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Soft tissue evidence of homeothermia and crypts in a Jurassic ichthyosaur

first Motani, R. Evolution of fish-shaped reptiles (Reptilia: Ichthyopterygia) in their physical environments and limitations. Yet. Reef. Earth Planet. Sci…

  • first

    Motani, R. Evolution of fish-shaped reptiles (Reptilia: Ichthyopterygia) in their physical environments and limitations. Yet. Reef. Earth Planet. Sci . 33 395-420 (2005).

  • 2nd

    Fraas, E. Uberber de Finne von Ichthyosaurus . Jahresh. Vereins vaterl. Naturk. Württemberg 44 280-303 (1


  • 3rd

    Whitear, M. On the color of an ichthyosaur. Ann. Mag. Nat. Hist . 9 742-744 (1956).

  • 4th

    Wiman, C. Über Ichthyosaurier und Wale.

  • Senckenbergiana 27 1-11 (1946).
  • 5th

    Lingham-Soliar, T. Rare soft tissue reservoir showing fibrous structures in an ichthyosaur from Jurassic of England. Proc. R. Soc. Lond. B 266 2367-2373 (1999).

  • 6th

    Martill, D. M. Prokaryot mats replacing soft tissues in mesozoic marine reptiles. Mod. Geol . 11 265-269 (1987).

  • 7th

    Smithwick, FM, Mayr, G., Saitta, ET, Benton, MJ & Vinther, J. On the alleged presence of fossilized collagen fibers in an ichthyosaur and a theropod dinosaur.

  • Palaeontology 60 409-422 (2017).
  • 8th

    Wyneken, J., Leatherback Turtle: Biology and Conservation (eds Spotila, JR & Tomillo, PS) 32-48 (John Hopkins Univ. Press, Baltimore, 2015).

  • ninth

    Cozzi, B., Huggenberger, S. & Oelschläger, H. Delfin’s anatomy: Insights

  • 10.

    Reeb, D., Best, PB & Kidson, SH The structure of the integer of Southern Right Valleys, Eubalaena Australis . Anat. Rec . 290 596-613 (2007).

  • eleventh

    Landmann, L. in Integument Biology (eds Bereiter-Hahn, J. et al.) 150-187 (Springer, Berlin, 1986).

  • 12th

    Alibardi, L. Ultrastructural properties of skin pigmentation in lizard Heloderma suspectum with emphasis on xanto melanophores. Acta Zool . 96 154-159 (2015).

  • thirteenth

    Wilby, P.R. & Briggs, D.E. G. Taxonomic trends in the dissolution of details preserved in fossilized phosphatized soft tissues.

  • Geobios 30 493-502 (1997).
  • fourteenth

    Gupta, NS, Tetlie, OE, Briggs, DEG & Pancost, RD Fossilization of eurypterides: a result of molecular transformation.

  • Palaios 22 439-447 (2007).
  • 15th

    Gupta, NS, Cody, GD, Tetlie, OE, Briggs, DEG & Summons, RE Rapid incorporation of lipids into macromolecules during experimental course of invertebrates: initiation of geopolymerization. Org. Geochem . 40 589-594 (2009).

  • 16th

    Reilly, S., Summons, R., Mayr, G. & Vinther, J. Retention of uropigial leukipids in a 48 million year old bird. Proc. R. Soc. Lond. B 284 20171050 (2017).

  • 17th

    Jackson, M. K. & Sharawy, M. Lipids, and cholesterol complex in the lacunar cells of the snake skin. Anat. Rec . 190 41-45 (1978).

  • 18th

    Pan, Y. et al. Molecular evidence of keratin and melanosomes in the spring of the early chickens Eoconfuciusornis . Proc. Natl Acad. Sci. USA 113 E7900-E7907 (2016).

  • 19th

    Moyer, AE, Zheng, W. & Schweitzer, MH Keratin sustainability have consequences for the fossil record: results from a 10 year fever destruction experiment.

  • PLOS ONE 11 e0157699 (2016).
  • 20th

    Toni, M. & Alibardi, L. Soft epidermis of a shell-free worm lacks beta-keratin. Eur. J. Histochem . 51 145-151 (2007).

  • 21st

    Iverson, SJ in Encyclopedia of Marine Mammals (eds Perrin, WF et al.) 115-120 Academic, Amsterdam, 2009).

  • 22nd

    Davenport, J. et al. Obesity head: An analysis of head and neck insulation in the skull turtle ( Dermochelys coriacea ). J. Exp. Biol . 212 2753-2759 (2009).

  • 23rd

    Fartasch, M., Haneke, E. & Hornstein, OP Mineralization of collagen and elastic fibers at surface dystrophic cutaneous calcification study. Dermatologica 181 187-192 (1990).

  • 24th

    Balakrishnan, S. et al. Studies of the calcification effect of stingray-fish skin collagen for possible use as a scaffold for bone regeneration. Tissue Eng. Regen. With . 12 98-106 (2015).

  • 25th

    Lindgren, J. et al. Skin pigmentation provides evidence of convergent melanism in extinct marine reptiles.

  • Nature

    506 484-488 (2014).

  • 26th

    Wyneken, J. Sea Turtles Anatomy (US Department of Commerce NOAA Technical Memorandum NMFS-SEFSC-470, 2001).

  • 27th

    Shirihai, H. & Jarrett, B. Whales, dolphins and other marine mammals of the world (Princeton Univ. Press, Princeton, 2006).

  • 28th

    Vinther, J. A guide to the field paleo color: melanin and other pigments can fossilize: reconstruct color patterns from ancient organisms can provide new insights into ecology and behavior. BioEssays 37 643-656 (2015).

  • 29th

    Marshall, J. & Johnsen, S., Animal Camouflage: Mechanisms and Function eds Stevens, M. & Merilaita, S.) 186-211 (Cambridge Univ. Press, Cambridge, 2011).

  • 30 °.

    Martinez-Levasseur, LM et al. Acute sun damage and photoprotective response in whales. Proc. R. Soc. Lond. B 278 1581-1586 (2011).

  • 31st

    James, MC, Myers, RA & Ottensmeyer, CA Behavior of turtles in leatherbags, Dermochelys coriacea during the migration cycle. Proc. R. Soc. Lond. B 272 1547-1555 (2005).

  • 32nd

    Bernard, A. et al. Body temperature regulation of certain mesozoic marine reptiles.

  • Science 328 1379-1382 (2010).
  • 33rd

    Nakajima, Y., Houssaye, A. & Endo, H. Osteohistology of the Early Triassian ichthyopterygian reptile Utatsusaurus hataii : Impact of Early ichthyosaurbiology. Acta Palaeontol. Pol . 59 343-352 (2014).

  • 34th

    Kear, B. P. Marine Australia Navy Reptiles: Lower Cretaceous: Parts of a High-Water Coldwater Mount.

  • Palaeontology 49 837-856 (2006).
  • 35th

    Thiel, V. & Sjövall, P. i Principles and Practice of Analytical Techniques in Geosciences (Editors, Grice, K.) 122-170 (Royal Society of Chemistry, Cambridge, 2015).

  • 36th

    Ito, S. et al. Acid hydrolysis reveals a low but constant level of pheomelanin in human black to brown hair. Pigment Cell Melanom Res . 31 393-403 (2018).

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