Biology:Pycnodontiformes
Pycnodontiformes | |
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Pycnodontiform diversity | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Actinopterygii |
Subclass: | Neopterygii |
Order: | †Pycnodontiformes Berg, 1937 |
Families | |
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Pycnodontiformes is an extinct order of primarily marine bony fish. The group first appeared during the Late Triassic and disappeared during the Eocene. The group has been found in rock formations in Africa, Asia, Europe, North and South America.[1] They were small to middle-sized fish, generally with laterally-compressed deep bodies, some with almost circular outlines,[2] adapted for manuverability in reef-like environments, though the group was morphologically diverse.[3] Most, but not all members of the groups had jaws with round and flattened teeth,[4] well adapted to crush food items (durophagy), such as echinoderms, crustaceans and molluscs.[3] Some pyncodontiformes developed piranha like teeth used for eating flesh.[5][6] Most species inhabited shallow marine reef environments, while a handful of species lived in freshwater or brackish conditions. While rare during the Triassic and Early-Middle Jurassic, Pycnodontiformes became abundant and diverse during the Late Jurassic, exhibiting a high but relatively static diversity during the Early Cretaceous. At the beginning of the Late Cretaceous they reached their apex of morphological and species diversity (much of this due to fossils found in Lebanon, such as Gebrayelichthyidae and Ichthyoceros), after which they began to gradually decline, with a more sudden decline at the end of the Cretaceous due to the collapse of reef ecosystems, finally becoming extinct during the Eocene. They are considered to belong to the Neopterygii, but their relationship to other members of that group is uncertain.[3]
Evolution and diversity
Pycnodontiforms first appeared in the Late Triassic, alongside other successful groups of early neopterygians such as dapediiforms. A contributor for this early radiation of neopterygians was their effectiveness at adapting to different diets. Pycnodonts from the Late Triassic Zorzino Limestone in Italy had short and stout jaws with big crushing teeth for eating hard-shelled prey, while other actinopterygians like saurichthyids and birgeriids mainly occupied top predator piscivorous niches. They originated from marine habitats, specializing for manoeuverability in reef environments, but developed a variety of adaptations during the Mesozoic that enable them to pursue new diets and habitats, such as estuaries and freshwaters. Only a few species adapted for open waters, like those of the family Gyrodontidae.[3] In the Western Tethys, pycnodonts have always had a high species diversity. This stable environment, alongside its favorable climate conditions, supported the dispersal patterns within basal pycnodontids.[7]
They evolved such different jaw structures to avoid potential competition with other groups of durophagous neopterygians, such as the Dapediiformes and the Ginglymodi. Furthermore, their improved jaw performance also differentiated the pycnodonts from these neopterygians in that they allowed them to feed on tougher prey, while their increase in size allowed them to prey on larger items or specialise on a few species. Their families also differentiated amongst themselves in body and jaw shape, implying that they were more diverse in diet and habitat than previously thought.[3]
The fossil record of pycnodonts spans 175 million years, from the Triassic to the Eocene, existing longer than non-avian dinosaurs. Their early record is incomplete, having only three genera from the Late Triassic, all with complete specimens. Whereas from the Early to Mid-Jurassic there are only isolated teeth and jaws, and rarely a few exceptions for better, but still incomplete, fossils. By the Late Jurassic Pycnodontiforms became more common in the fossil record, a fact that relates to the presence of Lagerstätten, providing articulated fossils. This growth continues and, by the Late Cretaceous, they experience a peak in diversity during the Cenomanian. They were severely struck by the K/Pg Extinction and afterwards their diversity shrunk, having never achieved pre-extinction levels of diversity, eventually going extinct by the Late Eocene (Priabonian).[3]
Taxonomy
- Order Pycnodontiformes (Berg, 1937)[8][9]
- Genus ?Acrorhinichthys Taverne & Capasso, 2015
- Genus ?Archaeopycnodon Sanchez & Benedetto, 1980
- Genus ?Athrodon le Sauvage 1880 non Osborn, 1887
- Genus ?Callodus Thurmond, 1974
- Genus ?Cosmodus le Sauvage, 1879 [Glossodus Costa, 1851 non Agassiz, 1828 ex Spix & Agassiz, 1829 non McCoy, 1848]
- Genus ?Ellipsodus Cornuel, 1877
- Genus ?Grypodon Hay, 1899 [Ancistrodon Dames, 1883 non De Beauvois, 1799 non Roemer, 1852 non Wagler, 1830]
- Genus ?Mercediella Koerber, 2012 [Camposichthys Figueiredo & Silva-Santos, 1991 non Travassos, 1946 non Whitley, 1953]
- Genus ?Piranhamesodon Kölbl-Ebert et al., 2018
- Genus ?Pseudopycnodus Taverne, 2003
- Genus ?Tergestinia Capasso, 2000
- Genus ?Thurmondella Thurmond, 1974 non [Paramicrodon Thurmond, 1974 non de Meijere, 1913]
- Genus ?Uranoplosus le Sauvage, 1879
- Genus ?Woodthropea Swinnerton, 1925
- Family ?Hadrodontidae Thurmond & Jones, 1981
- Genus Hadrodus Leidy, 1858 [Propenser Applegate, 1970]
- Family ?Gebrayelichthyidae Nursall & Capasso, 2004
- Genus Gebrayelichthys Nursall & Capasso, 2004
- Genus Maraldichthys Taverne & Capasso, 2014
- Family ?Gladiopycnodontidae Taverne & Capasso, 2013
- Genus Arduafrons Frickhinger, 1991
- Genus Eomesodon Woodward, 1918
- Genus Gladiopycnodus Taverne & Capasso, 2013
- Genus Joinvillichthys Taverne & Capasso, 2014
- Genus Micropycnodon Hibbard & Graffham, 1945 [Pycnomicrodon Hibbard & Graffham, 1941 non Hay, 1916]
- Genus Monocerichthys Taverne & Capasso, 2013
- Genus Pankowskichthys Taverne & Capasso, 2014
- Genus Paramesturus Taverne, 1981
- Genus Rostropycnodus Taverne & Capasso, 2013
- Genus Stenoprotome Hay, 1903
- Family Mesturidae Nursall, 1996
- Genus Mesturus Wagner, 1862
- Family Gyrodontidae Berg, 1940
- Genus Gyrodus Agassiz, 1833
- Family Brembodontidae Tintori, 1981 [Brembodidae; Gibbodontidae Tintori, 1981]
- Family Coccodontidae Berg, 1940 [Trewavasiidae Nursall, 1996]
- Genus Coccodus Pictet, 1850
- Genus Corusichthys Taverne & Capasso, 2014
- Genus Hensodon Kriwet, 2004
- Genus Ichthyoceros Gayet, 1984 [10]
- Genus Paracoccodus Taverne & Capasso, 2014
- Genus Trewavasia White & Moy-Thomas, 1941 [Xenopholis Davis, 1887 non Peters, 1869; Xenopholoides Fowler, 1958] [10]
- Family Pycnodontidae Agassiz, 1833 corrig. Bonaparte, 1845 [Nursalliidae Bloy, 1987; Sphaerodontidae Giebel, 1846; Palaeobalistidae Blot, 1987; Proscinetidae Gistel, 1848; Gyronchidae]
- Genus Abdobalistum Poyato-Ariza & Wenz, 2002
- Genus Anomiophthalmus Costa, 1856
- Genus Anomoedus Forir, 1887
- Genus Acrotemnus Agassiz 1836,
- Genus Akromystax Poyato-Ariza & Wenz, 2005
- Genus Coelodus Heckel, 1854
- Genus Flagellipinna Cawley & Kriwet, 2019
- Genus Macropycnodon Shimada, Williamson & Sealey, 2010
- Genus Macromesodon Blake 1905 non Lehman, 1966 [Mesodon Wagner, 1851 non Rafinesque, 1821; Gyronchus Agassiz, 1839; Apomesodon Poyato-Ariza & Wenz, 2002]
- Genus Neoproscinetes De Figueiredo & Silva Santos, 1990
- Genus Njoerdichthys Cawley, Lehmann, Wiese & Kriwet, 2020[7]
- Genus Nursallia Blot, 1987
- Genus Ocloedus Poyato-Ariza & Wenz, 2002
- Genus Oropycnodus Poyato-Ariza & Wenz, 2002
- Genus Palaeobalistum Taverne et al., 2015
- Genus Paranursallia Taverne et al., 2015
- Genus Phacodus Dixon, 1850
- Genus Polazzodus Poyoto-Ariza, 2010
- Genus Polygyrodus White, 1927
- Genus Potiguara Machado & Brito, 2006
- Genus Proscinetes Gistl, 1848 [Microdon Agassiz, 1833 non Meigen, 1803 non Fritsch, 1876 non Conrad, 1842 non Gistl, 1848 non Dixon, 1850; Polypsephis Hay, 1899]
- Genus Pycnomicrodon Hay 1916 non Hibbard & Graffham, 1941
- Genus Pycnodus Agassiz, 1833
- Genus Rhinopycnodus Taverne & Capasso, 2013
- Genus Sphaerodus Agassiz, 1833
- Genus Sphaeronchus Stinton & Torrens, 1967
- Genus Stenamara Poyato-Ariza & Wenz, 2000
- Genus Stemmatias Hay, 1899 [Stemmatodus St. John & Worthen, 1875 non Heckel, 1854 non]
- Genus Stemmatodus Heckel, 1854 non St. John & Worthen, 1875 non
- Genus Sylvienodus Poyato-Ariza & Wenz, 2013
- Genus Tamanja Wenz, 1989
- Genus Tepexichtys Applegate, 1992
- Genus Thiollierepycnodus Ebert, 2020
- Genus Tibetodus Young & Liu, 1954
- Genus Turbomesodon Poyato-Ariza & Wenz, 2004 [Macromesodon Lehman, 1966 non Blake, 1905]
- Genus Typodus Quenstedt, 1858
- Family incertae sedis
- Genus Agassizilia Cooper and Martill, 2020[11]
- Genus Neomesturus Cooper and Martill, 2020[12]
Phylogeny
The phylogenetic relation between pycnodonts and other actinopterygians is uncertain. The difficulty of placing them on a phylogenetic tree arises from the fact that they are a clade defined by a high number of autapomorphies (characteristics shared by a single taxon), which makes them easy to identify, but also makes the study of their relations with other actinopterygians difficult, since characteristics shared by other groups might be obfuscated by the immense amount of features and diversity of pycnodonts.[13]
Previously, Pycnodontiformes where proposed to be a sister group of Teleostei or Teleosteomorpha, but in a 2015 analysis by Poyato-Ariza, they turned up as the most basal Neopterygii among the others of the group included, those being Lepisosteiformes, Semionotiformes, Macrosemiiformes, Halecomorphi and Teleostei.[13]
Actinopterygii |
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As a means to avoid potential competition, the families of Pycnodontiforms evolved different body and jaw shapes, resulting in a highly diverse group.[3] Pycnodontidae were the most advanced group, being the largest family, comprising 26 known described genera.[14]
Pycnodontiformes |
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References
- ↑ "Pycnodontiformes". Palaeos vertebrates. http://www.palaeos.com/Vertebrates/Units/100Neopterygii/100.600.html#Pycnodontiformes.
- ↑ "Pycnodontid fishes from the Kansas Cretaceous". Oceans of Kansas. 16 April 2009. http://www.oceansofkansas.com/Pycnodont.html.
- ↑ 3.0 3.1 3.2 3.3 3.4 3.5 3.6 Cawley, John J.; Marramà, Giuseppe; Carnevale, Giorgio; Villafaña, Jaime A.; López‐Romero, Faviel A.; Kriwet, Jürgen (February 2021). "Rise and fall of †Pycnodontiformes: Diversity, competition and extinction of a successful fish clade" (in en). Ecology and Evolution 11 (4): 1769–1796. doi:10.1002/ece3.7168. ISSN 2045-7758. PMID 33614003.
- ↑ McMenamin, M. A. S. (2009). Paleotorus: The Laws of Morphogenetic Evolution. Meanma Press. ISBN 978-1-893882-18-8.
- ↑ Kölbl-Ebert, Martina; Ebert, Martin; Bellwood, David R.; Schulbert, Christian (2018-11-05). "A Piranha-like Pycnodontiform Fish from the Late Jurassic" (in en). Current Biology 28 (21): 3516–3521.e2. doi:10.1016/j.cub.2018.09.013. ISSN 0960-9822. PMID 30344113.
- ↑ Vullo, Romain; Cavin, Lionel; Khalloufi, Bouziane; Amaghzaz, Mbarek; Bardet, Nathalie; Jalil, Nour-Eddine; Jourani, Essaid; Khaldoune, Fatima et al. (2017-07-28). "A unique Cretaceous–Paleogene lineage of piranha-jawed pycnodont fishes" (in en). Scientific Reports 7 (1): 6802. doi:10.1038/s41598-017-06792-x. ISSN 2045-2322. PMID 28754956.
- ↑ 7.0 7.1 Cawley, John; Lehnmann, Jens; Wiese, Frank; Kriwet, Jürgen (2020). "Njoerdichthys dyckerhoffi gen. et sp. nov. (Pycnodontiformes, lower Turonian) northward migration caused by the Cretaceous Thermal Maximum". Cretaceous Research 116. https://www.sciencedirect.com/science/article/pii/S0195667120302767#fig3.
- ↑ Nelson, Joseph S.; Grande, Terry C.; Wilson, Mark V. H. (2016). Fishes of the World (5th ed.). John Wiley & Sons. ISBN 9781118342336.
- ↑ van der Laan, Richard (2016). Family-group names of fossil fishes. https://www.researchgate.net/publication/303911230.
- ↑ 10.0 10.1 L. Taverne; L. Capasso (2014). "Ostéologie et phylogénie des Coccodontidae, une famille remarquable de poissons Pycnodontiformes du Crétacé supérieur marin du Liban, avec la description de deux nouveaux genres". Palaeontos 25. http://www.palaeontos.be/25/det25.htm. Retrieved 2016-07-05.
- ↑ Cooper, Samuel L.A.; Martill, David M. (August 2020). "A diverse assemblage of pycnodont fishes (Actinopterygii, Pycnodontiformes) from the mid-Cretaceous, continental Kem Kem Group of south-east Morocco". Cretaceous Research 112: 104456. doi:10.1016/j.cretres.2020.104456.
- ↑ Cooper, S.L.A. and Martill, D.M. (2020). "Pycnodont fishes (Actinopterygii: Pycnodontiformes) from the Upper Cretaceous (lower Turonian) Akrabou Formation of Asfla, Morocco" Cretaceous Research 116, 104607
- ↑ 13.0 13.1 Poyato-Ariza, Francisco (2015). "Studies on Pycnodontid fishes (I): Evaluation of their phylogenetic position among actinopterygians". Rivista Italiana di Paleontologia e Stratigrafia 121 (3): 329–343.
- ↑ Ebert, Martin (2020). "A new genus of Pycnodontidae (Actinopterygii) from the Upper Jurassic of France and Germany, included in a phylogeny of Pycnodontiformes". Zoological Journal of the Linnean Society 188 (2): 434–454. https://academic.oup.com/zoolinnean/article/188/2/434/5601911?login=false#198931046.
- Capasso, Luigi (2021). "Pycnodonts: An overview and new insights in the Pycnodontomorpha Nursall, 2010". Occasional Paper of the University Museum of Chieti, Monographic Publication, 1: 1–223.
- Sepkoski, Jack (2002). "A compendium of fossil marine animal genera". Bulletins of American Paleontology 364: 560. http://strata.ummp.lsa.umich.edu/jack/showgenera.php?taxon=611&rank=class. Retrieved 2011-05-17.
Wikidata ☰ Q1787823 entry
Original source: https://en.wikipedia.org/wiki/Pycnodontiformes.
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