The crown-of-thorns starfish (Acanthaster planci) is a large nocturnal sea star that preys upon coral polyps. The crown-of-thorns receives its name from venomous thorn-like spines that cover its body.
The crown-of-thorns is endemic to tropical coral reefs in the Red Sea, the Indian Ocean, and the Pacific Ocean. As solitary animals, they feed alone and maintain constant distance between themselves and other members of their species.
The crown-of-thorns is the second largest sea star in the world. Only the Giant Sunstar is larger.
Physical description and physiology
The crown-of-thorns can grow from the size of a grain of sand to the size of a dinner plate. An exceptionally large crown-of-thorns can grow to be the size of a school bus tire.
Like other sea stars, the crown-of-thorns is capable of limb regeneration, and can regrow to full size from a severed limb.
The sharp spines on the sides of the starfish's limbs resemble thorns and create a crown-like shape, giving the creature its name. These thorns are very sharp and are capable of piercing through standard wetsuits and other clothing. They are also venomous. When the crown-of-thorns feed, they release a chemical which is known to attract more starfish to the area.
The crown-of-thorns produces a neurotoxin which can be released through its spines. Not only are the wounds themselves serious, but the neurotoxin can cause a sharp stinging pain that can last for hours, as well as nausea and vomiting. Frequently, the area around the wound turns a dark blue and begins to swell (edema), which may persist for weeks. The spine(s) themselves may break off and become embedded inside the skin. This can lead to infection, and increased toxicity.
Some divers kill these predators by injecting the starfish's own stomach acid into each of their many legs..
The crown-of-thorns is a corallivore, a carnivorous predator that preys on reef coral polyps. They climb onto reef structures, and then extrude their stomach onto the coral. This releases digestive enzymes that allow the starfish to absorb nutrients from the liquefied coral tissue. The crown-of-thorns also preys on brittle stars in a similar fashion.
They are voracious predators... An individual starfish can consume up to 6 square metres (65 sq ft) of living coral reef per year.
During times of food shortage the crown-of-thorns can survive on energy reserves for over six months.
The natural defences of the adult starfish make it an unattractive target for other reef predators. Venom and sharp pointy parts aside, the Giant Triton (a mollusc) and the harlequin shrimp attack and feed on crown-of-thorns starfish. Some large reef fish, particularly humphead wrasse, may also prey on the starfish.
Sea star larvae are planktonic, so the major population control of the species comes from planktonic predation of junior species members.
The crown-of-thorns starfish has gained notoriety as a threat to the coral reef ecosystem, particularly in the Great Barrier Reef off the coast of Australia. Overpopulation of crown-of-thorns has been blamed for widespread reef destruction. Birkeland (1985) describes the starfish as one of the most influential species in the diverse biotic communities that make up tropical coral reefs.
Some ecologists point out that the starfish has an important and active role in maintaining coral reef biodiversity, driving ecological succession. Before overpopulation became a significant issue, crown-of-thorns growing coral from overpowering the slower growing coral.
Other factors negatively affecting the reef ecosystem, such as coral bleaching or Black band disease, mean that outbreaks of the crown-of-thorns can now cause permanent and devastating damage. Increasing outbreaks are also thought to be caused by possible environmental pollution triggers. Algal blooms caused by agricultural run-off may supply predators of crown-of-starfish larvae with plentiful alternative food sources. This seems the most logical explanation for the recent crown-of-thorns outbreak in the Tubbataha Reef, a UNESCO World Heritage Site. These explanations may also explain why massive outbreaks seemingly appearing out of nowhere, with no previous indication of an increasing population at the affected site.
The crown-of-thorns starfish may "promote transmission" of some coral diseases.
Population numbers for the crown-of-thorns have been increasing since the 1970s. However, historic records distribution patterns and numbers are hard to come by, as SCUBA technology, necessary to conduct population censuses, had only been developed in the previous few decades.
To prevent overpopulation of crown-of-thorns causing widespread destruction to coral reef habitats, humans have implemented a variety of control measures.
Injecting sodium bisulphate into the starfish is the most efficient measure in practice. Sodium bisulphate is deadly to crown-of-thorns, but it does not harm the surrounding reef and oceanic ecosystems.
When under stress the crown-of-thorns can create outbreaks and, if dismembered, can regenerate from each severed or damaged limb, creating more sea stars. Therefore, controlling the crown-of-thorns is difficult and much care is required.
The crown-of-thorns starfish has generally been considered as a single widespread species: A. planci. However, results from DNA analyses published in September 2008 suggest that the crown-of-thorns starfish is actually constituted of four species, with distinct distributions (Red Sea, Pacific, Northern and Southern Indian Ocean) .
Differences between these putative species in behaviour, diet, or habitat may be important for the design of appropriate reef conservation strategies.
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- ^ Pierre Madl (1998). "Acanthaster planci (An overview of the crown of thorns starfish)". http://www.sbg.ac.at/ipk/avstudio/pierofun/planci/planci.htm. Retrieved 2006-08-28.
- ^ Randall JE, SM Mead, APL Sanders (1978). "Food habits of the giant humphead wrasse cheilinus undulatus". http://www.springerlink.com/content/u2j78566854m1364/.
- ^ A.R. Bos, G.S. Gumanao & F.N. Salac (2008-02-09). "A newly discovered predator of the crown-of-thorns starfish". http://www.springerlink.com/content/b21mx171t2400680.
- ^ Larry Zetlin. (2004). Predators of the Great Barrier Reef. [TV-Special]. Queensland, Australia: Gulliver Media Australia.
- ^ Arthur R. Bos (January 2010). [http://zoolstud.sinica.edu.tw/Journals/49.1/124.pdf "Crown-of-thorns Outbreak at the Tubbataha Reefs UNESCO World Heritage Site"]. http://zoolstud.sinica.edu.tw/Journals/49.1/124.pdf.
- ^ Uthicke S, B Schaffelke and M Byrne (2009) "A boom-bust phylum?" Ecological and evolutionary consequences of density variations in echinoderms. Ecol. Monogr. 79: 3-24.
- ^ http://www.springerlink.com/content/8121g7t208586114/?p=90bb5361006843c18bae3dfa0434efb5&pi=50
- ^ "Controlling Crown-of Thorns Starfish". Great Barrier Reef Marine Park Authority. April 1995. http://www.reef.crc.org.au/publications/explore/feat45.html. Retrieved 15 December 2008.
- ^ Vogler C, Benzie J, Lessios H, Barber P, Wörheide G (2008-09-29). "A threat to coral reefs multiplied? Four species of crown-of-thorns starfish". Biology Letters (Royal Society). doi:10.1098/rsbl.2008.0454. http://journals.royalsociety.org/content/x87p263447251280/?p=75ccb31781484187840c4dfc8bf47f09&pi=0. Retrieved 2008-10-14.
- ^ "Coral-killing starfish turns out to be four species, not one". Yahoo! News. AFP. 2008-09-30. http://news.yahoo.com/s/afp/20080930/sc_afp/environmentspeciescoralstarfish;_ylt=AlnppU0dwoo3z3CO4DxhcwgPLBIF. Retrieved 2008-10-14.