Deep-sea Corals and Sponges
Deep-sea corals and sponges, some of the oldest animals on Earth, grow at the rate of just a few millimeters each year and can live for thousands of years.
In recent years, scientists worldwide have discovered that the majority of the coral species found in the world’s oceans live in deep or cold waters.
Deep-sea corals are typically found along continental margins, seamounts, undersea canyons and ridges. Some individual corals grow together to form small bushes or fans; others form larger colonies such as reefs or great trees. Two-thirds of all coral species are deep-sea corals.
Deep-sea corals and sponges are essential to the ocean’s health because they preserve ocean biodiversity and long-term sustainability of commercial and recreational fish species. Deep-sea corals can form reefs and gardens that are essential to numerous oceanic species — including fish — by providing shelter, protection from strong currents and predators, nurseries for young fish and feeding, spawning, resting and breeding areas for a host of other marine life.
They also provide important clues for the study of global climate change and are under study as sources of new biomedical compounds for medical treatment of disease.
Scientists know that deep-sea corals grow off every coast, from Maine to Texas, Alaska to California and around Hawaii. However, most of the deep-sea corals off the U.S. coasts have not even been located, let alone studied. They remain largely unprotected as a result.
Deep-sea coral habitats are subject to growing human impacts, particularly from deep-sea trawl fisheries in deep water regions. Even a single pass of a bottom trawl can flatten centuries of growth.
Destructive bottom trawls and dredges are especially threatening to deep-sea coral communities found in deep ocean canyons, seamounts and many other areas of the seafloor. Fishing in those places with bottom trawling gear can rapidly destroy broad expanses of deep-sea coral and sponge gardens that take centuries to regrow and may never fully recover.