Climate change is becoming the biggest driver of biodiversity loss, and a substantial expansion of offshore wind is central to tackling these interlinked crises. Governments are planning a significant build-out of green energy infrastructure at sea, and if done right, Ørsted believes the expansion of offshore wind energy needed to fight climate change can also integrate solutions that support and enhance ocean biodiversity. That is why Ørsted has set an industry-leading ambition to deliver a net-positive impact on biodiversity across all the new energy projects it commissions from 2030 at the latest.
Adding to its efforts to leave nature healthier than before, Ørsted, the global leader in offshore wind, is exploring innovative new ways to protect and enhance biodiversity. ReCoral by ØrstedTM is one example of the company exploring how to achieve this. The project aims to implement a non-invasive approach for collecting surplus indigenous coral spawn as it washes ashore and for growing healthy coral colonies on the foundations of nearby offshore wind turbines.
Increased surface temperatures in shallow waters can lead to coral bleaching. At offshore wind farm locations further offshore, temperatures are more stable due to vertical mixing in the water column, preventing extreme temperature increases.
The innovative idea behind ReCoral is that the relatively stable water temperatures at offshore wind farm locations will limit the risk of coral bleaching and allow healthy corals to grow on wind turbine foundations. Corals will be grown close to the water’s surface to ensure sufficient sunlight.
In 2020, biologists and marine specialists in Ørsted teamed up with private and academic coral experts to mature and test the concept. In 2021, the ReCoral team successfully grew juvenile corals on underwater steel and concrete substrates at a quayside test facility for the first time.
In June this year, the offshore proof-of-concept trial will begin at the Greater Changhua offshore wind farms in Taiwan to test the concept in open waters on four separate wind turbine foundations.
Mads Nipper, Group President and CEO of Ørsted, said: “To halt climate change and create a sustainable future for the planet, its ecosystems, and its people, we must speed up the transition from fossil fuels to renewables. Governments are preparing a significant expansion of offshore wind energy, and I’m confident that if done right, the offshore wind build-out can support and enhance ocean biodiversity.” He continues: “If we succeed with ReCoral and the concept proves to be scalable, this Ørsted innovation could create a significant positive impact on ocean biodiversity.”
Working with coral experts
Ørsted collaborates with the Penghu Marine Biology Research Center in Taiwan, and together they have developed a non-invasive methodology for coral seeding, in vitro fertilisation, larvae transport, and larvae attachment to wind turbine foundations. Rather than removing anything from existing coral ecosystems, ReCoral’s non-invasive approach relies on the collection of surplus coral egg bundles that wash up on shorelines and would not otherwise survive.
Hern-Yi Hsieh, Director of Penghu Marine Biology Research Center, said: “We’re excited to take part in such a great initiative and partner up with the world’s most significant player in offshore wind. Environmental protection and marine biodiversity will continue to be one of the key topics of the world in the coming decade. It’s great to see that, apart from its effort to supply clean energy, Ørsted is also launching its coral project here in Taiwan to promote environmental friendliness. We’re honoured to participate in the project, and we look forward to more such initiatives in the future.”
If the proof-of-concept trial is successful, Ørsted will explore opportunities for scaling up the initiative, with the ultimate aim of using additional coral larvae generated at offshore wind farm locations to restore and enhance threatened near-shore reef systems.
The ReCoral concept could be applied to offshore foundations of any kind in tropical waters around the world. Ørsted will share learnings and the techniques the ReCoral team develops with the broader coral conservation community, and with other wind farm developers, expecting that the findings will be useful regardless of whether the ReCoral pilot succeeds.
To learn more about the ReCoral by ØrstedTM method and how it differs from other approaches to coral restoration, please visit https://orsted.com/sustainability/our-priorities/nature/recoral.
2018: Ørsted began developing the ReCoral project.
2019-20: Technical and ecological aspects of the concept were matured, including the larvae sourcing and attachment methodologies.
2021: The Penghu Marine Biology Research Center completed a pilot test using surplus indigenous coral spawn collected from the coastline of the Penghu Islands. The coral spawn was matured to larvae in one of their onshore laboratories and settled onto underwater steel and concrete substrates at a quayside test facility.
2022: In June, Ørsted will carry out a proof-of-concept trial, attempting to settle larvae and grow healthy corals at its Greater Changhua 1 Offshore Wind Farm, located 35-60 kilometres off the coast of Taiwan. For the trial, 1m2 areas on four separate foundations will be used.
Net-positive biodiversity impact
Net-positive biodiversity impact is Ørsted’s ambition for all renewable energy projects the company commissions from 2030 at the latest. Net-positive biodiversity impact means a measurable contribution that improves biodiversity overall and leaves nature as a whole in better shape than before. Unavoidable impacts are minimised and mitigated, and active steps are taken beyond this to enhance biodiversity and repair ecosystems currently under threat from both the crises of climate and biodiversity. Ørsted’s offshore wind farms do not harm naturally occurring coral reefs, and Ørsted’s biodiversity ambition does not depend on ReCoral to deliver a net-positive impact for biodiversity at the Greater Changhua wind farms, however, it will provide vital learnings on how Ørsted and others might provide wider biodiversity benefits. Find out more about Ørsted’s net-positive biodiversity ambition here.
Greater Changhua 1 Offshore Wind Farm
As part of the 900 MW Greater Changhua 1 and 2a offshore wind farms, Greater Changhua 1 has a total capacity of 605 MW and is co-owned by Ørsted (50 %) as well as Caisse de dépôt et placement du Québec (CDPQ) and Cathay PE, who have a combined ownership stake of 50 %.
Image caption: Artist’s impression of future coral growth potential. This is not a scientific illustration of the possible scale, species, or size of the corals. Still from the ReCoral explainer video. Credit Ørsted A/S