Difference between revisions of "Sea urchin" - New World Encyclopedia
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− | '''Sea urchin''' is the common name for various spine-covered [[echinoderm]]s within the class '''Echinoidea''', characterized by pentamerous radial symmetry, a mouth on the lower side facing the substratum composed of five jaws (Aristotle's lantern), and a hard calcareous shell or test made up of tightly fused, regularly arranged plates through which rows of tube feet extend. In a more general sense of the term, sea urchin sometimes is used as the common name for all members of Echinoidea. However, more specifically it is used to refer to the "regular echinoids" within subclass Euechinoidea that are pentraradially symmetrical and have their anus located on the aboral surface (opposite to the mouth). | + | '''Sea urchin''' is the common name for various movable spine-covered [[echinoderm]]s within the class '''Echinoidea''', characterized by pentamerous radial symmetry, a mouth on the lower side facing the substratum composed of five jaws (Aristotle's lantern), and a hard calcareous shell or test made up of tightly fused, regularly arranged plates through which rows of tube feet extend. In a more general sense of the term, sea urchin sometimes is used as the common name for all members of Echinoidea. However, more specifically it is used to refer to the "regular echinoids" within subclass Euechinoidea that are pentraradially symmetrical and have their anus located on the aboral surface (opposite to the mouth). |
− | The term thus does not include the pencil urchins in subclass Perishoechinoidea, nor the "irregular echinoids" within Euechinoidea, which include the heart urchins and sand dollars, that tend to be characterized by bilateral symmetry and a more flattened and oval test, with very short spines, and with the anus either posterior or on the oral surface. | + | The term thus does not include the pencil urchins in subclass Perishoechinoidea, nor the "irregular echinoids" within Euechinoidea, which include the heart urchins and sand dollars, that tend to be characterized by a secondary bilateral symmetry and a more flattened and oval test, with very short spines, and with the anus either posterior or on the oral surface. |
They are found in oceans all over the world. | They are found in oceans all over the world. | ||
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Sea urchins are members of the [[echinoderm|phylum Echinodermata]], which also includes [[starfish]], [[sea cucumber]]s, [[brittle star]]s, and [[crinoid]]s. Like other echinoderms they have fivefold symmetry (called [[symmetry (biology)#Pentamerism|pentamerism]]) and move by means of hundreds of tiny, transparent, adhesive "[[tube feet]]". The pentamerous symmetry is not obvious at a casual glance but is easily seen in the dried shell or test of the urchin. | Sea urchins are members of the [[echinoderm|phylum Echinodermata]], which also includes [[starfish]], [[sea cucumber]]s, [[brittle star]]s, and [[crinoid]]s. Like other echinoderms they have fivefold symmetry (called [[symmetry (biology)#Pentamerism|pentamerism]]) and move by means of hundreds of tiny, transparent, adhesive "[[tube feet]]". The pentamerous symmetry is not obvious at a casual glance but is easily seen in the dried shell or test of the urchin. | ||
− | The class Echinoidea comprises sea urchins, heart urchins, sand dollars, and pencil urchins. It is divided into two subclasses: Perischoechnoidea, which includes the pencil urchins, and Euechinoidea, which are the "true" echinoids. | + | The class Echinoidea comprises sea urchins, heart urchins, sand dollars, and pencil urchins. It is divided into two subclasses: Perischoechnoidea, which includes the pencil urchins, and Euechinoidea, which are the "true" echinoids. The true echinoids, in term, are divided into two groups: regular echinoids (or regular urchins), which contain the sea urchins, and irregular echinoids (irregular urchins), which contain the heart urchins and the sand dollars. All of these have fivefold radial symmetry (pentamerism), but the irregular urchins have secondary bilateral symmetry, with a front and back as well as a top and bottom. Also, while in the regular echinoids the anus is located in the center of the aboral surface (opposite to the mouth, on the dorsal surface), in the irregular echinoids the anus is either posterior or on the oral surface (Follo and Fautin 2001; Freeman 2004). |
+ | :Within the echinoderms, sea urchins are classified as '''echinoids''' (class Echinoidea). Specifically, the term "sea urchin" refers to the "regular echinoids," which are symmetrical and globular. The ordinary phrase "sea urchin" actually includes several different taxonomic groups: the Echinoida and the Cidaroida or "slate-pencil urchins", which have very thick, blunt spines (see image at right), and others (see taxonomic box on the right). Besides sea urchins, the Echinoidea also includes three groups of "irregular" echinoids: flattened [[sand dollar]]s, [[Seabiscuit (disambiguation)|sea biscuit]]s, and [[Echinocardium|heart urchin]]s. | ||
− | + | The name ''[[urchin]]'' is an old name for the round spiny [[hedgehog]]s that sea urchins resemble. | |
+ | Sea urchins tend to be small, globular, and have their soft internal organs protected by a hard, internal, calcite shell, or test, made of plates fitting closely together and located under the skin. Their test is round and spiny, typically from 3 to 10 centimeters across. Common colors include black and dull shades of green, olive, brown, purple, and red. | ||
− | + | They move slowly, feeding mostly on algae. [[Sea otters]], [[wolf eel|wolf eels]], and other predators feed on urchins. Sea urchins are harvested and served as a delicacy. | |
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At first glance, a sea urchin often appears [[sessile]], i.e. incapable of moving. Sometimes the most visible sign of life is the spines, which are attached at their bases to ball-and-socket joints and can be pointed in any direction. In most urchins, a light touch elicits a prompt and visible reaction from the spines, which converge toward the point that has been touched. A sea urchin has no visible eyes, legs, or means of propulsion, but it can move freely over surfaces by means of its adhesive tube feet, working in conjunction with its spines. | At first glance, a sea urchin often appears [[sessile]], i.e. incapable of moving. Sometimes the most visible sign of life is the spines, which are attached at their bases to ball-and-socket joints and can be pointed in any direction. In most urchins, a light touch elicits a prompt and visible reaction from the spines, which converge toward the point that has been touched. A sea urchin has no visible eyes, legs, or means of propulsion, but it can move freely over surfaces by means of its adhesive tube feet, working in conjunction with its spines. | ||
Revision as of 18:33, 12 October 2008
Sea urchin | ||||||||
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Sea urchins, Sterechinus neumayeri
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Sea urchin is the common name for various movable spine-covered echinoderms within the class Echinoidea, characterized by pentamerous radial symmetry, a mouth on the lower side facing the substratum composed of five jaws (Aristotle's lantern), and a hard calcareous shell or test made up of tightly fused, regularly arranged plates through which rows of tube feet extend. In a more general sense of the term, sea urchin sometimes is used as the common name for all members of Echinoidea. However, more specifically it is used to refer to the "regular echinoids" within subclass Euechinoidea that are pentraradially symmetrical and have their anus located on the aboral surface (opposite to the mouth).
The term thus does not include the pencil urchins in subclass Perishoechinoidea, nor the "irregular echinoids" within Euechinoidea, which include the heart urchins and sand dollars, that tend to be characterized by a secondary bilateral symmetry and a more flattened and oval test, with very short spines, and with the anus either posterior or on the oral surface.
They are found in oceans all over the world.
Overview and description
Sea urchins are members of the phylum Echinodermata, which also includes starfish, sea cucumbers, brittle stars, and crinoids. Like other echinoderms they have fivefold symmetry (called pentamerism) and move by means of hundreds of tiny, transparent, adhesive "tube feet". The pentamerous symmetry is not obvious at a casual glance but is easily seen in the dried shell or test of the urchin.
The class Echinoidea comprises sea urchins, heart urchins, sand dollars, and pencil urchins. It is divided into two subclasses: Perischoechnoidea, which includes the pencil urchins, and Euechinoidea, which are the "true" echinoids. The true echinoids, in term, are divided into two groups: regular echinoids (or regular urchins), which contain the sea urchins, and irregular echinoids (irregular urchins), which contain the heart urchins and the sand dollars. All of these have fivefold radial symmetry (pentamerism), but the irregular urchins have secondary bilateral symmetry, with a front and back as well as a top and bottom. Also, while in the regular echinoids the anus is located in the center of the aboral surface (opposite to the mouth, on the dorsal surface), in the irregular echinoids the anus is either posterior or on the oral surface (Follo and Fautin 2001; Freeman 2004).
- Within the echinoderms, sea urchins are classified as echinoids (class Echinoidea). Specifically, the term "sea urchin" refers to the "regular echinoids," which are symmetrical and globular. The ordinary phrase "sea urchin" actually includes several different taxonomic groups: the Echinoida and the Cidaroida or "slate-pencil urchins", which have very thick, blunt spines (see image at right), and others (see taxonomic box on the right). Besides sea urchins, the Echinoidea also includes three groups of "irregular" echinoids: flattened sand dollars, sea biscuits, and heart urchins.
The name urchin is an old name for the round spiny hedgehogs that sea urchins resemble.
Sea urchins tend to be small, globular, and have their soft internal organs protected by a hard, internal, calcite shell, or test, made of plates fitting closely together and located under the skin. Their test is round and spiny, typically from 3 to 10 centimeters across. Common colors include black and dull shades of green, olive, brown, purple, and red.
They move slowly, feeding mostly on algae. Sea otters, wolf eels, and other predators feed on urchins. Sea urchins are harvested and served as a delicacy.
At first glance, a sea urchin often appears sessile, i.e. incapable of moving. Sometimes the most visible sign of life is the spines, which are attached at their bases to ball-and-socket joints and can be pointed in any direction. In most urchins, a light touch elicits a prompt and visible reaction from the spines, which converge toward the point that has been touched. A sea urchin has no visible eyes, legs, or means of propulsion, but it can move freely over surfaces by means of its adhesive tube feet, working in conjunction with its spines.
On the oral surface of the sea urchin is a centrally located mouth made up of five united calcium carbonate teeth or jaws, with a fleshy tongue-like structure within. The entire chewing organ is known as Aristotle's lantern, which name comes from Aristotle's accurate description in his History of Animals:
- …the urchin has what we mainly call its head and mouth down below, and a place for the issue of the residuum up above. The urchin has, also, five hollow teeth inside, and in the middle of these teeth a fleshy substance serving the office of a tongue. Next to this comes the esophagus, and then the stomach, divided into five parts, and filled with excretion, all the five parts uniting at the anal vent, where the shell is perforated for an outlet... In reality the mouth-apparatus of the urchin is continuous from one end to the other, but to outward appearance it is not so, but looks like a horn lantern with the panes of horn left out. (Tr. D'Arcy Thompson)
The spines, which in some species are long and sharp, serve to protect the urchin from predators. The spines can inflict a painful wound on a human who steps on one, but they are not seriously dangerous, and it is not clear that the spines are truly venomous (unlike the pedicellariae between the spines, which are venomous).
Typical sea urchins have spines that are 1 to 3 cm in length, 1 to 2 mm thick, and not terribly sharp. Diadema antillarum, familiar in the Caribbean, has thin, potentially dangerous spines that can be 10 to 20 cm long.
Diet
Sea urchins feed mainly on algae, but can also feed on a wide range of invertebrates such as mussels, sponges, brittle stars and crinoids.[1] Sea urchin is one of the favorite foods of sea otters and are also the main source of nutrition for wolf eels. Left unchecked, urchins will devastate their environment, creating what biologists call an urchin barren, devoid of macroalgae and associated fauna. Where sea otters have been re-introduced into British Columbia, the health of the coastal ecosystem has improved dramatically.[2]
Geologic history
The earliest known echinoids are found in the rock of the upper part of the Ordovician period (c 450 MYA), and they have survived to the present day, where they are a successful and diverse group of organisms. In well-preserved specimens the spines may be present, but usually only the test is found. Sometimes isolated spines are common as fossils. Some echinoids (such as Tylocidaris clavigera, which is found in the Cretaceous period Chalk Formation of England) had very heavy club-shaped spines that would be difficult for an attacking predator to break through and make the echinoid awkward to handle. Such spines are also good for walking on the soft sea-floor.
Complete fossil echinoids from the Paleozoic era are generally rare, usually consisting of isolated spines and small clusters of scattered plates from crushed individuals. Most specimens occur in rocks from the Devonian and Carboniferous periods. The shallow water limestones from the Ordovician and Silurian periods of Estonia are famous for the echinoids found there. The Paleozoic echinoids probably inhabited relatively quiet waters. Because of their thin test, they would certainly not have survived in the turbulent wave-battered coastal waters inhabited by many modern echinoids today. During the upper part of the Carboniferous period, there was a marked decline in echinoid diversity, and this trend continued into the Permian period. They neared extinction at the end of the Paleozoic era, with just six species known from the Permian period. Only two separate lineages survived the massive extinction of this period and into the Triassic: the genus Miocidaris, which gave rise to the modern cidaroids (pencil urchins), and the ancestor that gave rise to the euechinoids. By the upper part of the Triassic period, their numbers began to increase again. The cidaroids have changed very little since their modern design was established in the Late Triassic and are today considered more or less as living fossils.
The euechinoids, on the other hand, diversified into new lineages throughout the Jurassic period and into the Cretaceous period, and from them emerged the first irregular echinoids (superorder Atelostomata) during the early Jurassic, and when including the other superorder (Gnathostomata) or irregular urchins which evolved independently later, they now represent 47% of all present species of echinoids thanks to their adaptive breakthroughs in both habit and feeding strategy, which allowed them to exploit habitats and food sources unavailable to regular echinoids. During the Mesozoic and Cenozoic eras the echinoids flourished. While most echinoid fossils are restricted to certain localities and formations, where they do occur, they are quite often abundant. An example of this is Enallaster, which may be collected by the thousands in certain outcrops of limestone from the Cretaceous period in Texas. Many fossils of the Late Jurassic Plesiocidaris still have the spines attached.
Some echinoids, such as Micraster which is found in the Cretaceous period Chalk Formation of England and France, serve as zone or index fossils. Because they evolved rapidly over time, such fossils are useful in enabling geologists to date the rocks in which they are found. However, most echinoids are not abundant enough and may be too limited in their geographic distribution to serve as zone fossils.
In the early Tertiary (c 65 to 1.8 MYA), sand dollars (order Clypeasteroida) arose. Their distinctive flattened test and tiny spines were adapted to life on or under loose sand. They form the newest branch on the echinoid tree.
Model Organism
Sea urchins are one of the traditional model organisms in developmental biology. The use of sea urchins in this context originates from the 1800s, when the embryonic development of the sea urchins was noticed to be particularly easily viewed by microscopy. Sea urchins were the first species in which the sperm cells were proven to play an important role in reproduction by fertilizing the ovum.
With the recent sequencing of the sea urchin genome, homology has been found between sea urchin and vertebrate immune system-related genes. Sea urchins code for at least 222 Toll-like receptor (TLR) genes and over 200 genes related to the Nod-like-receptor (NLR) family found in vertebrates[3]. This has made the sea urchin a valuable model organism for immunologists to study the evolution of innate immunity.
Gallery
Purple sea urchins Strongylocentrotus purpuratus in a California tide pool
References and further reading
- Smith, Andrew B. (1984), Echinoid Palaeobiology (Special topics in palaeontology). London: Allen & Unwin. ISBN 0-04-563001-1
http://animaldiversity.ummz.umich.edu/site/accounts/classification/Echinoidea.html#Echinoidea Animal Diversity Web Classification of the Echinoidea] Myers, P., R. Espinosa, C. S. Parr, T. Jones, G. S. Hammond, and T. A. Dewey. 2008. The Animal Diversity Web (online). Accessed October 12, 2008 at http://animaldiversity.org. Class Echinoidea (heart urchins, sand dollars, and sea urchins)
http://animaldiversity.ummz.umich.edu/site/accounts/information/Echinoidea.html Class Echinoidea: heart urchins, sand dollars, and sea urchins Follo, J. and D. Fautin. 2001. "Echinoidea" (On-line), Animal Diversity Web. Accessed October 12, 2008 at http://animaldiversity.ummz.umich.edu/site/accounts/information/Echinoidea.html
http://whale.wheelock.edu/archives/ask99/0388.html#The Ocean Alliance giving advice on sea urchin cleaning]
Bob Goemans http://www.saltcorner.com/sections/zoo/inverts/echinoderms/urchins/urchins.htm Urchins
Class Echinoidea Animal Library
- ↑ Template:Doi ref
- ↑ Aquatic Species at Risk - Species Profile - Sea Otter. Fisheries and Oceans Canada. Retrieved 2007-11-29.
- ↑ Rast, JP et al. Genomic insights into the immune system of the sea urchin. Science. 2006 Nov 10;314(5801):952-6.
External links
- Sea Urchin Harvesters Association - California Also, (604) 524-0322.
- The Echinoid Directory from the Natural History Museum.
- Echinoids of the North Sea
- 70% of Sea Urchin Genes Have a Human Counterpart — Sequencing confirms that sea urchins are more closely related to humans than fruit flies (LiveScience.com, November 2006).
- Spiny creature's genome insight
- 80 gallon tank video of purple sea urchin
- Echinoids.nl
- lantern.jpg A labeled diagram of the sea urchin's Aristotle's lantern.
- aristotle.htm Who is this person Aristotle and what about this lantern?
- www.emilydamstra.com Illustration of the musculature of an Aristotle's lantern.
- Urchin Anatomy a flash about the anatomy of the sea urchin
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