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Preserved collagen reveals species identity in archaeological marine turtle bones from Caribbean and Florida sites

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Author(s)

  • Virginia L Harvey
  • Michelle J LeFebvre
  • Susan D deFrance
  • Casper Toftgaard
  • Konstantina Drosou
  • Andrew C Kitchener
  • Michael Buckley

Department/unit(s)

Publication details

JournalRoyal Society Open Science
DateSubmitted - 29 Jun 2019
DateAccepted/In press - 4 Oct 2019
DateE-pub ahead of print - 30 Oct 2019
DatePublished (current) - 30 Oct 2019
Issue number10
Volume6
Number of pages16
Early online date30/10/19
Original languageEnglish

Abstract

Advancements in molecular science are continually improving our knowledge of marine turtle biology and evolution. However, there are still considerable gaps in our understanding, such as past marine turtle distributions, which can benefit from advanced zooarchaeological analyses. Here, we apply collagen fingerprinting to 130 archaeological marine turtle bone samples up to approximately 2500 years old from the Caribbean and Florida's Gulf Coast for faunal identification, finding the vast majority of samples (88%) to contain preserved collagen despite deposition in the tropics. All samples can be identified to species-level with the exception of the Kemp's ridley (Lepidochelys kempii) and olive ridley (L. olivacea) turtles, which can be separated to genus level, having diverged from one another only approximately 5 Ma. Additionally, we identify a single homologous peptide that allows the separation of archaeological green turtle samples, Chelonia spp., into two distinct groups, which potentially signifies a difference in genetic stock. The majority of the archaeological samples are identified as green turtle (Chelonia spp.; 63%), with hawksbill (Eretmochelys imbricata; 17%) and ridley turtles (Lepidochelys spp.; 3%) making up smaller proportions of the assemblage. There were no molecular identifications of the loggerhead turtle (Caretta caretta) in the assemblage despite 9% of the samples being morphologically identified as such, highlighting the difficulties in relying on morphological identifications alone in archaeological remains. Finally, we present the first marine turtle molecular phylogeny using collagen (I) amino acid sequences and find our analyses match recent phylogenies based on nuclear and mitochondrial DNA. Our results highlight the advantage of using collagen fingerprinting to supplement morphological analyses of turtle bones and support the usefulness of this technique for assessing their past distributions across the Caribbean and Florida's Gulf Coast, especially in these tropical environments where DNA preservation may be poor.

Bibliographical note

© 2019 The Authors.

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