Morganucodonta ("Glamorgan teeth") is an extinct order of basal Mammaliaformes, a group including crown-group mammals (Mammalia) and their close relatives. Their remains have been found in Southern Africa, Western Europe, North America, India and China. The morganucodontans were probably insectivorous and nocturnal, though like eutriconodonts some species attained large sizes and were carnivorous.[1] Nocturnality is believed to have evolved in the earliest mammals in the Triassic (called the nocturnal bottleneck) as a specialisation that allowed them to exploit a safer, night-time niche, while most larger predators were likely to have been active during the day (though some dinosaurs, for example, were nocturnal as well[2]).

Morganucodonta
Temporal range: Late TriassicLower Cretaceous 210–140 Ma
Life restoration of a Megazostrodon, Natural History Museum, London
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Synapsida
Clade: Therapsida
Clade: Cynodontia
Clade: Mammaliaformes
Order: Morganucodonta
Kermack, Mussett, & Rigney, 1973
Subgroups

Anatomy and biology

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Skull of Morganucodon

Morganucodontans had a double jaw articulation made up of the dentary-squamosal joint as well as a quadrate-articular one. This implies that they also retained one of their postdentary bones: the articular. There is a trough at the back of the jaw on the inside (lingual) where the postdentary bones sat. The double jaw articulation and retention of the postdentary bones are characteristic of many of the earliest Mammaliaformes, but are absent today in mammals: All crown-group mammals have a lower jaw that is composed of a single bone, and the articular has been incorporated into the middle ear, having become the malleus (while the quadrate has become the incus).

 
Diagram showing characteristic double jaw joint

Unlike more basal therapsids such as Sinoconodon, morganucodontan teeth were diphyodont (meaning that they replaced their teeth once, having a 'milk' set and 'adult' set as seen in today's mammals including humans[3] and not polyphyodont (meaning that the teeth are constantly replaced, and the animal and its teeth get larger throughout its lifetime, as in reptiles). Evidence of lactation is present in Wareolestes, via tooth replacement patterns.[4]

Morganucodontans also had specialised teeth – incisors, canines, molars and premolars – for food processing, rather than having similarly shaped teeth along the tooth row as seen in their predecessors. Morganucododontans are thought to have been insectivorous and carnivorous, their teeth adapted for shearing. Niche partitioning is known among various morganucodontan species, different types specialised for different prey.[5] Paceyodon davidi was the largest species of morganucodontans. It is known by a right lower molariform 3.3 mm (0.13 in) in length, which is bigger than molariforms of all other morganucodontans.[6]

The teeth of some morganucodonts are structured in such a way that occlusion happens by the lower cusp "a" fitting anteriorly to upper cusp "A", between "A" and "B". This occlusion pattern is by no means universal among morganucodontans, however; Dinnetherium, for example has an occlusion mechanism closer to that of the eutriconodonts, in which molars basically alternate.[7][8] Wear facets are present.

The septomaxilla, a primitive feature also found in Sinoconodon, is found in morganucodontans, as well as a fully ossified orbitosphenoid. The anterior lamina is enlarged. The cranial moiety of the squamosal is a narrow bone that is superficially placed to the petrosal and parietal. Unlike its predecessors, the morganucodontans have a larger cerebral capacity and a longer cochlea.

The atlas elements are unfused; there is a suture between the dens and axis. The cervical ribs are not fused to the centra. The coracoid and procoracoid, which are absent in therians, are present. The head of the humerus is spherical as in mammals, but the spiral ulnar condyle is cynodont-like. In the pelvic girdle, the pubis, ilium and ischium are unfused. At least Megazostrodon and Erythrotherium are unique among basal mammaliaforms for lacking epipubic bones, suggesting that they didn't have the same reproductive constraints.[9]

Morganucodon at least appears to have had a long lifespan and a lower metabolism than modern mammals.[10]

Classification

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Because morganucodontans possessed the mammalian dentary-squamosal jaw joint, systematists like G. G. Simpson (1959)[11] considered the morganucodontans to be mammals. Some palaeontologists continue to use this classification.[12] Others use crown-group terminology, which limits Mammalia to the descendants of the closest common ancestor of living mammals. By this definition, more basal orders like morganucodontans are not in Mammalia, but are mammaliaformes.[13] This is the most commonly accepted classification system.[citation needed]

See also

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References

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Notes
  1. ^ "(PDF) A Large Morganucodontan Mammaliaform from the Late Jurassic of Germany".
  2. ^ Schmitz, Lars; Motani, Ryosuke (2011). "Nocturnality in dinosaurs inferred from scleral ring and orbit morphology". Science. 332 (6030): 705–708. Bibcode:2011Sci...332..705S. doi:10.1126/science.1200043. PMID 21493820. S2CID 33253407.
  3. ^ Panciroli E. 2017 Fossil Focus: The First Mammals - http://www.palaeontologyonline.com/articles/2017/fossil-focus-first-mammals/)
  4. ^ Panciroli, Elsa; Benson, Roger B. J.; Walsh, Stig (August 2017). "The dentary of Wareolestes rex (Megazostrodontidae): a new specimen from Scotland and implications for morganucodontan tooth replacement". Papers in Palaeontology. 3 (3): 373–386. Bibcode:2017PPal....3..373P. doi:10.1002/spp2.1079. S2CID 90894840.
  5. ^ Gill, Pamela G.; Purnell, Mark A.; Crumpton, Nick; Brown, Kate Robson; Gostling, Neil J.; Stampanoni, M.; Rayfield, Emily J. (August 2014). "Dietary specializations and diversity in feeding ecology of the earliest stem mammals". Nature. 512 (7514): 303–305. Bibcode:2014Natur.512..303G. doi:10.1038/nature13622. hdl:2381/29192. PMID 25143112. S2CID 4469841.
  6. ^ WILLIAM A. CLEMENS. "New morganucodontans from an Early Jurassic fissure filling in Wales (United Kingdom)". [Palaeontology, Vol. 54, Part 5, 2011, pp. 1139–1156] The Palaeontological Associationdoi: 10.1111/j.1475-4983.2011.01094.x1139
  7. ^ Jäger, Kai R. K.; Cifelli, Richard L.; Martin, Thomas (2020). "Molar occlusion and jaw roll in early crown mammals". Scientific Reports. 10 (1): 22378. Bibcode:2020NatSR..1022378J. doi:10.1038/s41598-020-79159-4. ISSN 2045-2322. PMC 7759581. PMID 33361774.
  8. ^ Butler, Percy M.; Sigogneau-Russell, Denise (2016). "Diversity of triconodonts in the Middle Jurassic of Great Britain" (PDF). Palaeontologia Polonica. 67: 35–65. doi:10.4202/pp.2016.67_035 (inactive 1 November 2024).{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  9. ^ Lillegraven, Jason A.; Kielan-Jaworowska, Zofia; Clemens, William Alvin (1979). Mesozoic Mammals: The First Two-thirds of Mammalian History. University of California Press. ISBN 978-0-520-03951-3.[page needed]
  10. ^ Newham, Elis; Gill, Pamela G.; Brewer, Philippa; Benton, Michael J.; Fernandez, Vincent; Gostling, Neil J.; Haberthür, David; Jernvall, Jukka; Kankaanpää, Tuomas; Kallonen, Aki; Navarro, Charles; Pacureanu, Alexandra; Richards, Kelly; Brown, Kate Robson; Schneider, Philipp; Suhonen, Heikki; Tafforeau, Paul; Williams, Katherine A.; Zeller-Plumhoff, Berit; Corfe, Ian J. (12 October 2020). "Reptile-like physiology in Early Jurassic stem-mammals". Nature Communications. 11 (1): 5121. Bibcode:2020NatCo..11.5121N. doi:10.1038/s41467-020-18898-4. PMC 7550344. PMID 33046697.
  11. ^ Simpson, George Gaylord (September 1959). "Mesozoic Mammals and the Polyphyletic Origin of Mammals". Evolution. 13 (3): 405–414. doi:10.2307/2406116. JSTOR 2406116.
  12. ^ Kemp, T. S. (2005). The Origin and Evolution of Mammals. Oxford University Press. p. 3. ISBN 978-0198507604.
  13. ^ Rowe, T. (1988). "Definition, diagnosis, and origin of Mammalia" (PDF). Journal of Vertebrate Paleontology. 8 (3): 241–264. Bibcode:1988JVPal...8..241R. doi:10.1080/02724634.1988.10011708.
Bibliography
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