Mosasauria is a
clade of
aquatic and
semiaquaticsquamates that lived during the
Cretaceous period. Fossils belonging to the group have been found in all continents around the world. Early mosasaurians were small long-bodied lizards that inhabited
nearshorecoastal and
freshwater environments; the
Late Cretaceous saw the rise of larger marine forms, the
mosasaurs, which are the clade's best-known members.[4]
The specific placement of Mosasauria within the Squamata has been controversial since its inception, with early debate focusing on the classification of the mosasaurs. Cuvier was the first scientist to deeply analyze their possible taxonomic placement through Mosasaurus. While his original 1808 hypothesis that the genus was a lizard with affinities to monitor lizards remained the most popular, Cuvier was uncertain, even at the time, about the accuracy of this placement. He simultaneously proposed a number of alternative hypotheses, with one such alternative suggesting that Mosasaurus instead had closer affinities with
iguanas due to their shared presence of pterygoid teeth. With the absence of sufficient fossil evidence, researchers during the early and mid-19th century had little to work with. Instead, they primarily relied on stratigraphic associations and Cuvier's 1808 research on the holotype skull. Thus, in-depth research on the placement of Mosasaurus was not undertaken until the discovery of more complete mosasaur fossils during the late 19th century, which reignited research on the placement of mosasaurs among squamates.[7]
In a span of about 30 to 40 years during the late 19th to early 20th centuries, paleontologists fiercely debated the issue, which created two major schools of thought: one that supported a monitor lizard relationship and one that supported a closer relationship with snakes.[7]
The proposition of a snake relationship was spearheaded by Cope, who first published such a hypothesis in 1869 by proposing that mosasaurs, which he classified under a group called the
Pythonomorpha, was the sister group of snakes. Some scientists went as far as to interpret mosasaurs as direct ancestors of snakes.[8] Many opponents of snake affinities argued that mosasaurs belong among monitor lizards in
Anguimorpha. Within that group placement varied, from placing mosasaurs within
Varanoidea or its sister taxa, or as true monitor lizards within
Varanidae.[7] These debates spawned higher taxonomic groups that were erected in attempts to classify the placement of mosasaurs (although not all are compatible). One of these was the Mosasauria, initially a loosely-defined group erected by Marsh in 1880 but redefined to its current definition by Conrad (2008).[5]
In 1923,
Charles Lewis Camp published Classification of the Lizards, in which he proposed through the review and rebuttal of previous arguments using his own anatomical observations that all taxa more closely related to Mosasaurus than Dolichosaurus should be classified into a superfamily called the
Mosasauroidea, which would be a sister superfamily to the Varanoidea.[7][9] Camp's take on the subject virtually ended the snake-monitor lizard debate for approximately 70 years, with nearly all subsequent studies supporting a relationship with monitor lizards. However, many studies continued to support going further than Camp in the monitor lizard relationship, placing mosasaurs within the Varanoidea.[7]
Modern controversy
Scientists continue to debate on whether
monitor lizards (left) or
snakes (right) are the closest living relatives of Mosasauria.
The debate was reignited with the publication of a 1997 cladistical study by Michael S. Y. Lee, which recovered the Mosasauroidea as a sister taxon to the snake suborder Serpentes and resurrected the argument for a snake relationship.[7][10] Prior, there had never been a modern phylogenetic study specifically testing the relationships between mosasaurians or snakes. Lee also resurrected the defunct Pythonomorpha and redefined it to unify the Mosasauroidea and Serpentes under one clade.[10] Multiple subsequent studies conducted by scientists such as Lee, Caldwell, and Alessandro Palci refined this hypothesis, where in some, the Mosasauria clade was revived and repurposed.[7][8] However, there still remained little consensus. For example, a large-scale phylogenetic study COnrad (2008) recovered the Mosasauria in a
polytomy, or a clade with unresolved relationships, with monitor lizards and
beaded lizards;[5] and a 2012 study by
Gauthieret al. recovered Mosasauria as a clade
basal to both monitor lizards and snakes.[11]
With the advent of
molecular genetics during the 2010s, some scientists argued for the combining of
molecular and morphological data to examine relationships between mosasaurs and living squamates.[12][13] An early study was Lee (2009), which based on
nuclear and
mitochondrial DNA in living squamates and morphological data recovered mosasaurs as a
stem group to snakes,[14] which some later authors interpreted as placement of snakes within the Mosasauria clade itself.[12] However, a 2010 study by Wiens et al. attempted to replicate Lee (2009) using a larger dataset but instead yielded results that recovered the Mosasauria as a sister clade to the monitor lizards.[12] The frequent discrepancies are due to the high prevalence of convergent evolution in squamates, which creates much room for interpreting molecular and morphological data; many of these studies had results that often contradicted each other, for example in completely different phylogenetic results by simply adding more datasets or varying which taxa are represented, which resulted in various conflicts creating even more uncertainty. Due to this, some scientists argued that a molecular perspective should be abandoned entirely.[13][15] Nevertheless, other scientists have attempted to resolve these problems. One approach was utilized by a 2015 study by Reeder et al.: it closely integrated morphological, molecular, and paleontological data in a large dataset to overcome previous conflicts, which revealed new morphological support for molecular results that recovered Mosasauria as a sister clade to Serpentes.[13] Another approach was developed by R. Alexander Pyron in a 2016 study, which also recovered Mosasauria as a sister clade to the Serpentes.[16] A 2022 study suggested that many of the characters uniting snakes and mosasaurians were based on ambiguous or misinterpreted characters, and suggested that a close relationship to Varanoidea within Anguimorpha was the best supported hypothesis.[17]
^Evans, S.E. (2022). "The Origin and Early Diversification of Squamates". In Gower, D.J.; Zaher, H. (eds.). The Origin and Early Evolutionary History of Snakes. Cambridge University Press. pp. 5–110.
doi:
10.1017/9781108938891.
ISBN9781108938891.
^Amiot, R.; Kusuhashi, N.; Saegusa, H.; Shibata, M.; Ikegami, N.; Shimojima, S.; Sonoda, T.; Fourel, F.; Ikeda, T.; Lécuyer, C.; Philippe, M.; Wang, X. (2021). "Paleoclimate and ecology of Cretaceous continental ecosystems of Japan inferred from the stable oxygen and carbon isotope compositions of vertebrate bioapatite". Journal of Asian Earth Sciences. 205: 104602.
doi:
10.1016/j.jseaes.2020.104602.
^
abcConrad, J.L. (2008). "Phylogeny And Systematics Of Squamata (Reptilia) Based On Morphology". Bulletin of the American Museum of Natural History. 310: 1–182.
doi:
10.1206/310.1.
S2CID85271610.
^Augusta, B.G.; Zaher, H.; Polcyn, M.J.; Fiorillo, A.R.; Jacobs, L.L. (2022). "A Review of Non-Mosasaurid (Dolichosaur and Aigialosaur) Mosasaurians and Their Relationships to Snakes". In Gower, D.J.; Zaher, H. (eds.). The Origin and Early Evolutionary History of Snakes. Cambridge University Press. pp. 157–179.
doi:
10.1017/9781108938891.
ISBN9781108938891.
^
abcdefgCite error: The named reference Caldwell2012 was invoked but never defined (see the
help page).
^Jacques A. Gauthier; Maureen Kearney; Jessica Anderson Maisano; Olivier Rieppel; Adam D.B. Behlke (2012). "Assembling the Squamate Tree of Life: Perspectives from the Phenotype and the Fossil Record". Bulletin of the Peabody Museum of Natural History. 53 (1): 3–308.
doi:
10.3374/014.053.0101.
S2CID86355757.
^N. B. Ananjeva (2019). "Current State of the Problems in the Phylogeny of Squamate Reptiles (Squamata, Reptilia)". Biology Bulletin Reviews. 9 (2): 119–128.
doi:
10.1134/s2079086419020026.
S2CID162184418.