Assessing changes in high-intensity fire events in south-eastern Australia using Fourier Transform Infra-red (FITR) spectroscopy
Assessing changes in high-intensity fire events in south-eastern Australia using Fourier Transform Infra-red (FITR) spectroscopy
Background: as fire regimes continue to evolve in response to climate change, understanding how fire characteristics have responded to changes in the recent past is vital to inform predictions of future fire events.
Aims and methods: using Fourier Transform Infrared (FTIR) spectroscopy, we assessed how fire intensity has changed in two fire-prone landscapes in south-eastern Australia: (1) the Blue Mountains; and (2) Namadgi National Park during the past 3000 years.
Key results: higher aromatic/aliphatic ratios suggest increased high-intensity fire frequency in sediments at the surface of both cores. Increases in the frequency of extreme drought periods, coupled with the change in vegetation and anthropogenic ignitions following colonisation, could have increased the frequency of high-intensity fires in the past 200 years.
Conclusions: FTIR spectroscopy can be used in sediment deposits to infer that the frequency of high-intensity fire events has increased in the past 200 years compared to the previous 3000 years.
Implications: these results are important for understanding how past fire regimes have responded to climate, people and vegetation shifts in the past 3000 years and can be used to inform models for future predictions and management strategies.
bushfires, carbon, climate, fire history, fire intensity, FTIR spectroscopy, sediments, Southeastern Australia
Ryan, Rebecca
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Thomas, Zoë
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Simkovic, Ivan
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Dlapa, Pavel
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Worthy, Martin
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Wasson, Robert
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Bradstock, Ross
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Mooney, Scott
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Haynes, Katharine
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Dosseto, Anthony
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4 September 2024
Ryan, Rebecca
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Thomas, Zoë
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Simkovic, Ivan
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Dlapa, Pavel
da45835e-4c42-44cf-831c-beb82108206e
Worthy, Martin
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Wasson, Robert
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Bradstock, Ross
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Mooney, Scott
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Haynes, Katharine
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Dosseto, Anthony
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Ryan, Rebecca, Thomas, Zoë, Simkovic, Ivan, Dlapa, Pavel, Worthy, Martin, Wasson, Robert, Bradstock, Ross, Mooney, Scott, Haynes, Katharine and Dosseto, Anthony
(2024)
Assessing changes in high-intensity fire events in south-eastern Australia using Fourier Transform Infra-red (FITR) spectroscopy.
International Journal of Wildland Fire, 33 (9), [WF24064].
(doi:10.1071/WF24064).
Abstract
Background: as fire regimes continue to evolve in response to climate change, understanding how fire characteristics have responded to changes in the recent past is vital to inform predictions of future fire events.
Aims and methods: using Fourier Transform Infrared (FTIR) spectroscopy, we assessed how fire intensity has changed in two fire-prone landscapes in south-eastern Australia: (1) the Blue Mountains; and (2) Namadgi National Park during the past 3000 years.
Key results: higher aromatic/aliphatic ratios suggest increased high-intensity fire frequency in sediments at the surface of both cores. Increases in the frequency of extreme drought periods, coupled with the change in vegetation and anthropogenic ignitions following colonisation, could have increased the frequency of high-intensity fires in the past 200 years.
Conclusions: FTIR spectroscopy can be used in sediment deposits to infer that the frequency of high-intensity fire events has increased in the past 200 years compared to the previous 3000 years.
Implications: these results are important for understanding how past fire regimes have responded to climate, people and vegetation shifts in the past 3000 years and can be used to inform models for future predictions and management strategies.
Text
WF24064
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Accepted/In Press date: 3 August 2024
Published date: 4 September 2024
Keywords:
bushfires, carbon, climate, fire history, fire intensity, FTIR spectroscopy, sediments, Southeastern Australia
Identifiers
Local EPrints ID: 494720
URI: http://eprints.soton.ac.uk/id/eprint/494720
ISSN: 1049-8001
PURE UUID: cd9fc5cd-3cc9-466a-b56b-f2143f8bf14d
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Date deposited: 14 Oct 2024 16:55
Last modified: 15 Oct 2024 02:06
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Contributors
Author:
Rebecca Ryan
Author:
Zoë Thomas
Author:
Ivan Simkovic
Author:
Pavel Dlapa
Author:
Martin Worthy
Author:
Robert Wasson
Author:
Ross Bradstock
Author:
Scott Mooney
Author:
Katharine Haynes
Author:
Anthony Dosseto
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