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Biology

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Fire corals are hydrozoans, and thus have different type of polyps with different functions than anthozoan corals. The polyps of hydrozoans are near microscopic size and are mostly imbedded in the skeleton and connected by a network of minute canals. All that is visible on the smooth surface are pores of two sizes: gastropores and dactylopores. In fact, Millepora means 'many pores'. Dactylopores have long fine hairs that protrude from the skeleton. The hairs possess clusters of stinging cells (nematocysts) that inflict the stings on human skin. These hairs capture prey, which is then engulfed by gastrozooids, or feeding polyps, situated within the gastropores (2). As well as capturing prey, fire corals gain nutrients via their special symbiotic relationship with algae known as zooxanthellae. The zooxanthellae live inside the tissues of the coral, and provide the coral with food, which they produce through photosynthesis, and therefore require sunlight. In return, the coral provides the algae with protection and access to sunlight. Reproduction in fire corals is more complex than in other reef-building corals. The polyps reproduce asexually, producing jellyfish-like medusae, which are released into the water from special cup-like structures known as ampullae. The medusae contain the reproductive organs that release eggs and sperm into the water. Fertilised eggs develop into free-swimming larvae that will eventually settle on the substrate and form new colonies. Fire corals can also reproduce asexually by fragmentation (4) (5).
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Conservation

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Fire corals are listed on Appendix II of the Convention on International Trade in Endangered Species (CITES), which means that trade in these species should be carefully regulated (1). Indonesia and Fiji both have quota systems for corals, monitored though CITES (1). The aim of the quotas are to ensure harvests are kept at a sustainable level, but in reality they are hard to set at the right level due to a lack of knowledge regarding coral biology. Fire corals will form part of the marine community in many Marine Protected Areas (MPAs), which offer coral reefs a degree of protection, and there are many calls from non-governmental organisations for larger MPAs to ensure the persistence of these unique and fascinating ecosystems (6).
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Description

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Fire corals get their common name from the painful stings they inflict on divers (2). Approximately 50 species of fire coral have been described, which express an array of growth forms. Growth forms range from colonies composed of tree-like branches, solid colonies that are typically dome-shaped, or colonies that adhere closely to the substrate (2). These reef-building (hermatypic) corals can be green, cream or yellow, and those species with branches have hollow cores, containing oxygen, that can be easily broken (2) (3). Other species form thick and sturdy colonies capable of withstanding the strongest wave action (3).
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Habitat

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Fire corals form extensive outcrops on projecting parts of the reef where the tidal currents are strong. They are also abundant on upper reef slopes and in lagoons (3), and occur down to depths of 40 metres (4).
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Range

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Occurs in the Indian and Pacific Oceans (3).
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Status

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Listed on Appendix II of CITES (1).
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Threats

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Fire corals face the many threats that are impacting coral reefs globally. It is estimated that 20 percent of the world's coral reefs have already been effectively destroyed and show no immediate prospects of recovery, and 24 percent of the world's reefs are under imminent risk of collapse due to human pressures. These human impacts include poor land management practices that are releasing more sediment, nutrients and pollutants into the oceans and stressing the fragile reef ecosystem. Overfishing has 'knock-on' effects that result in the increase of macro-algae that can out-compete and smother corals, and fishing using destructive methods physically devastates the reef. A further potential threat is the increase of coral bleaching events, as a result of global climate change (6). Most fire coral species have brittle skeletons that can easily be broken, for example, during storms, or by divers (2). Divers can easily break the branches of fire corals when diving for leisure, or when collecting fish for the aquarium trade. For instance, the yellowtail damselfish tends to dwell close to the branching fire coral colonies, and retreats into its branches when threatened. In Brazil, fire coral colonies are extensively damaged when harvesting the yellowtail damselfish, as the corals are often deliberately smashed and fishes hiding amongst the branches are 'shaken out' into plastic bags (7).
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Fire coral

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Fire corals (Millepora) are a genus of colonial marine organisms that exhibit physical characteristics similar to that of coral. The name coral is somewhat misleading, as fire corals are not true corals but are instead more closely related to Hydra and other hydrozoans, making them hydrocorals. They make up the only genus in the monotypic family Milleporidae.

Distinguishing characteristics

Fire corals have a bright, yellow-green to brown skeletal covering, and are widely distributed in tropical and subtropical waters. They appear in small, brush-like growths on rocks and coral. Divers often mistake fire coral for seaweed, and accidental contact is common. Upon contact, an intense pain can be felt, lasting from two days to two weeks. Occasional relapses of post-treatment inflammation are common. Prominent side effects can include skin irritation, stinging or burning pain, erythema (skin redness), fever, and/or urticarian (hives) lesions. These side effects are due to venom released from the nematocyte, as venom is part of the defense mechanism of the fire coral. Despite its mild to moderate potential for pain, the venom is nonlethal to humans.[1][2] The very small nematocysts on fire corals contain tentacles, protruding from numerous surface pores (similar to jellyfish stingers). In addition, fire corals have a sharp, calcified external skeleton that can scrape the skin.

Fire coral has several common growth forms; these include branching, plate, and encrusting. Branching fire coral adopts a calcareous structure which branches off into rounded, finger-like tips. Plate-growing fire coral forms a shape similar to that of fellow cnidarian lettuce corals - erect, thin sheets, which group together to form a colony. In encrusting fire coral, growth takes place on the surface structure of calcareous coral or gorgonian structures.[3]

The gonophores in the family Milleporidae arise from the coenosarc (the hollow living tubes of the upright branching individuals of a colony), within chambers embedded entirely in the coenosteum (the calcareous mass forming the skeleton of a compound coral).

Distribution and habitat

Fire corals are found on reefs in tropical and subtropical waters, such as the Indian Ocean, Pacific Ocean, and Atlantic Ocean and the Caribbean Sea.[4][5] The highest densities of fire coral are found in the marine waters of South and Southeast Asia; from India in the west to as far east as French Polynesia; south to coastal northern Australia, and north to Okinawa and extreme southern Japan. They are common in all coastal regions of the Arabian Peninsula and the Persian Gulf, as well as off of South Africa, and up the entire eastern side of the African continent; Madagascar, Seychelles, Mauritius, the Maldives, Cape Verde and the Galápagos Islands support known populations of fire coral. Additionally, they are found throughout the Caribbean, along Brazil’s Atlantic coast (near the equator), and both the Pacific and Atlantic coasts of Panamá. Fire corals form extensive outcrops on projecting parts of reefs where the tidal currents are strongest. They are also abundant on upper reef slopes and in lagoons,[6] and occur down to 40 metres (131 ft) deep.

Biology

The polyps of fire corals are near microscopic size and are mostly embedded in the skeleton and connected by a network of minute canals. All that is visible on the smooth surface are pores of two sizes: gastropores and dactylopores. In fact, Millepora means ‘thousand pores’. Dactylozooids have long fine hairs that protrude from the skeleton. The hairs possess clusters of stinging cells and capture prey, which is then engulfed by gastrozooids, or feeding polyps, situated within the gastropores. As well as capturing prey, fire corals gain nutrients via their special symbiotic relationship with algae known as zooxanthellae. The zooxanthellae live inside the tissues of the coral, and provide the coral with food, which they produce through photosynthesis, so require sunlight. In return, the coral provides the algae with protection and access to sunlight.[5]

Reproduction in fire corals is more complex than in other reef-building corals. The polyps reproduce asexually, producing jellyfish-like medusae, which are released into the water from special cup-like structures known as ampullae. The medusae contain the reproductive organs that release eggs and sperm into the water. Fertilised eggs develop into free-swimming larvae that will eventually settle on the substrate and form new colonies. Fire corals can also reproduce asexually by fragmentation.[7][8]

Various fire corals are among the most common causes of minor stinging incidents in humans.[9]

Threats and conservation

Fire corals face the many threats impacting coral reefs globally, including poor land management practices releasing more sediment, nutrients, and pollutants into the oceans and stressing the fragile reef ecosystem. Overfishing has ‘knock-on’ effects that result in the increase of macroalgae that can outcompete and smother corals, and fishing using destructive methods physically devastates the reef. A further potential threat is the increase of coral bleaching events, as a result of global climate change.[10]

Most fire coral species have brittle skeletons that can easily be broken, for example, during storms, or by divers when diving for leisure, or when collecting fish for the aquarium trade. For instance, the yellowtail damselfish (Chrysiptera parasema) tends to dwell close to the branching fire coral colonies, and retreats into its branches when threatened. In Brazil, fire coral colonies are extensively damaged when harvesting the yellowtail damselfish, as the corals are often deliberately smashed and fishes hiding amongst the branches are ‘shaken out’ into plastic bags.[11]

Fire corals are listed on Appendix II of the Convention on International Trade in Endangered Species (CITES).[12]

Species

Fifteen species of Millepora are currently recognised:[13]

Further reading

References

This article incorporates text from the ARKive fact-file "Fire coral" under the Creative Commons Attribution-ShareAlike 3.0 Unported License and the GFDL.

  1. ^ García-Arredondo, A., Murillo-Esquivel, L.J., Rojas, A. et al. (2014). Characteristics of hemolytic activity induced by the aqueous extract of the Mexican fire coral Millepora complanata. J Venom Anim Toxins Incl Trop Dis Vol. 20, Issue. 49
  2. ^ Moats, E. C. (1992). Fire Coral Envenomation Vol. 3.
  3. ^ "The Fire Corals". Aquarium Net. October 1996. Archived from the original on 2008-02-06. Retrieved 2007-07-03.
  4. ^ Kropp, M.L. Parsley B. C. Burnett, Lee Omer. (2018). Millepora species(Fire Coral) Sting: A Case Reportand Review of Recommended Management'. Vol. 29. Issue. 4. Wilderness and Environmental Medicine.
  5. ^ a b Veron, J.E.N. (2000) Corals of the World. Vol. 3. Australian Institute of Marine Sciences, Townsville, Australia.
  6. ^ Veron, J.E.N. (1986) Corals of Australia and the Indo-Pacific. Angus and Robertson Publishers, UK.
  7. ^ Wood, E.M. (1983) Reef corals of the world: biology and field guide. T.F.H. Publications, New Jersey, USA.
  8. ^ Wilkinson, C. (2004) Status of Coral Reefs of the World. Australian Institute of Marine Science, Townsville, Australia.
  9. ^ Auerbach, Paul S. (1991-08-15). Desforges, Jane F. (ed.). "Marine Envenomations". New England Journal of Medicine. Massachusetts Medical Society. 325 (7): 486–493. doi:10.1056/nejm199108153250707. ISSN 0028-4793. PMID 1677161.
  10. ^ Wilkinson, C. (2004) Status of Coral Reefs around the Word. Australian Institute of Marine Science, Townsville, Australia.
  11. ^ Gasparini, J.L., Floeter, S.R., Ferreira, C.E.L. and Sazima, I. (2005) Marine ornamental trade in Brazil. Biodiversity and Conservation, 14: 2883 - 2899.
  12. ^ CITES: Appendices I, II and III Archived November 16, 2008, at the Wayback Machine Retrieved 2011-08-24.
  13. ^ "WoRMS - World Register of Marine Species - Millepora Linnaeus, 1758". www.marinespecies.org. Retrieved 2018-02-17.

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Fire coral: Brief Summary

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Fire corals (Millepora) are a genus of colonial marine organisms that exhibit physical characteristics similar to that of coral. The name coral is somewhat misleading, as fire corals are not true corals but are instead more closely related to Hydra and other hydrozoans, making them hydrocorals. They make up the only genus in the monotypic family Milleporidae.

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