Dating Recent Peat Accumulation in European Ombrotrophic Bogs

Abstract

This study compares age estimates of recent peat deposits in 10 European ombrotrophic (precipitation-fed) bogs produced using the 14 C bomb peak, 210 Pb, 137 Cs, spheroidal carbonaceous particles (SCPs), and pollen. At 3 sites, the results of the different dating methods agree well. In 5 cores, there is a clear discrepancy between the 14 C bomb peak and 210 Pb age estimates. In the upper layers of the profiles, the age estimates of 14 C and 210 Pb are in agreement. However, with increasing depth, the difference between the age estimates appears to become progressively greater. The evidence from the sites featured in the study suggests that, provided aboveground plant material (seeds, leaves) is selected for dating, the 14 C bomb peak is a reliable dating method, and is not significantly affected by the incorporation of old carbon with low 14 C content originating from sources including air pollution deposition or methane produced by peat decomposition. 210 Pb age estimates that are too old may be explained by the enrichment of 210 Pb activity in the surface layers of peat resulting from a hypothesized mechanism where rapidly infilling hollows, rich in binding sites, may scavenge 210 Pb associated with dissolved organic matter passing through the hollow, as part of the surface drainage network. Until further research identifies and resolves the cause of the inaccuracy in 210 Pb dating, age estimates of peat samples based only on 210 Pb should be used with caution. © 2013 by the Arizona Board of Regents on behalf of the University of Arizona.