Near-infrared Fourier transform Raman spectroscopy of the mummified skin of the alpine Iceman, Qilakitsoq Greenland mummies and Chiribaya mummies from Peru
M. Gniadecka et al., Near-infrared Fourier transform Raman spectroscopy of the mummified skin of the alpine Iceman, Qilakitsoq Greenland mummies and Chiribaya mummies from Peru, J RAMAN SP, 30(2), 1999, pp. 147-153
Near-infrared Fourier transform (NIR-FT) Raman spectroscopy was employed to
compare archaeological skin samples of a late Neolithic man (5200 BP) pres
erved in a glacial field in the Alps (the Iceman), skin of fifteenth centur
y mummies preserved at low temperature and dry air in stone graves in Qilak
itsoq, Greenland, and skin samples from mummified bodies from the Chiribaya
culture from the Southern Peruvian desert (1000 up), In all the spectra of
mummified skin, a progressive loss of protein amide I (1640-1680 cm(-1)) a
nd amide III (1220-1290 cm(-1)) band intensities was found, indicating eith
er loss of protein or changes in the secondary protein structure. Thus, the
observed changes or degradation in protein structure in the samples of the
500-year-old skin of the Qilakitsoq mummy and the 1000-year-old skin of Ch
iribaya mummies hare been observed to be broadly similar to those found in
the 5200-year-old Iceman. This implies that most changes in the molecular s
tructure of the skin take place in a relatively short time interval during
the natural mummification process. The spectra of lightly pigmented Peruvia
n mummies showed a relatively strong peak near 1300 cm(-1) and an increased
intensity of the nu(CH) peak at 2850 cm(-1). The band near 1300 cm(-1) is
characteristic of twisting and wagging CH, vibrations in lipids and the 285
0 cm(-1) band represents lipid CH stretching vibrations. These spectral cha
nges suggest an increased lipid content in lightly pigmented Peruvian mummy
skin compared with contemporary skin and the skin of the mummies preserved
in ice. We ascribe this increased lipid intensity in the skin of the Peruv
ian mummies to embalming, by which means a better preservation is achieved.
In conclusion, NIR-FT-Raman spectroscopy has potential use for the non-des
tructive chemical analysis of archaeological biomaterial, By using this tec
hnique it is possible to assess the degree of protein degradation and also
to provide an analysis of embalming materials employed for the mummificatio
n processes. Copyright (C) 1999 John Wiley & Sons, Ltd.