Squamata:
This article is about the Squamata order of reptiles. For the Roman scale armour, see Lorica squamata. Squamata (scaled reptiles) is the largest recent order of reptiles, including lizards and snakes. Members of the order are distinguished by their skins, which bear horny scales or shields. They also possess movable quadrate bones, making it possible to move the upper jaw relative to the braincase. This is particularly visible in snakes, which are able to open their mouths very widely to accommodate comparatively large prey. They are the most variably-sized order of reptiles, ranging from the 16 mm (0.63 in) Jaragua Sphaero to the 8 m (26 ft) Green Anaconda.
[edit] Classification
Classically, the order is divided into three suborders:
Of these, the lizards form a paraphyletic group. In newer classifications the name Sauria is used for reptiles and birds in general, and the Squamata are divided differently:
The relationships between these suborders is not yet certain, though recent research[1] suggests that several families may form a hypothetical venom clade which encompasses a majority (nearly 60%) of Squamate species. Named Toxicofera, it combines the following groups from traditional classification[1]:
- Suborder Serpentes (snakes)
- Suborder Iguania (agamids, chameleons, iguanids, etc.)
- Infraorder Anguimorpha, consisting of:
- Family Varanidae (monitor lizards, including the Komodo dragon)
- Family Anguidae (alligator lizards, glass lizards, etc.)
- Family Helodermatidae (Gila monster and Mexican beaded lizard)
[edit] List of Families
| Amphisbaenia |
| Family |
Common Names |
Example Species |
Example Photo |
Amphisbaenidae
Gray, 1865 |
Tropical worm lizards |
Darwin's worm lizard (Amphisbaena darwinii) |
|
Bipedidae
Taylor, 1951 |
Bipes worm lizards |
Mexican Mole Lizard (Bipes biporus) |
|
Rhineuridae
Vanzolini, 1951 |
North American worm lizards |
North American worm lizard (Rhineura floridana) |
 |
Trogonophidae
Gray, 1865 |
Palearctic worm lizards |
Checkerboard Worm Lizard (Trogonophis wiegmanni) |
|
| Diploglossa |
| Family |
Common Names |
Example Species |
Example Photo |
Anguidae
Oppel, 1811 |
Glass lizards |
Slow Worm (Anguis fragilis) |
 |
Anniellidae
Gray, 1852 |
American legless lizards |
California Legless Lizard (Anniella pulchra) |
 |
Xenosauridae
Cope, 1866 |
Knob-scaled lizards |
Chinese Crocodile Lizard (Shinisaurus crocodilurus) |
 |
| Gekkota |
| Family |
Common Names |
Example Species |
Example Photo |
Dibamidae
Boulenger, 1884 |
Blind lizards |
Dibamus nicobaricum |
- |
Gekkonidae
Gray, 1825 |
Geckos |
Thick-tailed Gecko (Underwoodisaurus milii) |
 |
Pygopodidae
Boulenger, 1884 |
Legless lizards |
Burton's Snake Lizard (Lialis burtonis) |
- |
| Iguania |
| Family |
Common Names |
Example Species |
Example Photo |
Agamidae
Spix, 1825 |
Agamas |
Eastern Bearded Dragon (Pogona barbata) |
 |
Chamaeleonidae
Gray, 1825 |
Chameleons |
Veiled Chameleon (Chamaeleo calyptratus) |
 |
Corytophanidae
Frost & Etheridge, 1989 |
Casquehead lizards |
Plumed Basilisk (Basiliscus plumifrons) |
 |
Crotaphytidae
Frost & Etheridge, 1989 |
Collared and leopard lizards |
Common Collared Lizard (Crotaphytus collaris) |
 |
Hoplocercidae
Frost & Etheridge, 1989 |
Wood lizards or clubtails |
Club-tail Iguana (Hoplocercus spinosus) |
- |
| Iguanidae |
Iguanas |
Marine Iguana (Amblyrhynchus cristatus) |
 |
Leiosauridae
Frost et al., 2001 |
- |
Darwin's Iguana (Diplolaemus darwinii) |
- |
Opluridae
Frost & Etheridge, 1989 |
Madagascan iguanas |
Chalarodon (Chalarodon madagascariensis) |
- |
Phrynosomatidae
Frost & Etheridge, 1989 |
Earless, spiny, tree, side-blotched and horned lizards |
Greater Earless Lizard (Cophosaurus texanus) |
 |
Polychrotidae
Frost & Etheridge, 1989 |
Anoles |
Caronlina Anole (Anolis carolinensis) |
 |
Tropiduridae
Frost & Etheridge, 1989 |
Neotropical ground lizards |
(Microlophus peruvianus) |
 |
| Platynota |
| Family |
Common Names |
Example Species |
Example Photo |
| Helodermatidae |
Gila monsters |
Gila Monster (Heloderma suspectum) |
 |
| Lanthanotidae |
Earless Monitor |
Earless Monitor (Lanthanotus borneensis) |
- |
| Varanidae |
Monitor lizards |
Perentie (Varanus giganteus) |
 |
| Scincomorpha |
| Family |
Common Names |
Example Species |
Example Photo |
| Cordylidae |
Spinytail lizards |
Girdle-tailed Lizard (Cordylus warreni) |
 |
| Gerrhosauridae |
Plated lizards |
Sudan Plated Lizard (Gerrhosaurus major) |
 |
| Gymnophthalmidae |
Spectacled lizards |
- |
- |
Lacertidae
Oppel, 1811 |
Wall or true lizards |
Eyed Lizard (Lacerta lepida) |
 |
Scincidae
Oppel, 1811 |
Skinks |
Western Blue-tongued Skink (Tiliqua occipitalis) |
 |
| Teiidae |
Tegus or whiptails |
Blue Tegu (Tupinambis teguixin) |
 |
| Xantusiidae |
Night lizards |
Granite Night Lizard (Xantusia henshawi) |
 |
| Alethinophidia |
| Family |
Common Names |
Example Species |
Example Photo |
Acrochordidae
Bonaparte, 1831[2] |
file snakes |
Marine File Snake (Acrochordus granulatus) |
 |
Aniliidae
Stejneger, 1907[3] |
coral pipe snakes |
Burrowing False Coral (Anilius scytale) |
|
Anomochilidae
Cundall, Wallach and Rossman, 1993.[4] |
dwarf pipe snakes |
Leonard's Pipe Snake, (Anomochilus leonardi) |
|
Atractaspididae
Günther, 1858[5] |
mole vipers |
Bibron's burrowing asp (Atractaspis bibroni) |
|
Boidae
Gray, 1825[2] |
boas |
Amazon tree boa (Corallus hortulanus) |
 |
Bolyeriidae
Hoffstetter, 1946 |
Round Island boas |
Round Island Burrowing Boa (Bolyeria multocarinata) |
|
Colubridae
Oppel, 1811[2] |
colubrids |
Grass Snake (Natrix natrix) |
 |
Cylindrophiidae
Fitzinger, 1843 |
Asian pipe snakes |
Red-tailed Pipe Snake (Cylindrophis ruffus) |
 |
Elapidae
Boie, 1827[2] |
cobras, coral snakes, mambas, kraits, sea snakes, sea kraits, Australian elapids |
King Cobra (Ophiophagus hannah) |
 |
Loxocemidae
Cope, 1861 |
Mexican burrowing snakes |
Mexican burrowing snake (Loxocemus bicolor) |
 |
Pythonidae
Fitzinger, 1826 |
pythons |
Ball python (Python regius) |
 |
Tropidophiidae
Brongersma, 1951 |
dwarf boas |
Northern Eyelash Boa (Trachyboa boulengeri) |
|
Uropeltidae
Müller, 1832 |
shield-tailed snakes, short-tailed snakes |
Cuvier's shieldtail (Uropeltis ceylanica) |
 |
Viperidae
Oppel, 1811[2] |
vipers, pitvipers, rattlesnakes |
European asp (Vipera aspis) |
 |
Xenopeltidae
Bonaparte, 1845 |
sunbeam snakes |
Sunbeam snake (Xenopeltis unicolor) |
 |
| Scolecophidia |
| Family |
Common Names |
Example Species |
Example Photo |
Anomalepidae
Taylor, 1939[2] |
dawn blind snakes |
Dawn Blind Snake (Liotyphlops beui) |
|
Leptotyphlopidae
Stejneger, 1892[2] |
slender blind snakes |
Texas Blind Snake (Leptotyphlops dulcis) |
 |
Typhlopidae
Merrem, 1820[6] |
blind snakes |
Black Blind Snake (Typhlops reticulatus) |
|
[edit] Evolution
Squamates are a monophyletic group that is a sister group to the tuatara. The squamates and tuatara together are a sister group to crocodiles and birds, the extanct archosaurs. Squamate fossils first appear in the early Jurassic, but a mitochondrial phylogeny suggests that they evolved in the late Permian. The evolutionary relationships within the squamates are not yet completely worked out, with the relationship of snakes to other groups being most problematic. From morphological data, Iguanid lizards have been thought to have diverged from other squamates very early, but recent molecular phylogenies, both from mitochondrial and nuclear DNA, do not support this early divergence[7]. Because snakes have a faster molecular clock than other squamates,[7] and there are few early snake and snake ancestor fossils,[8] it is difficult to resolve the relationship between snakes and other squamate groups.
[edit] Reproduction
The male members of the group Squamata have a hemipenis. Hemipenes are usually held inverted, within the body, and are everted for reproduction via erectile tissue like that in the human penis.[9] Only one is used at a time, and some evidence indicates males alternate use between copulations. The hemipenis itself has a variety of shapes, depending on species. Often the hemipenis bears spines or hooks, in order to anchor the male within the female. Some species even have forked hemipenes (each hemipenis has two tips). Due to being everted and inverted, hemipenes do not have a completely enclosed channel for the conduction of sperm, but rather a seminal groove which seals as the erectile tissue expands. This is also the only reptile group in which can be found both viviparous and ovoviviparous species, as well as the usual oviparous reptiles. Some species, like the Komodo dragon, can actually reproduce asexually and undergo parthenogenesis. [10]
Venom is modified saliva, delivered through fangs.[11] The fangs of 'advanced' venomous snakes like viperids and elapids are hollow in order to inject venom more effectively, while the fangs of rear-fanged snakes such as the Boomslang merely have a groove on the posterior edge to channel venom into the wound. Snake venoms are often prey specific, its role in self-defense is secondary.[11] Venom, like all salivary secretions, is a pre-digestant which initiates the breakdown of food into soluble compounds allowing for proper digestion and even "non-venomous" snake bites (like any animal bite) will cause tissue damage.[12]
Recent research suggests that the evolutionary origin of venom may exist deep in the squamate phylogeny, with 60% of squamates placed in this hypothetical group called Toxicofera. Venom has been known in the families Helodermatidae, Elapidae, Viperidae, and some members of the Colubridae. However, all snakes, some agamid lizards and most monitor lizards are now believed by some to have proteins very closely related to venom.[13][14]
[edit] Humans and Squamates
[edit] Bites and fatalities
- See also: Snakebite
Map showing global distribution of snakebite morbidity.
In the US alone, more than 8,000 venomous snake bites are reported each year.[15] It is estimated that 125,000 people a year die from venomous snake bites.[16] In addition, large pet constrictors, like boas and pythons, have been known to kill their owners through strangulation on rare occasions. [17]
Lizard bites, unlike venomous snake bites, are not fatal. The Komodo dragon has been known to kill people due to its size. [18] The two known venomous species of lizard, the Gila monster and Mexican beaded lizard have never caused a human death by envenomation.
[edit] Conservation
Even though they survived the worst changes in Earth's history, today many squamate species are endangered due to habitat loss, hunting and poaching, the pet trade, alien species being introduced to their habitat (which puts native creatures at risk through unfair competition & predation), and many other unnecessary reasons. Because of this, some are in fact extinct with Africa having the most extinct species of squamates. However, breeding programs and wildlife parks are trying to save many endangered reptiles from extinction. Many zoos & breeders educate people about the importance of snakes and lizards.
[edit] References
- Bebler, John L.; King, F. Wayne (1979). The Audubon Society Field Guide to Reptiles and Amphibians of North America, Alfred A. Knopf. pp.581. ISBN 0394508246.
- Capula, Massimo; Behler (1989). Simon & Schuster's Guide to Reptiles and Amphibians of the World. New York: Simon & Schuster. ISBN 0671690981.
- Cogger, Harold; Zweifel, Richard (1992). Reptiles & Amphibians. Sydney, Australia: Weldon Owen. ISBN 0831727861.
- Conant, Roger; Collins, Joseph (1991). A Field Guide to Reptiles and Amphibians Eastern/Central North America. Boston, Massachusetts: Houghton Mifflin Company. ISBN 0395583896.
- Ditmars, Raymond L (1933). Reptiles of the World: The Crocodilians, Lizards, Snakes, Turtles and Tortoises of the Eastern and Western Hemispheres. New York: Macmillian. pp.321.
- Freiberg, Dr. Marcos; Walls, Jerry (1984). The World of Venomous Animals. New Jersey: TFH Publications. ISBN 0876665679.
- Gibbons, J. Whitfield; Gibbons, Whit (1983). Their Blood Runs Cold: Adventures With Reptiles and Amphibians. Alabama: University of Alabama Press. pp.164. ISBN 978-0817301354.
- McDiarmid, RW; Campbell, JA; Touré, T (1999). Snake Species of the World: A Taxonomic and Geographic Reference. 1, Herpetologists' League. pp.511. ISBN 1893777006.
- Mehrtens, John (1987). Living Snakes of the World in Color. New York: Sterling. ISBN 0806964618.
- Rosenfeld, Arthur (1989). Exotic Pets. New York: Simon & Schuster. pp.293. ISBN 067147654.
[edit] Cited references
- ^ a b Fry, B. et al (February 2006). "Early evolution of the venom system in lizards and snakes" (PDF). Nature 439: 584–588. doi:10.1038/nature04328, http://www.nature.com/nature/journal/v439/n7076/abs/nature04328.html.
- ^ a b c d e f g Cogger(1991), p.23
- ^ Aniliidae (TSN 209611). Integrated Taxonomic Information System. Retrieved on 12 December 2007.
- ^ Anomochilidae (TSN 563894). Integrated Taxonomic Information System. Retrieved on 13 December 2007.
- ^ Atractaspididae (TSN 563895). Integrated Taxonomic Information System. Retrieved on 13 December 2007.
- ^ Typhlopidae (TSN 174338). Integrated Taxonomic Information System. Retrieved on 13 December 2007.
- ^ a b Kumazawa, Yoshinori (2007). "Mitochondrial genomes from major lizard families suggest their phylogenetic relationships and ancient radiations". Gene 388: 19–26. doi:10.1016/j.gene.2006.09.026.
- ^ "Lizards & Snakes Alive!". American Museum of Natural History. Retrieved on 2007-12-25.
- ^ "Iguana Anatomy".
- ^ Morales, Alex. "Komodo Dragons, World's Largest Lizards, Have Virgin Births". Bloomberg Television. Retrieved on 2008-03-28.
- ^ a b Mehrtens (1987), p.243
- ^ Mehrtens (1987), p.209
- ^ "Venom Hunt Finds 'Harmless' Snakes A Potential Danger". Science Daily. Retrieved on 2007-12-25.
- ^ "Lizards' poisonous [sic] secret is revealed". NewScientist. Retrieved on 2007-12-25.
- ^ "First Aid Snake Bites". University of Maryland Medical Center. Retrieved on 2007-12-30.
- ^ "Snake-bites: appraisal of the global situation". Who.com. Retrieved on 2007-12-30.
- ^ "Pet boa constrictor chokes owner". BBC News. Retrieved on 2007-12-30.
- ^ "Komodo dragon kills boy, 8, in Indonesia". msnbc. Retrieved on 2007-12-30.
[edit] External links
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