In June 2023, following a thorough desktop study on both NID materials and the native and non-native species of the Mid-Atlantic region, CSA’s Ports & Coastal Infrastructure team carefully placed 15 artificial patch reefs (three of each design made from the five NID materials) within the sandy bottom survey site, located 12 nautical miles from Virginia Beach.
After 3 and 12 months, CSA and BOEM scientific divers conducted monitoring surveys to record the physical and ecological effectiveness of these scour protection materials as healthy hard bottom habitats for native reef (fish and invertebrate) communities and to evaluate the possibility of attracting invasive sea life.
Scientific divers were deployed to capture close-up, high-definition photographic images and perform a complete visual assessment of each artificial reef throughout the 12-month project cycle.
These images were also used to generate accurate 3D and 2D-models to help calculate an accurate percent coverage of living epifaunal organisms on the reef units.
Additionally, CSA installed underwater time-lapse cameras to document and monitor the behaviour of fish and invertebrates around these artificial habitats.
All five materials tested were found to be suitable substrates for NID applications.
Among them, the A-Cube (shown in the picture) demonstrated higher levels of both rugosity and the ability to support healthy epibiotic colonisation at the scale of this study.
“BOEM's successful collaboration with CSA to assess the suitability of these NID materials comes at an important time for understanding the impacts of different materials that may be used in offshore wind energy projects in the United States," said Brandon Jensen, BOEM’s Contracting Officer Representative.
“The results, which support the applicability of the NID materials investigated, point to a need to widen the scale of the study to further our understanding of how each type of scour material affects life for specific seabed structure/hardbottom species and ascertain whether those species attracted by the NID materials had a net positive or negative impact on the surrounding marine environment,” added Jensen.
