Sigilmassasaurus

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Sigilmassasaurus
Temporal range: Cenomanian
~99–94 Ma
Middle neck vertebra, specimen CMN 50791
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Theropoda
Family: Spinosauridae
Tribe: Spinosaurini
Genus: Sigilmassasaurus
Russell 1996
Species:
S. brevicollis
Binomial name
Sigilmassasaurus brevicollis
Russell 1996
Synonyms

Sigilmassasaurus (/sɪlˌmɑːsəˈsɔːrəs/ see-jil-MAH-sə-SOR-əs; "Sijilmassa lizard") is a controversial genus of spinosaurid dinosaur that lived approximately 100 to 94 million years ago during the Late Cretaceous Period in what is now northern Africa. Named in 1996 by Canadian paleontologist Dale Russell, it contains a single species, Sigilmassasaurus brevicollis. The identity of the genus has been debated by scientists, with some considering its fossils to represent material from the closely related species Spinosaurus aegyptiacus, while others have classified it as a separate taxon, forming the clade Spinosaurini with Spinosaurus as its sister taxon.

Sigilmassasaurus was a moderately-built, ground-dwelling, bipedal carnivore, like most other theropods. It may have had strong neck musculature as evidenced by the morphology of its vertebrae (backbones). Sigilmassasaurus may have had semiaquatic habits and a partially piscivorous diet. It coexisted with other large theropods in the Kem Kem Group.

History of research[edit]

Drawings comparing “Spinosaurus B” and Sigilmassasaurus

Fossils of Sigilmassasaurus were recovered at the Kem Kem Formation in the Tafilalt Oasis region of Morocco, near the site of the ancient city of Sijilmassa, for which it was named. Canadian paleontologist Dale Russell named Sigilmassasaurus in 1996, from the ancient city and the Greek word sauros ("lizard"). A single species was named, S. brevicollis, which is derived from the Latin brevis ("short") and collum ("neck"), because the neck vertebrae are very short from front to back.[1] Sigilmassasaurus comes from red sandstone sediments in southern Morocco, which are known by various names, including the Grès rouges infracénomaniens, Continental Red Beds, and lower Kem Kem Beds. The rocks date back to the Cenomanian, the earliest stage of the Late Cretaceous Period, approximately 100 to 94 million years ago.[2]

The holotype, or original specimen, of S. brevicollis, CMN 41857, is a single posterior neck vertebra, although Russell referred fifteen other vertebrae found in the same formation to the species. Other material had been found in Egypt, and was referred to by German paleontologist Ernst Stromer as "Spinosaurus B".[3] Russell in 1996 considered the Egyptian specimen, IPHG 1922 X45, to belong to Sigilmassasaurus or a closely related animal, naming it as a Sigilmassasaurus sp. A second Sigilmassasaurus sp. was named by Russel based on specimen CMN 41629, an anterior dorsal vertebra. "Spinosaurus B" would be intermediate in build between this latter Sigilmassasaurus sp. and S. brevicollis. Russell created the family Sigilmassasauridae for these animals.[1] The neck vertebrae of these dinosaurs are wider from side to side, about 50%, than they are long from front to back. Whether the neck as a whole was particularly short, is unknown: the holotype vertebra is a cervicodorsal, from the transition between the neck and the back, which would not be long anyway. The exact position of Sigilmassasaurus within the theropod family tree is unknown, but it belongs somewhere inside the theropod subgroup known as Tetanurae and most likely was a member of the family Spinosauridae.[4]

Specimen UFMA 1.10.240, a distal caudal vertebra which was discovered in the Alcantara Formation of Brazil was assigned to Sigilmassasaurus in 2002.[5]


Disputed validity[edit]

Neck reconstructions of Sigilmassasaurus (top) and Baryonyx

The validity of Sigilmassaurus, however, did not go unchallenged shortly after it was named. In 1996, Paul Sereno and colleagues described a Carcharodontosaurus skull (SGM-Din-1) from Morocco, as well as a neck vertebra (SGM-Din-3) which resembled that of "Spinosaurus B," which they therefore synonymized with Carcharodontosaurus.[6] A 1998 study went further, calling Sigilmassasaurus itself a junior synonym of Carcharodontosaurus.[7]

In 2005, however, Argentine paleontologist Fernando Novas and colleagues found that SGM-Din-3, which was used to synonymize Carcharodontosaurus and "Spinosaurus B", was not actually associated with SGM-Din-1, the Carcharodontosaurus skull described in 1996, and shows clear differences with the holotype of Carcharodontosaurus. Other features of "Spinosaurus B" also differed from Carcharodontosaurus, lending support to the notion that it (and therefore Sigilmassasaurus) is a separate taxon. The same study claimed that the tail vertebrae by Russell assigned to the species were in fact those of iguanodonts.[8] A study in 2013 by Bradley McFeeters and colleagues considered Sigilmassasaurus as valid and an indeterminate member of the Tetanurae.[9]

In 2014, German-Moroccan paleontologist Nizar Ibrahim and colleagues referred the specimens of Sigilmassasaurus to Spinosaurus aegyptiacus, together with "Spinosaurus B" and created a neotype for S. aegyptiacus. Spinosaurus maroccanus was considered a nomen dubium following the conclusions of previous papers.[10][11][12] In a 2015 re-description of Sigilmassasaurus by Serjoscha Evers and his team, it was considered a valid genus within the Spinosauridae. The authors also proposed Spinosaurus maroccanus as a junior synonym of Sigilmassasaurus, and rejected the proposal of a Spinosaurus aegyptiacus neotype.[4]

A study by British paleontologist Thomas Arden and colleagues in 2018 concluded that Sigilmassasaurus was a valid genus and formed a tribe with Spinosaurus termed Spinosaurini. The largest specimen of Spinosaurus cf. aegyptiacus, MSNM V4047, was tentatively assigned to S. brevicollis. On the basis of vertebrae, the researchers suggested that Sigilmassasaurus may have grown larger than Spinosaurus. Although in the absence of associated material, it is difficult to be certain what material belongs to which genus. Below is a cladogram based on the analysis by Arden and colleagues:[13]

Comparison between the spinosaurine snouts MNSM V4047 and MNHN SAM 124, which have been assigned to either Spinosaurus or Sigilmassasaurus
Spinosauridae

A 2020 study by British paleontologist Symth and colleagues suggested that Sigilmassasaurus is synonymous with Spinosaurus and the Brazilian spinosaurine genus Oxalaia, with both genera falling into the Spinosaurus hypodigm. The putative characters supporting Sigilmassasaurus's distinction as a valid genus were discussed and found to be invalid. If supported by future research, both Sigilmassasaurus and Oxalaia would be rendered junior synonyms of Spinosaurus and expand its range, which would further support the theory of faunal interchanges between Africa and South America during the Cretaceous.[15]

A 2021 study conducted by Bradley McFeeters of Carleton University shed further light for the controversial existence of a second spinosaurid within northern Africa. The study concluded that, although limited, the new data could lend support to the controversial hypothesis that two spinosaurid taxa are represented in the Kem Kem Group. The study focused on an unusual mid-cervical vertebra belonging to a large spinosaurid from the Cenomanian Kem Kem Group of Morocco. It was compared to the characteristic morphology of each reconstructed cervical position in Spinosaurus aegyptiacus, based on a recent composite reconstruction that incorporates most previously referred material from this unit. Rather than conforming to any of the previously identified cervical positions in its morphology, the specimen displays a unique combination of mid-cervical characters, with the relatively compact centrum suggesting a position as C4, and the form of the neural arch laminae suggesting a position as C5 or C6. Furthermore, the vertebra displays two characters that are previously unknown in spinosaurid mid-cervicals from the Kem Kem Group: a rounded tuberosity present on the hypapophysis (a projection from the bottom of the vertebra) that is not continuous with a ventral keel, and a moderately developed, dorsally oriented epipophysis (a bump located on the postzygapophysis) that does not overhang the postzygapophysis posteriorly. This revelation leads to the diagnostic value of positionally variable cervical vertebral characters in spinosaurid systematics is discussed.[16]

Paleobiology[edit]

Hypothetical life reconstruction based on specimens also assigned to Spinosaurus

On the bottoms of its cervical vertebrae, Sigilmassasaurus bore a series of highly rugged bony structures. These were suggested by Evers and colleagues as being possible evidence for substantial neck musculature, since the attachment sites of muscles and ligaments are often indicated by scarring on the bone surface. The neck muscles inferred from Sigilmassasaurus in particular would have enabled it to rapidly snatch fish out of the water, as indicated by the use of similarly placed musculature in modern birds and crocodilians.[4] This has also been proposed for the related genus Irritator, on account of the prominent sagittal crest running towards the back of its head.[17] However, Evers and colleagues noted that a more thorough biomechanical analysis is required for confirmation of this condition in Sigilmassasaurus.[4]

Several large theropods (more than one tonne) are known from the Cenomanian of northern Africa, raising questions about how such animals would have coexisted. Species of Spinosaurus, the longest known theropod, have been found in both Morocco and Egypt, as has the huge Carcharodontosaurus. Two other theropods, Deltadromeus and Bahariasaurus, have also been found in Morocco and Egypt, respectively, and may be closely related or possibly the same genus. Sigilmassasaurus, from Morocco, and "Spinosaurus B", from Egypt, represent a fourth type of large predator. This situation resembles that in the Late Jurassic Morrison Formation of North America, which boasts up to five theropod genera over one tonne in weight, as well as several smaller genera.[18][19] Differences in head shape and body size among the large North African theropods may have been enough to allow niche partitioning as seen among the many different predator species found today in the African savanna.[20]

See also[edit]

References[edit]

  1. ^ a b Russell, D.A. (1996). "Isolated Dinosaur bones from the Middle Cretaceous of the Tafilalt, Morocco". Bulletin du Muséum National d'Histoire Naturelle, Section C. 18: 349–402.
  2. ^ Sereno, PC; Dutheil, DB; Iarochene, M; Larsson, HCE; Lyon, GH; Magwene, PM; Sidor, CA; Varricchio, DJ; Wilson, JA (1996). "Predatory dinosaurs from the Sahara and Late Cretaceous faunal differentiation" (PDF). Science. 272 (5264): 986–991. Bibcode:1996Sci...272..986S. doi:10.1126/science.272.5264.986. PMID 8662584. S2CID 39658297.
  3. ^ Stromer, E. (1934). "Ergebnisse der Forschungsreisen Prof. E. Stromers in den Wüsten Ägyptens. II. Wirbeltier-Reste der Baharije-Stufe (unterstes Cenoman). 13. Dinosauria" (PDF). Abhandlungen der Bayerischen Akademie der Wissenschaften Mathematisch-naturwissenschaftliche Abteilung. Neue Folge (in German). 22: 1–79.
  4. ^ a b c d Evers, S. W.; Rauhut, O. W. M.; Milner, A. C.; McFeeters, B.; Allain, R. (2015). "A reappraisal of the morphology and systematic position of the theropod dinosaur Sigilmassasaurus from the "middle" Cretaceous of Morocco". PeerJ. 3: e1323. doi:10.7717/peerj.1323. PMC 4614847. PMID 26500829.
  5. ^ Medeiros and Schultz, (2002). A fauna dinossauriana da Laje do Coringa, Cretáceo médio do Nordeste do Brasil. Arquivos do Museu Nacional. 60(3), 155-162.
  6. ^ Sereno, Paul C.; Dutheil, Didier B.; Iarochene, M.; Larsson, Hans C. E.; Lyon, Gabrielle H.; Magwene, Paul M.; Sidor, Christian A.; Varricchio, David J.; Wilson, Jeffrey A. (1996). "Predatory Dinosaurs from the Sahara and Late Cretaceous Faunal Differentiation" (PDF). Science. 272 (5264): 986–991. Bibcode:1996Sci...272..986S. doi:10.1126/science.272.5264.986. PMID 8662584. S2CID 39658297.
  7. ^ Sereno, Paul C.; Beck, Allison L.; Dutheil, Didier B.; Gado, Boubacar; Larsson, Hans C. E.; Lyon, Gabrielle H.; Marcot, Jonathan D.; Rauhut, Oliver W. M.; Sadleir, Rudyard W. (1998). "A Long-Snouted Predatory Dinosaur from Africa and the Evolution of Spinosaurids". Science. 282 (5392): 1298–1302. Bibcode:1998Sci...282.1298S. doi:10.1126/science.282.5392.1298. PMID 9812890.
  8. ^ Novas, Fernando E.; de Valais, Silvina; Vickers-Rich, Pat; Rich, Tom (May 1, 2005). "A large Cretaceous theropod from Patagonia, Argentina, and the evolution of carcharodontosaurids". Naturwissenschaften. 92 (5): 226–230. Bibcode:2005NW.....92..226N. doi:10.1007/s00114-005-0623-3. hdl:11336/103474. PMID 15834691. S2CID 24015414.
  9. ^ McFeeters, Bradley; Ryan, Michael J.; Hinic-Frlog, Sanja; Schröder-Adams, Claudia (2013). "A reevaluation of Sigilmassasaurus brevicollis (Dinosauria) from the Cretaceous of Morocco". Canadian Journal of Earth Sciences. 50 (6): 636–649. Bibcode:2013CaJES..50..636M. doi:10.1139/cjes-2012-0129.
  10. ^ dal Sasso, C.; Maganuco, S.; Buffetaut, E.; Mendez, M.A. (2005). "New information on the skull of the enigmatic theropod Spinosaurus, with remarks on its sizes and affinities". Journal of Vertebrate Paleontology. 25 (4): 888–896. doi:10.1671/0272-4634(2005)025[0888:NIOTSO]2.0.CO;2. S2CID 85702490.
  11. ^ Ibrahim, Nizar; Sereno, Paul C.; Dal Sasso, Cristiano; Maganuco, Simone; Fabbri, Matteo; Martill, David M.; Zouhri, Samir; Myhrvold, Nathan; Iurino, Dawid A. (September 26, 2014). "Semiaquatic adaptations in a giant predatory dinosaur". Science. 345 (6204): 1613–1616. Bibcode:2014Sci...345.1613I. doi:10.1126/science.1258750. PMID 25213375. S2CID 34421257. Supplementary Information
  12. ^ Sereno, P.C.; Beck, A.L.; Dutheil, D.B.; Gado, B.; Larsson, H.C.E.; Lyon, G.H.; Marcot, J.D.; Rauhut, O.W.M.; Sadleir, R.W.; Sidor, C.A.; Varricchio, D.D.; Wilson, G.P; Wilson, J.A. (1998). "A long-snouted predatory dinosaur from Africa and the evolution of spinosaurids". Science. 282 (5392): 1298–1302. Bibcode:1998Sci...282.1298S. doi:10.1126/science.282.5392.1298. PMID 9812890.
  13. ^ Arden, T.M.S.; Klein, C.G.; Zouhri, S.; Longrich, N.R. (2018). "Aquatic adaptation in the skull of carnivorous dinosaurs (Theropoda: Spinosauridae) and the evolution of aquatic habits in Spinosaurus". Cretaceous Research. 93: 275–284. Bibcode:2019CrRes..93..275A. doi:10.1016/j.cretres.2018.06.013. S2CID 134735938.
  14. ^ Barrett, Paul M.; Benson, Roger B. J.; Rich, Thomas H.; Vickers-Rich, Patricia (December 23, 2011). "First spinosaurid dinosaur from Australia and the cosmopolitanism of Cretaceous dinosaur faunas". Biology Letters. 7 (6): 933–936. doi:10.1098/rsbl.2011.0466. PMC 3210678. PMID 21693488.
  15. ^ Smyth, Robert S.H.; Ibrahim, Nizar; Martill, David M. (October 2020). "Sigilmassasaurus is Spinosaurus: a reappraisal of African spinosaurines". Cretaceous Research. 114: 104520. Bibcode:2020CrRes.11404520S. doi:10.1016/j.cretres.2020.104520. S2CID 219487346.
  16. ^ McFeeters, Bradley D. (2021). "New mid-cervical vertebral morphotype of Spinosauridae from the Kem Kem Group of Morocco". Vertebrate Anatomy Morphology Palaeontology. 8: 182–193. doi:10.18435/vamp29370. S2CID 234104245.  This article incorporates text available under the CC BY 4.0 license.
  17. ^ Sues, H. D.; Frey, E.; Martill, D. M.; Scott, D. M. (2002). "Irritator challengeri, a spinosaurid (Dinosauria: Theropoda) from the Lower Cretaceous of Brazil". Journal of Vertebrate Paleontology. 22 (3): 535–547. doi:10.1671/0272-4634(2002)022[0535:ICASDT]2.0.CO;2. S2CID 131050889.
  18. ^ M Henderson, Donald (1998). "Skull and tooth morphology as indicators of niche partitioning in sympatric Morrison Formation theropods" (PDF). Gaia. 15. S2CID 56094150.
  19. ^ Holtz, Thomas R.; Molnar, Ralph E.; Currie, Philip J. (2004). "Basal Tetanurae". The Dinosauria. pp. 71–110. doi:10.1525/california/9780520242098.003.0006. ISBN 978-0-520-24209-8.
  20. ^ Farlow, James O.; Planka, Eric R. (March 2002). "Body Size Overlap, Habitat Partitioning and Living Space Requirements of Terrestrial Vertebrate Predators: Implications for the Paleoecology of Large Theropod Dinosaurs" (PDF). Historical Biology. 16 (1): 21–40. Bibcode:2002HBio...16...21F. doi:10.1080/0891296031000154687. S2CID 18114585.
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