Dating young Holocene coastal sediments in tropical regions: Use of fallout 239,240Pu as alternative chronostratigraphic marker

Abstract

We present a study on the use of 239,240Pu as a chronostratigraphic marker to constrain 210Pb ages in young Holocene sediments from four coastal locations of Cuba (Caribbean Sea). The selected sites typify a variety of deposition environments such as a bay, a gulf, a coastal lagoon and a river estuary. The vertical distributions of 210Pb (and 226Ra), 239,240Pu and 137Cs in the sediment cores were determined in order to quantify the sedimentation processes. Mean activity ratios of 0.04 ± 0.01 for 238Pu/239,240Pu and 0.3 ± 0.2 for 241Am/239,240Pu indicated that atmospheric nuclear weapon tests (NWT) fallout was the main source of the anthropogenic radionuclides. Marine sites (Havana Bay and Gulf of Batabano) were characterized by low or negligible signals of 137Cs, which impeded its use as a chronostratigraphic marker. In the Sagua River Estuary and the Guanaroca Lagoon, where mixing of fresh and saline waters take place, depth profiles of 137Cs and 239,240Pu were in good agreement. A simple model that assumes a well-mixed reservoir in surface ocean waters and constant sediment accumulation was used to interpret the 239,240Pu profiles. The model corroborated the 210Pb ages, except in the case of the highly mixed sediment cores from the Gulf of Batabano. The apparent mean residence time of 239,240Pu in the well-mixed reservoir ranges from 5 to 50 years, with longer timescales for marine sites. 239,240Pu showed to be a useful time tracer in coastal sediments where the 137Cs signal is very low.