Developing incremental isotope sampling methods for the dental enamel of human canines and molars

The isotope analysis of human dental enamel has become an essential tool in forensic and archaeological science for reconstructing childhood diet, mobility, and geographic provenance. Enamel forms during early life and does not remodel, permanently incorporating isotopic values such as δ¹³C, δ¹⁸O, and⁸⁷Sr/⁸⁶Sr ingested at the time. The majority of studies rely on a singular bulk enamel sample from an individual to determine birthplace, but this approach overlooks isotope variation within the enamel. This study aims to enhance enamel isotope analysis by constructing and expanding incremental enamel sampling techniques to track childhood mobility and diet at a higher resolution.The Plomp et al. (2020) methodology for third molars (M3) was replicated and applied to first molars (M1), with the addition of a fourth sampling increment near the enamel-root junction. A new standardised method for hand-drilled incremental sampling of canines was also developed, guided by thin sections of enamel growth patterns. While molars yielded overlapping increments due to complex growth patterns and wear, canines provided up to four distinct, minimally overlapping increments spanning 1.5–7 years of age.These methods effectively capture gradual and abrupt shifts in mobility and diet in time-resolved order, which are not detectable in bulk samples. The results suggest that canines may offer improved chronological resolution compared to molars due to the latter's growth complexity and more substantial wear. This study demonstrates the potential of incremental enamel sampling for reconstructing individual life histories and aiding the identification of unknown individuals in forensic contexts.