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Ship at quay with concrete lumps on the quay
Early one morning in October, the last artificial reefs were finally launched into place. The picture shows the type of artificial reefs that are 3D printed in concrete.
Photo: Susanna Strömberg
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Concrete reefs for corals finally in place in the Koster Sea

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All 160 artificial reefs that will save Sweden’s coral reefs are finally in place in the Koster Sea. Launching them has taken longer than expected, since the project was affected by the windy summer weather. Now there will be a few years of anxious waiting before they know whether the experiment has succeeded or not. But until then, the reefs will be a hotel for other marine animals, such as fish, squat lobsters, and sea anemones.

Are you glad that all artificial reefs are now in place?

“Yes, we are very happy that all 160 artificial reefs are in place! There are 132 ‘Star’ type artificial reefs and 28 artificial reefs that are 3D printed in concrete. We had hoped to have them all in place before the summer, but unfortunately this type of job is very weather-sensitive,” says Susanna Strömberg, research engineer at the Department of Marine Sciences and the Life Lophelia project. 

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Boat quay with different types of concrete lumps
Two different types of artificial reefs will be tested. On the left, Star-type reefs, i.e. star-shaped artificial reefs, and on the right, artificial reefs 3D-printed in concrete.
Photo: Anita Tullrot

Why has it taken until now?

“If the wind or wave height is too high, it’s not possible to launch giant chunks weighing 600 kilos with the small vessels we have. We had quite a windy early summer this year and August was also windy. So many days of planned launches have simply ‘blown away’ for us. But in September we got a whole week of calm weather and the final ones we managed to get down this week in October. So now all the reefs are finally in place,” says Susanna Strömberg.

What are you hoping for now?

“Firstly, we hope that some larger marine animals will find our artificial reefs and start to move in, such as fish, squat lobsters, and crabs. Fish like to hide in cavities to get protection from bigger fish or dogfish hunting in the area. Squat lobsters like to stick their bottoms into a burrow for protection, where they sit with their large claws ready to capture food or defend themselves. When burrows are scarce, there can be fights over the few that are available. Now they have a few more holes to sit in, like a hotel!” says Susanna Strömberg.

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close-up of concrete reef
The concrete reefs have small cavities and other structures on their surface to help coral larvae attach. With their hard structures and crevices, they are also a haven for squat lobsters, fish, and sea anemones.
Photo: Susanne Liljenström

How long do we have to wait until we get a result?

“We're obviously very curious to see how this goes, so we'll take every opportunity to go out and have a sneak peek at what's happening and how our reefs will be received by the animals in these areas. But in a year's time we should be able to see other reef-associated marine animals that have started to grow on our reefs. Sea urchins and sea anemones are often seen utilising artificial structures. If coral larvae settle, it will probably take 1-2 years before they are visible. We don't yet know whether there are coral larvae in circulation every year, or whether they are sporadic events,” says Susanna Strömberg.
 
“We have tried to give the coral larvae the best possible conditions. My hope is that we will see living corals on the reefs within five years,” says Anita Tullrot, project manager for LIFE Lophelia and marine manager at the County Administrative Board of Västra Götaland.

Text: Annika Wall

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Fyra kvinnor står på kaj vid betongklumpar
The Life Lophelia project with some of the 132 concrete stars: Ann Larsson, Susanna Strömberg and Iga-Maria Nestorowicz from the University of Gothenburg, and Anita Tullrot from the County Administrative Board of Västra Götaland.  
Photo: Susanne Liljenström
Project LIFE Lophelia

The LIFE Lophelia project has developed a method for restoring reefs of the deep-sea coral Lophelia pertusa. Research and method development has taken place at Department of Marine Sciences, University of Gothenburg, to develop suitable shape and surface structure for artificial reef structures that the coral larvae want to settle on and grow further into coral reefs.

The environmental conditions of the areas to be restored have also been investigated. The County Administrative Board of Västra Götaland is the project owner and has carried out a thorough mapping of the seabed and strengthened the protection with a total ban on fishing. The project has a budget of SEK 32 million and is funded by the European Union's LIFE Fund, the Swedish Agency for Marine and Water Management, the County Administrative Board of Västra Götaland and the University of Gothenburg.

More about the project on the Project Website (in Swedish)