Ørsted is developing and carrying out this joint project in close collaboration with the Technical University of Denmark’s Institute of Aquatic Resources, DTU Aqua, which serves as the project’s scientific partner.
In Danish waters, biogenic reefs are created by bivalves such as mussels or oysters. These species can form biogenic reefs consisting of living animals and empty shells from bivalves. Over the last century, there has been a drastic decrease in the number and quality of biogenic reefs in the North Sea – with different species being affected by disease, overfishing, climate change, or changes to the water quality.
The BioReef project aims to promote the recovery of these once common biogenic reefs of European flat oysters and horse mussels in the wild waters of the Danish North Sea to support healthy marine ecosystems.
DTU Aqua’s large-scale hatchery and experimental nursery for initial grow-out in northern Denmark are central to the production and deployment of European flat oysters and horse mussels for the BioReef project. The work in the hatchery will lead to protocols that can be implemented elsewhere to produce seed for similar marine restoration efforts.
In addition to finding new innovative methods for the establishment of reefs, the BioReef project will not only lead to new biogenic reefs, but also to peer-reviewed scientific papers, protocols, and methods that can be applied in restoration projects around the world.
The solutions delivered through the BioReef project will support both Ørsted’s ambition that all renewable energy projects it commissions from 2030 onwards should deliver a net-positive biodiversity impact and respond to the call to halt and reverse biodiversity loss by 2030.
Ingrid Reumert, Senior Vice President and Head of Global Stakeholder Relations at Ørsted, says: “This is an exciting project – it will provide ecosystem services to the marine environment, increase biodiversity, and improve water quality in the North Sea. We want to set a new standard for biodiversity enhancement in offshore wind development and further marine nature protection and restoration, as well as encourage others to join us in creating a net-positive impact on ocean biodiversity.”
Pernille Nielsen, Project Leader and Senior Researcher for Coastal Ecology at DTU Aqua, says: “Establishing biogenic reefs with horse mussels hasn’t been attempted at scale in the North Sea. To succeed, viable horse mussel seeds of a certain size must be produced to get a critical number of individuals that can be deployed. DTU Aqua has in-depth knowledge and expertise in both hatchery production and distribution of bivalves in inner Danish waters, which is fundamental for establishing the biogenic reef in the BioReef project.”
About biogenic reefs
Biogenic reefs are reefs formed by living organisms. Most people are familiar with the colourful coral reefs of the tropics, but other animals such as oysters and horse mussels can also form biogenic reefs.
Once established, biogenic reefs provide food and shelter for other marine species, as well as surfaces for macroalgae and other organisms that require hard substrate to attach to. All biogenic reefs are a crucial part of marine ecosystems.
Project milestones
2023: Collection of brood stock and screening of locations with historic biogenic reefs in Danish waters.
2024: Site selection for the location of the biogenic reef(s) in the Danish North Sea. Development of hatchery protocols and first grow-out testing, i.e., testing of small reefs in coastal waters.
2025-26: Further testing in the hatchery and at nearshore grow-out locations.
2027: Deployment of reef(s) in the Danish North Sea.
What does net-positive biodiversity impact mean?
Having a net-positive biodiversity impact means making a measurable contribution that improves biodiversity overall and leaves nature in better shape than before. This means not just minimising and mitigating unavoidable impacts but going even further to enhance biodiversity and restore ecosystems that are already under threat from climate change and biodiversity loss.