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  1. Home
  3. A Revised Radiocarbon Calibration Curve 350-250 Bce Impacts High-precision Dating Of The Kyrenia Ship.
  1. Home
  3. A Revised Radiocarbon Calibration Curve 350-250 Bce Impacts High-precision Dating Of The Kyrenia Ship.

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A revised radiocarbon calibration curve 350-250 BCE impacts high-precision dating of the Kyrenia Ship.

Sturt W Manning1,2, Brita Lorentzen3, Martin Bridge4

  • 1Cornell Tree-Ring Laboratory, Department of Classics, and Cornell Institute of Archaeology and Material Studies, Cornell University, Ithaca, NY, United States of America.

Plos One
|June 26, 2024

View abstract on PubMed

Summary
This summary is machine-generated.

New radiocarbon dating recalibrates the Kyrenia Ship

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Area of Science:

  • Maritime archaeology
  • Scientific dating methods
  • Ancient shipbuilding

Background:

  • The Kyrenia Ship is a significant find for underwater archaeology and Greek shipbuilding.
  • Previous dating of the ship (ca. 294-290 BCE) relied on uncertain numismatic evidence.
  • Existing radiocarbon dating (IntCal20) conflicted with archaeological constraints for the period 350-250 BCE.

Purpose of the Study:

  • To establish high-precision scientific dates for the Kyrenia Ship.
  • To refine the radiocarbon calibration curve for the period 433-250 BCE.
  • To investigate the impact of polyethylene glycol (PEG) preservative on wood dating.

Main Methods:

  • New tree-ring samples (350-250 BCE) were dated to create a more accurate calibration curve.
  • Bayesian chronological modeling was employed.
  • Known-age tree-ring data were integrated.

    • Main Results:

    • A redefined and more accurate radiocarbon calibration record for 433-250 BCE was established.
    • Satisfactory dating solutions for the Kyrenia Ship were achieved, potentially indicating a slightly more recent date.
    • Dating for the Mazotos ship was confirmed with minor modifications.

    Conclusions:

    • The refined calibration curve resolves discrepancies in dating ancient Mediterranean shipwrecks.
    • Scientific dating provides more reliable chronological anchors for maritime archaeology.
    • Further research is needed on preservative effects on archaeological wood samples.