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Research Article

On the status of the ichnotaxon Mandaodonites coxii Cruickshank, 1986

John-Paul ZonneveldDepartment of Earth and Atmospheric Sciences, University of Alberta, Edmonton, Alberta, CanadaCorrespondence[email protected]
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Published online: 29 Oct 2022

References

  • Angielczyk, K. D., Hancox, P. J., & Nabavizadeh, A. (2017). A redescription of the Triassic kannemeyeriiform dicynodont Sangusaurus (Therapsida, Anomodontia), with an analysis of its feeding system. Society of Vertebrate Paleontology Memoir, 17, 189–227.
  • Araújo-Júnior, H. I., Souza Barbosa, F. H. & Medeiros da Silva, L. H. (2017). Overlapping paleoichnology, paleoecology and taphonomy: Analysis of tooth traces in a Late Pleistocene-early Holocene megafaunal assemblage of Brazil and description of a new ichnotaxon in hard substrate. Palaeogeography, Palaeoclimatology, Palaeoecology, 468, 122–128.
  • Behrensmeyer, A. K. (1978). Taphonomic and ecologic information from bone weathering. Paleobiology, 4(2), 150–162.
  • Binford, L. R. (1981). Bones: Ancient men and modern myths (p. 312). Academic press.
  • Brett, C. E. (1985). Tremichnus: A new ichnogenus of circular-parabolic pits in fossil echinoderms. Journal of Paleontology, 9, 625–635.
  • Bromley, R. G. (1981). Concepts in ichnology illustrated by small round holes in shells. Acta Geològica Hispànica, 16, 55–64.
  • Bromley, R. G. (1993). Predation habits of octopus past and present and a new ichnospecies, Oichnus ovalis. Bulletin of the Geological Society of Denmark, 40, 167–173.
  • Cruickshank, A. R. I. (1986). Archosaur predation of an East African Middle Triassic dicynodont. Palaeontology, 29(2), 415–422.
  • D'Amore, D. C., & Blumensehine, R. J. (2009). Komodo monitor (Varanus komodoensis) feeding behavior and dental function reflected through tooth marks on bone surfaces, and the application to ziphodont paleobiology. Paleobiology, 35(4), 525–552.
  • Drumheller, S. K., & Brochu, C. A. (2014). A diagnosis of Alligator mississippiensis bite marks with comparisons to existing crocodylian datasets. Ichnos, 21(2), 131–146.
  • Drumheller, S. K., & Brochu, C. A. (2016). Phylogenetic taphonomy: A statistical and phylogenetic approach for exploring taphonomic patterns in the fossil record using crocodylians. Palaios, 31(10), 463–478.
  • Drumheller, S. K., McHugh, J. B., Kane, M., Riedel, A., & D'Amore, D. C. (2020). High frequencies of theropod bite marks provide evidence for feeding, scavenging, and possible cannibalism in a stressed Late Jurassic ecosystem. PLoS ONE, 15(5), e0233115.
  • Drumheller, S. K., Stocker, M. R., & Nesbitt, S. J. (2014). Direct evidence of trophic interactions among apex predators in the Late Triassic of western North America. Die Naturwissenschaften, 101(11), 975–987.
  • Drymala, S. M., Bader, K., & Parker, W. G. (2021). Bite marks on AN Aetosaur (archosauria, Suchia) Osteoderm: Assessing late triassic predator-prey ecology through ichnology and tooth morphology. PALAIOS, 36(1), 28–37.
  • França, M. A. G., Ferigolo, J., & Langer, M. C. (2011). Associated skeletons of a new Middle Triassic ‘Rauisuchia’ from Brazil. Naturwissenschaften, 98, 389–395.
  • Genise, J. F., de Valais, S., Apesteguía, S., & Novas, F. E. (2004). A trace fossil association in bones from the Late Cretaceous of Patagonia, Argentina. In L. A. Buatois & M. G. Mángano (Eds.), Ichnia 2004, First International Congress on Ichnology, April 19-23, 2004, Museo Paleontólogico Egidio Feruglio, Trelew, Patagonia, Argentina. Abstract Book, 37–38.
  • Haynes, G. (1988). Longitudinal studies of African elephant death and bone deposits. Journal of Archaeological Science, 15(2), 131–157.
  • Haynes, G., Krasinski, K., & Wojtal, P. (2020). Elephant bone breakage and surface marks made by trampling elephants: Implications for interpretations of marked and broken Mammuthus spp. Bone. Journal of Archaeological Science: Reports, 33, 102491.
  • Heckert, A. B., Viner, T. C., & Carrano, M. T. (2021). A large, pathological skeleton of Smilosuchus gregorii (Archosauriformes: Phytosauria) from the Upper Triassic of Arizona, USA, with discussion of the paleobiological implications of paleopathology in fossil archosauromorphs. Palaeontologia Electronica, 24, 1–36.
  • Hunt, A. P., & Lucas, S. G. (2021). The ichnology of vertebrate consumption: Dentalites, gastroliths and bromalites. New Mexico Museum of Natural History & Science Bulletin, 87, 226.
  • Hunt, A. P., Lucas, S. G., & Klein, H. (2018). Late Triassic nonmarine vertebrate and invertebrate trace fossils and the pattern of the Phanerozoic record of vertebrate trace fossils. In L. H. Tanner (Ed.), The late Triassic world: Earth in a time of transition. Springer Topics in Geobiology (vol. 46, pp. 447–544). Springer International Publishing.
  • Jacobsen, A. R., & Bromley, R. G. (2009). New ichnotaxa based on tooth impressions on dinosaur and whale bones. Geological Quarterly, 53, 373–382.
  • Lautenschlager, S. (2015). Estimating cranial musculoskeletal constraints in theropod dinosaurs. Royal Society Open Science, 2(11), 150495.
  • Mikuláš, R., Kadlecová, E., Fejfar, O., & Dvořák, Z. (2006). Three new ichnogenera of biting and gnawing traces on reptilian and mammalian bones: A case study from the Miocene of the Czech Republic. Ichnos, 13(3), 113–127.
  • Muñiz, F, Belaústegui, Z., Ramirez-Cruzado, S., & Gámez Vintaned, J. A. (2020). New ichnospecies of Linichnus Jacobsen and Bromley, 2009. Ichnos, 27, 344–351.
  • Nesbitt, S. J., Brusatte, S. L., Desojo, J. B., Liparini, A., De Franca, M. A. G., Weinbaum, J. C., & Gower, D. J. (2013). Rauisuchia” in Nesbitt, S.J., Desojo, J.B. and Irmis, R.B. (eds.) “Anatomy, phylogeny and palaeobiology of Early Archosaurs and their kin. Geological Society, London, Special Publications, 379(1), 241–274.
  • Nesbitt, S. J., Sidor, C. A., Angielczyk, K. D., Smith, R. M. H., & Tsuji, L. A. (2014). A new archosaur from the Manda Beds (Anisian, Middle Triassic) of southern Tanzania and its implications for character state optimizations at Archosauria and Pseudosuchia. Journal of Vertebrate Paleontology, 34(6), 1357–1382.
  • Nielsen, K. S. S., & Nielsen, J. K. (2001). Bioerosion in Pliocene to late Holocene tests of benthic and planktonic foraminiferans, with a revision of the ichnogenera Oichnus and Tremichnus. Ichnos, 8, 99–116.
  • Njau, J. K., & Blumenschine, R. J. (2006). A diagnosis of crocodile feeding traces on larger mammal bone, with fossil examples from the Plio-Pleistocene Olduvai Basin, Tanzania. Journal of Human Evolution, 50(2), 142–162.
  • Njau, J., & Gilbert, H. (2016). Standardizing terms for crocodile-induced bite marks on bone surfaces in light of the frequent bone modification equifinality found to result from crocodile feeding behavior, stone tool modification, and trampling. FOROST (Forensic Osteology) Occasional Publications, 3, 1–13.
  • Nowack, E. (1937). Zur kenntnis der Karru-formation im Ruhuhu-graben (D.O.A). Neues Jahrbuch Für Geologie Und Paläontologie, 78, 380–412.
  • Paes Neto, V. D. (2016). Traços fósseis de insetos em ossos de vertebrados do Triássico Médio e Tardio do Brasil [Unpublished MSc thesis]. Universidade Federal do Rio Grande do Sul. Programa de Pós-Graduação em Geociências. Instituto de Geociências, 35.
  • Reynard, J. P., & Henshilwood, C. S. (2018). Using Trampling modification to infer occupational intensity during the Still Bay at Blombos Cave, Southern Cape, South Africa. African Archaeological Review, 35(1), 1–19.
  • Rinehart, L. F., Lucas, S. G., & Spielmann, J. A. (2006). Bite marks on tetrapod bones from the Upper Triassic Chinle Group representing a new ichnogenus. New Mexico Museum of Natural History Bulletin, 37, 160–163.
  • Rozada, L., Allain, R., & Tournepiche, J.-F. (2018). Trampling experiments on bones in fine and soft sediments. Quaternaire, 29(vol. 29/1), 39–44.
  • Smith, R. H., Sidor, C. A., Angielczyk, K. D., Nesbitt, S. J., & Tabor, N. J. (2017). Taphonomy and paleoenvironments of Middle Triassic bone accumulations in the Lifua Member of the Manda Beds, Songea Group (Ruhuhu Basin), Tanzania. Journal of Vertebrate Paleontology, 37(sup1), 65–79.
  • Zonneveld, J.-P., AbdelGawad, M. K., & Miller, E. R. (2022a). Ectoparasite borings, Mesoparasite borings and scavenging traces in Early Miocene turtle and tortoise shell: Moghra Formation, Wadi Moghra, Egypt. Journal of Paleontology, 96(2), 304–322.
  • Zonneveld, J.-P., Bartels, W. S., Gunnell, G. F., & McHugh, L. P. (2015). Borings in early Eocene turtle shell from the Wasatch Formation, South Pass, Wyoming. Journal of Paleontology, 89(5), 802–820.
  • Zonneveld, J.-P., Fiorillo, A. R., Hasiotis, S. T., & Gingras, M. K. (2022b). Tooth marks, gnaw marks, claw-marks, bite marks, scratch marks, etc: Terminology in Ichnology. Ichnos. https://doi.org/10.1080/10420940.2022.2058937.

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