An interdisciplinary approach to Iron Age Mediterranean chronology through combined archaeological and 14C-radiometric evidence from Sidon, Lebanon

PLoS One. 2023 Mar 9;18(3):e0274979. doi: 10.1371/journal.pone.0274979. eCollection 2023.

Abstract

The construction of the Iron Age Mediterranean chronology began in the Levant based on historical evidence and has been additionally supported in recent decades by means of radiocarbon analysis, although with variable precision and ratification. It is only in recent years that new evidence in the Aegean and the western Mediterranean has opened discussion towards its further acceptance as an authoritative i.e. highly reliable, and widely applicable historiographic network. Altogether, the Mediterranean Iron Age chronology has only undergone minor changes during the last hundred years. The Phoenician metropolis of Sidon in southern Lebanon now provides a new, large and robust dataset obtained through a combination of archaeological and 14C-radiometric analysis of materials from stratified contexts that allow their statistical assessment. The appearance of substantial amounts of pottery of Greek, Cypriot and Egyptian origin together with Phoenician local wares in a long stratigraphy is a benefit for the synchronisation of regional pottery styles and allows wider geographic correlation of relative chronological systems. The close association of the archaeological data with a long series of AMS-14C-dates on short-lived samples provides new evidence for the absolute dating of many of the regional pottery styles that are represented in the stratigraphy of Sidon, and contributes towards a considerable improvement of the Mediterranean chronology.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Archaeology
  • Carbon Radioisotopes / analysis
  • Greece
  • Humans
  • Lebanon
  • Radiometric Dating*
  • Radiometry*

Substances

  • Carbon-14
  • Carbon Radioisotopes

Grants and funding

The dating project was funded by the Cimenterie Nationale SAL, Lebanon, and the stand-alone FWF project P-30475, Austria, that was implemented by Stefanos Gimatzidis.