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Article: Taphonomic experiments resolve controls on the preservation of melanosomes and keratinous tissues in feathers

Palaeontology - Vol. 63 Part 1 - Cover Image
Publication: Palaeontology
Volume: 63
Part: 1
Publication Date: January 2020
Page(s): 103 115
Author(s): Tiffany S. Slater, Maria E. McNamara, Patrick J. Orr, Tara B. Foley, Shosuke Ito, and Kazumasa Wakamatsu
Addition Information

How to Cite

SLATER, T.S., MCNAMARA, M.E., ORR, P.J., FOLEY, T.B., ITO, S., WAKAMATSU, K. 2020. . Palaeontology, 63, 1, 103-115. DOI: /doi/10.1111/pala.12445

Author Information

  • Tiffany S. Slater - School of Biological, Earth & Environmental Sciences University College Cork Cork Ireland
  • Maria E. McNamara - School of Biological, Earth & Environmental Sciences University College Cork Cork Ireland
  • Patrick J. Orr - UCD School of Earth Sciences University College Dublin Dublin Ireland
  • Tara B. Foley - Department of Anatomy & Neuroscience University College Cork Cork Ireland
  • Shosuke Ito - Department of Chemistry Fujita Health University School of Health Sciences Toyoake Aichi Japan
  • Kazumasa Wakamatsu - Department of Chemistry Fujita Health University School of Health Sciences Toyoake Aichi Japan

Publication History

  • Issue published online: 24 December 2019
  • Manuscript Accepted: 15 May 2019
  • Manuscript Received: 04 February 2019

Funded By

European Research Council Starting Grant. Grant Number: 2014‐ERC‐StG‐637691‐ANICOLEVO

Online Version Hosted By

Wiley Online Library (Open Access)
Get Article: Wiley Online Library [Open Access]

Abstract

Fossils are a key source of data on the evolution of feather structure and function through deep time, but their ability to resolve macroevolutionary questions is compromised by an incomplete understanding of their taphonomy. Critically, the relative preservation potential of two key feather components, melanosomes and keratinous tissue, is not fully resolved. Recent studies suggesting that melanosomes are preferentially preserved conflict with observations that melanosomes preserve in fossil feathers as external moulds in an organic matrix. To date, there is no model to explain the latter mode of melanosome preservation. We addressed these issues by degrading feathers in systematic taphonomic experiments incorporating decay, maturation and oxidation in isolation and combination. Our results reveal that the production of mouldic melanosomes requires interactions with an oxidant and is most likely to occur prior to substantial maturation. This constrains the taphonomic conditions under which melanosomes are likely to be fossilized. Critically, our experiments also confirm that keratinous feather structures have a higher preservation potential than melanosomes under a range of diagenetic conditions, supporting hitherto controversial hypotheses that fossil feathers can retain degraded keratinous structures.

Acknowledgements

The research was funded by European Research Council Starting Grant 2014‐ERC‐StG‐637691‐ANICOLEVO awarded to MEM. We thank Giliane Odin, Suzanne Crotty, Vince Lodge and Joe Tobin for assistance with SEM and TEM and Jack Connell and Liam Hayes for supplying feathers. Johan Lindgren and an anonymous referee are thanked for useful comments.

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