Fractionation Corrections in Radiocarbon Dating

Abstract

Recent experimental work has suggested that the relative fractionation of ¹⁴C to ¹³C may differ from the accepted value of b = 2. In order to explore the implications of this possibility, the standard formulae for correcting radiocarbon dates for fractionation effects are rederived, but without making any of the usual assumptions or approximations. A generalized dating equation is derived (where A_SN and A_ON are normalized sample and standard activities, β is a factor which reflects changes in atmospheric ¹³C and ¹⁴C content, {R_ST^(o)/R_ST}^b accounts for post-depositional changes in sample ¹³C ratio, and t_cal is calendar age in years before ad 1950. The errors in calculated ages which might arise from different b values are estimated and shown to be small relative to other dating uncertainties. The effect of b ≠ 2 may be important in the calibration of radiocarbon dates using tree-ring samples of known age. A theoretical analysis suggests that b ≠ 2 effects may result in a correlation between age anomaly (ie, the difference between radiocarbon age and calendar age) and sample ¹³C data. However, an analysis of published data reveals no meaningful correlation. This result, while not eliminating the possibility that b ≠ 2, highlights its unimportance even in this high-precision application of radiocarbon dating.