The ‘Burgundian’ hat from Herjolfsnes, Greenland: new discoveries, new dates

In 1921, during Poul Nørlund’s excavation at the Norse farm Herjolfsnes, Greenland, a tall hat was recovered from the burial grounds surrounding the farm’s church, where a substantial collection of medieval garments had been recovered. This unusual hat came to symbolize not only the end of the Greenland Norse colony but also its enduring cultural links with continental European fashions, following a comment to this effect published by Nørlund himself. In 1996, the hat was dated to the early fourteenth century by Arneborg, a century earlier than Nørlund’s dating, based on stylistic comparisons with European examples. Recent research on North Atlantic textiles led to a reexamination of the hat, with different sections sampled and resubmitted for accelerated mass spectrometry dating. The results suggest that the body of the hat and its crown are of different periods with c. 100 years between them. This reanalysis of the Herjolfsnes ‘tall brimless hat’ or ‘Burgundian’ hat suggests that a considerable amount of cloth recycling took place in these North Atlantic colonies, that cloth was a valued and cherished commodity, and raises questions about the role this item of material culture role should play in discussions of identity and enduring links between Greenland and the continent

14C dateringer af menneskeknogler: Med de grønlandske nordboer som eksempel

14C Dating of human bones. Using the Greenland Norse as an example By Jette Arneborg, Jan Heinemeier, Niels Lynnerup, Niels Rud and Árny E. Sveinbjörnsdóttir The article gives an overview of the difficulties encountered in interpreting 14C dating of human bone, which may lead to erroneous results. Human food intake often has a considerable marine component, which leads to an increase in the apparent 14C age of human bones due to the so-called marine reservoir effect, i.e. the apparent 14C age difference between contemporaneous marine and terrestrial organisms. The marine reservoir age typically amounts to about 400 14C years, which is therefore the expected 14C age excess in humans with 100% marine food intake. Measured values of the carbon stable-isotope ratio 13C/12C in bone collagen, expressed in terms of its fractional deviation from a standard, δ13C, may be used to assess the fraction of marine food in a mixed diet. Typical sources of error, which, particularly in the past, have lead to misinterpretation of 14C dates of bones of humans or animals with mixed marine/terrestrial diet, are 1) Under-estimation of the required 14C reservoir correction based on measured δ13C values 2) The marine food component originates partly from fjord or estuarine environments, for which reservoir ages of more than 900 years have been found in some parts of Denmark 3) Intake of freshwater fish from lakes and rivers, which, in areas of Denmark with calcareous underground, may have very high reservoir effects that unfortunately will not be revealed by δ13C measurements. We use our 14C and δ13C investigation of about 30 Greenland Norse bone and textile samples as an example of how human bone may be successfully 14C dated under favourable conditions where the difficulties 2) and 3) do not apply. With the use of reservoir corrections based on a calculated marine food component varying from 20 to 80%, the corrected 14C ages ranged from about AD 980 to 1430, i.e. most of the time span of the Norse colonisation of Greenland. We used comparative dating of textiles (terrestrial origin) and skeletons with a high marine content (80%), which had been wrapped in the textiles for burial, to calibrate the reservoir correction. Finally we point to the possibility of using the nitrogen isotope 15N in bone collagen as an indicator of a dietary component of freshwater fish