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Live birth in a 47-million-year-old snake

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Abstract

Viviparity is a widespread reproductive trait in snakes, although fossil evidence bearing on its evolution is extremely sparse. Here, we report an exceptional specimen of the minute booid snake Messelophis variatus recovered in the paleolake of the Messel Formation (early-middle Eocene, Germany). This gravid female contains at least two embryos located in the posterior third of the trunk region. The morphology, size, and degree of ossification of the cranial and postcranial remains indicate they correspond with late embryos. This specimen documents the first occurrence of viviparity in a fossil snake and extends the temporal distribution of this reproductive strategy in booid snakes by over 47 Ma. The evolution of viviparity in squamates has traditionally been associated with cold climates, but its presence at the dawn of the evolution of booids during early Palaeogene thermal peaks indicates that viviparity may have evolved under different selective pressures in this clade.

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Fig. 1
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Data availability

The specimen is currently housed at the Department of Messel Research and Mammalogy, Senckenberg Research Institute, Frankfurt am Main, Germany.

References

  • Andrews RM, Mathies T (2000) Natural history of reptilian development: constraints on the evolution of viviparity. Bioscience 50:227–238

    Article  Google Scholar 

  • Blackburn DG (1985) Evolutionary origins of viviparity in the Reptilia. II. Serpentes, Amphisbaenia, and Ichthyosauria. Amphibia-Reptilia 5:259–291

    Article  Google Scholar 

  • Blackburn DG, Stewart JR (2011) Viviparity and placentation in snakes. In: Aldrich RD, Sever DM (eds) Reproductive Biology and Phylogeny of Snakes. Science Publishers, Enfield, pp 119–181

    Chapter  Google Scholar 

  • Blain AW, Campbell KN (1942) A study of digestive phenomena in snakes with the aid of the roentgen ray. Am J Roentgenol Ra 48:229–239

    Google Scholar 

  • Boughner JC, Buchtova M, Fu K, Diewert V et al (2007) Embryonic development of Python sebae - I: staging criteria and macroscopic skeletal morphogenesis of the head and limbs. Zoology 110:212–230

    Article  Google Scholar 

  • Caldwell MW, Lee MSY (2001) Live birth in Cretaceous marine lizards (mosasauroids). Proc Roy Soc London B 268:2397–2401

    Article  CAS  Google Scholar 

  • Cundall D, Irish FJ (2008) The snake skull. In: Gans C, Gaunt AS, Adler K (eds) Biology of the Reptilia, vol 20. Society for the Study of Amphibians and Reptiles, Ithaca, pp 349–692

    Google Scholar 

  • Feldman A, Bauer AM, Castro-Herrera F et al (2015) The geography of snake reproductive mode: a global analysis of the evolution of snake viviparity. Global Ecol Biogeogr 24:1433–1442

    Article  Google Scholar 

  • Franzen JL, Aurich C, Habersetzer J (2015) Description of a well preserved foetus of the european Eocene equoid Eurohippus messelensis. PLoS ONE 10:e0137985. https://doi.org/10.1371/journal.pone.0137985

    Article  CAS  Google Scholar 

  • Joyce WG, Micklich N, Schaal SFK, Scheyer TM (2012) Caught in the act: the first record of copulating fossil vertebrates. Biol Lett 8:846–848

    Article  Google Scholar 

  • Lenz OK, Wilde V, Mertz DF, Riegel W (2015) New palynology-based astronomical and revised 40Ar/39Ar ages for the Eocene maar lake of Messel (Germany). Int J Earth Sci 104:873–889

    Article  CAS  Google Scholar 

  • Rae JW, Zhang YG, Liu X et al (2021) Atmospheric CO2 over the past 66 million years from marine archives. Annu Rev Earth Pl Sc 49:609–641

    Article  CAS  Google Scholar 

  • Recknagel H, Kamenos NA, Elmer KR (2021) Evolutionary origins of viviparity consistent with palaeoclimate and lineage diversification. J Evol Biol 34:1167–1176

    Article  Google Scholar 

  • Reynolds RG, Niemiller ML, Revell LJ (2014) Toward a Tree-of-Life for the boas and pythons: multilocus species-level phylogeny with unprecedented taxon sampling. Mol Phylog Evol 71:201–213

    Article  Google Scholar 

  • Scanferla A, Smith KT (2020a) Exquisitely preserved fossil snakes of Messel: insight into the evolution, biogeography, habitat preferences and sensory ecology of early boas. Diversity 12:100

    Article  Google Scholar 

  • Scanferla A, Smith KT (2020b) Additional anatomical information on the Eocene minute boas Messelophis variatus and Rieppelophis ermannorum (Messel Formation, Germany). Verteb Zool 70:615–620

    Google Scholar 

  • Scanferla A, Smith KT, Schaal SFK (2016) Revision of the cranial anatomy and phylogenetic relationships of the Eocene minute boas Messelophis variatus and Messelophis ermannorum (Serpentes, Booidea). Zool J Linn Soc 176:182–206

    Article  Google Scholar 

  • Shine R (1985) The evolution of viviparity in reptiles: an ecological analysis. In: Gans C, Billet F (eds) Biology of the Reptilia, vol 15. Wiley, New York, pp 605–694

    Google Scholar 

  • Shine R, Bull JJ (1979) The evolution of live-bearing in lizards and snakes. Am Nat 113:905–992

    Article  Google Scholar 

  • Smith KT, Scanferla A (2016) Fossil snake preserving three trophic levels and evidence for an ontogenetic dietary shift. Palaeobiodiv Palaeoenviron 96:589–599

    Article  Google Scholar 

  • Smith KT, Schaal SF, Habersetzer J (2018) Messel: an ancient greenhouse ecosystem. Schweizerbart, Stuttgart

    Google Scholar 

  • Wang Y, Evans SE (2011) A gravid lizard from the early Cretaceous of China: insights into the history of squamate viviparity. Naturwissenschaften 98:739–743

    Article  CAS  Google Scholar 

  • Xing L, Caldwell MW, Chen R, Nydam RL, Palci A, Simões TR, McKellar RC, Lee MSY, Liu Y, Shi H, Wang K, Bai M (2018) A mid-Cretaceous embryonic-to-neonate snake in amber from Myanmar. Sci Adv 4:eaat5042

  • Zachos JC, Dickens GR, Zeebe RE (2008) An early Cenozoic perspective on greenhouse warming and carbon- cycle dynamics. Nature 451:279–283

    Article  CAS  Google Scholar 

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Acknowledgements

We are grateful to Stephan Schaal, Anika Vogel and Sabine Köster (Senckenberg Research Institute), Claudia Koch (Alexander Koenig Museum), Mario Yánez-Muñoz (INABIO), and Patrick Campbell (London Natural History Museum) who kindly provided access to collections, CT facilities, and technical assistance during this work.

Funding

This research was funded by Agencia Nacional de Promoción Científica y Técnica (ANPCyT PICT 2020–2443) and Deutscher Akademischer Austauschdienst (DAAD).

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Authors and Affiliations

  1. CONICET - Fundación de Historia Natural “Félix de Azara”, Ciudad Autónoma de Buenos Aires, Argentina

    Mariana Chuliver & Agustín Scanferla

  2. Leibniz Institute for the Analysis of Biodiversity Change, Bonn, Germany

    Mariana Chuliver

  3. Department of Messel Research and Mammalogy, Senckenberg Research Institute, Frankfurt Am Main, Germany

    Krister T. Smith

  4. Faculty of Biological Sciences, Goethe University, Frankfurt, Frankfurt Am Main, Germany

    Krister T. Smith

Authors
  1. Mariana Chuliver
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  2. Agustín Scanferla
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  3. Krister T. Smith
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Correspondence to Mariana Chuliver.

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Communicated by Matthias Waltert

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Chuliver, M., Scanferla, A. & Smith, K.T. Live birth in a 47-million-year-old snake. Sci Nat 109, 56 (2022). https://doi.org/10.1007/s00114-022-01828-3

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  • DOI: https://doi.org/10.1007/s00114-022-01828-3

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