Amphekepubis

Last updated

Amphekepubis
Temporal range: Late Cretaceous, 89.3–84.9  Ma
O
S
D
C
P
T
J
K
Pg
N
Scientific classification Red Pencil Icon.png
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Order: Squamata
Superfamily: Mosasauroidea
Family: Mosasauridae
Genus: Amphekepubis
Mehl, 1930
Species:
A. johnsoni
Binomial name
Amphekepubis johnsoni
Mehl, 1930

Amphekepubis is a dubious genus of mosasaur from the Late Cretaceous of Mexico. [1] Their remains correspond to the holotype specimen UM VP 509, a partial skeleton preserved in three dimensions, comprising the pelvic area, hind limb bones and nine caudal vertebrae, found in the east of Monterrey, in the state of Nuevo Leon, which come from marine sediments (claystones) apparently from the San Felipe Formation, which corresponds to the boundary between the ages of Coniacian and Santonian in the early Late Cretaceous. [2] [3] Amphekepubis is classified within the Mosasaurinae subfamily of mosasaurs. [4]

It has been suggested that the age of the fossils assigned to Amphekepubis may be more recent and that its remains might even belong to the genus Mosasaurus ; [5] [6] some recent reviews have simply assigned its type specimen to Mosasaurus. [3]

Related Research Articles

<span class="mw-page-title-main">Mosasaur</span> Extinct marine lizards of the Late Cretaceous

Mosasaurs comprise a group of extinct, large marine reptiles from the Late Cretaceous. Their first fossil remains were discovered in a limestone quarry at Maastricht on the Meuse in 1764. They belong to the order Squamata, which includes lizards and snakes.

<i>Mosasaurus</i> Extinct genus of marine squamate reptile from the Late Cretaceous

Mosasaurus is the type genus of the mosasaurs, an extinct group of aquatic squamate reptiles. It lived from about 82 to 66 million years ago during the Campanian and Maastrichtian stages of the Late Cretaceous. The earliest fossils of Mosasaurus known to science were found as skulls in a chalk quarry near the Dutch city of Maastricht in the late 18th century, which were initially thought to have been the bones of crocodiles or whales. One skull discovered around 1780, which was seized by France during the French Revolutionary Wars for its scientific value, was famously nicknamed the "great animal of Maastricht". In 1808, naturalist Georges Cuvier concluded that it belonged to a giant marine lizard with similarities to monitor lizards but otherwise unlike any known living animal. This concept was revolutionary at the time and helped support the then-developing ideas of extinction. Cuvier did not designate a scientific name for the new animal, and this was done by William Daniel Conybeare in 1822 when he named it Mosasaurus in reference to its origin in fossil deposits near the Meuse River. The exact affinities of Mosasaurus as a squamate remain controversial, and scientists continue to debate whether its closest living relatives are monitor lizards or snakes.

<span class="mw-page-title-main">Mosasaurinae</span> Subfamily of reptiles

The Mosasaurinae are a subfamily of mosasaurs, a diverse group of Late Cretaceous marine squamates. Members of the subfamily are informally and collectively known as "mosasaurines" and their fossils have been recovered from every continent except for South America.

<i>Globidens</i> Extinct genus of lizards

Globidens is an extinct genus of mosasaur lizard classified as part of the Globidensini tribe in the Mosasaurinae subfamily.

<i>Prognathodon</i> Extinct genus of lizards

Prognathodon is an extinct genus of marine lizard belonging to the mosasaur family. It is classified as part of the Mosasaurinae subfamily, alongside genera like Mosasaurus and Clidastes. Prognathodon has been recovered from deposits ranging in age from the Campanian to the Maastrichtian in the Middle East, Europe, New Zealand, and North America.

<i>Halisaurus</i> Extinct genus of lizards

Halisaurus is an extinct genus of marine reptile belonging to the mosasaur family. The holotype, consisting of an angular and a basicranium fragment discovered near Hornerstown, New Jersey, already revealed a relatively unique combination of features and prompted a new genus to be described. It was named by Othniel Charles Marsh in 1869 and means "ocean lizard". It was renamed by Marsh to Baptosaurus in 1870, since he believed the name to already be preoccupied by the fish Halosaurus. According to modern rules, a difference of a letter is enough and the substitute name is unneeded, making "Baptosaurus" a junior synonym.

Clidastes is an extinct genus of marine lizard belonging to the mosasaur family. It is classified as part of the Mosasaurinae subfamily, alongside genera like Mosasaurus and Prognathodon. Clidastes is known from deposits ranging in age from the Coniacian to the early Campanian in the United States.

<i>Muzquizopteryx</i> Genus of nyctosaurid pterosaur from the Late Cretaceous

Muzquizopteryx is a genus of nyctosaurid pterodactyloid pterosaur from the Late Cretaceous period of what is now Coahuila, Mexico.

<i>Plioplatecarpus</i> Genus of lizards

Plioplatecarpus is a genus of mosasaur lizard. Like all mosasaurs, it lived in the late Cretaceous period, about 73-68 million years ago.

Goronyosaurus is an extinct genus of marine lizard belonging to the mosasaur family. Fossils of Goronyosaurus are exclusively known from the Dukamaje Formation of Niger and Nigeria and also the Rima Formation of Nigeria, and are both Maastrichtian in age. The holotype was first described in 1930 as Mosasaurus nigeriensis, but subsequent remains revealed a highly unique set of adaptations that prompted the species to be reclassified as the only species of the new genus Goronyosaurus in 1972. These unique adaptations have made Goronyosaurus notoriously difficult to classify within the Mosasauridae and it is often left out of phylogenetic analyses, although most authors agree that Goronyosaurus belonged to Mosasauridae.

<i>Liodon</i> Extinct genus of lizards

Liodon is a dubious genus of mosasaur from the Late Cretaceous, known from fragmentary fossils discovered in St James' Pit, England and possibly also the Ouled Abdoun Basin of Morocco. Though dubious and of uncertain phylogenetic affinities, Liodon was historically a highly important taxon in mosasaur systematics, being one of the genera on which the family Mosasauridae was based.

<i>Angolasaurus</i> Extinct genus of lizards

Angolasaurus is an extinct genus of mosasaur. Definite remains from this genus have been recovered from the Turonian and Coniacian of Angola, and possibly the Coniacian of the United States, the Turonian of Brazil, and the Maastrichtian of Niger. While at one point considered a species of Platecarpus, recent phylogenetic analyses have placed it between the (then) plioplatecarpines Ectenosaurus and Selmasaurus, maintaining a basal position within the plioplatecarpinae.

The La Caja Formation is a geologic formation in Mexico. It preserves fossils dating from the Kimmeridgian to the lower Berriasian. La Caja Formation is widespread in northeastern and central Mexico and known for their abundant and diverse well-preserved ammonites. It was deposited in hemipelagic conditions, and predominantly consists of siliclastic sediments, including marl, with limestone. It is laterally equivalent to the La Casita Formation, which represent more proximal facies. The ichthyosaurs Ophthalmosaurus icenicus and Parrassaurus yacahuitztli, metriorhynchid Cricosaurus saltillensis and the giant pliosaur "Monster of Aramberri" are known from the formation.

<span class="mw-page-title-main">Timeline of mosasaur research</span>

This timeline of mosasaur research is a chronologically ordered list of important fossil discoveries, controversies of interpretation, and taxonomic revisions of mosasaurs, a group of giant marine lizards that lived during the Late Cretaceous Epoch. Although mosasaurs went extinct millions of years before humans evolved, humans have coexisted with mosasaur fossils for millennia. Before the development of paleontology as a formal science, these remains would have been interpreted through a mythological lens. Myths about warfare between serpentine water monsters and aerial thunderbirds told by the Native Americans of the modern western United States may have been influenced by observations of mosasaur fossils and their co-occurrence with creatures like Pteranodon and Hesperornis.

Maurice Goldsmith Mehl was an American paleontologist and professor in the Department of Geology at the University of Missouri.

<i>Kaikaifilu</i> Genus of lizards

Kaikaifilu is a genus of mosasaur from the Late Cretaceous part of the Lopez de Bertodano Formation of Antarctica, just before the Cretaceous–Paleogene extinction event. It is thought to be among the largest members of the tylosaurines, a group of marine lizards that lived during the Cretaceous, and the only really large Antarctic tylosaurine. However, some researchers disagree with this classification.

<span class="mw-page-title-main">Globidensini</span> Tribe of lizards

The Globidensini or Globidentatini are a tribe of mosasaurine mosasaurs, a diverse group of Late Cretaceous marine squamates. Members of the tribe, known as "globidensins" or "globidensine mosasaurs", have been recovered from North America, Europe, Africa and Asia. The tribe contains the genera Globidens, Carinodens, Igdamanosaurus, Harranasaurus and Xenodens. Features of the maxilla and digits make the placement of Carinodens and Xenodens in the tribe uncertain; some researchers have suggested that they may be more appropriately placed in the Mosasaurini.

Research history of <i>Mosasaurus</i>

This research history of Mosasaurus documents the historical, cultural, and scientific accounts surrounding the Mosasaurus, a genus of extinct aquatic squamate reptile that lived during the Late Cretaceous.

References

  1. "†Amphekepubis Mehl 1930". Paleobiology Database. Fossilworks. Retrieved 17 December 2021.
  2. Mehl, M. G. (1930). "A new genus of mosasaurs from Mexico, and notes on the pelvic girdle of Platecarpus". Denison University Bulletin, Journal of the Scientific Laboratories. 29 (10): 383–400.
  3. 1 2 Buchy, M.-C.; Smith, K. T.; Frey, E.; Stinnesbeck, W.; González, A. H. González; Ifrim, C.; López-Oliva, J. G.; Porras-Muzquiz, H. (2005). "Annotated catalogue of marine squamates (Reptilia) from the Upper Cretaceous of northeastern Mexico". Netherlands Journal of Geosciences. 84 (3): 195–205. doi:10.1017/S0016774600020977. ISSN   0016-7746. S2CID   132009809.
  4. DeBraga, Michael; Carroll, Robert L. (1993), Hecht, Max K.; MacIntyre, Ross J.; Clegg, Michael T. (eds.), "The Origin of Mosasaurs As a Model of Macroevolutionary Patterns and Processes", Evolutionary Biology, Boston, MA: Springer US, pp. 245–322, doi:10.1007/978-1-4615-2878-4_7, ISBN   978-1-4615-2878-4 , retrieved 2022-07-13
  5. Buchy, Marie-Céline; Eberhard Frey; Wolfgang Stinnesbeck; José Guadalupe López-Oliva (2007). "Cranial anatomy of a Maastrichtian (Upper Cretaceous) mosasaur (Squamata, Mosasauridae) from north-east Mexico" (PDF). Revista Mexicana de Ciencias Geológicas. 24 (1): 89–103. Archived from the original (PDF) on 2016-03-07. Retrieved 2017-07-12.
  6. Lingham-Soliar, Theagarten (1995). "Anatomy and functional morphology of the largest marine reptile known, Mosasaurus hoffmanni (Mosasauridae, Reptilia) from the Upper Cretaceous, Upper Maastrichtian of The Netherlands". Philosophical Transactions: Biological Sciences. 347 (1320): 155–180. doi:10.1098/rstb.1995.0019. JSTOR   55929.