An artificial reef structure including thin tensile members as part of the structure. These tensile members readily accumulate marine life to create a more organic structure. The reef structure can accommodate a wide variety of ocean sensing and communication systems. Embedded lighting and electronic elements can be used to attract and monitor marine life.

An artificial reef structure including thin tensile members as part of the structure. These tensile members readily accumulate marine life to create a more organic structure. The reef structure can accommodate a wide variety of ocean sensing and communication systems. Embedded lighting and electronic elements can be used to attract and monitor marine life.

An artificial reef structure including thin tensile members as part of the structure. These tensile members readily accumulate marine life to create a more organic structure. The reef structure can accommodate a wide variety of ocean sensing and communication systems. Embedded lighting and electronic elements can be used to attract and monitor marine life.

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.

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.

An underwater modular structure includes a plurality of modules, a connector that interlocks the modules and a labyrinth defined by contours of the modules. Each module includes a connector insertion opening to receive a connector therethrough. The connector is an elongate member arranged through a connector insertion opening of each module thereby interlocking the modules. The labyrinth can be defined by outer and/or inner contours of the modules. A module of or for an underwater modular structure A method includes sinking a plurality of modules to a seabed, each module includes a connector insertion opening, and interlocking the modules with a connector that is an elongate member, by arranging the connector through at least one connector insertion opening of each of the modules, to form a labyrinth defined by contours of the modules. Such method may further include filling at least part of the underwater modular structure with a filler.

An underwater modular structure includes a plurality of modules, a connector that interlocks the modules and a labyrinth defined by contours of the modules. Each module includes a connector insertion opening to receive a connector therethrough. The connector is an elongate member arranged through a connector insertion opening of each module thereby interlocking the modules. The labyrinth can be defined by outer and/or inner contours of the modules. A module of or for an underwater modular structure A method includes sinking a plurality of modules to a seabed, each module includes a connector insertion opening, and interlocking the modules with a connector that is an elongate member, by arranging the connector through at least one connector insertion opening of each of the modules, to form a labyrinth defined by contours of the modules. Such method may further include filling at least part of the underwater modular structure with a filler.

Certain embodiments are directed to a reef frame, which may include a frame structure including a plurality of interconnected beams. The reef frame may also include a plurality of deployment hooks connected to the frame structure, and configured to connect to a plurality of articles. The reef frame may further include a plurality of buoys attached to each of the plurality of deployment hooks. According to certain embodiments, each of the plurality of deployment hooks is configured to attach to a respective link of each of the plurality of articles.

Certain embodiments are directed to a reef frame, which may include a frame structure including a plurality of interconnected beams. The reef frame may also include a plurality of deployment hooks connected to the frame structure, and configured to connect to a plurality of articles. The reef frame may further include a plurality of buoys attached to each of the plurality of deployment hooks. According to certain embodiments, each of the plurality of deployment hooks is configured to attach to a respective link of each of the plurality of articles.

A system for stabilizing soil for accretion and retention of coastal water soil is disclosed. The system includes a plurality of artificial reef segments, where each segments comprises a homogenous curved frame structure, a plurality of openings extending through the homogenous curved frame structure, a plurality of frame segments, and a plurality of cutouts disposed along a terminating end of each artificial reef segment. In one embodiment, an artificial reef configuration is disclosed having a first reef segment arranged on top of a second reef segment and a third reef segment in such a way that the cutouts of the first reef segment receive at least one of the plurality of frame segments of the second reef segment and the third reef segment. Furthermore, a transport configuration includes a first reef segment stacked on top of a second reef segment.