Lophelia

Lophelia pertusa
CITES Appendix II (CITES)
Scientific classification
Kingdom: Animalia
Phylum: Cnidaria
Class: Anthozoa
Order: Scleractinia
Family: Caryophylliidae
Genus: Lophelia
Milne-Edwards & Haime, 1849
Species: L. pertusa
Binomial name
Lophelia pertusa
(Linnaeus, 1758)
Known range (NOAA)
Synonyms [1]
  • Dendrosmilia nomlandi Durham & Barnard, 1952
  • Lophelia californica Durham, 1947
  • Lophelia prolifera (Pallas, 1766)
  • Lophohelia affinis Pourtalès, 1868
  • Lophohelia prolifera
  • Lophohelia prolifera f. brachycephala Moseley, 1881
  • Lophohelia prolifera f. gracilis Duncan, 1873
  • Lophohelia subcostata Milne-Edwards & Haime, 1850
  • Lophohelia tubulosa Studer, 1878
  • Madrepora pertusa Linnaeus, 1758
  • Madrepora prolifera Pallas, 1766

Lophelia pertusa, the only species in the genus Lophelia,[2][3] is a cold-water coral which grows in the deep waters throughout the North Atlantic ocean, as well as parts of the Caribbean Sea and Alboran Sea.[4] L. pertusa reefs are home to a diverse community, however the species is extremely slow growing and may be harmed by destructive fishing practices, or oil exploration and extraction.

Biology

Lophelia pertusa is a reef building, deep water coral, which is unusual for its lack of zooxanthellae - the symbiotic algae which lives inside most tropical reef building corals. Lophelia lives between 80 metres (260 ft) and over 3,000 metres (9,800 ft) depth, but most commonly at depths of 200–1,000 metres (660–3,280 ft), where there is no sunlight, and a temperature range from about 4–12 °C (39–54 °F).

As a coral, it represents a colonial organism, which consists of many individuals. New polyps live and build upon the calcium carbonate skeletal remains of previous generations. Living coral ranges in colour from white to orange-red. Unlike most tropical corals, the polyps are not interconnected by living tissue. Radiocarbon dating indicates that some Lophelia reefs in the waters off North Carolina may be 40,000 years old, with individual living coral bushes as much as 1,000 years old.

Lophelia pertusa

The coral reproduces by budding off new polyps and by producing free-living planktonic larvae which float in the water until they find a suitable surface to attach to and grow on.

Lophelia reefs can grow to 35 m (115 ft) high. The largest recorded Lophelia reef, Røst Reef, measures 3 km × 35 km (1.9 mi × 21.7 mi) and lies at a depth of 300–400 m (980–1,310 ft) off the Lofoten Islands, Norway.[5] When this is seen in terms of a growth rate of around 1 mm per year, the great age of these reefs becomes apparent.

Polyps at the end of branches feed by extending their tentacles and straining plankton from the seawater. The spring bloom of phytoplankton and subsequent zooplankton blooms, provide the main source of nutrient input to the deep sea. This rain of dead plankton is visible on photographs of the seabed and stimulates a seasonal cycle of growth and reproduction in Lophelia. This cycle is recorded in patterns of growth, and can be studied to investigate climatic variation in the recent past.

Conservation status

L. pertusa was listed under CITES Appendix II in January 1990, meaning that the United Nations Environmental Programme recognizes that this species is not necessarily currently threatened with extinction but that it may become so in the future. CITES is technically a means of restricting international trade in endangered species, which is not a major threat to the survival of L. pertusa. The OSPAR Commission for the protection of the marine environment of the North-East Atlantic have recognised Lophelia pertusa reefs as a threatened habitat in need of protection.

Main threats come from destruction of reefs by heavy deep-sea trawl nets, targeting redfish or grenadiers. The heavy metal "doors" which hold the mouth of the net open, and the "footline", which is equipped with large metal "rollers", are dragged along the sea bed, and have a highly damaging effect on the coral. Because the rate of growth is so slow, it is unlikely that this practice will prove to be sustainable.

Photo of squat lobster suspending itself from coral branch
A squat lobster living on a Lophelia reef

Scientists estimate that trawling has damaged or destroyed 30%–50% of the Norwegian shelf coral area. The International Council for the Exploration of the Sea, the European Commission’s main scientific advisor on fisheries and environmental issues in the northeast Atlantic, recommend mapping and then closing all of Europe’s deep corals to fishing trawlers.[6]

In 1999, the Norwegian Ministry of Fisheries closed an area of 1,000 square kilometres (390 sq mi) at Sula, including the large reef, to bottom trawling. In 2000, an additional area closed, covering about 600 square kilometres (230 sq mi). An area of about 300 square kilometres (120 sq mi) enclosing the Røst Reef closed to bottom trawling in 2002.[6]

In recent years, environmental organisations such as Greenpeace have argued that exploration for oil on the north west continental shelf slopes of Europe should be curtailed due to the possibility that is it damaging to the Lophelia reefs - conversely, Lophelia has recently been observed growing on the legs of oil installations,[7] specifically the Brent Spar rig which Greenpeace campaigned to remove.

Ecological significance

A conger eel which has set up home in a Lophelia bed

Lophelia beds create a specialised habitat favoured by some species of deep water fishes. Surveys have recorded conger eels, sharks, groupers and hake. The invertebrate community consists of brittle stars, molluscs, amphipods and crabs. High densities of smaller fish such as hatchetfish and lanternfish have been recorded in the waters over Lophelia beds, indicating they may be important prey items for the larger fish below.

Range

L. pertusa has been reported from Anguilla, Bahamas, Bermuda, Brazil, Canada, Cape Verde, Colombia, Cuba, Cyprus, Ecuador, Faroe Islands France, French Southern Territories, Greece, Grenada, Iceland, India, Ireland, Italy, Jamaica, Japan, Madagascar, Mexico, Montserrat, Norway, Portugal, Puerto Rico, Saint Helena, Saint Kitts and Nevis, Saint Vincent and the Grenadines, Senegal, South Africa, United Kingdom, United States of America, U.S. Virgin Islands and Wallis and Futuna Islands.[8]

References

  1. Bert Hoeksema (2011). "Lophelia pertusa (Linnaeus, 1758)". World Register of Marine Species. Retrieved March 27, 2012.
  2. Stephen Cairns & Bert Hoeksema (2011). "Lophelia Milne-Edwards & Haime, 1849". World Register of Marine Species. Retrieved March 26, 2012.
  3. Cheryl L. Morrison, Robin L. Johnson, Tim L. King, Steve W. Ross & Martha S. Nizinski (2008). "Molecular assessment of deep-sea scleractinian coral biodiversity and population structure of Lobelia pertusa in the Gulf of Mexico". In Kenneth J. Sulak, Michael Randall, Kirsten E. Luke, April D. Norem & Jana M. Miller. Characterization of Northern Gulf of Mexico Deepwater Hard Bottom Communities with Emphasis on Lophelia Coral – Lophelia Reef Megafunal Community Structure, Biotopes, Genetics, Microbial Ecology, and Geology (2004–2006) (PDF). United States Geological Survey. pp. 4–1–4–77. USGS Open-File Report 2008-1148.
  4. C. Michael Hogan. 2011. Alboran Sea. eds. P. Saundry & C. J. Cleveland. Encyclopedia of Earth. National Council for Science and the Environment. Washington DC
  5. Coral reefs in Norway (2002). Large Lophelia pertusa reef discovered off Røst in Lofoten. Institute of Marine Research, Norway.
  6. 1 2 "Deep Water Corals". Retrieved August 2009. Check date values in: |access-date= (help)
  7. P. Whomersley & G. B. Picken (2003). "Long-term dynamics of fouling communities found on offshore installations in the North Sea". Journal of the Marine Biological Association of the United Kingdom. 83 (5): 897–901. doi:10.1017/S0025315403008014h.
  8. As reported by CITES and the UNEP, and as such, is incomplete, and affected by development of marine science in that country, and effort put into surveying for it.

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