Abstract
Detailed information about the lives and deaths of children in antiquity is often in short supply. Childhood dietary histories are, however, recorded and maintained in the teeth of both juveniles and adults. Primary tooth dentinal collagen does not turn over, preserving a sequential record of dietary changes. The use of nitrogen (δ15N) and carbon (δ13C) isotope values of incrementally sampled dentin are used in the study of breastfeeding practices but evidence for the addition of weaning foods, both in terms of mode and, particularly, duration, has remained analytically inaccessible to date. Here, we demonstrate how the novel use hydrogen isotope (δ2H) values of sequentially micro-sampled dentin collagen, measured from individuals excavated from a Punic cemetery, in Sardinia, Italy, can serve as a proxy for weaning food type and duration in ancient childhood diet. The weaning rate and age, based on the decline in δ15N and δ13C values of permanent first molars and the concomitant increase in δ2H, appears to be broadly similar among six individuals. Hydrogen isotopes vary systematically from a low value soon after birth, rising through early childhood. The early post-birth values can be explained by the influence of 2H-depleted lipids from mother’s breastmilk and the later δ2H rise is consistent with, among other things, a substantial portion of boiled foodstuffs, such as the higher δ2H values observed in porridge. Overall δ2H in dentin shows great promise to elucidate infant and childhood feeding practices, and especially the introduction of supplementary foods during the weaning process.
Highlights
The interaction of infectious disease and malnutrition have shaped the trajectory of human evolution
Urine samples were centrifuged at 3500 rpm for 30 min at room temperature and the supernatant was Dietary changes through childhood revealed by the novel use of hydrogen isotopes in tooth dentin collected for analysis
Hydrogen isotope patterns are dramatically distinct from the corresponding δ15N and δ13C weaning curves with an inverse pattern seen in the earliest years of dentin deposition (Fig 2D)
Summary
The interaction of infectious disease and malnutrition have shaped the trajectory of human evolution. Water δ2H in cow’s milk is somewhat higher on average compared with co-occurring drinking water [35,36,37], and milk lipids have been found to be uniformly lower in δ2H values compared to either liquid source [38,39] This finding highlights the role of the isotopic composition in different milk components for the interpretation of infant dentin collagen δ2H values. Previous reports suggest that δ2H in bone collagen is related to trophic level [40,41,42,43,44,45]; this is not universally observed, and because these reports refer to cross species comparisons, the relevance to very young human infants is unknown Another potential controlling factor of dentin δ2H values is food preparation practice. In addition to the sequential dentin collagen samples, this study presents δ2H values of both human breastmilk and porridge, a canonical weaning food, to assess their potential effect on dentin isotope composition
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