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Any of various extinct flying reptiles of the order Pterosauria, including the pterodactyls, of the Jurassic and Cretaceous periods, characterized by wings consisting of a flap of skin supported by the very long fourth digit on each forelimb.
[From New Latin Pterosauria, order name : Greek pteron, feather, wing; see –pter + Greek sauros, lizard.]
For more information on pterosaur, visit Britannica.com.
The flying apparatus of pterosaurs comprised a membranous wing stretched between the fourth finger of the hand and the side of the body. The fifth finger was degenerate, and the first three were free of the wing. The “pteroid” bone, unique to the pterosaur group, attached to the wrist and pointed toward the shoulder, also helped support the wing, and the wings were strengthened by numerous connective tissue fibers. There is no fossil evidence of feathers. Most researchers now believe that pterosaurs were adapted for active flight, not just gliding as was earlier believed. Their bones are large but hollow, and they possessed a keeled breastbone for the attachment of flying muscles. Debate continues regarding how pterosaurs moved when on the ground and how maneuverable they were in the air. Pterosaurs, unlike the flying dinosaur Archaeopteryx, were not ancestral to the birds but represented a wholly separate line of development. Like dinosaurs, pterosaurs were affected by the mass extinction at the end of the Cretaceous period.
| Pterosaurs Fossil range: Triassic – Cretaceous |
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Pterosaurs (/ˈtɛ.rəˌsɔː(r)/, from the Greek πτερόσαυρος, pterosauros, meaning "winged lizard", often referred to as pterodactyls, from the Greek πτεροδάκτυλος, pterodaktulos, meaning "winged finger" /ˌtɛ.rəˈdæk.tɪl/) were flying reptiles of the clade Pterosauria.[1] They existed from the late Triassic to the end of the Cretaceous Period (228 to 65 million years ago). Pterosaurs were the first vertebrates to evolve flight. Their wings were formed by a membrane of skin, muscle, and other tissues stretching from the thorax to a dramatically lengthened fourth finger. Earlier species had long, fully-toothed jaws and long tails, while later forms had a highly reduced tail, and some lacked teeth.
Pterosaurs are sometimes referred to in the popular media as dinosaurs, but this is incorrect. The term "dinosaur" is properly restricted to a certain group of terrestrial reptiles with a unique upright stance (superorder Dinosauria), and therefore excludes the pterosaurs, as well as the various groups of extinct aquatic reptiles, such as ichthyosaurs, plesiosaurs, and mosasaurs.
Fossilised pterosaurs have been found in North America, South America, United Kingdom, Europe, Africa, Asia and Australia. The first pterosaur fossil was found by an Italian naturalist, Cosimo Collini, in 1784. The name "Ptero-dactyle" was first coined by Georges Cuvier in 1809 for a specimen recovered in Germany; however, due to the standardization of scientific names, the official name for this species became Pterodactylus, though the name "pterodactyl" continued to be popularly applied to all members of this first specimen's order.
A famous UK find was an example of Dimorphodon by Mary Anning, at Lyme Regis in 1828.
At least 60 genera of pterosaurs have been found, ranging from the size of a small bird to wingspans in excess of 10 meters (33 feet). Since the first pterosaur fossil was discovered in the late Jurassic Solnhofen limestone in 1784, twenty-nine kinds of pterosaurs have been found in those deposits alone. Most paleontologists now believe that pterosaurs were adapted for active flight, not just gliding as was earlier believed.
Most pterosaur fossils did not preserve well. Their bones were hollow and, when sediments piled on top of them, the bones were flattened. The best preserved fossils have come from the Araripe Plateau, Brazil. For some reason, when the bones were deposited, the sediments encapsulated the bones, rather than crushing them. This created three-dimensional fossils for paleontologists to study. The first find in the Araripe Plateau was made in 1974.
The anatomy of pterosaurs was highly modified from their reptilian ancestors for the demands of flight. Pterosaur bones were hollow and air filled, like the bones of birds. They had a keeled breastbone that was developed for the attachment of flight muscles and an enlarged brain that shows specialised features associated with flight.[2]
Pterosaur wings were formed by membranes of skin and other tissues, strengthened by various types of closely spaced
fibers.[3] The membranes attached to the extremely long
fourth finger of each arm and extended along the sides of the body.
A bone unique to pterosaurs, known as the pteroid, connected to the wrist and helped to support a membrane (the propatagium)
between the wrist and shoulder. The pteroid might have been able to swing forward to extend this membrane,[4] although this is very debatable.[5][6] In some
later pterosaurs, the backbone over the shoulders fused into a structure known as a notarium,
which served to stiffen the torso during flight, and provide a stable support for the
There has been considerable argument among paleontologists about whether the wings attached to the hindlimbs as well. Fossils of the rhamphorhynchoid Sordes,[7] the anurognathid Jeholopterus,[8] and a pterodactyloid from the Santana Formation seem to demonstrate that the wing membrane did attach to the hindlimbs, at least in some species. However, modern bats and flying squirrels show considerable variation in the extent of their wing membranes and it is possible that, like these groups, different species of pterosaur had different wing designs. Indeed, analysis of pterosaur limb proportions shows that there was considerable variation, possibly reflecting a variety of wing-plans.[9] Many if not all pterosaurs also had webbed feet, and although these have been considered to be evidence of swimming, they may have had an aerodynamic function.[citation needed][10]
There is no fossil evidence of feathers, but pterosaurs were unique among reptiles in that at least some of them were covered with hair, similar to but not homologous with mammalian hair. Pterosaur "hair" is not true hair as seen in mammals, but a unique structure that developed a similar appearance through convergent evolution. Although in some cases fibers in the wing membrane have been mistaken for hair, some fossils such as those of Sordes pilosus (the "hairy demon") do show the unmistakable imprints of hair on the head and body,[7] not unlike modern-day bats, another example of convergent evolution. The presence of hair (and the demands of flight) imply that pterosaurs were warm-blooded ('endothermic').
A study of pterosaur brain cavities using X-rays has revealed extraordinary information about their habits. Studying fossil pterosaur skulls is extremely difficult because they are so delicate, but Lawrence Witmer at Ohio University in Athens and his colleagues used X-ray CT scans to build up 3D images of the brains of two species.[2] One striking finding was that the animals (Rhamphorhynchus muensteri and Anhanguera santanae) had massive flocculi. The flocculus is a brain region that integrates signals from joints, muscles, skin and the balance organs.
The pterosaurs' flocculi occupied 7.5% of the animals' total brain mass, more than in any other vertebrate. Birds have unusually large flocculi compared with other animals, but these only occupy between 1 and 2% of total brain mass.[2]
The flocculus sends out neural signals that produce small, automatic movements in the eye muscles. These keep the image on an animal's retina steady. Pterosaurs may have had such a large flocculus because of their large wing size,[2] which would mean that there was a great deal more sensory information to process.
Pterosaur's hip sockets were oriented facing slightly upwards, and the head of the femur (thigh bone) was only moderately inward facing, suggesting that pterosaurs had a semi-erect stance. It would have been possible to lift the thigh into a horizontal position during flight.
There has been considerable debate in the past about whether pterosaurs moved about on the ground as quadrupeds or as bipeds. A large number of pterosaur trackways are now known, with a distinctive four-toed hind foot and three-toed front foot; these are the unmistakable prints of pterosaurs walking on all fours.[11][12] It has been suggested that smaller pterosaurs with longer hindlimbs such as Dimorphodon might have walked or even run bipedally, in addition to flying, not unlike modern road runners.[citation needed] Other small pterosaurs such as Rhamphorhynchus may have scurried around on all fours. Larger pterosaurs with proportionately smaller hindlimbs and massive forebodies are generally thought to have moved about on all fours while on the ground.
Pterosaurs are known to have been eaten by spinosaurs. In the 1 July 2004 edition of Nature, paleontologist Eric Buffetaut discusses an early Cretaceous fossil of three cervical vertebrae of a pterosaur with the broken tooth of a spinosaur embedded in it. The vertebrae are known not to have been eaten and exposed to digestion, as the joints still articulated.[13]
Very little is known about pterosaur reproduction. A single pterosaur egg has been found in the quarries of Liaoning, the same place that yielded the famous 'feathered' dinosaurs. The egg was squashed flat with no signs of cracking, so evidently the eggs had leathery shells.[14] The embryo's wing membranes were well developed,[15] suggesting pterosaurs were ready to fly soon after birth. This is corroborated by very young animals found in the Solnhofen limestone beds, where they presumably flew to the middle of a lagoon, fell in and drowned.[citation needed] It is not known whether pterosaurs practised parental care, but their comparatively early flight capabilities suggest the young were not completely dependent on parents as most birds are.
A study of pterosaur eggshell structure and chemistry published in 2007 indicated that it is likely pterosaurs buried their eggs, like modern crocodile and turtles. Egg-buiring would have been beneficial to the early evolution of pterosaurs, as it allows for more weight-reducing adaptations, but this method of reproduction also would have put limits on the variety of environments pterosaurs could live in, and may have disadvantaged them when they began to face ecological competition from birds.[16]
Because pterosaur anatomy has been so heavily modified for flight, and immediate "missing link" predecessors have not so far been described, the ancestry of pterosaurs is not well understood. They are generally, but not universally, thought to be related to the Dinosauria on the basis of their ankle structure.
They are thought to have evolved flight from some manner other than the 'tree-down' route possibly taken by birds, because pterosaurs demonstrated no adaptations useful for tree living. Most scenarios have pterosaurs evolving from long-legged, ground-running ancestors like Scleromochlus or Sharovipteryx (a less likely scenario), both of which had webs of skin from long hind legs to their bodies or tails. This suggests a 'ground-up' evolution of flight or even a route that evolved by gliding from cliff-tops.
Classification of pterosaurs has historically been difficult, because there were many gaps in the fossil record. Many new discoveries are now filling in these gaps and giving us a better picture of the evolution of pterosaurs. Traditionally, they are organized into two suborders:
Listing of families and superfamilies within Pterosauria, after Unwin 2006.[17]
The precise relationships between pterosaurs is still unsettled. However, several newer studies are beginning to make things clearer. Cladogram simplified after Unwin.[18]
| Pterosauria |
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It is believed by some that competition with early bird species may have resulted in the extinction of many of the pterosaurs. By the end of the Cretaceous, only large species of pterosaurs are known. The smaller species seem to have become extinct, their niche filled by birds,[19] though a lack of small pterosaurs in the fossil record could also be a result of poor preservation due to the fragility of their skeletons.[citation needed] At the end of the Cretaceous period, the great extinction which wiped out all dinosaurs, and many other animals, seemed to also take the pterosaurs. Others suggest that most pterosaurs were specialised for an ocean-going lifestyle. Consequently, when the K-T mass-extinction severely affected marine life that most pterosaurs fed on, they went extinct.
Examples of pterosaur genera include:
Pterosaurs are a staple of popular culture. While the generic term "pterodactyl" is often used to describe these creatures, the animal depicted is frequently a Pteranodon or other specific species of pterosaur, or a fictionalized hybrid of several species. Many childrens toys and cartoons feature "pterodactyls" with Pteranodon-like crests and long, Rhamphorhynchus-like tails and teeth, a combination that never existed in nature. However, at least one type of pterosaur did have at least the Pteranodon-like crest and teeth--the Ludodactylus, a name that means "toy finger" for its resemblance to old, inaccurate children's toys. Notable examples of older fictional works featuring pterosaurs include Arthur Conan Doyle's book The Lost World and the 1933 film King Kong.
It was reported in an article in The Illustrated London News (February 9, 1856, page 166) that, in 1856, workmen laboring in a tunnel for a railway line, between Saint-Dizier and Nancy, in France, were cutting through Jurassic limestone when a large creature stumbled out from inside it. It fluttered its wings, made a croaking noise and dropped dead. According to the workers, the creature had a 10 foot wingspan, four legs joined by a membrane, black leathery skin, talons for feet and a toothed mouth. A local student of paleontology identified the animal as a pterodactyl. The report had the animal turn to dust, as soon as it had died.
This incredible story is believed to have been a hoax, stimulated in part by contemporary Franco-Prussian palaeontological rivalry. The Solnhofen limestone from Bavaria (in which Archaeopteryx would later be discovered) was producing many prized fossils, each of which was proudly announced by German paleontologists. The tunnel in question was through limestone of similar age to the Solnhofen Limestone, so it presented an opportunity for a shocking story by the French.
This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)
Français (French)
n. - ptérosaure
Deutsch (German)
n. - Pterosaurier
Ελληνική (Greek)
n. - πτερόσαυρος
Português (Portuguese)
n. - pterosauro (m)
Español (Spanish)
n. - pterosaurio, reptil volador del período mesozoico
Svenska (Swedish)
n. - flygödla (zool.)
中文(简体) (Chinese (Simplified))
翼龙
中文(繁體) (Chinese (Traditional))
n. - 翼龍
العربيه (Arabic)
(الاسم) حيوان طائر منقرض
עברית (Hebrew)
n. - פטרוסאור - זוחל מעופף קדום עם כנפיים דמויות אלו של עטלף
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 | Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2007. Published by Houghton Mifflin Company. All rights reserved. Read more |
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| Britannica Concise Encyclopedia. Britannica Concise Encyclopedia. © 2006 Encyclopædia Britannica, Inc. All rights reserved. Read more |
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| Columbia Encyclopedia. The Columbia Electronic Encyclopedia, Sixth Edition Copyright © 2003, Columbia University Press. Licensed from Columbia University Press. All rights reserved. www.cc.columbia.edu/cu/cup/ Read more |
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| Wikipedia. This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Pterosaur". Read more |
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| Translations. Copyright © 2007, WizCom Technologies Ltd. All rights reserved. Read more |
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