order of reptiles (fossil)

The plesiosaurs were an order of large, carnivorous marine reptiles. They flourished from 203 million years ago (mya) to 66 mya.

Temporal range:
Middle Triassic to Upper Cretaceous
Scientific classification
Gray, 1825

In 1719, William Stukeley described the first partial skeleton of a plesiosaur. The great-grandfather of Charles Darwin, Robert Darwin of Elston told him about it.[1]

Mary Anning was the first to discover a fairly complete plesiosaur. She found it on the 'Jurassic Coast' of Dorset, England in the winter of 1820/21. The fossil was missing its skull, but in 1823 she found another one, this time complete with its skull. The name Plesiosaurus was given to it by the Rev. William Conybeare.

The earliest plesiosaur remains are from the Middle Triassic period.[2]p128 The group was important through the Jurassic and Cretaceous. They had two large pairs of paddles, short tails, short or long necks, and broad bodies. They died out at the K/T extinction event, 65 million years ago.[3][4]

Description change

Plesiosaurs had many bones in their flippers, making them flexible. No modern animal has this four-paddle anatomy: modern turtles use their forelimbs for swimming. Plesiosaurs were mainly piscivorous (fish-eaters).

Pliosaurs change

The pliosaurs were a group of mostly large submarine predators with short necks and large heads. Their sizes ranged from two to 15 metres, and they were predators of large fish and other reptiles. Their streamlined body shape suggests they swam and ate under water.

Long-necked plesiosaurs change

One of Mary Anning's finds: Rhomaleosaurus in the Natural History Museum, London

There were three families of long-necked plesiosaurs,[5] who evidently had a different life-style from the pliosaurs. It was suggested by D.M.S. Watson that their method was as surface swimmers, darting down to snatch smaller fish which were feeding on plankton.[6][7][8] It is hard to see the benefit of a long neck under water; aquatic mammals operating under water all have a streamlined torpedo-shape, as did pliosaurs and ichthyosaurs. All the longer-necked familiers were, from the setting of the teeth and jaws, eaters of small fish. However, some at least were bottom-feeders, consuming various prey. Digestion of shellfish was aided by gastroliths.[9]

  • Plesiosaurids: neck not so long as the other two families, and not so flexible: a more general all-round plesiosaur. Head of medium size, neck fairly thick and strong, up to 30 vertebrae.
  • Cryptoclidids: longer necks, with more than 30 vertebrae.
  • Elasmosaurids: very long necks; some later forms have as many as 76 cervical (neck) vertebrae and quite small skulls.[10]p30 Watson and Alexander's ideas apply especially to this group.

Gastroliths change

Plesiosaur gastroliths

Plesiosaurs have been found with fossils of belemnites (squid-like animals), and ammonites (giant nautilus-like molluscs) associated with their stomachs. But plesiosaurs could not crack shells. Instead, they probably swallowed them whole. In the belly of a plesiosaur were "stomach stones", which are called gastroliths. These stones moved around in the plesiosaur's stomach and cracked or crushed the shells of the animals it ate. One plesiosaur fossil found in South Dakota had 253 gatroliths weighing a total of 29 pounds.[12]

Live birth? change

Live birth has been proved for ichthyosaurs, but is uncertain for plesiosaurs.

References change

  1. Stukeley W. 1719. An account of the impression of the almost entire sceleton of a large animal in a very hard stone, lately presented the Royal Society, from Nottinghamshire. Philosophical Transactions, 30: 963-968.
  2. Benton M.J. 1990. The reign of the reptiles. Quarto N.Y.
  3. Carroll R.L. 1988. Vertebrate paleontology and evolution. Freeman N.Y.
  4. Tutin S. & Butler R. 2017. The completeness of the fossil record of plesiosaurs, marine reptiles from the Mesozoic. Acta Palaeontologica Polonica. doi: 10.4202/app.00355.2017
  5. Other classifications are possible: O'Keefe F.R. 2001. A cladistic analysis and taxonomic revision of the Plesiosauria (Reptilia: Sauropterygia); Acta Zool. Fennica 213: 1-63.
  6. Watson D.M.S. 1951. Palaeontology and modern biology. Yale, CT.
  7. Watson D.M.S. 1958. Studies on fossil vertebrates. London.
  8. Alexander, R. McNeill 1989. Dynamics of dinosaurs and other extinct giants. Columbia N.Y. p137
  9. BBC NEWS | Science/Nature | Plesiosaur bottom-feeding shown
  10. Benton M.J. 2004. Vertebrate palaeontology. 3rd ed, Blackwell, Oxford.
  11. Hiller N. Mannering A.A. Jones C.M. Cruickshank A.R.I. 2005. The nature of Mauisaurus haasti Hector, 1874 (Reptilia: Plesiosauria). Journal of Vertebrate Paleontology 25:588-601.
  12. Everhart, M.J. 2005. "Gastroliths associated with plesiosaur remains in the Sharon Springs Member (Late Cretaceous) of the Pierre Shale, Western Kansas" on-line, updated from article in Kansas Acad. Sci. Trans. 103(1-2):58-69