Coastal Research LibraryCoastline Changes of the Baltic Sea from South to EastConstraints of Radiocarbon Dating in Southeastern Baltic Lagoons: Assessing the Vital Effects

TitleCoastal Research LibraryCoastline Changes of the Baltic Sea from South to EastConstraints of Radiocarbon Dating in Southeastern Baltic Lagoons: Assessing the Vital Effects
Publication TypeBook
Year of Publication2017
AuthorsBitinas, A, žeika, J, Buynevich, IV, šytė, A, Molodkov, A, ė, A
Series EditorHarff, J, ńczyk, K, von Storch, H
Series TitleCoastline Changes of the Baltic Sea from South to East
Series Volume19
Number of Pages137 - 171
PublisherSpringer International Publishing
CityCham
ISBN Number978-3-319-49892-8
ISBN2211-0577
KeywordsCuronian lagoon, ESR, IR-OSL, Molluscs, radiocarbon, Reservoir effect, Vistula lagoon
Abstract

During the past decades, a suite of radiocarbon (14C), infrared optically stimulated luminescence (IR-OSL), and electron spin resonance (ESR) dates were compiled on a variety of materials from the Curonian and Vistula lagoons and spits of the southeastern Baltic Sea. These dated materials generally included lagoon sediments and mollusc shells, along with samples of fossil fish remains, peat, wood, and water bicarbonates. A growing number of 14C dates (conventional and AMS) demonstrates disparities and contradictions with the associated IR-OSL dates and palaeobotanical investigations of contemporary materials. Detailed analyses of 14C, IR-OSL and ESR chronologies and experimental 14C dating of modern live molluscs and water bicarbonates from the Curonian Lagoon and its main tributary – Nemunas-Neris River system – reveals a substantial influx of “old” carbonates into the lagoon. As a result, the uncertainty of reservoir effect added a considerable error to the 14C ages. Moreover, fossil molluscs of the same species extracted from boreholes and outcrops yield significantly younger ages (up to several millennia) than the enclosing sediments. Both of these trends – aging and rejuvenation – highlight an urgent need for constraining the local reservoir correction (ΔR). Several scenarios are presented to explain the impact of vital effects on radiocarbon chronology of carbonates and to offer strategies to account for them in future studies.

URLhttp://link.springer.com/10.1007/978-3-319-49894-2_8
DOI10.1007/978-3-319-49894-210.1007/978-3-319-49894-2_8