Ptyctodus

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Ptyctodus
Temporal range: late Devonian 383.7–360.7  Ma
Ptyctodus compressus.jpg
Ptyctodus
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Placodermi
Order: Ptyctodontida
Family: Ptyctodontidae
Genus: Ptyctodus
Pander, 1858
Species

Ptyctodus bradyi
Ptyctodus calceolus
Ptyctodus compressus
Ptyctodus ferox
Ptyctodus molaris
Ptyctodus panderi

Contents

Ptyctodus is an extinct armour-plated fish of the late Devonian. [1] Ptyctodus belongs to the family Ptyctodontidae and is of the class Placodermi. They share a close resemblance to modern day chimaeras (Holocephali). Fossils of this armour-plated fish have been found in locations such as in Russia, the Michigan Basis, [2] and Arizona, United States. [3]

Description and paleobiology

Ptyctodus species come in a variety of different sizes, measured data shows three specimens being 94 millimeters, 24 millimeters, 22 millimeters in length, 23 millimeters, 6 millimeters, 4 millimeter in height, and 18 millimeters, 7 millimeters, and 4 millimeters in thickness. [4] Through time, an evolutionary morphological trait is that the species within Ptyctodontidae reduce the dermal armour. [5] The dentition of the Ptyctodus has dental elements that are very similarly observed in chimaeroids. [6] Its dental plates are compressed into a thin cutting edge behind the symphysis and measure 3 inches in thickness and several inches in length. [6] The tritors are expressed as fine punctae in parallel rows. [4] Ptyctodus teeth are very close together in a way that they are like a fish tooth conglomerate. [7] They were also armed with dorsal fin spines closely seen in Hetercanthus and Phlyctaenacanthus. [6] Just like the other members of the family of Ptyctodontidae, there is a sexual dimorphism between the genders of Ptyctodus in the pelvic region where the characteristics are different; males had claspers, while females had large scale like pelvic fins along with their endoskeleton. [8]

Ptyctodus lived in a nektonic carnivore type-ecology and in carbonate, lagoonal, and shallow subtidal environments. [1] Due to structure and shape of the teeth Ptyctodus would easily be able to crush shellfish like organisms at the bottom of the ocean floors, feeding mainly off of that. They also must seem to have been very agile swimmers, able to escape predators, like arthrodires. [2] [ failed verification ]

Species

Species of the Ptyctodus:

Timeline

Timeline of Ptyctodus along with other species within the Ptyctodontidae family

DevonianFamennianFrasnianGivetianEifelianEmsianPragianLochkovianRhynchodusPtyctodusPalaeomylusEczematolepisChelyophorusPtyctodopsisDenisonodusCtenurellaCampbellodusDesmoporellaGoniosteusTollodusDevonianFamennianFrasnianGivetianEifelianEmsianPragianLochkovianPtyctodus

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References

  1. 1 2 "Ptyctodus Pander 1858". Fossil Works. Gateway to the Paleobiology Database.
  2. 1 2 Holman, Alan (1995). Life of the Great Lakes Basin: Precambrian to Pleistocene. University of Michigan Press. p. 153.
  3. 1 2 Johnson, Heidemarie; Elliot, David (November 1996). "A New Ptyctodont (Placodermi) from the Upper Devonian Martin Formation of Northern Arizona, and an Analysis of Ptyctodont Phylogeny". Journal of Paleontology. 70 (6): 994–1003. Bibcode:1996JPal...70..994J. doi:10.1017/S0022336000038695. S2CID   132373001.
  4. 1 2 3 Branson, E (1922). "The Devonian of Missouri". Missouri Bureau of Geology and Mines. 17 (2): 127–128.
  5. Trinajstic, Kate; Long, John (2009). "A new genus and species of Ptyctodont (Placodermi) from the Late Devonian Gneudna Formation, Western Australia, and an analysis of Ptyctodont phylogeny". Geological Magazine. 146 (5): 743–760. Bibcode:2009GeoM..146..743T. doi:10.1017/S001675680900644X.
  6. 1 2 3 Eastman, Charles. "DEVONIAN FISHES OF IOWA". Iowa Geological Survey: 133.
  7. Calvin, Samuel; Leonard, A (1897). "Iowa Geological Survey". Annual Report. 7: 75.
  8. Miles, Roger (October 1967). "Observations on the ptyctodont fish, Rhamphodopsis Watson". Zoological Journal of the Linnean Society. 47 (311): 99–120. doi:10.1111/j.1096-3642.1967.tb01398.x.