The collected data will assess the impact of offshore wind farms on biodiversity and explore ways to adapt existing infrastructure to enhance marine habitats.
Fugro will develop remote marine eDNA collection, analysis, and interpretation capabilities as part of its remote inspection solutions. By also integrating the eDNA sampling into its uncrewed surface vessels (USVs) and remotely operated vehicles (ROVs), Fugro aims to not only inspect subsea assets but also the broader subsea environment.
Daniel Smith, Fugro’s Solution Owner Offshore Wind Farm Site Appraisal said “By integrating ecological monitoring with routine asset inspections, wind farm operators will not only reduce the risk of possible technical failures, but broader ecological failures such as habitat loss or habitat fragmentation. This is a crucial step in safeguarding our energy resources and our natural environment.”
Support will be provided by additional project partners:
- Wageningen University will focus on DNA sequencing methodology of marine eDNA, researching the governance of these new forms of automated data collection to provide guidance on the design principles for the expansion of nature inclusive wind energy infrastructures
- Stichting de Rijke Noordzee will explore how to integrate biodiversity monitoring with regular asset inspection
- Mecal – ATS will develop an improved scour protection system with the potential to enhance biodiversity
- Seekable will optimise cable burial monitoring solutions, and
- CrossWind will provide access to an operational wind farm for testing and investigations.
Developed with the MOOI (Mission-driven Research, Development and Innovation) subsidy from the Ministry of Economic Affairs and Climate, and implemented by the Netherlands Enterprise Agency (RVO), the BeWild project aims to drive innovation and foster partnerships among key stakeholders to advance our understanding of offshore wind farm biodiversity and contribute to sustainable offshore energy development.