member and at least one inner side support frame member and wherein each individual mesh bag is coupled to an adjacent mesh bag. A plurality of cross ties extends between the inner frame and the outer frame and cultch material fills each individual mesh. The shoreline restoration method promotes shell accumulation and expands the tidal zone.

A shoreline restoration method utilizes a plurality of apparatuses facilitating the formation of a vertical oyster reef. Each apparatus includes a rod frame and a plurality of individual mesh bags are positioned between an inner and an outer frame. The inner and outer frames include top and bottom frame portions and a plurality of side support frame members extending there between. Each individual mesh bag is aligned with at least one outer side support frame member and at least one inner side support frame member and wherein each individual mesh bag is coupled to an adjacent mesh bag. A plurality of cross ties extends between the inner frame and the outer frame and cultch material fills each individual mesh. The shoreline restoration method promotes shell accumulation and expands the tidal zone.

Provided is a device for flipping or rotating a floating aquatic cage to mitigate biofouling, and for farm management, such as to carry out maintenance and facilitate harvesting, particularly the style of floating cage used in farming oysters and other shellfish. The device includes a hollow frame or housing which defines a path through which the floating aquatic cage may pass, including entrance and exit openings; and one or more guide elements positioned on an inside surface of the hollow frame or housing. The one or more guide elements form an obstruction to opposing corners of the floating aquatic cage, and impart a turning force in such a manner as to rotate the floating aquatic cage.

Provided is a device for flipping or rotating a floating aquatic cage to mitigate biofouling, and for farm management, such as to carry out maintenance and facilitate harvesting, particularly the style of floating cage used in farming oysters and other shellfish. The device includes a hollow frame or housing which defines a path through which the floating aquatic cage may pass, including entrance and exit openings; and one or more guide elements positioned on an inside surface of the hollow frame or housing. The one or more guide elements form an obstruction to opposing corners of the floating aquatic cage, and impart a turning force in such a manner as to rotate the floating aquatic cage.

The present disclosure provides generally for a system and method for planting flora, fauna, and dispersing various organisms through drone delivery. The system may comprise of a drone with seedling box that may hold and drop the pods containing flora or fauna. The seedling box may hold the pods with the flora or fauna in them and at specific intervals drop the pod with the flora or fauna. The seedling box may also hold various organisms or other materials and drop these organisms or materials when directed. A seedling box may comprise loading mechanism and deploying mechanism to facilitate accurate, timely deployment of the pods containing the seedlings. A pod may comprise a weighted tip with hollow cavity for seedling placement and a vertical rod for securing seedling during deployment. Where the system comprises uneven number of seedlings, seedling box may include counterweights to provide stability in configured flight patterns for duration of seedling deployment.

Patent for structure used in oyster cultivation, wherein the invention comprises a base (1), having four holes (2), where four pins are fixed, fixing the base to the bottom of the sea, base (1) has four other holes, wherein four vertical tubes (3) are fixed; after fixing tubes (3) to the base (1) of the structure, box (4) is settled over base (1), using tubes (3) as guides; afterwards, after putting oysters seeds in box (4), lid (5) is fixed over box (4), followed by sealing of lid (5), installed over box (4), in a way to avoid strange elements to the cultivation to access the oysters, then one end of rope (7) is fixed to ring (6) present in lid (5) and then the other end of rope (7) is fixed to counterweight (9), after passing this end of rope (7) by the hole present in buoy (8) (ring (6), fixed to one end of rope (7), buoy (8), counterweight (9), fixed to the other end of rope (7), help to maintain the structure stable in vertical position at the bottom of the sea during tide variations as well as during any sea turbulence at the cultivation location.

Patent for structure used in oyster cultivation, wherein the invention comprises a base (1), having four holes (2), where four pins are fixed, fixing the base to the bottom of the sea, base (1) has four other holes, wherein four vertical tubes (3) are fixed; after fixing tubes (3) to the base (1) of the structure, box (4) is settled over base (1), using tubes (3) as guides; afterwards, after putting oysters seeds in box (4), lid (5) is fixed over box (4), followed by sealing of lid (5), installed over box (4), in a way to avoid strange elements to the cultivation to access the oysters, then one end of rope (7) is fixed to ring (6) present in lid (5) and then the other end of rope (7) is fixed to counterweight (9), after passing this end of rope (7) by the hole present in buoy (8) (ring (6), fixed to one end of rope (7), buoy (8), counterweight (9), fixed to the other end of rope (7), help to maintain the structure stable in vertical position at the bottom of the sea during tide variations as well as during any sea turbulence at the cultivation location.

Aquatic structures with adjustable buoyancy constructed in part with a vent valve for a buoyancy control device suitable for divers, where the vent valve may be opened by any combination of over-pressure, manual pressure relief or a powered means, where a force to a valve plug is applied by means of a spring that is constrained to prevent entirely lateral and angular movement but in which movement of the plug in the axis of the seat is unconstrained.