Robust chronological reconstruction for young speleothems using radiocarbon

Hua, Quan; McDonald, Janece; Redwood, Dale; Drysdale, Russell; Lee, Sharen; Fallon, Stewart; Hellstrom, John

Title: Robust chronological reconstruction for young speleothems using radiocarbon
Creator: Hua, Quan; McDonald, Janece; Redwood, Dale; Drysdale, Russell; Lee, Sharen; Fallon, Stewart; Hellstrom, John
Relation: Quaternary Geochronology Vol. 14, Issue -, p. 67-80
Publisher Link: http://dx.doi.org/10.1016/j.quageo.2012.04.017
Publisher: Elsevier
Resource Type: journal article
Date: 2012
Description: We have studied two young speleothems, SC4 from Smiths Cave (Christmas Island, eastern Indian Ocean) and WM7 from Wollondilly Cave (Wombeyan caves, SE Australia). Attempts to date these speleothems by the Th/U method have proved unsuccessful with some age reversals for SC4 due to multiple sources of non-authigenic Th. This method has also resulted in imprecise ages for WM7 because of low U concentrations (<10 ppb) and consequently very low levels of authigenic ²³⁰Th relative even to the very low levels of detrital ²³⁰Th present. Here, we present an alternative method for reliable dating of these young speleothems using radiocarbon. Approximately 100 carbonate samples from SC4 and WM7 were analysed for ¹⁴C by accelerator mass spectrometry (AMS). The AMS results indicate that bomb ¹⁴C was evident in the youngest parts of both stalagmites. Two different approaches were used to estimate dead carbon fraction (DCF) values for these stalagmites for the pre-bomb period. For SC4, the DCF values were estimated based on the timing of ¹⁴C dates for that period determined by high-resolution δ¹⁸O recorded in the speleothem, and the timing of the onset of bomb ¹⁴C. For WM7, a “maximum” range of pre-bomb DCF was determined. Chronologies of these speleothems were built based on a dense sequence of DCF-corrected ages using three different age-depth models: Clam (Classical method), and Bacon and OxCal (Bayesian statistical approach). Good agreement between these age-depth models were observed indicating that the top 170 mm of SC4 and the top 50 mm of WM7 grew during the past 550–750 years and 1360–1740 years, respectively.
Subject: speleothem; chronology; radiocarbon dating; dead carbon fraction; age-depth modelling; Bayesian statistics
Identifier: http://hdl.handle.net/1959.13/1329037
Identifier: uon:26051
Identifier: ISSN:1871-1014
Language: eng
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