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Potential of establishing a 'global standardised growth curve' (gSGC) for optical dating of quartz from sediments

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posted on 2024-11-16, 07:21 authored by Bo LiBo Li, Richard RobertsRichard Roberts, Zenobia JacobsZenobia Jacobs, Sheng-Hua Li
We report investigations of the optically stimulated luminescence (OSL) signals of sedimentary quartz from different regions of Asia, Africa, Europe and North America using a single-aliquot regenerative-dose (SAR) procedure. We show that variations in the shape of dose response curves (DRCs), or growth curves, of the test dose sensitivity-corrected OSL signals among single aliquots composed of multiple grains can be greatly reduced by normalising the DRCs using one of the regenerative dose OSL signals. We refer to this regenerative-dose normalisation procedure as 're-normalisation'. We find a common re-normalised DRC extends to doses of ∼250 Gy for samples that differ significantly in terms of geological provenance, sedimentary context and depositional age. This feature permits the development of a 'global standardised growth curve' (gSGC) for OSL signals from single aliquots of quartz. The equivalent dose (De) of an aliquot can be estimated from the natural signal, one regenerative dose signal and their corresponding test dose signals. For the variety of samples investigated, we find that De estimates obtained from the gSGC are consistent with those obtained using full SAR procedures for doses of up to ∼250 Gy. Use of the gSGC for single aliquots would greatly reduce the time required to estimate the De values of older samples and for a large number of aliquots.

Funding

A tale of two species: constructing chronologies for patterns of change in the behaviour of Neanderthals and early modern humans

Australian Research Council

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Out of Asia: unique insights into human evolution and interactions using frontier technologies in archaeological science

Australian Research Council

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History

Citation

Li, B., Roberts, R. G., Jacobs, Z. & Li, S. (2015). Potential of establishing a 'global standardised growth curve' (gSGC) for optical dating of quartz from sediments. Quaternary Geochronology, 27 94-104.

Journal title

Quaternary Geochronology

Volume

27

Pagination

94-104

Language

English

RIS ID

98636

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