The Earliest-Known Mammaliaform Fossil from Greenland Sheds Light on Origin of Mammals

The Earliest-Known Mammaliaform Fossil from Greenland Sheds Light on Origin of Mammals

The earliest-known mammaliaform fossil from Greenland sheds light on origin of mammals Sulej, Tomasz; Krzesinski, Grzegorz; Talanda, Mateusz; Wolniewicz, Andrzej S.; Blazejowski, Blazej; Bonde, Niels; Gutowski, Piotr; Sienkiewicz, Maksymilian; Niedzwiedzki, Grzegorz Published in: Proceedings of the National Academy of Sciences of the United States of America DOI: 10.1073/pnas.2012437117 Publication date: 2020 Document version Publisher's PDF, also known as Version of record Document license: CC BY Citation for published version (APA): Sulej, T., Krzesinski, G., Talanda, M., Wolniewicz, A. S., Blazejowski, B., Bonde, N., Gutowski, P., Sienkiewicz, M., & Niedzwiedzki, G. (2020). The earliest-known mammaliaform fossil from Greenland sheds light on origin of mammals. Proceedings of the National Academy of Sciences of the United States of America, 117(43), 26861- 26867. https://doi.org/10.1073/pnas.2012437117 Download date: 23. sep.. 2021 The earliest-known mammaliaform fossil from Greenland sheds light on origin of mammals Tomasz Suleja, Grzegorz Krzesinski b,1, Mateusz Tałandac, Andrzej S. Wolniewicza,d,Błazej_ Błazejowski_ a, Niels Bondee,f, Piotr Gutowskig, Maksymilian Sienkiewiczb, and Grzegorz Niedzwiedzkih,2 aInstitute of Paleobiology, Polish Academy of Sciences, 00-818 Warsaw, Poland; bFaculty of Power and Aeronautical Engineering, Institute of Aeronautics and Applied Mechanics, Warsaw University of Technology, 00-665 Warsaw, Poland; cDepartment of Paleobiology and Evolution, Faculty of Biology, Biological and Chemical Research Centre, University of Warsaw, 02-089 Warsaw, Poland; dDepartment of Earth Sciences, University of Oxford, OX1 3AN Oxford, United Kingdom; eGeological Section, Natural History Museum of Denmark, University of Copenhagen, DK-2100 Copenhagen, Denmark; fFur Museum, 7884 Fur, Denmark; gDepartment of Cranio-Maxillofacial Surgery, Oral Surgery and Implantology, Medical University of Warsaw, 02-091 Warsaw, Poland; and hDepartment of Organismal Biology, Evolutionary Biology Centre, Uppsala University, 752 36 Uppsala, Sweden Edited by Zhe-Xi Luo, The University of Chicago, Chicago, IL, and accepted by Editorial Board Member David Jablonski August 29, 2020 (received for review June 16, 2020) Synapsids are unique in having developed multirooted teeth and fossils are from the latest Norian and Rhaetian (Late Triassic), complex occlusions. These innovations evolved in at least two and are represented by isolated teeth (10), incomplete cranial or lineages of mammaliamorphs (Tritylodontidae and Mammalia- jaw remains, and postcranial elements (3). Significant differences formes). Triassic fossils demonstrate that close to the origins of between the earliest haramiyidans and other contemporary mammals, mammaliaform precursors were “experimenting” with clades of mammaliaforms have complicated the problem of tooth structure and function, resulting in novel patterns of occlu- haramiyidan ancestry and their purported relationships to other sion. One of the most surprising examples of such adaptations is stem or crown mammals. Haramiyavia from the early Rhaetian present in the haramiyidan clade, which differed from contempo- of East Greenland is the best-known Late Triassic haramiyidan, rary mammaliaforms in having two rows of cusps on molariform characterized by complex molars with longitudinal rows of mul- crowns adapted to omnivorous/herbivorous feeding. However, tiple cusps (2, 3). Early haramiyidans (e.g., Haramiyavia and the origin of the multicusped tooth pattern present in haramiyidans Thomasia) have been variably considered as related to the poorly has remained enigmatic. Here we describe the earliest-known man- known Late Triassic theroteinids (10) and eleutherodontids of EVOLUTION dibular fossil of a mammaliaform with double molariform roots and the Middle–Late Jurassic/earliest Cretaceous (11), to the more a crown with two rows of cusps from the Late Triassic of Greenland. derived multituberculates from the Middle Jurassic–Eocene The crown morphology is intermediate between that of morganu- (12), or as stem mammaliaforms (13). Some species of euhar- codontans and haramiyidans and suggests the derivation of the amiyidans with gliding adaptations (e.g., Arboroharamiya) from multicusped molariforms of haramiyidans from the triconodont mo- the Middle Jurassic of China, as well as other haramiyidans, have lar pattern seen in morganucodontids. Although it is remarkably also been identified as basal “Allotheria” (14), a problematic well documented in the fossil record, the significance of tooth root taxonomic group that was diagnosed by dentition and mode of division in mammaliaforms remains enigmatic. The results of our mastication (3, 15). These conflicting phylogenetic placements of biomechanical analyses (finite element analysis [FEA]) indicate that teeth with two roots can better withstand stronger mechanical stresses like those resulting from tooth occlusion, than teeth with Significance asingleroot. Mammals underwent an adaptive radiation shortly after the Greenland | Late Triassic | mammaliaform | multirooted tooth | acquisition of several morphological characters in their denti- complex occlusion tion and jaw. Most of these innovations evolved to facilitate more efficient food processing. The double-rooted molariforms ecent research suggests that early mammaliaforms under- with a specialized crown are one such innovation, but their role Rwent an adaptive radiation in the Jurassic, shortly after the in the early diversification of mammals has remained poorly acquisition of key mammaliaform characters during the Late understood. This study shows a comprehensive analysis of an Triassic (1–8). The majority of these morphological novelties were early mammaliaform dentary, which combines data from related to food processing and are visible in the structure and comparative anatomy, CT scanning, and FEA. The new fossil function of the teeth (1–3). The disparity of tooth crown mor- fills an important gap in our understanding of mammaliaform evolution showing a transitional stage between triconodont- phology and transformation of molariform roots in Triassic mam- like molariform pattern of morganucodontids and multicusped maliaforms suggest that dietary diversification was a major factor in pattern of haramiyidans. Moreover, this study demonstrates early mammalian evolution (3). Molariforms with multiple rows of that double-rooted teeth are more resistant to bite-related cusps and divided roots are important traits, the appearance stresses than single-rooted teeth. of which played a significant role in the early diversification of mammaliaforms, but the timing of their origin and their functional Author contributions: T.S., M.S., and G.N. designed research; T.S., G.K., M.T., A.S.W., B.B., advantage over triconodont molariforms remain poorly understood N.B., P.G., M.S., and G.N. performed research; T.S., G.K., M.T., P.G., M.S., and G.N. ana- (1, 9). Morganucodontans, kuehneotheriids, and haramiyidans, are lyzed data; and T.S., G.K., M.T., A.S.W., M.S., and G.N. wrote the paper. early mammaliaform groups that differ from each other in dental The authors declare no competing interest. morphology (1–8). Early haramiyidans with their complex teeth, This article is a PNAS Direct Submission. Z.-X.L. is a guest editor invited by the were well adapted to an omnivorous/herbivorous diet, whereas Editorial Board. contemporary morganucodontans and kuehneotheriids with trico- Published under the PNAS license. nodont tooth patterns and triangular cusp arrangements were 1Deceased February 17, 2020. clearly more insectivorous/carnivorous (6, 8). 2To whom correspondence may be addressed. Email: [email protected]. Haramiyidans have a unique combination of anatomical fea- This article contains supporting information online at https://www.pnas.org/lookup/suppl/ tures (1–5) and represent one of the most diverse mammaliaform doi:10.1073/pnas.2012437117/-/DCSupplemental. clades of the Early Mesozoic. The oldest known haramiyidan First published October 12, 2020. www.pnas.org/cgi/doi/10.1073/pnas.2012437117 PNAS | October 27, 2020 | vol. 117 | no. 43 | 26861–26867 Downloaded at COPENHAGEN UNIVERSITY LIBRARY on January 8, 2021 Fig. 1. Location and stratigraphic section through Late Triassic of East Greenland and the section exposed at Liasryggen, the type locality of K. jenkinsi, gen et sp. nov. (A and B) Location of Jameson Land in East Greenland. (C) Detailed position of the fossil-bearing locality. (D) Late Triassic section from East Greenland showing the stratigraphic position of Liasryggen. Abbreviations: CFB, Carlsberg Fjord beds; and BJB, Bjergkronernes beds. Data from refs. 17–21. (E) Section and fossiliferous beds exposed at Liasryggen. The position of the type specimen of K. jenkinsi gen. et sp. nov. (KNK 4152 = NHMD 231331) is indicated with a yellow star. The stratigraphic position of Haramiyavia clemmenseni is indicated with a yellow circle. early haramiyidans are in part attributable to uncertainties in Rhaetian of East Greenland (2, 3) and other haramiyidans from interpreting isolated molariforms and differing interpretations of the Middle–Late Jurassic (5, 14). Recently, more detailed studies anatomical character states in Haramiyavia from the early of a dentary of Haramiyavia (3) and a cranium of the large possible 26862 | www.pnas.org/cgi/doi/10.1073/pnas.2012437117 Sulej et al. Downloaded at COPENHAGEN UNIVERSITY LIBRARY on January 8, 2021 eleutherodontid Cifelliodon from the lowermost Cretaceous of

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