Joint 69th Annual Southeastern / 55th Annual Northeastern Section Meeting - 2020

Paper No. 4-8
Presentation Time: 10:40 AM

ADVANTAGES OF 241AM AS A DATING TOOL IN SEDIMENTARY SYSTEMS


VOLANTE, Paul, KASTE, James M. and BALASCIO, Nicholas L., Geology Department, William & Mary, Williamsburg, VA 23187

137Cs is the most common tracer of direct fission products from the Cold War Era nuclear testing period of 1953-1963, and thus widely used as a sediment dating tool. However, in certain sedimentary environments, Cs can be geochemically mobile and prone to biological uptake, which can limit its accuracy in sedimentation studies. Americium-241 (241Am) is also derived from Cold War atomic detonations following 241Pu decay and has a substantially longer half-life of 432.2 years compared to the half-life of 30.2 years of 137Cs. Americium has strong gamma emission at 59.5 keV and can be measured concurrently with 210Pb and 226Ra analysis. We hypothesize that Pu and Am form stronger associations with solid phases and are less prone to biological uptake, and are thus more accurate sediment chronometers. Here we compare 241Am and 137Cs profiles in sediments and vegetation from the eastern U.S. and find that the 241Am concentration maxima is sharper than the 137Cs profile, and we show preferential 137Cs uptake by native vegetation compared with 241Am. The 137Cs profile shows an enrichment in the surface compared with 241Am, and we find up to 1070 Bq 137Cs/kg in live native vegetation compared with 241Am, which is rarely detected in foliage. With continued biological uptake and radioactive decay of 137Cs, 241Am may become a preferable alternative in future sediment dating studies.