ESR and OSL dating of fossil-bearing deposits from Naracoorte Cave Complex palaeontological sites,south Australia |
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| Institution: | 1. School of Physical Sciences, Environment Institute, and Institute for Photonics and Advanced Sensing (IPAS), University of Adelaide, Adelaide, South Australia, Australia;2. Facultad de Ciencias de la Educación y del Deporte de Melilla, Universidad de Granada, Spain;3. Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Burgos, Spain;4. Australian Research Centre for Human Evolution (ARCHE), Griffith University, Brisbane, Australia;5. School of Geography, Earth and Atmospheric Sciences, University of Melbourne, Parkville, Victoria, Australia;6. School of Biological Sciences, Environment Institute, University of Adelaide, Adelaide, Australia;7. Earth and Biological Sciences (Palaeontology), South Australian Museum, Adelaide, Australia |
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| Abstract: | Little work has been undertaken on combined dating of sedimentary quartz grains using electron spin resonance (ESR) and optically stimulated luminescence (OSL) techniques in Australia. This study aims to assess the suitability of a combined ESR and OSL dating approach for establishing improved chronologies of Middle-Late Pleistocene deposits within the Naracoorte Cave Complex (NCC), South Australia. Here, we apply ESR and OSL dating in tandem to a series of samples collected from three different NCC sites: Whale Bone, Specimen and Alexandra cave. ESR quartz dating focuses on the multi-centre (MC) approach, which involves comparative evaluations of Al and Ti centre signals, while paired luminescence dating focuses on single-grain OSL analysis and includes examination of multi-grain averaging effects. The comparative ESR-OSL dating results exhibit broad agreement for deposits spanning 50–150 thousand years, with either the Ti–H or Al centre ages overlapping with paired OSL ages at 2σ in nearly all cases. MC ESR evaluations (Al v Ti–Li v Ti–H age assessments) indicate incomplete resetting of the bleachable Al centre signal for a small number of samples. Two-thirds of samples exhibit Ti–Li ages that are significantly older than corresponding Al centre ages, which is unexpected from a bleaching kinetics perspective and may indicate a broader reliability issue for Ti–Li palaeodose evaluation with these particular samples. Our findings: (i) support the applicability of both palaeodosimetric dating methods in this depositional setting; (ii) highlight the merits of applying combined ESR-OSL analyses in tandem, and; (iii) provide one of the first reliable evaluations of quartz ESR MC dating for samples with natural dose ranges as low as only a few tens of Gy. These results show that the Whale Bone, Specimen and Alexandra cave sites are temporally related and can be used to derive multi-site reconstructions of faunal assemblages and palaeoenvironmental history. |
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| Keywords: | Quartz ESR dating Multi-centre approach Single-grain OSL dating Naracoorte cave |
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