Lace corals (Distichopora spp.)

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Distichopora sp. alongside yellow zoanthids
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Lace corals fact file

Lace corals description

KingdomAnimalia
PhylumCnidaria
ClassHydrozoa
OrderStylasterina
FamilyStylasteridae
GenusDistichopora (1)

Lace corals form ornate tree-like structures, with all the flattened, blunt-ended branches growing in one plane. These fan-like corals are remarkable for their bright colours (2), including violet, red, orange, and yellow, and grow up to 25 cm tall (3). The colour is deposited within the limestone skeleton and remains even after the animal tissue is gone, unlike reef-building corals which have white skeletons and the only colour is found in the living tissue (4)

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Lace corals biology

Unlike many coral species, lace corals do not have the symbiotic algae zooxanthellae living within the coral tissue; they are azooxanthellate (2). They are therefore not dependent on light and thus can live where the reef-building corals, dependent on photosynthetic algae, can not.

Lace 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, connected by a network of minute canals. All that is visible on the smooth surface are pores of two sizes; gastropores and dactylopores. The rows of gastropores flanked by one of two rows of dactylopores are diagnostic of the genus (3). Dactylopores house long fine hairs that protrude from the skeleton. The hairs possess clusters of stinging cells (nematocysts) that can inflict stings on human skin. These hairs capture prey, which is engulfed by gastrozooids, or feeding polyps, situated within the gastropores (2).

Reproduction in lace corals is more complex than in 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, which 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. Lace corals can also reproduce asexually by fragmentation (5) (6).

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Lace corals range

Occurs throughout the Indo-west Pacific and the Galapagos Islands and is restricted to deep water in some regions, including Hawaii (2). More recently, a species was discovered off the coast of Panama, and thus extends this genera’s range to the eastern Pacific (3).

See this species on Google Earth.

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Lace corals habitat

Distichopora corals occur in temperate as well as tropical waters, and also occur at abyssal depths. Commonly found in caves and under overhangs in shallow reef environments, and in crevices, under ledges and in caverns (2).

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Lace corals status

Listed on Appendix II of CITES (1).

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Lace corals threats

Lace 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. Over fishing has ‘knock-on’ effects that results 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 (7). Lace corals are also potentially threatened by the global coral trade, for use in aquariums, or for jewellery and ornaments, however, the amount in trade is significantly smaller compared to many other coral genera (8).

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Lace corals conservation

Lace corals are listed on Appendix II of the Convention on International Trade in Endangered Species (CITES), which means that trade in this species should be carefully regulated (1). Indonesia and Fiji both have quota systems for corals, including lace corals, monitored though CITES (1). Lace 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 (7).

View information on this species at the UNEP World Conservation Monitoring Centre.
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Find out more

For further information on this species see Veron, J.E.N. (2000) Corals of the World. Vol. 3. Australian Institute of Marine Science, Townsville, Australia.

For further information on the conservation of coral reefs see:

 

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Authentication

This information is awaiting authentication by a species expert, and will be updated as soon as possible. If you are able to help please contact:
arkive@wildscreen.org.uk

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Glossary

Asexually
Relating to asexual reproduction: reproduction that does not involve the formation of sex cells, such as sperm and eggs. Asexual reproduction only involves one parent, and all the offspring produced by asexual reproduction are identical to one another.
Colonies
Relating to corals: corals composed of numerous genetically identical individuals (also referred to as zooids or polyps), which are produced by budding and remain physiologically connected.
Fragmentation
Fragmentation is a form of asexual reproduction where a new organism grows from a fragment of the parent. Each fragment develops into a mature, fully grown individual.
Larvae
Relating to corals: the stages of development before settlement on the reef. Larvae are typically very different in appearance to adults; they are able to feed and move around but usually are unable to reproduce.
Photosynthetic
Plants that carry out a metabolic process in which carbon dioxide is broken down, using energy from sunlight absorbed by the green pigment chlorophyll. Organic compounds are produced and oxygen is given off as a by-product.
Polyps
Typically sedentary soft-bodied component of Cnidaria (corals, sea pens etc), which comprise of a trunk that is fixed at the base; the mouth is placed at the opposite end of the trunk, and is surrounded by tentacles.
Symbiotic
Describing a close relationship between two organisms. This term usually refers to a relationship that benefits both organisms.
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References

  1. CITES (October, 2009)
    http://www.cites.org
  2. Veron, J.E.N. (2000) Corals of the World. Vol. 3. Australian Marine Science Institute, Townsville, Australia.
  3. Lindner, A., Cairns, S.D. and Guzman, H.M. (2004) Distichopora robusta sp. nov., the first shallow-water stylasterid (Cnidaria: Hydrozoa: Stylasteridae) from the tropical eastern Pacific. Journal of the Marine Biological Association of the UK, 84: 943 - 947.
  4. Waikïkï Aquarium Education Department (July, 2007)
    http://www.waquarium.org/MLP/search/sp_lace_coral.html
  5. Borneman, E.H. (2001) Aquarium corals; Selection, Husbandry and Natural History. T.F.H. Publications, New Jersey, USA.
  6. Wood, E.M. (1983) Reef corals of the world: biology and field guide. T.F.H. Publications, New Jersey, USA.
  7. Wilkinson, C. (2004) Status of Coral Reefs of the World. Australian Institute of Marine Science, Townsville, Australia.
  8. Green, E. and Shirley, F. (1999) The Global Trade in Corals. World Conservation Press, Cambridge, UK.
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Image credit

Distichopora sp. alongside yellow zoanthids  
Distichopora sp. alongside yellow zoanthids

© Gary Bell / OceanwideImages.com

Oceanwide Images - Gary Bell
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Tel: +61 (2) 6658 5657
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