Provenance analysis of cremated skeletal remains by stable isotopes

Cremated human remains are a rather neglected research substrate in physical anthropology; its investigation is still mainly restricted to the osteological level. The application of archaeometric methods to cremations is limited because the organic skeletal components are fully combusted at high temperatures. Stable isotope ratios of heavy elements such as strontium and lead, however, are thermally stable and permit research targeting questions of mobility, migration, and trade. In many cremations, neither dental remains nor the petrous bone are preserved. In such case, no skeletal element that retains the isotopic signature of childhood is available and compact bone has to be chosen instead. This raises interpretive problems, since due to its slow remodeling rate, compact bone integrates the element uptake over many years prior to death. This can generate a mixed isotope ratio in migrants. Such mixed ratios are no longer compatible with the place of origin, and not yet with the place of recovery. Provenance analysis with a single isotope ratio (mostly Sr-87/Sr-86) therefore has its limits. A combination of strontium and lead stable isotopes in cremations generates a multi-dimensional isotopic fingerprint that is however more difficult to interpret. Data mining methods that pennit a similarity search are a promising approach. In this paper, possibilities and limitations of stable isotope analysis of cremated finds are discussed together with the substrate-specific methodological and interpretive problems. The research potential is demonstrated by use of selected examples.