Coralliidae

Last updated

Coralliidae
Corallo vivo.jpg
Corallium rubrum
Scientific classification Red Pencil Icon.png
Kingdom: Animalia
Phylum: Cnidaria
Class: Octocorallia
Order: Alcyonacea
Suborder: Scleraxonia
Family: Coralliidae
Lamouroux, 1812
Genera

see text

Coralliidae, also known as precious corals, is a taxonomic family of soft corals belonging to the phylum Cnidaria of the family Scleraxonia. [1] These sessile corals are one of the most dominant members of hard-bottomed benthic environments such as seamounts, canyons and continental shelves. [2] From this coral family results 69 descendants [3] in which each species plays a key role in forming habitats for a variety of marine species.

Contents

Due to their unique trait of possessing a red calcium carbonate skeleton, these corals can be harvested in order to create handcrafted amulets, jewelry and other valuable artifacts, giving rise to its reputed name of "precious corals". [4] Correspondingly, members of this family are vulnerable to the negative impacts of overharvestation imposed by mass coral trade. [5]

Description

Members of this family Coralliidae are also considered "soft corals" which are sedentary, colonial polypoids. Animals of this class have a simple cup shaped body that consists of two layers of cells, sloping peripheral platforms and wide axial pits. Each of these members have 8 unpaired, pinnate and 8 mesenteries utilized for filter feeding and defense. [6] All species have numerous calcareous skeletal elements called sclerites that can be found on the surface ranging from 3 mm to 5 mm, diverging in many directions. The endoskeleton is composed of tiny stick-like calcium carbonate rods that fuse together to form a rigid structure which may be colored red, pink, or white. Coralliidae exhibit two different distributions within a colony and their spacing across the colony surface. Corals can be either roughly equal in size and evenly distributed across the colony surface, or unevenly distributed and vary in size. However, the general trend observed is one of a proportionally positive relationship between coral colony age and polyp and height size. [2]

This family can be further classified, based upon their polyps distribution, into three genera based : Corallium , Hemicorallium , and Paracorallium:

GeneraDescriptionImage
CoralliumThis species is composed of small bumps (verracuae) that are slightly elevated from the surface of the corals. These verracue surround the entirety of the coral. The color of the cortex varies from the more common crimson red to the rarer yellow color to the even more rare color white. [7]
Corallium konojoi Corallium konojoi.jpg
Corallium konojoi
HemicoralliumThe verrucuae within this coral are slightly raised, like Corallium, but confined to one surface near the edges of the main branches forking in one direction. The color of the cortex is usually a cream white and the axis contains light red tints. [7]
Hemicorallium Hemicorallium.jpg
Hemicorallium
ParacoralliumThis genera is characterized by sclerite crosses and 6 and 8-radiate capstans that may or may not be symmetric which can give rise to smooth double clubs in some species in this genera. The color of the cortex is usually light red with the axis having light pint tints. [8]
Paracorallium japonicum Paracorallium japonicum, Aqualife.jpg
Paracorallium japonicum

Distribution

Species belonging to this family of Coralliidae typically inhabit tropical, subtropical and temperate oceans regions within oceans around the world. Unlike corals which can be found in shallow waters, these precious corals can be found in greater depths of 60 to 2,000 meters (200 to 6,560 feet). [9] Most species can be found in large numbers around the west and central Pacific, including the surrounding seas of New Caledonia, Taiwan, Japan and the Hawaiian Archipelago. Species diversity of this family of corals is decreased in the Atlantic, Indian, and eastern Pacific oceans. However, corals of the Hemicorallium and Paracorallium genera can be found in abundance around the seamounts around Japan and China. [9] Likewise, the corals of the genera Corallium are widespread along the Mediterranean and the neighboring Atlantic coasts and is primarily seen around the central and western basin. Whereas population tends to decrease in deeper water in the eastern basin and around the Canary Islands, southern Portugal and Cape Verde. [10] The two places to date that have been reported to have high levels of species diversity and exploited populations are the Mediterranean Sea and the adjacent Atlantic, together with the Northern Pacific Ocean.

Biological Behavior

Feeding

All polyps of the order Alcyonacea consists of tentacles and pinnules to capture food. The tentacles located on the coral lie in the same plane as the mesenteries, concave oral discs, but are bent slightly forward or backward. This orientation is beneficial in the feeding process as the tentacle(s) can enter what is known as the preparatory feeding position, giving rise to the raptorial manner of feeding observed in these corals.

Once food is captured by the tentacles, it will flex toward the mouth, where the food will then be sucked into the pharynx. After the tentacle is free of the food particle, it will then be flexed outward and assume the preparatory feeding position again. In order to capture bigger prey like brine shrimp, several tentacles must repeat the raptorial manner of feeding in conjunction. [11]

Reproduction

Within this family of the order Alconycea, also known as Octocorallia, two types of sexual reproduction strategies can be seen. One strategy involves the process where corals release both sperm and eggs into the water in mass quantities and fertilize, a process also known as broadcast spawning. The other involves fertilization in or on a maternal colony, in which embryos are incubated either internally or externally of the colony. Once fertilization takes place, the formation of a larval polyp known as a planula arises. This planula will then float around in the ocean for several days until it can attach to a hard surface and bud into a developing colony. [12] These reproductive strategies may also change from location to location, as seen within the species of the Corallium genera C. rubrum. Within the Indo-Pacific Ocean, this species uses broadcast spawning to reproduce whereas the Mediterranean species releases planulae, a larval form of the coral. Reproductive behavior appears also differ with temperature with as reproductivity is seen at higher levels during the months of May to August. [13]

Defense/Predation

These soft corals have nematocysts and allelochemicals, sclerites and other protective mechanisms that make them rarely predated upon. Along with these defense systems, corals have low nutritional value, therefore making them unpreferable as a choice of food. [14]

Overexploitation by Coral Trade

Coral fisheries impose detrimental effects on coral colonies within oceans around the world. Before the 1970s, fisheries involved extraction of coral using net attached dredges or small sailboats. However, by the 1970s, fisheries started to stray away from sail boats and began to utilize motorized boats that consisted of metal dredges much longer than those used prior to the 70s. These motorized boats were also capable of carrying much heavier weight aboard thus causing damage to the coral colonies underneath leading to limited a supply of corals. [15]

Due to the slow growth period of these corals, they cannot keep up with the rates in which coral harvesting occurs by these fisheries resulting in overexploitation. One area that experienced this decline in fishing yields was the Mediterranean Ocean in the 1980s, and as a result the United Nations soon placed guidelines on coral harvestation and banned dredging for corals in 1994. However, recently data has shown ongoing declining population numbers of the corals, which prompted the EU and the US to include the family Corallidae in the CITES Appendix II in order to regulate its trade. [16]

Related Research Articles

<span class="mw-page-title-main">Cnidaria</span> Aquatic animal phylum having cnydocytes

Cnidaria is a phylum under kingdom Animalia containing over 11,000 species of aquatic animals found both in freshwater and marine environments, predominantly the latter.

<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.

<span class="mw-page-title-main">Coral</span> Marine invertebrates of the class Anthozoa

Corals are marine invertebrates within the class Anthozoa of the phylum Cnidaria. They typically form compact colonies of many identical individual polyps. Coral species include the important reef builders that inhabit tropical oceans and secrete calcium carbonate to form a hard skeleton.

<span class="mw-page-title-main">Anthozoa</span> Class of cnidarians without a medusa stage

Anthozoa is a subphylum 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.

<span class="mw-page-title-main">Black coral</span> Order of soft deep-water corals with chitin skeletons

Antipatharians, also known as black corals or thorn corals, are an order of soft deep-water corals. These corals can be recognized by their jet-black or dark brown chitin skeletons, surrounded by the polyps. Antipatharians are a cosmopolitan order, existing at nearly every location and depth, with the sole exception of brackish waters. However, they are most frequently found on continental slopes under 50 m (164 ft) deep. A black coral reproduces both sexually and asexually throughout its lifetime. Many black corals provide housing, shelter, food, and protection for other animals.

<span class="mw-page-title-main">Strait of Sicily</span> The strait between Sicily and Tunisia

The Strait of Sicily is the strait between Sicily and Tunisia. The strait is about 145 kilometres (90 mi) wide and divides the Tyrrhenian Sea and the western Mediterranean Sea, from the eastern Mediterranean Sea. The maximum depth is 316 meters (1,037 ft).

<span class="mw-page-title-main">Alcyonacea</span> Order of octocorals that do not produce massive calcium carbonate skeletons

Alcyonacea,, are an order of corals. In addition to the fleshy soft corals, the order Alcyonacea now contains all species previously known as "gorgonian corals", that produce a more or less hard skeleton, though quite different from "true" corals (Scleractinia). These can be found in suborders Holaxonia, Scleraxonia, and Stolonifera. They are sessile colonial cnidarians that are found throughout the oceans of the world, especially in the deep sea, polar waters, tropics and subtropics. Common names for subsets of this order are sea fans and sea whips; others are similar to the sea pens of related order Pennatulacea. Individual tiny polyps form colonies that are normally erect, flattened, branching, and reminiscent of a fan. Others may be whiplike, bushy, or even encrusting. 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 aquaria.

<span class="mw-page-title-main">Octocorallia</span> A class of Anthozoa with 8-fold symmetry

Octocorallia 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 within three orders: Alcyonacea, Helioporacea, and Pennatulacea. 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.

<span class="mw-page-title-main">Precious coral</span> Genus of marine corals

Precious coral, or red coral, is the common name given to a genus of marine corals, Corallium. The distinguishing characteristic of precious corals is their durable and intensely colored red or pink-orange skeleton, which is used for making jewelry.

<span class="mw-page-title-main">Scleraxonia</span> Suborder of corals

Scleraxonia is a suborder of corals, a member of the phylum Cnidaria.

<i>Millepora alcicornis</i> Species of hydrozoan

Millepora alcicornis, or sea ginger, is a species of colonial fire coral with a calcareous skeleton. It is found on shallow water coral reefs in the tropical west Atlantic Ocean. It shows a variety of different morphologies depending on its location. It feeds on plankton and derives part of its energy requirements from microalgae found within its tissues. It is an important member of the reef building community and subject to the same threats as other corals. It can cause painful stings to unwary divers.

<i>Primnoa</i> Genus of corals

Primnoa(Lamororux, 1812) also known as red tree coral, is a genus of soft corals and the type genus of the family Primnoidae (Milne Edwards, 1857). They are sessile, benthic cnidarians that can be found in the North Pacific, North Atlantic, and Subantarctic South Pacific, and its members often play a vital ecological role as keystone species within their environment as a habitat and refuge for the megafauna that also inhabit those regions. This, in combination with their slow growth, makes the increasing disturbance to their habitats caused by fishing activities particularly impactful and difficult to recover from.

<i>Paramuricea clavata</i> Species of coral

Paramuricea clavata, the violescent sea-whip, is a species of colonial soft coral in the family Plexauridae. It is found in shallow seas of the north-eastern Atlantic Ocean and the north-western Mediterranean Sea as well as Ionian Sea. This species was first described by the French naturalist Antoine Risso in 1826.

<i>Leptogorgia sarmentosa</i> Species of coral

Leptogorgia sarmentosa is a species of colonial soft coral, a sea fan in the family Gorgoniidae. It is native to the eastern Atlantic Ocean and the western Mediterranean Sea, with a single find in the eastern Mediterranean.

<i>Alcyonium coralloides</i> Species of coral

Alcyonium coralloides, commonly known as false coral, is a colonial species of soft coral in the family Alcyoniidae. It is native to the northeastern Atlantic Ocean and the Mediterranean Sea. In the former location it generally grows as sheets or small lobes but in the latter it is parasitic and overgrows sea fans.

<i>Caryophyllia smithii</i> Species of coral

Caryophyllia smithii, the Devonshire cup coral, is a species of solitary coral in the family Caryophylliidae. It is native to the northeastern Atlantic Ocean, the North Sea and the Mediterranean Sea. There are shallow and deep-water forms which are structurally different. It forms part of a biodiverse community of rock encrusting organisms and is often parasitised by a barnacle.

<i>Maasella</i> Genus of corals

Maasella is a genus of soft coral in the family Paralcyoniidae. It is monotypic, with only a single species, Maasella edwardsi. Usually of greenish brown or golden brown color, each polyp has eight pinnate tentacles. This soft coral is found in the Mediterranean Sea and the Atlantic Ocean, at depths of between 2 and 50 metres.

Callogorgia elegans is a species of soft corals in the family Primnoidae. It is found in the north-western Pacific Ocean. Like other coral species, C. elegans is bottom-dwelling and sessile, or immobile.

<i>Gersemia juliepackardae</i> Species of cnidarian

Gersemia juliepackardae is a species of soft coral in the family Nephtheidae. It is found in the northeast Pacific Ocean, on seamounts or on the deep ocean bed. The coral is named in honour of Julie Packard, the executive director of the Monterey Bay Aquarium, for "her dedication to ocean stewardship and conservation, and for elevating public awareness about the ocean environment."

<i>Narella</i>

Narella is a genus of deep-sea soft corals in the family Primnoidae (Milne Edwards, 1857). They are sessile, bottom-dwelling organisms that can be found in all ocean basins, having cosmopolitan distribution. They have a branching appearance.

References

  1. "Coralliidae Lamouroux, 1812". World Register of Marine Species . Retrieved 21 April 2021.
  2. 1 2 Tu, Tzu-Hsuan (2015). "Phylogeny and systematics of deep-sea precious corals (Anthozoa: Octocorallia: Coralliidae)". Molecular Phylogenetics and Evolution . 84: 173–184. doi:10.1016/j.ympev.2014.09.031. PMID   25600709 via Elsevier Science Direct.
  3. "Lifemap". NCBI . Retrieved 21 April 2021.
  4. de Carvalho, Rui Galopim (2018). "Precious corals" (PDF). InColor. International Colored Gemstone Association. 37: 70–78 via Google Scholar.[ dead link ]
  5. Bruckner, A.W. (2014). "Advances in management of precious corals in the family Corallidae: are new measures adequate?". Current Opinion in Environmental Sustainability . 7: 1–8. doi:10.1016/j.cosust.2013.11.024 via Elsevier Science Direct.
  6. Cairns, Stephen (2002). "Studies on western Atlantic Octocorallia (Coelenterata: Anthozoa). Part 2: The genus Callogorgia Gray". Proceedings of the Biological Society of Washington . 4: 840–867 via Google Scholar.
  7. 1 2 Ridley, S.O. (1882). "On the Arrangement of the Coralliidtœ, with Descriptions of new or rare Species". Proceedings of the Zoological Society of London . 1882: 14 via Internet Archive.
  8. Cairns, Stephen (2003). "A new genus of the scleraxonian family Coralliidae (Octocorallia: Gorgonacea)" (PDF). Proceedings of the Biological Society of Washington. 1: 222–228 via Google Scholar.
  9. 1 2 de Carvalho, Rui Galopim (2018). "Precious corals" (PDF). InColor. International Colored Gemstone Association. 37: 70–78 via Google Scholar.[ dead link ]
  10. Cau, Angela; Cannas (17 July 2013). "Adaptive Management Plan for Red Coral in the GFCM Competence Area" (PDF): 1–65 via Google Scholar.{{cite journal}}: Cite journal requires |journal= (help)
  11. Lewis, John (1982). "Feeding behaviour and feeding ecology of the Octocorallia (Coelenterata: Anthozoa)". Journal of Zoology . 196 (3): 371–384. doi:10.1111/j.1469-7998.1982.tb03509.x.
  12. Simpson, A. (1 March 2011). "Precious Corals (Coralliidae) from North-Western Atlantic Seamounts". Marine Sciences Faculty Sciences via JSTOR.
  13. Masanori, Nonaka (2015). "Sexual reproduction in precious corals (Coralliidae) collected in the Ryukyu Archipelago". Pacific Science . 69 via Gale Academic OneFile.
  14. Benedetti, Maria (2016). "Growth patterns in mesophotic octocorals: Timing the branching process in the highly-valuable Mediterranean Corallium rubrum". Estuarine, Coastal and Shelf Science . 171: 106. Bibcode:2016ECSS..171..106B. doi:10.1016/j.ecss.2015.12.026 via Elselvier Science Direct.
  15. Bruckner, A.W. (2014). "Advances in management of precious corals in the family Corallidae: are new measures adequate?". Current Opinion in Environmental Sustainability. 7: 1–8. doi:10.1016/j.cosust.2013.11.024 via Elsevier Science Direct.
  16. Bramanti, Lorenzo (2013). "Management hurdles for sustainable harvesting of Corallium rubrum". Marine Policy . 39: 361–364. doi:10.1016/j.marpol.2012.12.010 via Elsevier Science Direct.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.