Gorgonian

Gorgonian
Iciligorgia schrammi
Scientific classification
Kingdom: Animalia
Phylum: Cnidaria
Class: Anthozoa
Subclass: Octocorallia
Order: Alcyonacea
Lamouroux, 1812
Suborders and families

Alcyonacea is an order of sessile colonial cnidarians found throughout the oceans of the world, especially in the tropics and subtropics. The name "Gorgonacea" is no longer considered valid and Alcyonacea is now the accepted name for the order.[1][2] Gorgonians are also known as sea whips and sea fans and are similar to the sea pen, a soft coral. Gorgonians are closely related to coral. Individual tiny polyps form colonies that are normally erect, flattened, branching, and reminiscent of a fan. Others may be whiplike, bushy, or even encrusting.[3] A colony can be several feet high and across but only a few inches thick. They may be brightly coloured, often purple, red, or yellow. Photosynthetic gorgonians can be successfully kept in captive reef aquariums.[4]

Gorgonians are classified in the phylum Cnidaria, class Anthozoa, alongside the orders Alcyonacea (soft corals) and Pennatulacea (sea pens). There are about 500 different species of gorgonians found in the oceans of the world, but they are particularly abundant in the shallow waters of the western Atlantic, including Florida, Bermuda, and the West Indies.[5]

Anatomy

Venus fan (Gorgonia flabellum), Caribbean Sea at Goat Bay (Bahía de la Chiva) on Vieques Island, Puerto Rico
Gorgonian with reproductive stage, Caribbean Sea at Cabrits National Park, Dominica

The structure of a gorgonian colony varies. In the suborder Holaxonia, skeletons are formed from a flexible, horny substance called gorgonin. The suborder Scleraxonia variety of gorgonians are supported by a skeleton of tightly grouped calcareous spicules. There are also species which encrust like coral.[6] Most of Holaxonia and Sclerazonia, however, do not attach themselves to a hard substrate. Instead, they anchor themselves in mud or sand.

Research has shown that measurements of the gorgonin and calcite within several long-lived species of gorgonians can be useful in paleoclimatology and paleoceanography, as the skeletal growth rate and composition of these species is highly correlated with seasonal and climatic variation.[7][8][9]

Ecology

Purple sea whip gorgonian
Fossil gorgonian holdfast on a Miocene limestone surface, Czech Republic.

Each gorgonian polyp has eight tentacles which catch plankton and particulate matter that is consumed. This process, called filter feeding, is facilitated when the "fan" is oriented across the prevailing current to maximise water flow to the gorgonian and hence food supply.

Some gorgonians contain algae, or zooxanthellae. This symbiotic relationship assists in giving the gorgonian nutrition via photosynthesis. Gorgonians possessing zooxanthellae are usually characterized by brownish polyps.

Gorgonians are found primarily in shallow waters, though some have been found at depths of several thousand feet.[3][6] The size, shape, and appearance of gorgonians can be correlated with their location. The more fan-shaped and flexible gorgonians tend to populate shallower areas with strong currents, while the taller, thinner, and stiffer gorgonians can be found in deeper, calmer waters.[3]

Other fauna, such as hydrozoa, bryozoa, and brittle stars, are known to dwell within the branches of gorgonian colonies.[10] The pygmy seahorse not only makes certain species of gorgonians its home, but closely resembles its host and is thus well camouflaged.[11] Two species of pygmy seahorse, Hippocampus bargibanti and Hippocampus denise, are obligate residents on gorgonians. H. bargibanti is limited to two species in a single genus.

Gorgonians produce unusual organic compounds in their tissues, particularly diterpenes, and some of these are important candidates for new drugs.[12] These compounds may be part of the chemical defenses produced by gorgonians to render their tissue distasteful to potential predators.[13] Despite these chemical defenses, the tissues of gorgonians are prey for flamingo tongue snails of the genus Cyphoma, the fireworm Hermodice sp., and their polyps are food for butterflyfishes [14]

Notes

  1. Gorgonacea World Register of Marine Species. Retrieved 2011-12-04.
  2. Gorgonacea; Lamouroux, 1816 ITIS Taxonomy. Retrieved 2011-12-04.
  3. 1 2 3 Borneman, Eric H. (2001). Aquarium Corals: Selection, Husbandry, and Natural History. Neptune City, NJ 07753: T.F.H. Publications. p. 464. ISBN 1-890087-47-5.
  4. "Photosynthetic gorgonian FAQs". AquaDaily. Retrieved 2009-01-31.
  5. "Sea Fan". University of Delaware Graduate College of Marine Studies. Retrieved 2007-09-23.
  6. 1 2 Goldstein, Robert J. (1997). Marine Reef Aquarium Handbook. Barron's Educational Series, Inc. p. 198. ISBN 0-8120-9598-7.
  7. Heikoop, J.M.; M.J. Risk; C.K. Shearer; V. Atudorei (March 2002). "Potential climate signals from the deep-sea gorgonian coral Primnoa resedaeformis". Hydrobiologia 471 (1–3): 117–124. doi:10.1023/A:1016505421115.
  8. Sherwood, Owen A.; Jeffrey M. Heikoop; Daniel J. Sinclair; David B. Scott; Michael J. Risk; Chip Shearer; Kumiko Azetsu-Scott (2005). Cold-Water Corals and Ecosystems. Erlangen Earth Conference Series. Springer Berlin Heidelberg. pp. 1061–1079. doi:10.1007/3-540-27673-4. ISBN 978-3-540-24136-2.
  9. Bond, Zoë A.; Anne L. Cohen; Struan R. Smith; William J. Jenkins (2005-08-31). "Growth and composition of high-Mg calcite in the skeleton of a Bermudian gorgonian (Plexaurella dichotoma): Potential for paleothermometry". Geochemistry Geophysics Geosystems 6 (8): Q08010. doi:10.1029/2005GC000911.
  10. Haywood, Martyn; Sue Wells (1989). The Manual of Marine Invertebrates. Morris Plains, NJ: Tetra Press:Salamander Books Ltd. p. 208. ISBN 3-89356-033-5.
  11. Agbayani, Eli (2007-06-05). "Hippocampus bargibanti, Pygmy seahorse". FishBase. Retrieved 2007-09-22.
  12. Berrue, F; Kerr, RG (2009). "Diterpenes from gorgonian corals". Natural Products Reports 26: 681–710.
  13. O'Neal, W; Pawlik, JR (2002). "A reappraisal of the chemical and physical defenses of Caribbean gorgonian corals against predatory fishes". Marine Ecology Progress Series 240: 117–126. doi:10.3354/meps240117.
  14. Pawlik, JR; et al. (1987). "Patterns of chemical defense among Caribbean gorgonian corals - A preliminary survey.". Journal of Experimental Marine Biology and Ecology 108: 55–66. doi:10.1016/0022-0981(87)90130-4.

External links

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