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==Biology== |
==Biology== |
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Species of ”Palaeophis” were specialised aquatic animals, as their fossils occur primarily in marine strata, though at least some estuarine remains have also been found.<ref name=holman /> Different species are thought to have occupied different ecological niches. Palaeophis colossaeus may have consumed large prey. If the skull of Palaeophis colossaeus was closer to that of [[Archaeophis]], the upper limit for the size of consumable food would have been quite large. Contemporaneous species that could have been part of the diet of Palaeophis colossaeus in Mali include [[shark]]s, [[lungfish]], [[pycnodontids]] and other large [[fish]]es, [[dyrosaurid]] crocodyliformes, and [[turtle]]s.<ref>{{Cite web|date=2019|title=Stratigraphy and Paleobiology of the Upper Cretaceous-Lower Paleogene Sediments from the Trans-Saharan Seaway in Mali|website=bioone.org|volume=436|publisher=American Museum of Natural History|url=https://bioone.org/Bulletin-of-the-American-Museum-of-Natural-History|pages=1-183}}</ref> It is also not certain whether palaeophiids were [[constriction|constrictor]]s. If palaeophiids were |
Species of ”Palaeophis” were specialised aquatic animals, as their fossils occur primarily in marine strata, though at least some estuarine remains have also been found.<ref name=holman /> Different species are thought to have occupied different ecological niches. Palaeophis colossaeus may have consumed large prey. If the skull of Palaeophis colossaeus was closer to that of [[Archaeophis]], the upper limit for the size of consumable food would have been quite large. Contemporaneous species that could have been part of the diet of Palaeophis colossaeus in Mali include [[shark]]s, [[lungfish]], [[pycnodontids]] and other large [[fish]]es, [[dyrosaurid]] crocodyliformes, and [[turtle]]s.<ref>{{Cite web|date=2019|title=Stratigraphy and Paleobiology of the Upper Cretaceous-Lower Paleogene Sediments from the Trans-Saharan Seaway in Mali|website=bioone.org|volume=436|publisher=American Museum of Natural History|url=https://bioone.org/Bulletin-of-the-American-Museum-of-Natural-History|pages=1-183}}</ref> It is also not certain whether palaeophiids were [[constriction|constrictor]]s. If palaeophiids were macrophagous, it is likely they would have killed large prey before attempting to consume them to prevent serious damage to their heads in the process. |
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Studies on ”Palaeophis” vertebrae show a high degree of vascularisation, suggesting that it had a considerably faster metabolism and growth rate than modern snakes. This may suggest that palaeophiids, like other marine reptiles such as [[mosasaur]]s, might have developed towards endothermy.<ref name=”HoussayeEtAl2013″>{{cite journal|last1=Houssaye|first1=Alexandra|last2=Rage|first2=Jean-Claude |last3=Bardet|first3=Nathalie |last4=Vincent|first4=Peggy|last5=Amaghzaz|first5=Mbarek |last6=Meslouh|first6=Said |year=2013 |title=New highlights about the enigmatic marine snake ”Palaeophis maghrebianus” (Palaeophiidae; Palaeophiinae) from the Ypresian (Lower Eocene) phosphates of Morocco |journal=Palaeontology |volume=56 |issue=3 |pages=647–661 | doi=10.1111/pala.12008|doi-access= |bibcode=2013Palgy..56..647H |s2cid=129055598 }}</ref> |
Studies on ”Palaeophis” vertebrae show a high degree of vascularisation, suggesting that it had a considerably faster metabolism and growth rate than modern snakes. This may suggest that palaeophiids, like other marine reptiles such as [[mosasaur]]s, might have developed towards endothermy.<ref name=”HoussayeEtAl2013″>{{cite journal|last1=Houssaye|first1=Alexandra|last2=Rage|first2=Jean-Claude |last3=Bardet|first3=Nathalie |last4=Vincent|first4=Peggy|last5=Amaghzaz|first5=Mbarek |last6=Meslouh|first6=Said |year=2013 |title=New highlights about the enigmatic marine snake ”Palaeophis maghrebianus” (Palaeophiidae; Palaeophiinae) from the Ypresian (Lower Eocene) phosphates of Morocco |journal=Palaeontology |volume=56 |issue=3 |pages=647–661 | doi=10.1111/pala.12008|doi-access= |bibcode=2013Palgy..56..647H |s2cid=129055598 }}</ref> |
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Latest revision as of 16:28, 13 October 2025
Extinct genus of snakes
| Palaeophis | |
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| Fossil vertebrae of Palaeophis maghrebianus from Khouribga (Morocco) | |
Scientific classification 
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| Kingdom: | Animalia |
| Phylum: | Chordata |
| Class: | Reptilia |
| Order: | Squamata |
| Suborder: | Serpentes |
| Family: | †Palaeophiidae |
| Subfamily: | †Palaeophiinae |
| Genus: | †Palaeophis Owen, 1841 |
| Type species | |
| †Palaeophis toliapicus
Owen, 1841 |
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| Species | |
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| Synonyms | |
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Palaeophis (‘ancient snake’) is an extinct genus of marine snake that is the type genus of the extinct snake family Palaeophiidae.
Described species within this genus lived in the Eocene epoch, with some unnamed or questionable records from Cenomanian and Maastrichtian.[1] Fossils of species within this genus have been found in England, France, Denmark,[2] Morocco[3] and Mali.[4] Remains have also been found in North America, including Maryland and Virginia (from the early Eocene Nanjemoy Formation),[5] Georgia[6] and Mississippi.[7]
These species varied broadly in size; Palaeophis casei is the smallest at 1.3 metres of length, while the largest species, Palaeophis colossaeus, is estimated to have been 8.1–12.3 m (27–40 ft) long based on isolated vertebrae,[4][8] making it one of the largest known snakes. However, most species of the genus were not as big.[9][10] There are many species of Palaeophis but they can be separated into two assemblages of species or grades. In which the primitive grade include species whose vertebrae are weakly laterally compressed and have less developed and low process of vertebrae. Subsequently the advanced grade are characterized by vertebrae presenting a strong lateral compression which translate to being much better adapted to aquatic life.
Species of Palaeophis were specialised aquatic animals, as their fossils occur primarily in marine strata, though at least some estuarine remains have also been found.[7] Different species are thought to have occupied different ecological niches. Palaeophis colossaeus may have consumed large prey. If the skull of Palaeophis colossaeus was closer to that of Archaeophis, the upper limit for the size of consumable food would have been quite large. Contemporaneous species that could have been part of the diet of Palaeophis colossaeus in Mali include sharks, lungfish, pycnodontids and other large fishes, dyrosaurid crocodyliformes, and turtles.[11] It is also not certain whether palaeophiids were constrictors. If palaeophiids were macrophagous, it is likely they would have killed large prey before attempting to consume them to prevent serious damage to their heads in the process.
Studies on Palaeophis vertebrae show a high degree of vascularisation, suggesting that it had a considerably faster metabolism and growth rate than modern snakes. This may suggest that palaeophiids, like other marine reptiles such as mosasaurs, might have developed towards endothermy.[3]
- ^ Folie, Annelise; Mees, Florias; De Putter, Thierry; Smith, Thierry (2021-07-01). “Presence of the large aquatic snake Palaeophis africanus in the middle Eocene marine margin of the Congo Basin, Cabinda, Angola”. Geobios. Proceedings of the PalEurAfrica project international symposium Evolution and Paleoenvironment of Early Modern Vertebrates during the Paleogene. 66–67: 45–54. Bibcode:2021Geobi..66…45F. doi:10.1016/j.geobios.2020.11.002. ISSN 0016-6995. S2CID 229411514.
- ^ Kristensen, H. V.; Cuny, G.; Rasmussen, A. R.; Madsen, H (2012). “Earliest record of the fossil snake Palaeophis from the Paleocene/Eocene boundary in Denmark”. Bulletin de la Société Géologique de France. 183 (6): 621–625. doi:10.2113/gssgfbull.183.6.621.
- ^ a b Houssaye, Alexandra; Rage, Jean-Claude; Bardet, Nathalie; Vincent, Peggy; Amaghzaz, Mbarek; Meslouh, Said (2013). “New highlights about the enigmatic marine snake Palaeophis maghrebianus (Palaeophiidae; Palaeophiinae) from the Ypresian (Lower Eocene) phosphates of Morocco”. Palaeontology. 56 (3): 647–661. Bibcode:2013Palgy..56..647H. doi:10.1111/pala.12008. S2CID 129055598.
- ^ a b Rage, J.-C. (1983). “Palaeophis colossaeus nov. sp. (le plus grand Seprent connu?) de l’Eocène du Mali et le problème du genre chez les Palaeopheinae”. Comptes rendus de l’Académie des Sciences de Paris. 3 (296): 1741–1744.
- ^ Blake, S. F. “Note on a vertebra of Palaeophis from the Eocene of Maryland.” Journal of the Washington Academy of Sciences 31.12 (1941): 501-503.
- ^ Parmley, Dennis, and Harold W. Reed. “Size and age class estimates of North American Eocene palaeopheid snakes.” Georgia Journal of Science 61.4 (2003): 220.
- ^ a b Holman, J. Alan. “Palaeophis casei, new species, a tiny palaeophid snake from the early Eocene of Mississippi.” Journal of Vertebrate Paleontology 2.2 (1982): 163-166.
- ^ McCartney, Jacob; Roberts, Eric; Tapanila, Leif; O’Leary, Maureen (2018). “Large palaeophiid and nigerophiid snakes from Paleogene Trans-Saharan Seaway deposits of Mali”. Acta Palaeontologica Polonica. 63. doi:10.4202/app.00442.2017. ISSNÂ 0567-7920. S2CIDÂ 59147071.
- ^ Holman, J. Alan (1982). “Palaeophis casei, new species, a tiny palaeophid snake from the early Eocene of Mississippi”. Journal of Vertebrate Paleontology. 2 (2): 163–166. Bibcode:1982JVPal…2..163H. doi:10.1080/02724634.1982.10011927. JSTOR 4522892.
- ^ Rage, Jean-Claude; et al. (2003). “Early Eocene snakes from Kutch, Western India, with a review of the Palaeophiidae”. Geodiversitas. 25 (4). Editions scientifiques du Muséum, Paris, France: 695–716. ISSN 1280-9659. Retrieved 12 May 2010.
- ^ “Stratigraphy and Paleobiology of the Upper Cretaceous-Lower Paleogene Sediments from the Trans-Saharan Seaway in Mali”. bioone.org. American Museum of Natural History. 2019. pp. 1–183.
