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Sea pen

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Sea pen
Temporal range: Cambrian–Recent
"Pennatulida" from Ernst Haeckel's Kunstformen der Natur, 1904
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Cnidaria
Class: Octocorallia
Order: Pennatulacea
Verrill, 1865
Family

see text

Sea pens are marine cnidarians belonging to the order Pennatulacea, which are colony-forming benthic filter feeders within the class Octocorallia (Class Anthozoa). There are 14 families within the order and 35 extant genera; it is estimated that of 450 described species, around 200 are valid.[1]

Sea pens have a cosmopolitan distribution, being found in tropical and temperate waters worldwide, from intertidal shallow waters to deep seas of more than 6,100 m (20,000 ft).[1] Sea pens are grouped with the octocorals together with sea whips (gorgonians), but there has been only one molecular study focusing on the phylogenetic relationships within the order Pennatulacea, which mainly treated deep-sea species, and thus information on shallow water species is still lacking.[2]

Although the group is named for its supposed resemblance to antique quill pens, only sea pen species belonging to the suborder Subselliflorae live up to the comparison. Those belonging to the much larger suborder Sessiliflorae lack feathery structures and grow in club-like or radiating forms. The latter suborder includes what are commonly known as sea pansies.

The earliest accepted sea pen fossils are known from the Cambrian-aged Burgess Shale (Thaumaptilon). Similar fossils from the Ediacaran may show the dawn of sea pens.[3] Precisely what these early fossils are, however, is not decided.[4]

Taxonomy

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The order Pennatulacea consists of the following families:[5]

Biology

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Due to their wide geographic distribution and long evolutionary history, genetic variation within the different species of sea pen is quite large. Throughout evolution of Pennatulaceans, most sea pens have kept their original mitochondrial gene order, but a certain clade of sea pens shown unique rearrangements through ancestral state reconstruction. There are many populations of sea pens found in mainly Indian waters. It is their polyps that are affected genetically, as they have dispersed within the different waters and islands, and how they use their polyps (tentacles) to protect themselves and other species.[7]

Uprooted sea pen with the bulbous peduncle in view
Pierre's armina feeding on purple sea pen
Sea pen at Vancouver Aquarium

As octocorals, sea pens are colonial animals with multiple polyps (which look somewhat like miniature sea anemones), each with eight tentacles. Unlike other octocorals, however, a sea pen's polyps are specialized to specific functions: a single polyp develops into a rigid, erect stalk (the rachis) and loses its tentacles, forming a bulbous "root" or peduncle at its base.[8] The other polyps branch out from this central stalk, forming water intake structures (siphonozooids), feeding structures (autozooids) with nematocysts, and reproductive structures. The entire colony is fortified by calcium carbonate in the form of spicules and a central axial rod.

Using their root-like peduncles to anchor themselves in sandy or muddy substrate, the exposed portion of sea pens may rise up to 2 metres (6.6 ft) in some species, such as the tall sea pen (Funiculina quadrangularis). Sea pens are sometimes brightly coloured; the orange sea pen (Ptilosarcus gurneyi) is a notable example. Rarely found above depths of 10 metres (33 ft), sea pens prefer deeper waters where turbulence is less likely to uproot them. Some species may inhabit depths of 2,000 metres (6,600 ft) or more.

While generally sessile animals, sea pens are able to relocate and re-anchor themselves if need be.[8] They position themselves favourably in the path of currents, ensuring a steady flow of plankton, the sea pens' chief source of food. Their primary predators are nudibranchs and sea stars, some of which feed exclusively on sea pens. The sea pens' ability to be clumped together and spatially unpredictable hinders sea stars' predation abilities.[9] When touched, some sea pens emit a bright greenish light; this is known as bioluminescence. They may also force water out of their bodies for defence, rapidly deflating and retreating into their peduncle.

Like other anthozoans, sea pens reproduce by coordinating a release of sperm and eggs into the water column; this may occur seasonally or throughout the year. Fertilized eggs develop into larvae called planulae which drift freely for about a week before settling on the substrate. Mature sea pens provide shelter for other animals, such as juvenile fish. Analysis of rachis growth rings indicates sea pens may live for 100 years or more, if the rings are indeed annual in nature.

Some sea pens exhibit glide reflection symmetry,[10] rare among extant animals.

Aquarium trade

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Sea pens are sometimes sold in the aquarium trade. However, they are generally hard to care for because they need a very deep substrate and have special food requirements.

References

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  1. ^ a b Williams, Gary C. (2011-07-29). "The Global Diversity of Sea Pens (Cnidaria: Octocorallia: Pennatulacea)". PLoS ONE. 6 (7): e22747. Bibcode:2011PLoSO...622747W. doi:10.1371/journal.pone.0022747. PMC 3146507. PMID 21829500.
  2. ^ Kushida, Yuka (2019-02-05). "Molecular phylogeny and diversity of sea pens (Cnidaria: Octocorallia: Pennatulacea) with a focus on shallow water species of the northwestern Pacific Ocean". Molecular Phylogenetics and Evolution. 131: 233–244. Bibcode:2019MolPE.131..233K. doi:10.1016/j.ympev.2018.10.032. PMID 30471843.
  3. ^ Williams, Gary C. "Aspects of the Evolutionary Biology of Pennatulacean Octocorals". Department of Invertebrate Zoology and Geology. California Academy of Sciences. Retrieved 2023-01-27.
  4. ^ Antcliffe, J.B.; Brasier, M.D. (2008). "Charnia at 50: Developmental Models for Ediacaran Fronds". Palaeontology. 51 (1): 11–26. Bibcode:2008Palgy..51...11A. doi:10.1111/j.1475-4983.2007.00738.x. S2CID 83486435.
  5. ^ "Pennatulacea". World Register of Marine Species. Retrieved 2018-04-03.
  6. ^ López-González, Pablo J.; Drewery, Jim (23 February 2022). "When distant relatives look too alike: a new family, two new genera and a new species of deep-sea". Invertebrate Systematics. 36 (3): 199–225. doi:10.1071/IS21040. S2CID 248243502.
  7. ^ De Clippele, L. H.; Buhl-Mortensen, P.; Buhl-Mortensen, L. (15 August 2015). "Fauna associated with cold water gorgonians and sea pens". Continental Shelf Research. 105: 67–78. doi:10.1016/j.csr.2015.06.007.
  8. ^ a b Barnes, Robert D. (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 168–169. ISBN 0-03-056747-5.
  9. ^ Birkeland, Charles (February 1974). "Interactions between a Sea Pen and seven of its predators". Ecological Monographs. 44 (2): 211–232. Bibcode:1974EcoM...44..211B. doi:10.2307/1942312. JSTOR 1942312.
  10. ^ Zubi, Teresa (2016-01-02). "Octocorals (Stoloniferans, soft corals, sea fans, gorgonians, sea pens) - Starfish Photos - Achtstrahlige Korallen (Röhrenkorallen, Weichkorallen, Hornkoralllen, Seefedern, Fächerkorallen)". starfish.ch. Retrieved 2016-09-08.
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