Reefense: Design Of A Porous Modular Hybrid Reef For Coastal Protection

MARCO GHISALBERTI; RYAN J. LOWE; JUSTIN GELDARD; BAILEY BOOTH; GEORG ELLWOOD; ALEX GOAD; REBECCA MORRIS

doi:10.59490/coastlab.2024.740

Authors

MARCO GHISALBERTI Coastal and Offshore Research Laboratory, University of Western Australia, Perth, Australia
RYAN J. LOWE Coastal and Offshore Research Laboratory, University of Western Australia, Perth, Australia
JUSTIN GELDARD Coastal and Offshore Research Laboratory, University of Western Australia, Perth, Australia
BAILEY BOOTH Coastal and Offshore Research Laboratory, University of Western Australia, Perth, Australia
GEORG ELLWOOD Coastal and Offshore Research Laboratory, University of Western Australia, Perth, Australia
ALEX GOAD Reef Design Lab, Melbourne, Australia
REBECCA MORRIS University of Melbourne, Melbourne, Australia

DOI:

https://doi.org/10.59490/coastlab.2024.740

Keywords:

Hybrid Reef, Wave Attenuation, Coastal Engineering, Oyster Reef, Physical modelling

Abstract

Hybrid artificial reef structures can be designed to promote the development of a self-sustaining habitat for reef organisms while simultaneously enhancing the extent to which they provide coastal protection. Such hybrid structures offer many additional ecosystem benefits over conventional engineering structures that are used to provide coastal protection. Here, we investigate the wave attenuation capacity of engineered oyster reef modules that have been designed through the DARPA initiative Reefense: A Mosaic Oyster Habitat for Coastal Defense. The modules are designed with significant porosity (through misaligned holes), shelves to facilitate oyster recruitment, and an interlocking mechanism to maximise reef stability.

Reefense: Design Of A Porous Modular Hybrid Reef For Coastal Protection

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