Abstract
Age at death estimation in cases of human skeletal finds is an important task in forensic medicine as well as in anthropology. In forensic medicine, methods based on “molecular clocks” in dental tissues and bone play an increasing role. The question, whether these methods are applicable also in cases with post-depositional intervals far beyond the forensically relevant period, was investigated for two “protein clocks”, the accumulation of D-aspartic acid (D-Asp) and the accumulation of pentosidine (Pen) in dentine. Eight teeth of skeletons from different burial sites in Austria and with post-depositional intervals between c. 1216 and c. 8775 years were analysed. The results of age at death estimation based on D-Asp and Pen in dentine were compared to that derived from a classical morphological examination. Age at death estimation based on D-Asp resulted consistently in false high values. This finding can be explained by a post-mortem accumulation of D-Asp that may be enhanced by protein degradation. In contrast, the Pen-based age estimates fitted well with the morphological age diagnoses. The described effect of post-mortem protein degradation is negligible in forensically relevant time horizons, but not for post-depositional intervals of thousands of years. That means that the “D-Asp clock” loses its functionality with increasing post-depositional intervals, whereas Pen seems to be very stable. The “Pen-clock” may have the potential to become an interesting supplement to the existing repertoire of methods even in cases with extremely long post-depositional intervals. Further investigations have to test this hypothesis.
Highlights
In forensic medicine, the identification of an unknown deceased is an important task and may be the key to solving a homicide
One of the main prerequisites for successful identification is the estimation of age at death. This is especially true for the investigation of skeletal finds, which is a field of intersection between forensic medicine and anthropology
The analysis of two molecular clocks revealed that only one clock may reflect the right age at death even after millennia, whereas the other clock is massively disturbed by postdepositional processes over such a long time
Summary
In forensic medicine, the identification of an unknown deceased is an important task and may be the key to solving a homicide. One of the main prerequisites for successful identification is the estimation of age at death. This is especially true for the investigation of skeletal finds, which is a field of intersection between forensic medicine and anthropology. In anthropological casework with very long postdepositional intervals of up to many thousands of years, Classical methods for age at death estimation in human skeletons are based on morphological changes. The histomorphological approach based on tooth cementum annulation provides precise age estimates in some working groups [4,5,6,7]. Morphological age at death estimation may be difficult in incomplete, badly preserved skeletons
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