The yacht club’s seawall is being transformed into an artificial rock pool habitat to encourage marine biodiversity.
How the seawall redesign supports intertidal life
The project aims to recreate conditions found in natural intertidal zones, where crabs, starfish, sea snails, and various seaweeds typically thrive. By modifying the seawall structure, the yacht club hopes to provide shelter, breeding grounds, and feeding areas for marine organisms that would otherwise struggle to colonize hard, vertical surfaces. The design incorporates textures and crevices meant to mimic rocky shores, allowing species to attach and survive tidal exposure.
Why seaweed and invertebrates are central to the goal
Seaweeds such as green, red, and brown algae are expected to colonize the modern habitat, providing food and shelter for invertebrates like limpets and chitons. These algae form the base of intertidal food webs, supporting higher trophic levels through direct consumption and habitat complexity. The presence of diverse seaweed species also indicates improving water quality and ecosystem stability, which the project seeks to foster.
What unexpected outcomes the team hopes to observe
Project leaders say they are monitoring for marine life not typically seen in the area, including species that may arrive via larval dispersal or shift their ranges due to changing conditions. While the primary target is native intertidal flora and fauna, the open design allows for natural colonization processes to determine which organisms establish themselves. This approach increases the ecological value of the seawall beyond a simple species list.
What types of seaweed are expected to grow on the seawall?
Green, red, and brown algae are expected to colonize the seawall, including species like sea lettuce, gutweed, and bull kelp, based on typical intertidal zone flora.
How will the seawall support creatures like crabs and starfish?
The redesigned seawall will include crevices and textures that mimic natural rock pools, providing shelter, breeding grounds, and access to food during tidal cycles.