3D Printed Reefs Aim to Restore Cod in Scandinavian Waters

Ørsted, Denmark’s largest energy company, has now partnered with the World Wildlife Fund (WWF) Denmark to restore the marine biodiversity of the Kattegat Strait, the body of water between Denmark and Sweden. How? By experimenting with 3D printed reefs. Humans Disrupt the Food Chain Over the last three decades, the waters between Denmark and Sweden have seen a dramatic drop in the native cod population with numbers plummeting nearly 90% compared to their population in 1990. While overfishing is mainly to blame for the cod’s initial decline, other underlying factors have prevented the fish from returning to healthier levels. In the cod’s absence, their main prey, the green crab, overran the ecosystem and inadvertently destroyed the seagrasses vital to protecting juvenile cod from larger predators. Without the grasses, juvenile cod were easy prey and were not able to grow to maturity. The loss of the cod threatens to disrupt the ecosystem permanently, and the lives of the thousands of people who depend on the strait daily. WWF Denmark and Ørsted knew they needed a solution. To bring back the cod and restore balance to Kattegat, the partners turned to 3D printed reefs. 3D Printed Reefs Artificial reefs aren’t new and sea creatures are known to latch onto anything that offers them shelter in the ocean. Just look at a pier or a boat next time you’re on the cost. It will surely be covered with organisms. However, the team didn’t plan to throw just anything in the ocean and call it a day. No, they wanted to engineer a habitat that would mimic the species’ natural shelters, while demonstrating biocompatibility with the local area when the reef began to regenerate. 3D Printed Reefs. (Source: Ørsted) Together, the two partners designed the tiered structures seen above, and commissioned Italian company D-Shape to print the “reefs.” Using a special concrete that incorporates sand from the Kattegat seabed, the structures give the fish an ideal place to hide and nest, improving their chances of surviving against predators. These artificial reefs will complement the existing boulder reefs Ørsted built when designing the Anholt Offshore Wind Farm in 2012-2013, and they hope these twelve new shelters will be the sanctuary the fish need to regenerate the Kattegat cod population, as well as to improve the surrounding ecosystem. Workers lowering the 3D printed reefs into the Kattegat Strait (Source: Ørsted) It may take several years to see how effective these 3D printed reefs are at helping to restore the cod population; however, similar past initiatives have proved successful in other parts of the world. So, that could be a good omen for this project, too. While this technology won’t combat rising water temperatures or the acidification of oceans, it is helpful for restoration. We are excited to watch the progress of this technology and this project moving forward, and we have our fingers crossed that 3D printing can help make a lasting impact on the Kattegat Strait.