Paracorynactis

Paracorynactis
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Cnidaria
Class:	Hexacorallia
Order:	Corallimorpharia
Family:	Corallimorphidae
Genus:	Paracorynactis ; Ocaña, den Hartog, Brito, & Bos, 2010
Species:	P. hoplites
Binomial name
	Paracorynactis hoplites; (Haddon & Shackleton, 1893)
Synonyms
	Corynactis hoplites; Haddon & Shackleton, 1893 ; Pseudocorynactis hoplites; (Haddon & Shackleton, 1893);

Last updated April 04, 2024

Paracorynactis is a genus of corallimorphs from the western Indo-West Pacific. They are specialized predators of echinoderms, and are notable for preying on the destructive crown-of-thorns starfish ( Acanthaster planci ) among others. The genus is monotypic with the single species, Paracorynactis hoplites.

Taxonomy

Paracorynactis hoplites is the only species classified under the genus Paracorynactis. It belongs to the family Corallimorphidae of the corralimorph order Corallimorpharia. It was first described as Corynactis hoplites by the British biologists Alfred Cort Haddon and Alice M. Shackleton in 1893.^[1]

In 1980, it was transferred by the Dutch marine biologist Jacobus Cornelis den Hartog to the newly created genus Pseudocorynactis . In 2010, Ocaña et al. noted the difference in tentacle development between this species and other members of the family Corallimorphidae. It was again transferred to a new genus, Paracorynactis.^[2]

Description

Paracorynactis hoplites polyps can vary in diameter from as small as only 2 mm (0.08 in) to as large as 21 cm (8 in). Their tentacles end in extremely sticky balls (acrospheres) covered with stinging cells (nematocysts).^[3]

Distribution and habitat

Paracorynactis hoplites are known to occur in coral reefs in Australia, Indonesia, Malaysia, the Marshall Islands, Papua New Guinea, Philippines, and was recently encountered in Kenya.^[4]Paracorynactis hoplites are usually attached in reef crevices and under coral ledges at a maximum depth of 28 m (92 ft). Most, however, can be found within 1 to 10 m (3 to 33 ft) of the water's surface. Incidentally, these are areas which are also commonly used by their prey (echinoderms) for shelter.^[3]

Ecology and behavior

Paracorynactis hoplites polyps will continually move their tentacles in an effort to detect prey. When an acrosphere comes in contact with suitable prey, it will immediately stick unto the prey's skin while firing its stinging cells (nematocysts). The polyp then extends itself towards the prey, bringing all the other remaining acrospheres towards the prey until it is trapped. The body can extend to five times its normal length when doing this. The polyp will then slowly pull the prey towards its mouth and digest it. Once the soft tissues are dissolved, the undigested pieces of the prey (e.g. spines) are regurgitated.^[3]

Small prey are swallowed whole. Larger stiff-bodied prey, however, usually only get partially eaten before escaping by breaking the captured limb(s) off (autotomy). Captured large starfish, for example, usually only lose one arm.^[3]^[5]

Paracorynactis hoplites are highly efficient predators of echinoderms. They specialize in preying on sea stars and short-spined sea urchins. They are also known to prey on sea cucumbers, brittle stars, and nudibranchs to a lesser extent, which indicates that they can potentially prey upon all soft-bodied slow-moving animals. They are also believed to supplement their diet with plankton when prey is scarce, as with other corallimorphs and sea anemones. But they will also refuse additional food once a prey has been recently captured and digested.^[3]

Animals with smooth shells or long spines generally seem to be rejected as prey by Paracorynactis hoplites polyps. Among them are long-spined sea urchins like Diadema setosum , Diadema savignyi , and Echinothrix calamaris . Brittle stars of the genus Ophiomastix as well as shelled gastropods are also not attacked.^[3]^[5]

Paracorynactis hoplites is interesting for its ability to capture even large sea stars like horned sea stars ( Protoreaster nodosus ) and the crown-of-thorns starfish ( Acanthaster planci ). Polyps 170 mm (7 in) in diameter have been observed capturing sea stars as large as 340 mm (13 in) across. Paracorynactis hoplites also do not seem to be affected by the toxins of venomous echinoderms like the aforementioned crown-of-thorns starfish and the flower urchin ( Toxopneustes pileolus ); both of which are toxic to humans, fish, and other marine predators.^[3]

Paracorynactis hoplites are also used as hosts by several symbiotic species of cleaner shrimp that aren't affected by their stinging cells. These include Thor amboinensis (sexy shrimp), Stenopus hispidus (banded coral shrimp), Ancylomenes holthuisi , and Cuapetes lacertae . Several species of fish have also been observed living among the tentacles of Paracorynactis hoplites with no adverse effects. Among them are cardinalfishes like Ostorhinchus multilineatus (multi-striped cardinalfish), Ostorhinchus nigrofasciatus (blackstripe cardinalfish), and Cheilodipterus quinquelineatus (five-lined cardinalfish); and gobies like Trimma nasa (nasal dwarfgoby) and Eviota pellucida (neon pygmy goby).^[3]

Importance

Paracorynactis hoplites may prove valuable as natural population control measures for the highly ecologically destructive crown-of-thorns starfish.^[3]

Related Research Articles

<span class="mw-page-title-main">Polyp (zoology)</span> One of two forms found in the phylum Cnidaria (zoology)

A polyp in zoology is one of two forms found in the phylum Cnidaria, the other being the medusa. Polyps are roughly cylindrical in shape and elongated at the axis of the vase-shaped body. In solitary polyps, the aboral end is attached to the substrate by means of a disc-like holdfast called a pedal disc, while in colonies of polyps it is connected to other polyps, either directly or indirectly. The oral end contains the mouth, and is surrounded by a circlet of tentacles.

An echinoderm is any deuterostomal animal of the phylum Echinodermata, which includes starfish, brittle stars, sea urchins, sand dollars and sea cucumbers, as well as the sessile sea lilies or "stone lilies". While bilaterally symmetrical as larvae, as adults echinoderms are recognisable by their usually five-pointed radial symmetry, and are found on the sea bed at every ocean depth from the intertidal zone to the abyssal zone. The phylum contains about 7,000 living species, making it the second-largest group of deuterostomes after the chordates, as well as the largest marine-only phylum. The first definitive echinoderms appeared near the start of the Cambrian.

Starfish or sea stars are star-shaped echinoderms belonging to the class Asteroidea. Common usage frequently finds these names being also applied to ophiuroids, which are correctly referred to as brittle stars or basket stars. Starfish are also known as asteroids due to being in the class Asteroidea. About 1,900 species of starfish live on the seabed in all the world's oceans, from warm, tropical zones to frigid, polar regions. They are found from the intertidal zone down to abyssal depths, at 6,000 m (20,000 ft) below the surface.

Anthozoa is a class of marine invertebrates which includes the sea anemones, stony corals and soft corals. Adult anthozoans are almost all attached to the seabed, while their larvae can disperse as part of the plankton. The basic unit of the adult is the polyp; this consists of a cylindrical column topped by a disc with a central mouth surrounded by tentacles. Sea anemones are mostly solitary, but the majority of corals are colonial, being formed by the budding of new polyps from an original, founding individual. Colonies are strengthened by calcium carbonate and other materials and take various massive, plate-like, bushy or leafy forms.

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References

↑ Alfred Cort Haddon & Alice M. Shackleton (1893). "Description of some new species of Actiniaria from Torres Straits". Scientific Proceedings of the Royal Dublin Society. New Series. 8: 116–131.
↑ O. Ocaña; J.C. den Hartog; A. Brito & A.R. Bos (2010). "On Pseudocorynactis species and another related genus from the Indo-Pacific (Anthozoa: Corallimorphidae)". Revista de la Academia Canarias Ciencia. 21 (3–4): 9–34.
1 2 3 4 5 6 7 8 9 Arthur R. Bos; Benjamin Mueller & Girley S. Gumanao (2011). "Feeding biology and symbiotic relationships of the corallimorpharian Paracorynactis hoplites (Anthozoa: Hexacorallia)" (PDF). The Raffles Bulletin of Zoology. 59 (2): 245–250. Archived from the original (PDF) on 2014-02-21.
↑ Wickel J., M. Pinault, R Garnier & A.R. Bos (2017). "The corallimorpharian Paracorynactis hoplites feeds on the sea star Choriaster granulatus in the western Indian ocean". Marine Biodiversity. 47 (1): 159–160. doi:10.1007/s12526-016-0461-x. S2CID 37156944.{{cite journal}}: CS1 maint: multiple names: authors list (link)
1 2 A.R. Bos; G.S. Gumanao & F.N. Salac (2008). "A newly discovered predator of the crown-of-thorns starfish". Coral Reefs. 27 (3): 581. Bibcode:2008CorRe..27..581B. doi:10.1007/s00338-008-0364-9. S2CID 34920961.

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[ac-1] Alfred Cort Haddon & Alice M. Shackleton (1893). "Description of some new species of Actiniaria from Torres Straits". Scientific Proceedings of the Royal Dublin Society. New Series. 8: 116–131.

[ocana-2] O. Ocaña; J.C. den Hartog; A. Brito & A.R. Bos (2010). "On Pseudocorynactis species and another related genus from the Indo-Pacific (Anthozoa: Corallimorphidae)". Revista de la Academia Canarias Ciencia. 21 (3–4): 9–34.

[bos-3] 1 2 3 4 5 6 7 8 9 Arthur R. Bos; Benjamin Mueller & Girley S. Gumanao (2011). "Feeding biology and symbiotic relationships of the corallimorpharian Paracorynactis hoplites (Anthozoa: Hexacorallia)" (PDF). The Raffles Bulletin of Zoology. 59 (2): 245–250. Archived from the original (PDF) on 2014-02-21.

[4] Wickel J., M. Pinault, R Garnier & A.R. Bos (2017). "The corallimorpharian Paracorynactis hoplites feeds on the sea star Choriaster granulatus in the western Indian ocean". Marine Biodiversity. 47 (1): 159–160. doi:10.1007/s12526-016-0461-x. S2CID 37156944.{{cite journal}}: CS1 maint: multiple names: authors list (link)

[newpred-5] 1 2 A.R. Bos; G.S. Gumanao & F.N. Salac (2008). "A newly discovered predator of the crown-of-thorns starfish". Coral Reefs. 27 (3): 581. Bibcode:2008CorRe..27..581B. doi:10.1007/s00338-008-0364-9. S2CID 34920961.

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