Innovative Fish eDNA Project Launched at Offshore Wind Farm
Natural Power, EDF Renewables and NatureMetrics have kicked off a ground-breaking research project to validate offshore fish environmental DNA (eDNA) survey methods - the first of its kind to trial the use of eDNA to improve survey methods for offshore wind farm environmental impact assessments.
Leading renewable energy consultancy and service provider, Natural Power, along with project partners, EDF Renewables and environmental DNA and nature specialist, NatureMetrics, has kicked off a ground-breaking research project to validate offshore fish environmental DNA (eDNA) survey methods – the first of its kind to trial the use of eDNA to improve survey methods for offshore wind farm environmental impact assessments.
Michelle Elliott, the Senior Environmental Consultant leading the project on behalf of Natural Power, said:
“There is significant evidence for eDNA providing robust data on fish diversity in nearshore environments, but very few studies exist further offshore, and to our knowledge, there has been no work investigating eDNA methods for fish ecology assessment near commercial offshore wind farms. We believe this research has huge potential benefits and will lead to marketable opportunities within the marine energy sector.”
eDNA is a non-invasive sampling technique which uses samples that can be collected from a wide range of vessels and has the potential to deliver auditable, robust data, potentially replacing more destructive methods.
NatureMetrics is a pioneer in using environmental eDNA to identify fish species around the world. This ground-breaking technique is based on the fact that all species shed waste products, skin and tissue cells into the seawater – and they all contain the underlying DNA of the fish. Collecting and filtering a few litres of seawater concentrates the DNA, which can then be processed in the NatureMetrics lab to identify all the different fish species present. It means there is no need to physically catch or even see the fish to know they are there. It is a much quicker, cheaper, safer, scalable, and more reliable approach than traditional survey techniques.
“I’m looking forward to showing how eDNA methods can help companies in the marine energy sector monitor nature cheaply, quickly, repeatably, and at large scale. We have already successfully demonstrated that eDNA will detect more fish species than conventional net survey methods for a coastal fish survey in Sweden. I am confident our technology can help renewable energy companies better manage nature-related risks and transition to a nature positive economy.”
Overall, this method should help to reduce the costs of offshore wind developments; reducing overall cost of energy production whilst also minimising the environmental impact, and therefore helping to meet the UK’s 2050 net-zero target.
In support of the initiative, EDF Renewables is providing access to the Blyth Offshore Demonstrator (BOD) for the research project to take place.
BOD, which is operated by EDF Renewables, has already validated innovative methods at the site through the first successful float and submerge gravity base foundations used on an offshore wind farm. Natural Power has provided a range of services at the site throughout the last decade, including pre and post-consent fish ecological surveys.
“We believe that eDNA techniques have the potential to reduce barriers in consenting for offshore wind farm projects in the future through more targeted baseline data collection, mitigation, and monitoring measures. If such techniques can be validated within the offshore environment as a viable alternative to traditional fish survey techniques, it may have significant benefits to both the developer and stakeholder communities, and we are eager to glean the insights from this valuable research work.”
With support from EDF Renewables, and utilising NatureMetrics’ eDNA experts, the research project will commence in March 2022. Surveys will be conducted using traditional fish trawling methods as well as eDNA sampling around the BOD site. Comparison of the eDNA results with concurrent trawl data and with historical fish community data will be undertaken providing a robust assessment and validation of the technique.
Dr Samuel Stanton added: “We’re delighted to be working alongside Natural Power and EDF Renewables to help advance methods and insights, and believe it offers a real-world development opportunity for applying eDNA techniques in the offshore renewables industry.”
The team predicts a range of additional environmental benefits from this project, such as the collection of data on key marine mammal species, like the Minke whale, where information on seasonal occurrences is not well understood due to their inconspicuous nature. This can be used in wider ecological monitoring and to better inform marine spatial planning for offshore energy production and other sectors.
The outcome of this research will form a scientific paper and formal public presentation of findings alongside recommendations for future commercial use.
NatureMetrics releases a guide on eDNA-powered nature intelligence in coastal ecosystems at COP28. The guide highlights the role of coastal ecosystems in climate change mitigation and conservation, and the potential of eDNA technology to monitor biodiversity.