Abstract
Recent paleogeographic scenarios postulate the isolation of continental Africa during the Late Cretaceous. The absence of abelisaurid theropods from Upper Cretaceous African strata was offered as support of hypothesized African isolation with the acknowledgement that the paucity of African abelisaurids may be mostly an issue of sampling. Here we report on a shed theropod tooth from the Upper Cretaceous (Maastrichtian, ∼70 Ma) Duwi Formation of Egypt. The tooth was referred to the Malagasy abelisaurid “Megalosaurus” crenatissimus (=Majungasaurus crenatissimus) in 1921. A discriminant function analysis was run to test for morphological congruence between the Egyptian tooth and the dentitions of 24 theropod taxa. The analysis correctly classified 96.6% of the teeth in the sample and assigned the tooth to Majungasaurus. As current paleogeographic reconstructions posit Madagascar had attained its current position relative to Africa before the Late Cretaceous, it is unlikely that the Egyptian tooth actually pertains to Majungasaurus. Nevertheless, its classification as an abelisaurid supports its referral to the clade. This tooth thus constitutes defensible evidence of an abelisaurid from the post-Cenomanian Cretaceous of mainland Africa. Combined with recent discoveries of abelisaurids in Niger and Morocco, the result indicates that Abelisauridae was a diverse group in Africa during the Cretaceous, existing in multiple places for at least ∼25 Ma and weakens support for hypotheses of an isolated Africa during the Late Cretaceous.
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Notes
E. Buffetaut et al. (2005) noted a comparable abelisaurid tooth from Maastrichtian-aged rocks in Morocco, but while the hypothesis for the specimen is reasonable, it has yet to be rigorously tested and remains tentative, as do other possible abelisaurid remains (E. Stromer and W. Weiler 1930) now lost (J.B. Smith et al. 2005b) from the Nile Valley.
The specimens of the Indian abelisaurid (S1) cannot be referred to Indosuchus (M.C. Lamanna et al. 2002; F.E. Novas et al. 2004). However, as the teeth are morphologically consistent with a single genus (Fig. 10 in J.B. Smith et al. 2005b) and the remains might have come from one individual (J.A. Wilson et al. 2003), the teeth are grouped together here pending additional study.
References
Buffetaut E, Martill, D, Escuillié F (2004) Pterosaurs as part of a spinosaur diet. Nature 430:33
Buffetaut E, Escuillié F, Pohl B (2005) First theropod dinosaur from the Maastrichtian phosphates of Morocco. Kaupia 14:3–8
Carrano MT, Sampson SD, Forster CA (2002) The osteology of Masiakasaurus knopfleri, a small abelisauroid (Dinosauria: Theropoda) from the Late Cretaceous of Madagascar. J Vertebr Paleontol 22:510–534
Farlow JO, Brinkman DL, Abler WL, Currie PJ (1991) Size, shape, and serration density of theropod dinosaur lateral teeth. Mod Geol 16:161–198
Gemmellaro M (1921) Rettili maëstrichtiani d’ Egitto. Giornale di Scienze Naturali ed Economiche 32:339–351 (Palermo)
Gradstein FM, Ogg JG, Smith AG (2005) A geologic time scale 2004. Cambridge Univ. Press, Cambridge, p 611
Hay WW, DeConto R, Wold CN, Wilson KM, Voigt S, Schulz M, Wold-Rossby A, Dullo WC, Ronov AB, Balukhovsky AN, Söding E (1999) An alternative global Cretaceous paleogeography. In: Barrera E, Johnson CC (eds) Evolution of the Cretaceous ocean/climate system. Geol Soc Amer 332:1–47 (special paper)
Krause DW (2001) Fossil molar from a Madagascan marsupial. Nature 412:497–498
Krause DW, Prasad GVR, Koenigswald Wv, Sahni A, Grine FE (1997) Cosmopolitanism among Gondwanan Late Cretaceous mammals. Nature 390:504–507
Krause DW, Rogers RR, Forster CA, Hartman JH, Buckley GA, Sampson SD (1999) The Late Cretaceous vertebrate fauna of Madagascar: implications for Gondwanan paleobiogeography. GSA Today 9:1–7
Krause DW, Sampson SD (2006) Overview of the history of discovery, taxonomy, phylogeny and biogeography of Majungasaurus crenatissimus. In: Sampson SD, Krause DW (eds) Majungasaurus crenatissimus (Theropoda: Abelisauridae) from the Late Cretaceous of Madagascar. Soc Vertebr Paleontol Mem (in press)
Lamanna MC, Martínez RD, Smith JB (2002) A definitive abelisaurid theropod dinosaur from the early Late Cretaceous of Patagonia. J Vertebr Paleontol 22:58–69
Mahler L (2005) Record of Abelisauridae (Dinosauria: Theropoda) from Cenomanian Morocco. J Vertebr Paleontol 25:236–239
Marko PB, Jackson JBC (2001) Patterns of morphological diversity among and within arcid bivalve species pairs separated by the Isthmus of Panama. J Paleontol 75:590–606
Novas FE, Agnolin FL, Bandyopadhyay S (2004) Cretaceous theropods from India: a review of specimens described by Huene and Matley (1933). Rev Mus Argent Cienc Nat 6:67–103
Rauhut OWM, Claderaa G, Vickers-Rich P, Rich TH (2003) Dinosaur remains from the Lower Cretaceous of the Chubut group, Argentina. Cretac Res 24:487–497
Russell DA (1996) Isolated dinosaur bones from the Middle Cretaceous of the Tafilalt, Morocco. Bull Mus Natl Hist Nat 18(S 4):349–402 (Paris)
Sampson SD, Krause DW, Dodson P, Forster CA (1996) The premaxilla of Majungasaurus (Dinosauria: Theropoda), with implications for Gondwanan paleobiogeography. J Vertebr Paleontol 16:601–605
Sampson SD, Witmer LM, Forster CA, Krause DW, O’Connor PM, Dodson P, Ravoavy F (1998) Predatory dinosaur remains from Madagascar: implications for the Cretaceous biogeography of Gondwana. Science 280:1048–1051
Sereno PC, Wilson JA, Conrad JL (2004) New dinosaurs link southern landmasses in the Mid-Cretaceous. Proc R Soc Lond B 271:1325–1330
Smith JB (2005) Heterodonty in Tyrannosaurus rex: implications for the taxonomic and systematic utility of theropod dentitions. J Vertebr Paleontol 25:865–887
Smith JB, Krause DW (2006) Dental morphology and variation in Majungasaurus crenatissimus (Theropoda: Abelisauridae) from the Late Cretaceous of Madagascar. In: Sampson SD, Krause DW (eds) Majungasaurus crenatissimus (Theropoda: Abelisauridae) from the Late Cretaceous of Madagascar. Soc Vertebr Paleontol Mem (in press)
Smith JB, Lamanna MC Lacovara KJ, Dodson P, Smith JR, Poole JC, Giegengack R, Attia Y (2001) A giant sauropod dinosaur from an Upper Cretaceous mangrove deposit in Egypt. Science 292:1704–1706
Smith JB, Novak SE, Issawi B (2005a) More travels in Stromer’s footsteps: Late Cretaceous vertebrates from the Nile Valley, Egypt. J Vertebr Paleontol 25:116A
Smith JB, Vann DR, Dodson P (2005b) Dental morphology and variation in theropod dinosaurs: implications for the taxonomic identification of isolated teeth. Anat Rec A 285:699–736
Storey M, Mahoney JJ, Saunders AD, Duncan RA, Kelley SP, Coffin MF (1995) Timing of hot-spot related volcanism and the breakup of Madagascar and India. Science 267:852–855
Stromer E, Weiler W (1930) VI. Beschreibung von Wirbeltier-Resten aus dem nubischen Sandstein Oberägyptens und aus ägyptischen Phosphaten nebst Bemerkungen über die Geologie der Umgegend von Mahamîd in Oberägypten. Abh Bayer Akad Wiss Math-Nat Abt NF 7:1–42
Wilson JA, Sereno PC, Srivastava S, Bhatt DK, Khosla A, Sahni A (2003) A new abelisaurid (Dinosauria, Theropoda) from the Lameta Formation (Cretaceous, Maastrichtian) of India. Cont Mus Paleontol Univ Mich 31:1–42
Acknowledgements
We thank R. Buccheri, G. A. Cacace, and P. Sereno for specimen access; D. W. Krause for informing us about the tooth; and J. Amend, S. Novak, and L. Halliday for logistical assistance. This article was supported by funds from Washington University. The acknowledgements for J.B. Smith et al. (2005b) are relevant but are not repeated for reasons of brevity.
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S2
Theropod dental anatomy and variables used in this study (modified from Smith et al. 2005).A, Crown in lateral view showing apical length (AL, measured along line segment AG (points A,B, and G defined by Smith et al. 2005)); crown angle (CA, angle GAB); crown base length (CBL, measured along line segment AB at the base of the enamel); crown height (CH, measured from apex to the base of the enamel along line segment GB); mesial apical (MA), mesial midcrown (MC), and mesial basal (MB) denticle densities (measured along the mesial carina); distal apical (DA), distal mid-crown (DC), and distal basal (DB) denticle densities (measured along the distal carina). B, the crown in (A) in basal view showing CBL and crown base width (CBW, measured perpendicular to CBL)
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Smith, J.B., Lamanna, M.C. An abelisaurid from the Late Cretaceous of Egypt: implications for theropod biogeography. Naturwissenschaften 93, 242–245 (2006). https://doi.org/10.1007/s00114-006-0092-3
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DOI: https://doi.org/10.1007/s00114-006-0092-3