Tuatara: Difference between revisions
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| regnum = Animalia | | regnum = Animalia | ||
| phylum = Chordata | | phylum = Chordata | ||
| subphylum = | | subphylum = Tetrapoda | ||
| | | super classis = Amniota | ||
| classis = Reptile (Sauropsida) | | classis = Reptile (Sauropsida) | ||
| subclassis = diapsida | |||
| infraclass = Lepidosauromorpha | |||
| superorder = Lepidosauria | |||
| ordo = Sphenodontia | | ordo = Sphenodontia | ||
| familia = Sphenodontida | | familia = Sphenodontida | ||
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| subdivision = | | subdivision = | ||
''Sphenodon punctatus'' <small>(Gray, 1842)</small><br/> | ''Sphenodon punctatus'' <small>(Gray, 1842)</small><br/> | ||
''Sphenodon guntheri'' <small>([[Walter Buller|Buller]], 1877)</small><br/> | ''[[Sphenodon guntheri (Tuatara)|Sphenodon guntheri]]'' <small>([[Walter Buller|Buller]], 1877)</small><br/> | ||
<!--Lutz 1995 lists S. Gray as an extinct sp. with no authority or year given - pending confirmation from second source--> | <!--Lutz 1995 lists S. Gray as an extinct sp. with no authority or year given - pending confirmation from second source--> | ||
''Sphenodon diversum'' <small>Colenso, 1885 (extinct)</small><br/> | ''Sphenodon diversum'' <small>Colenso, 1885 (extinct)</small><br/> | ||
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''Hatteria punctata'', <small>Gray 1842</small> | ''Hatteria punctata'', <small>Gray 1842</small> | ||
}} | }} | ||
The '''tuatara''' is an amniote<ref>[http://www.tolweb.org/Amniota Amniota] University of California Museum of Paleontology</ref> of the family Sphenodontidae, native to and found only in New Zealand. The two species of tuatara are the only surviving members of the Sphenodontidae. | The '''tuatara''' is an [[Amniote (Amniota)|amniote]]<ref>[http://www.tolweb.org/Amniota Amniota] University of California Museum of Paleontology</ref> of the family Sphenodontidae,<ref>[http://www.ucmp.berkeley.edu/diapsids/lepidos/sphenodontidae.html Introduction to the Sphenodontidae] University of California Museum of Paleontology</ref> native to and found only in New Zealand. The two species of tuatara are the only surviving members of the Sphenodontidae. Although tuatara are related to lizards and snakes, tuatara are neither lizards nor snakes. | ||
{{Image|128763115 a1b78f9cde.jpg|left|350px|"Tuatara, Nga Manu, Waikanae, New Zealand, 15 April 2006"}} | |||
Tuatara are distinct from all other modern day reptiles. Rhynchocephalians were a much more diverse and numerous order of reptiles during the Triassic period, 251 to 200 | Unlike lizards, the tuatara does not have an external tympanum, femoral pores (series of small openings which some lizards have on the underside of the thighs), and paired evertible hemipenes which are characteristics of lizards. Tuatara posses cranial characteristics of the Rhynchocephalian order of reptiles including an enlarged tooth row along the maxillary side of the palatine bone and lack a splenial bone.<ref>[http://www.digimorph.org/specimens/Sphenodon_punctatus/adult/ Sphenodon punctatus, Tuatara] Dr. Jessie Maisano (The University of Texas at Austin) citing (Gauthier et al., 1988); Evertible hemipenes are sacs near the cloaca that can be turned inside out with grooves for sperm transport inserted into female cloaca. [http://biology.semo.edu/courses/zo315/Reproductive.html Reproductive System] Southeast Missouri State University; The splenial bone is a small bone which is part of the lower jaw of amphibians, birds and reptiles.</ref> | ||
As the only living descendent of the order of reptiles known as Rhynchocephalia, tuatara are a focus of research in evolutionary processes and theoretical reconstruction of habitat, appearance and life of the earliest diapsids <ref>The group that additionally includes birds and crocodiles.; [http://tolweb.org/tree?group=Diapsida&contgroup=Amniota Diapsida] University of California Museum of Paleontology</ref> that thrived millions of years ago . | |||
Tuatara are distinct from all other modern day reptiles. Rhynchocephalians were a much more diverse and numerous order of reptiles during the Triassic period, 251 to 200 million years ago. With the exception of the tuatara, the entire order probably became extinct approximately 60 million years ago during the late Cretaceous period. | |||
The tuatara has been called a living fossil in error. It is very similar to extinct ancestors but it has developed unique features as a modern species. Comparable to dinosaurs, it has a diapsid skull and other anatomical features shared with prehistoric reptilians. | The tuatara has been called a living fossil in error. It is very similar to extinct ancestors but it has developed unique features as a modern species. Comparable to dinosaurs, it has a diapsid skull and other anatomical features shared with prehistoric reptilians. | ||
<ref name=MusicoUMich>[http://animaldiversity.ummz.umich.edu/site/accounts/information/Sphenodon_punctatus.html Sphenodon punctatus] Musico, B. (1999). On-line, Animal Diversity Web. University of Michigan Museum of Zoology Accessed December 29, 2007; [http://paleodb.org/cgi-bin/bridge.pl?action=checkTaxonInfo&taxon_no=37812 Sphenodontidae] Paleobiology Database</ref> | |||
==Notes== | ==Notes== | ||
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</div> | </div> | ||
[[Category: | [[Category:Suggestion Bot Tag]] | ||
Latest revision as of 06:00, 31 October 2024
Tuatara | ||||||||||||||||
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Scientific classification | ||||||||||||||||
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Species | ||||||||||||||||
Sphenodon punctatus (Gray, 1842) | ||||||||||||||||
Synonyms | ||||||||||||||||
Hatteria punctata, Gray 1842 |
The tuatara is an amniote[1] of the family Sphenodontidae,[2] native to and found only in New Zealand. The two species of tuatara are the only surviving members of the Sphenodontidae. Although tuatara are related to lizards and snakes, tuatara are neither lizards nor snakes.
Unlike lizards, the tuatara does not have an external tympanum, femoral pores (series of small openings which some lizards have on the underside of the thighs), and paired evertible hemipenes which are characteristics of lizards. Tuatara posses cranial characteristics of the Rhynchocephalian order of reptiles including an enlarged tooth row along the maxillary side of the palatine bone and lack a splenial bone.[3]
As the only living descendent of the order of reptiles known as Rhynchocephalia, tuatara are a focus of research in evolutionary processes and theoretical reconstruction of habitat, appearance and life of the earliest diapsids [4] that thrived millions of years ago .
Tuatara are distinct from all other modern day reptiles. Rhynchocephalians were a much more diverse and numerous order of reptiles during the Triassic period, 251 to 200 million years ago. With the exception of the tuatara, the entire order probably became extinct approximately 60 million years ago during the late Cretaceous period.
The tuatara has been called a living fossil in error. It is very similar to extinct ancestors but it has developed unique features as a modern species. Comparable to dinosaurs, it has a diapsid skull and other anatomical features shared with prehistoric reptilians.
Notes
- ↑ Amniota University of California Museum of Paleontology
- ↑ Introduction to the Sphenodontidae University of California Museum of Paleontology
- ↑ Sphenodon punctatus, Tuatara Dr. Jessie Maisano (The University of Texas at Austin) citing (Gauthier et al., 1988); Evertible hemipenes are sacs near the cloaca that can be turned inside out with grooves for sperm transport inserted into female cloaca. Reproductive System Southeast Missouri State University; The splenial bone is a small bone which is part of the lower jaw of amphibians, birds and reptiles.
- ↑ The group that additionally includes birds and crocodiles.; Diapsida University of California Museum of Paleontology
- ↑ Sphenodon punctatus Musico, B. (1999). On-line, Animal Diversity Web. University of Michigan Museum of Zoology Accessed December 29, 2007; Sphenodontidae Paleobiology Database