Holocene climate and catchment change inferred from the geochemistry of Lashmars Lagoon, Kangaroo Island (Karti/Karta), southern Australia
Holocene climate and catchment change inferred from the geochemistry of Lashmars Lagoon, Kangaroo Island (Karti/Karta), southern Australia
We present a continuous ∼7000-year sedimentary record from Lashmars Lagoon, Kangaroo Island (Karti/Karta), southern Australia, a region heavily impacted by drought and bushfires in recent decades. Records such as this are vital to contextualise current climatic and environmental shifts, particularly regarding the interplay between hydroclimate and fire-related disturbances in this ecologically sensitive area. We use high-resolution μX-ray fluorescence core scanning, complemented by bulk organic geochemistry and X-ray diffraction mineralogy of catchment soil and lake sediments to reconstruct past climate and catchment processes. Phases of elevated sediment organic matter content (inferred from high Br and total organic carbon) suggest increased lake freshening and productivity, and coincide with increased chemical weathering (inferred from high Al/K and kaolinite/illite and feldspars), likely reflecting the influence of wetter climates. Conversely, periods of high Ca correlate with biogenic carbonate inputs typical of brackish conditions, which we attribute to drier climates or a marine influence. From 7.0 ka, at the mid-Holocene sea level highstand, until 5.7 ka, we suspect Lashmars Lagoon was under virtually continuous influence from the sea. At 5.7 ka, we interpret the abrupt increase in sediment total organic carbon to reflect the severance of the connection to the sea, allowing organic material to accumulate. This, coupled with evidence of high inferred chemical weathering, suggests the climate was relatively wet at the time. After 5.4 ka, our data point to the establishment of drier conditions until the commencement of wetter climates again at 4.5 ka. From 2.5 ka, however, drier climates prevailed again until present. Notably, the climate changes recorded in the sedimentary sequence at Lashmars Lagoon seem to be linked to the strength of the Leeuwin Current, a current that brings warm tropical waters to southern Australia and demonstrates a teleconnection with the El Niño Southern Oscillation, and may well have been an important driver of rainfall on Kangaroo Island (Karti/Karta) over the past ∼7000 years.
Hydroclimate, Itrax, Lake sediment, Weathering, X-Ray Diffraction (XRD), X-Ray Fluorescence (XRF)
Duxbury, Lucinda Cameron
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Johns-Mead, Lluka Yohanni
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Cadd, Haidee
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Francke, Alexander
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Löhr, Stefan C.
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Law, Wallace Boone
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Armbrecht, Linda
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Hall, Philip Anthony
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Zawadzki, Atun
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Jacobsen, Geraldine E.
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Gadd, Patricia S.
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Child, David P.
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Maxson, Charles
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Thomas, Zoë Amber
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Tyler, Jonathan James
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28 November 2023
Duxbury, Lucinda Cameron
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Johns-Mead, Lluka Yohanni
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Cadd, Haidee
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Francke, Alexander
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Löhr, Stefan C.
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Law, Wallace Boone
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Armbrecht, Linda
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Hall, Philip Anthony
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Zawadzki, Atun
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Jacobsen, Geraldine E.
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Gadd, Patricia S.
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Child, David P.
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Maxson, Charles
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Thomas, Zoë Amber
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Tyler, Jonathan James
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Duxbury, Lucinda Cameron, Johns-Mead, Lluka Yohanni, Cadd, Haidee, Francke, Alexander, Löhr, Stefan C., Law, Wallace Boone, Armbrecht, Linda, Hall, Philip Anthony, Zawadzki, Atun, Jacobsen, Geraldine E., Gadd, Patricia S., Child, David P., Maxson, Charles, Thomas, Zoë Amber and Tyler, Jonathan James
(2023)
Holocene climate and catchment change inferred from the geochemistry of Lashmars Lagoon, Kangaroo Island (Karti/Karta), southern Australia.
Palaeogeography, Palaeoclimatology, Palaeoecology, 634, [111928].
(doi:10.1016/j.palaeo.2023.111928).
Abstract
We present a continuous ∼7000-year sedimentary record from Lashmars Lagoon, Kangaroo Island (Karti/Karta), southern Australia, a region heavily impacted by drought and bushfires in recent decades. Records such as this are vital to contextualise current climatic and environmental shifts, particularly regarding the interplay between hydroclimate and fire-related disturbances in this ecologically sensitive area. We use high-resolution μX-ray fluorescence core scanning, complemented by bulk organic geochemistry and X-ray diffraction mineralogy of catchment soil and lake sediments to reconstruct past climate and catchment processes. Phases of elevated sediment organic matter content (inferred from high Br and total organic carbon) suggest increased lake freshening and productivity, and coincide with increased chemical weathering (inferred from high Al/K and kaolinite/illite and feldspars), likely reflecting the influence of wetter climates. Conversely, periods of high Ca correlate with biogenic carbonate inputs typical of brackish conditions, which we attribute to drier climates or a marine influence. From 7.0 ka, at the mid-Holocene sea level highstand, until 5.7 ka, we suspect Lashmars Lagoon was under virtually continuous influence from the sea. At 5.7 ka, we interpret the abrupt increase in sediment total organic carbon to reflect the severance of the connection to the sea, allowing organic material to accumulate. This, coupled with evidence of high inferred chemical weathering, suggests the climate was relatively wet at the time. After 5.4 ka, our data point to the establishment of drier conditions until the commencement of wetter climates again at 4.5 ka. From 2.5 ka, however, drier climates prevailed again until present. Notably, the climate changes recorded in the sedimentary sequence at Lashmars Lagoon seem to be linked to the strength of the Leeuwin Current, a current that brings warm tropical waters to southern Australia and demonstrates a teleconnection with the El Niño Southern Oscillation, and may well have been an important driver of rainfall on Kangaroo Island (Karti/Karta) over the past ∼7000 years.
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More information
Accepted/In Press date: 17 November 2023
e-pub ahead of print date: 22 November 2023
Published date: 28 November 2023
Additional Information:
Funding Information: this work was supported by the Australian Nuclear Science and Technology Organisation (ANSTO) through ANSTO Portal Grants ( AP12819 , AP13336 , AP13662 ) and an AINSE Ltd. Postgraduate Research Award. We acknowledge the financial support for the Centre for Accelerator Science, at ANSTO, through the Australian National Collaborative Research Infrastructure Strategy (NCRIS) . Pollen dates were supported in part by an internship award through the Australasian Quaternary Association (AQUA) , Centre of Excellence for Australian Biodiversity and Heritage (CABAH) and the Chronos 14 Carbon-Cycle Facility at the University of New South Wales . Field work was supported by the Environment Institute, The University of Adelaide, and Sealink . LD was supported by an Australian Government Research Training Program Scholarship and by a Cadetship from the ARC Centre of Excellence for Australian Biodiversity and Heritage (CABAH).
Keywords:
Hydroclimate, Itrax, Lake sediment, Weathering, X-Ray Diffraction (XRD), X-Ray Fluorescence (XRF)
Identifiers
Local EPrints ID: 485780
URI: http://eprints.soton.ac.uk/id/eprint/485780
ISSN: 0031-0182
PURE UUID: 744b49fa-b104-4f75-8799-005a8af5bd7c
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Date deposited: 18 Dec 2023 20:43
Last modified: 18 Mar 2024 04:10
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Contributors
Author:
Lucinda Cameron Duxbury
Author:
Lluka Yohanni Johns-Mead
Author:
Haidee Cadd
Author:
Alexander Francke
Author:
Stefan C. Löhr
Author:
Wallace Boone Law
Author:
Linda Armbrecht
Author:
Philip Anthony Hall
Author:
Atun Zawadzki
Author:
Geraldine E. Jacobsen
Author:
Patricia S. Gadd
Author:
David P. Child
Author:
Charles Maxson
Author:
Zoë Amber Thomas
Author:
Jonathan James Tyler
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