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''' Sea cucumbers''' are [[echinoderm]]s from the [[class (biology)|class]] '''Holothuroidea'''.
''' Sea cucumbbeerrss''' are [[echinoderm]]s from the [[class (biology)|class]] '''Holothuroidea'''.
They are [[marine animal]]s with a leathery skin and an elongated body containing a single, branched [[gonad]]. Sea cucumbers are found on the sea floor worldwide. The number of '''holothurian''' {{IPAc-en|ˌ|h|ɒ|l|o-|ˈ|θj|ʊər|i|ə|n}} species worldwide is about {{val|1716}}<ref>{{cite web |url=http://www.marinespecies.org/aphia.php?p=browser&id=148744&expand=true#ct |title=Holothuroidea |author=Paulay, G. |year=2014 |work=[[World Register of Marine Species]] |publisher= |accessdate=2 March 2014}}</ref> with the greatest number being in the Asia Pacific region.<ref name=PLoSone>{{cite journal |author=Du, H.; Bao, Z.; Hou, R.; Wang, S.; Su, H. et al. |year=2012 |title=Transcriptome Sequencing and Characterization for the Sea Cucumber ''Apostichopus japonicus'' (Selenka, 1867) |journal=PLoS ONE |volume=7 |issue=3 |pages=e33311 |doi=10.1371/journal.pone.0033311 |pmid= |pmc= |url=http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0033311 |accessdate= }}</ref> Many of these are gathered for human consumption and some species are cultivated in aquaculture systems. The harvested product is variously referred to as ''[[Trepanging|trepang]]'', ''bêche-de-mer'' or ''balate''. Sea cucumbers serve a useful role in the marine ecosystem as they help recycle nutrients, breaking down [[detritus]] and other organic matter after which bacteria can continue the degradation process.<ref name=PLoSone/>
They are [[marine animal]]s with a leathery skin and an elongated body containing a single, branched [[gonad]]. Sea cucumbers are found on the sea floor worldwide. The number of '''holothurian''' {{IPAc-en|ˌ|h|ɒ|l|o-|ˈ|θj|ʊər|i|ə|n}} species worldwide is about {{val|1716}}<ref>{{cite web |url=http://www.marinespecies.org/aphia.php?p=browser&id=148744&expand=true#ct |title=Holothuroidea |author=Paulay, G. |year=2014 |work=[[World Register of Marine Species]] |publisher= |accessdate=2 March 2014}}</ref> with the greatest number being in the Asia Pacific region.<ref name=PLoSone>{{cite journal |author=Du, H.; Bao, Z.; Hou, R.; Wang, S.; Su, H. et al. |year=2012 |title=Transcriptome Sequencing and Characterization for the Sea Cucumber ''Apostichopus japonicus'' (Selenka, 1867) |journal=PLoS ONE |volume=7 |issue=3 |pages=e33311 |doi=10.1371/journal.pone.0033311 |pmid= |pmc= |url=http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0033311 |accessdate= }}</ref> Many of these are gathered for human consumption and some species are cultivated in aquaculture systems. The harvested product is variously referred to as ''[[Trepanging|trepang]]'', ''bêche-de-mer'' or ''balate''. Sea cucumbers serve a useful role in the marine ecosystem as they help recycle nutrients, breaking down [[detritus]] and other organic matter after which bacteria can continue the degradation process.<ref name=PLoSone/>


Revision as of 16:36, 4 April 2014

For the food product made from sea cucumber, see Sea cucumber (food).

Sea cucumber
A sea cucumber from the Mediterranean Sea
Scientific classification
Kingdom:
Animalia
Phylum:
Echinodermata
Subphylum:
Echinozoa
Class:
Holothuroidea

Orders

Sea cucumbbeerrss are echinoderms from the class Holothuroidea. They are marine animals with a leathery skin and an elongated body containing a single, branched gonad. Sea cucumbers are found on the sea floor worldwide. The number of holothurian /ˌhɒl[invalid input: 'o-']ˈθjʊəriən/ species worldwide is about 1716[1] with the greatest number being in the Asia Pacific region.[2] Many of these are gathered for human consumption and some species are cultivated in aquaculture systems. The harvested product is variously referred to as trepang, bêche-de-mer or balate. Sea cucumbers serve a useful role in the marine ecosystem as they help recycle nutrients, breaking down detritus and other organic matter after which bacteria can continue the degradation process.[2]

Like all echinoderms, sea cucumbers have an endoskeleton just below the skin, calcified structures that are usually reduced to isolated microscopic ossicles (or sclerietes) joined by connective tissue. In some species these can sometimes be enlarged to flattened plates, forming an armour. In pelagic species such as the Sea Cucumber (Order Elasipodida, family Pelagothuriidae), the skeleton and a calcareous ring are absent.[3]

The sea cucumbers are named for their resemblance to the vegetable cucumber.

Overview

Sea cucumbers communicate with each other by sending hormone signals through the water. A remarkable feature of these animals is the "catch" collagen that forms their body wall.[Notes 1] This can be loosened and tightened at will, and if the animal wants to squeeze through a small gap, it can essentially liquefy its body and pour into the space. To keep itself safe in these crevices and cracks, the sea cucumber will hook up all its collagen fibres to make its body firm again.[4]

A sea cucumber in Mahé, Seychelles ejects sticky filaments from the anus in self-defence

Some species of coral-reef sea cucumbers within the order Aspidochirotida can defend themselves by expelling their sticky cuvierian tubules (enlargements of the respiratory tree that float freely in the coelom) to entangle potential predators. When startled, these cucumbers may expel some of them through a tear in the wall of the cloaca in an autotomic process known as evisceration. Replacement tubules grow back in 1.5 to 5 weeks, depending on the species.[2][5] The release of these tubules can also be accompanied by the discharge of a toxic chemical known as holothurin, which has similar properties to soap. This chemical can kill animals in the vicinity and is one more way in which these sedentary animals can defend themselves.[4]

If the water temperature becomes too high, some species of sea cucumber from temperate seas can aestivate. While they are in this state of dormancy they stop feeding, their gut atrophies, their metabolism slows down and they lose weight. The body returns to its normal state when conditions improve.[2]

They can be found in great numbers on the deep seafloor, where they often make up the majority of the animal biomass.[6] At depths deeper than 8.9 km (5.5 mi), sea cucumbers comprise 90% of the total mass of the macrofauna.[7] Sea cucumbers form large herds that move across the bathygraphic features of the ocean, hunting food. The body of some deep water holothurians, such as Enypniastes eximia, Peniagone leander and Paelopatides confundens,[8] is made of a tough gelatinous tissue with unique properties that makes the animals able to control their own buoyancy, making it possible for them to either live on the ocean floor or to actively swim [9] or float over it in order to move to new locations,[10]

In more shallow waters, sea cucumbers can form dense populations. The strawberry sea cucumber (Squamocnus brevidentis) of New Zealand lives on rocky walls around the southern coast of the South Island where populations sometimes reach densities of 1,000 animals per square meter (93 /sq ft). For this reason, one such area in Fiordland is called the strawberry fields.[11]

Emperor shrimp Periclimenes imperator on a Bohadschia argus sea cucumber

A variety of fish, most commonly pearl fish, have evolved a commensalistic symbiotic relationship with sea cucumbers in which the pearl fish will live in sea cucumber's cloaca using it for protection from predation, a source of food (the nutrients passing in and out of the anus from the water), and to develop into their adult stage of life. Many polychaete worms and crabs have also specialized to use the cloacal respiratory trees for protection by living inside the sea cucumber.[12]

The largest American species, Holothuria floridana, which abounds just below low-water mark on the Florida reefs, has volumes well over 500 cubic centimeters (31 cu in).[13]

Visitors to the Mariana Islands often encounter the local variation, called balate, which litters the seafloor all around the island, including in water as shallow as 91 cm (3 ft). These jet black sea cucumbers are normally 25–30 cm (10–12 in) long and 3.8–5.1 cm (1.5–2.0 in) in diameter and are often curled up, partially covered with sand from the seafloor.

The most common way to separate the subclasses is by looking at their oral tentacles. Subclass Dendrochirotacea has 8–30 oral tentacles, subclass Aspidochirotacea has 10–30 leaflike or shieldlike oral tentacles, while subclass Apodacea may have up to 25 simple or pinnate oral tentacles and is also characterized by reduced or absent tube feet, as in the order Apodida.[citation needed]

Anatomy

Conspicuous Sea Cucumber, Coconut Island, Hawaii

Sea cucumbers are typically 10 to 30 cm (3.9 to 11.8 in) in length, although the smallest known species is just 3 mm (0.12 in) long, and the largest can reach 1 meter (3.3 ft). The body ranges from almost spherical to worm-like, and lacks the arms found in many other echinoderms, such as starfish. The anterior end of the animal, containing the mouth, corresponds to the oral pole of other echinoderms (which, in most cases, is the underside), while the posterior end, containing the anus, corresponds to the aboral pole. Thus, compared with other echinoderms, sea cucumbers can be said to be lying on their side.[14]

Body plan

The body of a holothurian is roughly cylindrical. It is radially symmetrical along its longitudinal axis, and has weak bilateral symmetry transversely with a dorsal and a ventral surface. As in other Echinozoans, there are five ambulacra separated by five ambulacral grooves, the interambulacra. The ambulacral grooves bear four rows of tube feet but these are diminished in size or absent in some holothurians, especially on the dorsal surface. The two dorsal ambulacra make up the bivium while the three ventral ones are known as the trivium.[15]

At the anterior end, the mouth is surrounded by a ring of tentacles which are usually retractable into the mouth. These are modified tube feet and may be simple, branched or arborescent. They are known as the introvert and posterior to them there is an internal ring of large calcareous ossicles. Attached to this are five bands of muscle running internally longitudinally along the ambulacra. There are also circular muscles, contraction of which cause the animal to elongate and the introvert to extend. Anterior to the ossicles lie further muscles, contraction of which cause the introvert to retract.[15]

The body wall consists of an epidermis and a dermis and contains smaller calcareous ossicles, the types of which are characteristics which help to identify different species. Inside the body wall is the coelom which is divided by three longitudinal mesenteries which surround and support the internal organs.[15]

Diet and digestive system

A sea cucumber atop gravel, feeding

Holothuroidea are generally scavengers, feeding on debris in the benthic zone of the ocean. Exceptions include some pelagic cucumbers and the species Rynkatorpa pawsoni, which has a commensal relationship with deep-sea anglerfish.[16] The diet of most cucumbers consists of plankton and decaying organic matter found in the sea. Some sea cucumbers position themselves in currents and catch food that flows by with their open tentacles. They also sift through the bottom sediments using their tentacles. Other species can dig into bottom silt or sand until they are completely buried. They then extrude their feeding tentacles, ready to withdraw at any hint of danger.

In the South Pacific sea cucumbers may be found in densities of 40 specimens per square meter (33 /sq yd). These populations can process 19 kilograms of sediment per square meter (34 lb /sq yd) per year.[17]

A pharynx lies behind the mouth and is surrounded by a ring of ten calcareous plates. In most sea cucumbers, this is the only substantial part of the skeleton, and it forms the point of attachment for muscles that can retract the tentacles into the body for safety as for the main muscles of the body wall. Many species possess an oesophagus and stomach, but in some the pharynx opens directly into the intestine. The intestine is typically long and coiled, and loops through the body three times before terminating in a cloacal chamber, or directly as the anus.[14]

Nervous system

Sea cucumbers have no true brain. A ring of neural tissue surrounds the oral cavity, and sends nerves to the tentacles and the pharynx. The animal is, however, quite capable of functioning and moving about if the nerve ring is surgically removed, demonstrating that it does not have a central role in nervous coordination. In addition, five major nerves run from the nerve ring down the length of the body beneath each of the ambulacral areas.[14]

Most sea cucumbers have no distinct sensory organs, although there are various nerve endings scattered through the skin giving the animal a sense of touch and a sensitivity to the presence of light. There are, however, a few exceptions; members of the Apodida order are known to possess statocysts, while some species possess small eye-spots near the bases of their tentacles.[14]

Respiratory system

Sea cucumbers extract oxygen from water in a pair of "respiratory trees" that branch off the cloaca just inside the anus, so that they "breathe" by drawing water in through the anus and then expelling it.[18][19] The trees consist of a series of narrow tubules branching from a common duct, and lie on either side of the digestive tract. Gas exchange occurs across the thin walls of the tubules, to and from the fluid of the main body cavity.

Together with the intestine, the respiratory trees also act as excretory organs, with nitrogenous waste diffusing across the tubule walls in the form of ammonia and phagocytic coelomocytes depositing particulate waste.[14]

Circulatory systems

Like all echinoderms, sea cucumbers possess both a water vascular system that provides hydraulic pressure to the tentacles and tube feet, allowing them to move, and a haemal system. The latter is more complex than that in other echinoderms, and consists of well-developed vessels as well as open sinuses.[14]

A central haemal ring surrounds the pharynx next to the ring canal of the water vascular system, and sends off additional vessels along the radial canals beneath the ambulacral areas. In the larger species, additional vessels run above and below the intestine and are connected by over a hundred small muscular ampullae, acting as miniature hearts to pump blood around the haemal system. Additional vessels surround the respiratory trees, although they contact them only indirectly, via the coelomic fluid.[14]

Indeed, the blood itself is essentially identical with the coelomic fluid that bathes the organs directly, and also fills the water vascular system. Phagocytic coelomocytes, somewhat similar in function to the white blood cells of vertebrates, are formed within the haemal vessels, and travel throughout the body cavity as well as both circulatory systems. An additional form of coelomocyte, not found in other echinoderms, has a flattened discoid shape, and contains haemoglobin. As a result, in many (though not all) species, both the blood and the coelomic fluid are red in colour.[14]

Vanadium has been reported in high concentrations in holothurian blood,[20] however researchers have been unable to reproduce these results.[21]

Locomotion and exoskeleton

Pelagic sea cucumbers, such as this Enypniastes, are often confused with jellyfish, have webbed swimming structures enabling them to swim up off the surface of the seafloor and journey as much as 1,000 m (3,300 ft) up the water column

Like all echinoderms, sea cucumbers possess pentaradial symmetry. However, because of their posture, they have secondarily evolved a degree of bilateral symmetry. For example, because one side of the body is typically pressed against the substratum, and the other is not, there is usually some difference between the two surfaces. Like sea urchins, most sea cucumbers have five strip-like ambulacral areas running along the length of the body from the mouth to the anus. The three on the lower surface have numerous tube feet, often with suckers, that allow the animal to crawl along. The two on the upper surface have under-developed or vestigial tube feet, and, in some species, lack tube feet altogether.[14]

In some species, the ambulacral areas can no longer be distinguished, with tube feet spread over a much wider area of the body. Those of the subclass Apodacea have no tube feet or ambulacral areas at all, and burrow through sediment with muscular contractions of their body.[14]

However, even in those sea cucumbers that lack regular tube feet, those immediately around the mouth are always present. These are highly modified into retractile tentacles, much larger than the regular tube feet. Sea cucumbers have between ten and thirty such tentacles, depending on the species.[14]

Many sea cucumbers have papillae, conical fleshy projections of the body wall with sensory tube feet at their apices.[22]

Echinoderms typically possess an internal skeleton composed of plates of calcium carbonate. In most sea cucumbers, however, these have become reduced to microscopic ossicles embedded beneath the skin. A few genera, such as Sphaerothuria, retain relatively large plates, giving them a scaly armour.[14]

Reproduction and life cycle

Most sea cucumbers reproduce by releasing sperm and ova into the ocean water. Depending on conditions, one organism can produce thousands of gametes. Sea cucumbers are typically dioecious, with separate male and female individuals, but some species are protandric. The reproductive system consists of a single gonad, consisting of a cluster of tubules emptying into a single duct that opens on the upper surface of the animal, close to the tentacles.[14]

At least 30 species, including the red-chested sea cucumber (Pseudocnella insolens), fertilize their eggs internally and then pick up the fertilized zygote with one of their feeding tentacles. The egg is then inserted into a pouch on the adult's body, where it develops and eventually hatches from the pouch as a juvenile sea cucumber.[23] A few species are known to brood their young inside the body cavity, giving birth through a small rupture in the body wall close to the anus.[14]

In all other species, the egg develops into a free-swimming larva, typically after around three days of development. The first stage of larval development is known as an auricularia, and is only around 1 mm (39 mils) in length. This larva swims by means of a long band of cilia wrapped around its body, and somewhat resembles the bipinnaria larva of starfish. As the larva grows it transforms into the doliolaria, with a barrel-shaped body and three to five separate rings of cilia. The "pentacularia" is the third larval stage of sea cucumber, where the tentacles appears. The tentacles are usually the first adult features to appear, before the regular tube feet.[14]

Phylogeny

According to World Register of Marine Species :

Holothurians as food and medicine

Main article: Sea cucumber (food)
Dried sea cucumbers in a Japanese pharmacy in Japan

To supply the markets of Southern China, Macassan trepangers traded with the Indigenous Australians of Arnhem Land. This Macassan contact with Australia is the first recorded example of trade between the inhabitants of the Australian continent and their Asian neighbours.[24]

There are many commercially important species of sea cucumber that are harvested and dried for export for use in Chinese cuisine as Hoi sam. Some of the more commonly found species in markets include:[25]

According to the American Cancer Society, although it has been used in traditional Asian folk medicine for a variety of ailments, "there is little reliable scientific evidence to support claims that sea cucumber is effective in treating cancer, arthritis, and other diseases".[26]

There are pharmaceutical companies being built based on gamat.[citation needed] Extracts are prepared and made into oil, cream, or cosmetics. Some products are intended to be taken internally. A single study conducted on an unreported number of mice found intraperitoneal injection of sea cucumber extract to be somewhat effective in high doses (100 ppm or mg/kg) against internal pain, but ineffective against externally induced pain.[27] Another study suggested that the sea cucumber contains all the fatty acids necessary to play a potentially active role in tissue repair.[28] Sea cucumbers are being researched for use in treating a wide number of ailments; including colon cancer. [29] Surgical probes made of nanocomposite material based off the sea cucumber have been shown to reduce brain scarring. [30] One study found that a lectin from Cucumaria echinata impaired the development of the malaria parasite when produced by transgenic mosquitoes.[31]

Commercial harvest

In recent years, the sea cucumber industry in Alaska has increased due to increased export of the skins and muscles to China.[32]

In China, sea cucumbers are farmed commercially in artificial ponds. These ponds can be as large as 400 hectares (1,000 acres) and satisfy much of the local demand.[32] Wild sea cucumbers are caught by divers and these wild Alaskan sea cucumbers have higher nutritional value and are larger than farmed Chinese sea cucumbers. Larger size and higher nutritional value has allowed the Alaskan fisheries to continue to compete for market share, despite the increase in local, Chinese sea cucumber farming.[32]

One of Australia's oldest fisheries is the collection of sea cucumber, harvested by divers from throughout the Coral Sea in far North Queensland, Torres Straits and Western Australia. In the late 1800s there were as many as 400 divers operating from Cooktown, Queensland.

Overfishing of sea cucumbers in the Great Barrier Reef are threatening their population. [33]

Black market

As of 2013 there was a thriving black market in sea cucumbers driven by demand in China where a pound might sell for $300. In the Caribbean Sea off the shores of the Yucatán Peninsula near fishing ports such as Dzilam de Bravo illegal harvesting had devastated the population of sea cucumbers and resulted in conflict in the community as rival gangs struggled to control the illegal harvest.[34]

Aquaculture

Main article: Aquaculture of sea cucumber

Overexploitation of sea cucumber stocks in many parts of the world provided motivation for the development of sea cucumber aquaculture in the early 1980s. The Chinese and Japanese were the first to develop successful hatchery technology on Apostichopus japonicus, prized for its high meat content and success in commercial hatcheries.[35] Using the techniques pioneered by the Chinese and Japanese, a second species, Holothuria scabra, was cultured for the first time in India in 1988.[36] In recent years Australia, Indonesia, New Caledonia, Maldives, Solomon Islands and Vietnam have also successfully cultured H. scabra using the same technology, which has since been expanded to other species.[35]

In art and literature

Sea cucumber (a - Tentacles, b - Cloaca, c - Ambulacral feet on the ventral side, d - Papillae on the back)

Edgar Allan Poe's only novel, The Narrative of Arthur Gordon Pym of Nantucket (1838), includes in its twentieth chapter a long, detailed description of sea cucumbers, which the narrator calls biche de mer.

The first movement of French pianist Erik Satie's Embryons desséchés is titled "D'Holothournie". It is said to emulate the "purring" of the Holothourian.

Sea cucumbers have inspired thousands of haiku in Japan, where they are called namako (海鼠), written with characters that can be translated as "sea mice" (an example of gikun). In English translations of these haiku, they are usually called "sea slugs". According to the Oxford English Dictionary, the English term "sea slug" was originally applied to holothurians during the 18th century. The term is now applied to several groups of sea snails, marine gastropod mollusks that have no shell or only a very reduced shell, including the nudibranchs. Almost 1,000 Japanese holothurian haiku translated into English appear in the book Rise, Ye Sea Slugs! by Robin D. Gill.[37]

Nobel laureate poet Wisława Szymborska wrote a poem which mentions holothurians, titled "Autotomy".

In the book "John Dies at the End", the character Amy Sullivan was nicknamed "Cucumber" by the narrator/author when the two were children. This is assumed by other characters to have a sexual connotation but is actually a reference to her frequent nausea. The name is in reference to a sea cucumber's use of vomiting as a method of self-defense.

See also

Wikispecies has information related to Holothuroidea.

Notes

  1. ^ "Catch" collagen has two states, soft and stiff, that are under neurological control. Jose del Castillo and David S. Smith. (1996) "We Still Invoke Friction and Occam's Razor to Explain Catch in the Spines of Eucidaris Tribuloides." Biological Bulletin 190:243-244

Citations

  1. ^ Paulay, G. (2014). "Holothuroidea". World Register of Marine Species. Retrieved 2 March 2014.
  2. ^ a b c d Du, H.; Bao, Z.; Hou, R.; Wang, S.; Su, H.; et al. (2012). "Transcriptome Sequencing and Characterization for the Sea Cucumber Apostichopus japonicus (Selenka, 1867)". PLoS ONE. 7 (3): e33311. doi:10.1371/journal.pone.0033311. {{cite journal}}: Explicit use of et al. in: |author= (help)CS1 maint: multiple names: authors list (link) CS1 maint: unflagged free DOI (link)
  3. ^ Reich, Mike (30–31 January 2006). Lefebvre, B.; David, B.; Nardin, E. & Poty, E. (ed.). "Cambrian holothurians? – The early fossil record and evolution of Holothuroidea" (PDF). Journées Georges Ubaghs. Dijon, France: Université de Bourgogne: 36–37.{{cite journal}}: CS1 maint: multiple names: editors list (link)
  4. ^ a b Piper, Ross (2007). Extraordinary Animals: An Encyclopedia of Curious and Unusual Animals. Greenwood Press. ISBN 0-313-33922-8.
  5. ^ Flammang, Patrick (2002-12-01). "Biomechanics of adhesion in sea cucumber Cuvierian tubules (Echinodermata, Holothuroidea)". Integrative and Comparative Biology. 42 (6): 1107–1115. doi:10.1093/icb/42.6.1107. PMID 21680394. Retrieved 2007-10-03. {{cite journal}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)
  6. ^ Miller, Nat. "Sea Cucumbers". Retrieved 2007-10-03.
  7. ^ Sci-Tech Encyclopedia: Holothuroidea
  8. ^ Deep-sea demersal fish zone
  9. ^ Blue Planet Discovery Channel
  10. ^ Carney, Bob (2007-06-18). "The Kingdom of the Echinoderm". Retrieved 2007-10-03.
  11. ^ Alcock, Niki (2003). "Shedding new light on the humble sea cucumber". Aquatic Biodiversity & Biosecurity Update (3). New Zealand: National Institute of Water and Atmospheric Research. Retrieved 2007-10-03.
  12. ^ Toonen, Rob, Ph.D. (March 2003). "Aquarium Invertebrates". Advanced Aquarist's Online Magazine. 2 (3). Retrieved 2007-10-03.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  13. ^ For an example, in Charles Edward Lincoln, "Variation development and growth in Holothuria floridana" Biometrika 6.2–3 July 1908:279.
  14. ^ a b c d e f g h i j k l m n o Barnes, Robert D. (1982). Invertebrate Zoology. Philadelphia, PA: Holt-Saunders International. pp. 981–997. ISBN 0-03-056747-5.
  15. ^ a b c Cucumaria frondosa Invertebrate anatomy online. Retrieved 2012-02-12.
  16. ^ Brusca, R.C.; Brusca, G.J. (1990). Invertebrates. Massachusetts: Sinauer Associates. ISBN 0-87893-097-3.
  17. ^ Murphy, Richard C. (2002). Coral Reefs: Cities Under The Seas. The Darwin Press, Inc. p. 36. ISBN 0-87850-138-X.
  18. ^ "Holothurians or sea cucumbers". Retrieved 2007-10-03.
  19. ^ Ingram, Jocie (2006-06-16). "Knowing Nature... Cool as a Sea Cucumber". Retrieved 2007-10-03.
  20. ^ Phillips, Alexander (1918). A Possible Source of Vanadium in Sedimentary Rocks. Princeton University.
  21. ^ Ciereszko, L.; Ciereszko, E; Harris, E; Lane, C (1962). "On the Occurrence of Vanadium in Holothurians". Comparative Biochemistry and Physiology. 7: 127–9. doi:10.1016/0010-406X(62)90034-8. PMID 14021342.
  22. ^ Marine Species Identification Portal
  23. ^ Branch GM, Griffiths CL, Branch ML and Beckley LE (2005) Two Oceans ISBN 0-86486-672-0
  24. ^ Tippett, A. R. "The Voyage to Marege: Macassan Trepangers in Northern Australia". {{cite journal}}: Cite journal requires |journal= (help)
  25. ^ Ramofafia C., Byrne M., Battaglene S. C (2003). "Development of three commercial sea cucumbers, Holothuria scabra, H. fuscogilva and Actinopyga mauritiana: larval structure and growth". Marine and Freshwater Research. 54 (5): 657–667. doi:10.1071/MF02145. ISSN 1323-1650.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  26. ^ "Sea Cucumber". American Cancer Society. November 2008. Retrieved August 2013. {{cite web}}: Check date values in: |accessdate= (help)
  27. ^ B.H. Ridzwan , T.C. Leong and S.Z. Idid (2003). "The Antinociceptive Effects of Water Extracts from Sea Cucumbers Holothuria leucospilota Brandt, Bohadschia marmorata vitiensis Jaeger and Coelomic Fluid from Stichopus hermanii" (PDF). Pakistan Journal of Biological Sciences. 6 (24): 2068–2072. doi:10.3923/pjbs.2003.2068.2072.
  28. ^ B. D. Fredalina, B. H. Ridzwan, A. A. Zainal Abidin, M. A. Kaswandi, H. Zaiton, I. Zali, P. Kittakoop and A. M. Mat Jais (October 1999). "Fatty acid compositions in local sea cucumber, Stichopus chloronotus, for wound healing". General Pharmacology. 33 (4): 337–340. doi:10.1016/S0306-3623(98)00253-5. PMID 10523072.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  29. ^ Bordbar, S (2011). "High-value components and bioactives from sea cucumbers for functional foods—a review". Marine Drugs. 9 (10): 1761–805. doi:10.3390/md9101761. PMID 22072996. {{cite journal}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)CS1 maint: unflagged free DOI (link)
  30. ^ J P Harris; J R Capadona; R H Miller; B C Healy; K Shanmuganathan; S J Rowan; C Weder; D J Tyler (2011). "Mechanically adaptive intracortical implants improve the proximity of neuronal cell bodies". Journal of Neural Engineering. 8.
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  36. ^ James, D. B., Gandhi, A. D., Palaniswamy, N., & Rodrigo, J. X. (1994). Techniques and Culture of the Sea-cucumber Holothuria scabra. CMFRI Special Publication(57), 1-40.
  37. ^ Gill, Robin D. Rise, Ye Sea Slugs!. Paraverse Press, 2003, ISBN 0-9742618-0-7
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