Biology:Octocorallia

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Short description: Class of Anthozoa with 8-fold symmetry

Octocorallia
Temporal range: Ordovician–recent
Pink soft coral Nick Hobgood.jpg
Dendronephthya klunzingeri
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Cnidaria
Subphylum: Anthozoa
Class: Octocorallia
Haeckel, 1866
Orders
Synonyms
  • Alcyonaria

Octocorallia (also known as Alcyonaria) is a class of Anthozoa comprising around 3,000 species of water-based organisms formed of colonial polyps with 8-fold symmetry. It includes the blue coral, soft corals, sea pens, and gorgonians (sea fans and sea whips) within three orders: Alcyonacea, Helioporacea, and Pennatulacea.[1] These organisms have an internal skeleton secreted by mesoglea and polyps with eight tentacles and eight mesentaries. As with all Cnidarians these organisms have a complex life cycle including a motile phase when they are considered plankton and later characteristic sessile phase.

Octocorals have existed at least since the Ordovician period, as shown by Maurits Lindström's findings in the 1970s.[2] Recent work suggesting that the Cambrian Pywackia may represent a Cambrian octocoral[3] is disputed.[4][5]

Biology

Full corallum of Tubipora musica.

Octocorals resemble the stony corals in general appearance and in the size of their polyps, but lack the distinctive stony skeleton. Also unlike the stony corals, each polyp has only eight tentacles, each of which is feather-like in shape, with numerous side-branches, or pinnules.

Octocorals are colonial organisms, with numerous tiny polyps embedded in a soft matrix that forms the visible structure of the colony. The matrix is composed of mesogleal tissue, lined by a continuous epidermis and perforated by numerous tiny channels. The channels interconnect the gastrovascular cavities of the polyps, allowing water and nutrients to flow freely between all the members of the colony. The skeletal material, called coenenchyme, is composed of living tissue secreted by numerous wandering amoebocytes. Although it is generally soft, in many species it is reinforced with calcareous or horny material.[6]

The polyp is largely embedded within the colonial skeleton, with only the uppermost surface, including the tentacles and mouth, projecting about the surface. The mouth is slit-like, with a single ciliated groove, or siphonoglyph, at one side to help control water flow. It opens into a tubular pharynx that projects down into a gastrovascular cavity that occupies the hollow interior. The pharynx is surrounded by eight radial partitions, or mesenteries, that divide the upper part of the gastrovascular cavity into chambers, one of which connects to the hollow space inside each tentacle. The gonads are located near the base of each mesentery.[6] Octocorals have high phenotypic plasticity from adapting to dynamic environments where temperature, pH, and other parameters are in constant flux[7] and have shown high recruitment rates post-die-off events caused by el nino events.[8]

Phylogeny

Octocorallia is considered to be monophyletic, meaning that all contained species are descended from a common ancestor, but the relationships between subdivisions are not well known. The sea pens (Pennatulacea) and blue coral (Helioporacea) continue to be assigned separate orders, whereas the current order Alcyonacea was historically represented by four orders: Alcyonacea, Gorgonacea, Stolonifera and Telestacea.

References

  1. Daly, M.; Brugler, M.P.; Cartwright, P.; Collins, A.G.; Dawson, M.N.; Fautin, D.G.; France, S.C.; McFadden, C.S. et al. (2007-07-21). "The phylum Cnidaria: A review of phylogenetic patterns and diversity 300 years after Linnaeus". Zootaxa 1668: 1–766. doi:10.11646/zootaxa.1668.1.11. ISSN 1175-5326. http://www.nhm.ku.edu/inverts/pdf/daly%20et%20al%20Zootaxa.pdf. 
  2. Bergström, Stig M.; Bergström, Jan; Kumpulainen, Risto; Ormö, Jens; Sturkell, Erik (2007). "Maurits Lindström – A renaissance geoscientist". GFF 129 (2): 65–70. doi:10.1080/11035890701292065. 
  3. Taylor, Paul D.; Berning, Björn; Wilson, Mark A. (November 2013). "Reinterpretation of the Cambrian 'bryozoan' Pywackia as an octocoral" (in en). Journal of Paleontology 87 (6): 984–990. doi:10.1666/13-029. ISSN 0022-3360. Bibcode2013JPal...87..984T. https://www.cambridge.org/core/product/identifier/S0022336000002067/type/journal_article. 
  4. "Distinguishing Earth’s oldest known bryozoan (Pywackia, late Cambrian) from pennatulacean octocorals (Mesozoic–Recent)". Journal of Paleontology. doi:10.1017/jpa.2014.26. https://www.cambridge.org/core/journals/journal-of-paleontology/article/abs/distinguishing-earths-oldest-known-bryozoan-pywackia-late-cambrian-from-pennatulacean-octocorals-mesozoicrecent/6A341D92297BB045A22011919FB21DE9. Retrieved 2023-09-14. 
  5. "Late Cambrian Pywackia is a cnidarian, not a bryozoan: Insights from skeletal microstructure". Journal of Paleontology. doi:10.1017/jpa.2023.35. https://www.cambridge.org/core/journals/journal-of-paleontology/article/late-cambrian-pywackia-is-a-cnidarian-not-a-bryozoan-insights-from-skeletal-microstructure/09553418BE22A3FD5EE74DD46CD9E6D5. Retrieved 2023-09-14. 
  6. 6.0 6.1 Barnes, Robert D. (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 164–169. ISBN 0-03-056747-5. 
  7. Lopes, Ana Rita; Faleiro, Filipa; Rosa, Inês C.; Pimentel, Marta S.; Trubenbach, Katja; Repolho, Tiago; Diniz, Mário; Rosa, Rui (2018-06-11). "Physiological resilience of a temperate soft coral to ocean warming and acidification". Cell Stress and Chaperones 23 (5): 1093–1100. doi:10.1007/s12192-018-0919-9. ISSN 1355-8145. PMC 6111073. http://dx.doi.org/10.1007/s12192-018-0919-9. 
  8. Lasker, H. R.; Martínez-Quintana, Á.; Bramanti, L.; Edmunds, P. J. (2020-03-09). "Resilience of Octocoral Forests to Catastrophic Storms". Scientific Reports 10 (1). doi:10.1038/s41598-020-61238-1. ISSN 2045-2322. PMC 7063042. http://dx.doi.org/10.1038/s41598-020-61238-1. 

External links

Wikidata ☰ Q132680 entry



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