Inherited age of floating charcoal fragments in a sand-bed stream, Macdonald River, NSW, Australia: Implications for radiocarbon dating of sediments

Russell Blong; Kirstie Fryirs; Rachel Wood; Fleur King; Larissa Schneider; Emilie Dotte-Sarout; Stewart Fallon; Richard Gillespie; Qianyang Chen; Rebecca Esmay

doi:10.1177/09596836231176502

Inherited age of floating charcoal fragments in a sand-bed stream, Macdonald River, NSW, Australia: Implications for radiocarbon dating of sediments

Russell Blong, Kirstie Fryirs, Rachel Wood, Fleur King, Larissa Schneider, Emilie Dotte-Sarout, Stewart Fallon, Richard Gillespie, Qianyang Chen, Rebecca Esmay

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Radiocarbon dates on multiple individual charcoal fragments floating together down the Macdonald River, New South Wales, Australia, have calibrated ages spanning >1700 years. Partial explanations of this range of inherited ages can be attributed to the inbuilt age of living biomass, charcoalisation conditions, hillslope transport and storage and/or valley floor (fluvial) transport and storage, but the contribution of each of these components can be constrained only rarely. These results caution against using radiocarbon dating of charcoal as the sole dating technique to interpret Late-Holocene sedimentary histories. These findings also show that it is unlikely that deposit age has a dependable relationship to charcoal age.

Original language	English
Pages (from-to)	1154-1159
Number of pages	6
Journal	Holocene
Volume	33
Issue number	9
DOIs	https://doi.org/10.1177/09596836231176502
Publication status	Published - Sept 2023

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10.1177/09596836231176502Licence: CC BY

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abstract = "Radiocarbon dates on multiple individual charcoal fragments floating together down the Macdonald River, New South Wales, Australia, have calibrated ages spanning >1700 years. Partial explanations of this range of inherited ages can be attributed to the inbuilt age of living biomass, charcoalisation conditions, hillslope transport and storage and/or valley floor (fluvial) transport and storage, but the contribution of each of these components can be constrained only rarely. These results caution against using radiocarbon dating of charcoal as the sole dating technique to interpret Late-Holocene sedimentary histories. These findings also show that it is unlikely that deposit age has a dependable relationship to charcoal age.",

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AU - Blong, Russell

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AU - Wood, Rachel

AU - King, Fleur

AU - Schneider, Larissa

AU - Dotte-Sarout, Emilie

AU - Fallon, Stewart

AU - Gillespie, Richard

AU - Chen, Qianyang

AU - Esmay, Rebecca

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AB - Radiocarbon dates on multiple individual charcoal fragments floating together down the Macdonald River, New South Wales, Australia, have calibrated ages spanning >1700 years. Partial explanations of this range of inherited ages can be attributed to the inbuilt age of living biomass, charcoalisation conditions, hillslope transport and storage and/or valley floor (fluvial) transport and storage, but the contribution of each of these components can be constrained only rarely. These results caution against using radiocarbon dating of charcoal as the sole dating technique to interpret Late-Holocene sedimentary histories. These findings also show that it is unlikely that deposit age has a dependable relationship to charcoal age.

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Inherited age of floating charcoal fragments in a sand-bed stream, Macdonald River, NSW, Australia: Implications for radiocarbon dating of sediments

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