Scientific Reports (Sep 2023)

Isotopic and proteomic evidence for communal stability at Pre-Pottery Neolithic Jericho in the Southern Levant

  • Xiaoran Wang,
  • Baoshuai Zhang,
  • Yufeng Sun,
  • Tara Ingman,
  • Stefanie Eisenmann,
  • Mary Lucas,
  • Erin Scott,
  • Jana Ilgner,
  • Gao Wu,
  • Petrus le Roux,
  • Xiaotong Wu,
  • Xingxiang Zhang,
  • Anchuan Fan,
  • Patrick Roberts,
  • Philipp W. Stockhammer

DOI
https://doi.org/10.1038/s41598-023-43549-1
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 14

Abstract

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Abstract As one of the key, long-term occupied sites in the Southern Levant, Jericho was one of the most important early Neolithic centres to witness social and economic changes associated with the domestication of plants and animals. This study applies strontium (87Sr/86Sr), oxygen (δ18O) and carbon (δ13C) isotope analyses to the enamel of 52 human teeth from Pre-Pottery Neolithic (PPN) layers of Jericho to directly study human diet and mobility and investigate the degree of consolidation and the flexibility of social organization of Jericho society in the PPN period. The results indicate only two non-local individuals out of the 44 sampled inhabitants identified by strontium isotope analysis and are consistent with the presence of a largely sedentary community at PPN Jericho with no evidence for large-scale migration. We also construct strontium spatial baselines (87Sr/86Sr map) with local 87Sr/86Sr signatures for the sites across the Southern Levant based on systematic compilation and analysis of available data. In addition, we apply proteomic analysis of sex-specific amelogenin peptides in tooth enamel for sex estimation of the sampled individuals (n = 44), the results of which showed a sex-biased ratio (more male than female detected in this sample pool) in Jericho society during the PPN period, which may be due to the limited sample size or selective ritual practices like particular burial zones used for specific groups. We also pretreated a batch of human bone samples recovered from PPNB Jericho for stable carbon and nitrogen isotope analyses for dietary investigations. However, the extracted collagen showed poor preservation and no valid δ13C or δ15N data were obtained.