AMPHIBIAN
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(Redirected from Amphibia)
'Amphibians' (class 'Amphibia'; from Greek ''αμφις'' "both" and ''βιος'' "life") are a taxon of animals that include all living tetrapods (four-legged vertebrates) that do not have amniotic eggs, are ectothermic (term for the animals whose body heat is regulated by the external environment; previously known as cold-blooded), and generally spend part of their time on land. Most amphibians do not have the adaptations to an entirely terrestrial existence found in most other modern tetrapods (amniotes). There are around 6,000 described, living species of amphibians. The study of amphibians and reptiles is known as herpetology. Amphibians are able to breathe through their skin.
Traditionally the amphibians have included all tetrapods that are not amniotes. They are divided into three subclasses:
★ Subclass Labyrinthodontia (diverse Paleozoic and early Mesozoic group)
★ Subclass Lepospondyli (small Paleozoic group)
★ Subclass Lissamphibia (frogs, salamanders, etc)
Of these only the last includes recent species.
With the cladistic revolution, this classification has been modified, and the Labyrinthodontia discarded as being a paraphyletic group without unique defining features apart from shared primitive characteristics. Classification varies according to the preferred phylogeny of the author, and whether they use a stem-based or node-based classification. Generally amphibians are defined as the group that includes the common ancestors of all living amphibians (frogs, salamanders, etc) and all their descendants. This may also include extinct groups like the temnospondyls (traditionally placed in the disbanded subclass "labyrinthodontia"), and the Lepospondyls. This means that there are a now large number of basal Devonian and Carboniferous tetrapod groups, described as "amphibians" in earlier books, that are no longer placed in the formal Amphibia.
All recent amphibians are included in the Lissamphibia, which is usually considered a clade (which means that it is thought that all Lissamphibians evolved from a common ancestor apart from other extinct groups), although it has also been suggested also that salamanders arose separately from a temnospondyl-like ancestor (Carroll, 2007).
Authorities also disagree on whether Salientia is a Superorder that includes the order Anura, or whether Anura is a sub-order of the order Salientia. In effect Salientia includes all the Anura plus a single Triassic proto-frog species, ''Triadobatrachus''. Practical considerations seem to favour using the former arrangement now.
The Lissamphibia are traditionally divided into three orders, but an extinct salamander-like group, the Albanerpetontidae, is now considered in addition to the other three groups.
★ Family ''Albanerpetontidae'' - Jurassic to Miocene (extinct)
★ Superorder ''Salientia''
★
★ ''Triadobatrachus'' (Triassic)
★
★ Order ''Anura'' (frogs and toads): Jurassic to recent - 5,362 recent species
★
★ Order ''Caudata'' or ''Urodela'' (salamanders): Jurassic to recent - 556 recent species
★
★ Order ''Gymnophiona'' or ''Apoda'' (caecilians): Jurassic to recent - 173 recent species
For the purpose of reproduction most amphibians are bound to fresh water. A few tolerate brackish water, but there are no true seawater amphibians. Several hundred frog species in adaptive radiations (e.g., ''Eleutherodactylus'', the Pacific Platymantines, the Australo-Papuan microhylids, and many other tropical frogs), however, do not need any water whatsoever. They reproduce via direct development, an ecological and evolutionary adaptation that has allowed them to be completely independent from free-standing water. Almost all of these frogs live in wet tropical rainforests and their eggs hatch directly into miniature versions of the adult, passing through the tadpole stage within the egg. Several species have also adapted to arid and semi-arid environments, but most of them still need water to lay their eggs. Symbiosis with single celled algae that lives in the jelly-like layer of the eggs has evolved several times. The larvae (tadpoles or polliwogs) breathe with exterior gills. After hatching, they start to transform gradually into the adult's appearance. This process is called metamorphosis. Typically, the animals then leave the water and become terrestrial adults, but there are many interesting exceptions to this general way of reproduction.
The most obvious part of the amphibian metamorphosis is the formation of four legs in order to support the body on land. But there are several other changes:
★ The gills are replaced by other respiratory organs, i.e., lungs.
★ The skin changes and develops glands to avoid dehydration.
★ The eyes develop eyelids and adapt to vision outside the water.
★ An eardrum is developed to lock the middle ear.
★ In frogs and toads, the tail disappears.
Main articles: Decline in amphibian populations
Dramatic declines in amphibian populations, including population crashes and mass localized extinction, have been noted in the past two decades from locations all over the world, and amphibian declines are thus perceived as one of the most critical threats to global biodiversity. A number of causes are believed to be involved, including habitat destruction and modification, over-exploitation, pollution, introduced species, climate change, destruction of the ozone layer (ultraviolet radiation has shown to be especially damaging to the skin, eyes, and eggs of amphibians), and diseases like chytridiomycosis. However, many of the causes of amphibian declines are still poorly understood, and amphibian declines are currently a topic of much ongoing research.
★ Vertebrate Paleontology and Evolution, , Robert L., Carroll, W.H. Freeman & Co., 1988,
★ Biology of Amphibians, , William E., Duellman, Johns Hopkins University Press, 1994,
★ The Amphibian Tree of Life, , Darrel R., Frost, Bulletin of the American Museum of Natural History, 2006
★ Widespread amphibian extinctions from epidemic disease driven by global warming, , J. Alan, Pounds, Nature, 2006
★ Initial diversification of living amphibians predated the breakup of Pangaea, , Diego, San Mauro, American Naturalist, 2005
★ Solomon Berg Martin, ''Biology''
★ Status and trends of amphibian declines and extinctions worldwide, , Simon N., Stuart, Science, 2004
★ Chytridiomycosis
★ Fishapods
★ Frog zoology
★ List of amphibians by region
★ Prehistoric amphibian
★ Sleep in nonhumans
★ Tetrapod
★ American Museum of Natural History: Department of herpetology
★ The Global Amphibian Assessment
★ AmphibiaWeb
★ Amphibians of central Europe
★ USGS--Online Guide for the Identification of Amphibians in North America north of Mexico
★ Herpetological Conservation and Biology
★ General amphibian biology information - Living UnderWorld
★ AmphibianIndia
These show different symbols of how to give names to amphibians and they were used most of the time
'Amphibians' (class 'Amphibia'; from Greek ''αμφις'' "both" and ''βιος'' "life") are a taxon of animals that include all living tetrapods (four-legged vertebrates) that do not have amniotic eggs, are ectothermic (term for the animals whose body heat is regulated by the external environment; previously known as cold-blooded), and generally spend part of their time on land. Most amphibians do not have the adaptations to an entirely terrestrial existence found in most other modern tetrapods (amniotes). There are around 6,000 described, living species of amphibians. The study of amphibians and reptiles is known as herpetology. Amphibians are able to breathe through their skin.
| Contents |
| Classification |
| Systems |
| Reproductive |
| Amphibian conservation |
| References |
| See also |
| External links |
Classification
Traditionally the amphibians have included all tetrapods that are not amniotes. They are divided into three subclasses:
★ Subclass Labyrinthodontia (diverse Paleozoic and early Mesozoic group)
★ Subclass Lepospondyli (small Paleozoic group)
★ Subclass Lissamphibia (frogs, salamanders, etc)
Of these only the last includes recent species.
With the cladistic revolution, this classification has been modified, and the Labyrinthodontia discarded as being a paraphyletic group without unique defining features apart from shared primitive characteristics. Classification varies according to the preferred phylogeny of the author, and whether they use a stem-based or node-based classification. Generally amphibians are defined as the group that includes the common ancestors of all living amphibians (frogs, salamanders, etc) and all their descendants. This may also include extinct groups like the temnospondyls (traditionally placed in the disbanded subclass "labyrinthodontia"), and the Lepospondyls. This means that there are a now large number of basal Devonian and Carboniferous tetrapod groups, described as "amphibians" in earlier books, that are no longer placed in the formal Amphibia.
Fire Salamander (''Salamandra salamandra'')
All recent amphibians are included in the Lissamphibia, which is usually considered a clade (which means that it is thought that all Lissamphibians evolved from a common ancestor apart from other extinct groups), although it has also been suggested also that salamanders arose separately from a temnospondyl-like ancestor (Carroll, 2007).
Authorities also disagree on whether Salientia is a Superorder that includes the order Anura, or whether Anura is a sub-order of the order Salientia. In effect Salientia includes all the Anura plus a single Triassic proto-frog species, ''Triadobatrachus''. Practical considerations seem to favour using the former arrangement now.
The Lissamphibia are traditionally divided into three orders, but an extinct salamander-like group, the Albanerpetontidae, is now considered in addition to the other three groups.
★ Family ''Albanerpetontidae'' - Jurassic to Miocene (extinct)
★ Superorder ''Salientia''
★
★ ''Triadobatrachus'' (Triassic)
★
★ Order ''Anura'' (frogs and toads): Jurassic to recent - 5,362 recent species
★
★ Order ''Caudata'' or ''Urodela'' (salamanders): Jurassic to recent - 556 recent species
★
★ Order ''Gymnophiona'' or ''Apoda'' (caecilians): Jurassic to recent - 173 recent species
Systems
Reproductive
Caecilian from the San Antonio zoo
For the purpose of reproduction most amphibians are bound to fresh water. A few tolerate brackish water, but there are no true seawater amphibians. Several hundred frog species in adaptive radiations (e.g., ''Eleutherodactylus'', the Pacific Platymantines, the Australo-Papuan microhylids, and many other tropical frogs), however, do not need any water whatsoever. They reproduce via direct development, an ecological and evolutionary adaptation that has allowed them to be completely independent from free-standing water. Almost all of these frogs live in wet tropical rainforests and their eggs hatch directly into miniature versions of the adult, passing through the tadpole stage within the egg. Several species have also adapted to arid and semi-arid environments, but most of them still need water to lay their eggs. Symbiosis with single celled algae that lives in the jelly-like layer of the eggs has evolved several times. The larvae (tadpoles or polliwogs) breathe with exterior gills. After hatching, they start to transform gradually into the adult's appearance. This process is called metamorphosis. Typically, the animals then leave the water and become terrestrial adults, but there are many interesting exceptions to this general way of reproduction.
The most obvious part of the amphibian metamorphosis is the formation of four legs in order to support the body on land. But there are several other changes:
★ The gills are replaced by other respiratory organs, i.e., lungs.
★ The skin changes and develops glands to avoid dehydration.
★ The eyes develop eyelids and adapt to vision outside the water.
★ An eardrum is developed to lock the middle ear.
★ In frogs and toads, the tail disappears.
Amphibian conservation
Main articles: Decline in amphibian populations
The Golden Toad of Monteverde, Costa Rica was among the first casualties of amphibian declines. Formerly abundant, it was last seen in 1989.
Dramatic declines in amphibian populations, including population crashes and mass localized extinction, have been noted in the past two decades from locations all over the world, and amphibian declines are thus perceived as one of the most critical threats to global biodiversity. A number of causes are believed to be involved, including habitat destruction and modification, over-exploitation, pollution, introduced species, climate change, destruction of the ozone layer (ultraviolet radiation has shown to be especially damaging to the skin, eyes, and eggs of amphibians), and diseases like chytridiomycosis. However, many of the causes of amphibian declines are still poorly understood, and amphibian declines are currently a topic of much ongoing research.
References
★ Vertebrate Paleontology and Evolution, , Robert L., Carroll, W.H. Freeman & Co., 1988,
★ Biology of Amphibians, , William E., Duellman, Johns Hopkins University Press, 1994,
★ The Amphibian Tree of Life, , Darrel R., Frost, Bulletin of the American Museum of Natural History, 2006
★ Widespread amphibian extinctions from epidemic disease driven by global warming, , J. Alan, Pounds, Nature, 2006
★ Initial diversification of living amphibians predated the breakup of Pangaea, , Diego, San Mauro, American Naturalist, 2005
★ Solomon Berg Martin, ''Biology''
★ Status and trends of amphibian declines and extinctions worldwide, , Simon N., Stuart, Science, 2004
See also
★ Chytridiomycosis
★ Fishapods
★ Frog zoology
★ List of amphibians by region
★ Prehistoric amphibian
★ Sleep in nonhumans
★ Tetrapod
External links
★ American Museum of Natural History: Department of herpetology
★ The Global Amphibian Assessment
★ AmphibiaWeb
★ Amphibians of central Europe
★ USGS--Online Guide for the Identification of Amphibians in North America north of Mexico
★ Herpetological Conservation and Biology
★ General amphibian biology information - Living UnderWorld
★ AmphibianIndia
These show different symbols of how to give names to amphibians and they were used most of the time
This article provided by Wikipedia. To edit the contents of this article, click here for original source.
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