Distal ash fall from the mid-Holocene eruption of Mount Hudson (H2) discovered in the Falkland Islands: New possibilities for Southern Hemisphere archive synchronisation
Distal ash fall from the mid-Holocene eruption of Mount Hudson (H2) discovered in the Falkland Islands: New possibilities for Southern Hemisphere archive synchronisation
Cryptotephra deposits (microscopic volcanic ash) are important geochronological tools that can be used to synchronize records of past environmental change. Here we report a distal cryptotephra from a Holocene peat sequence (Canopus Hill) in the Falkland Islands, in the South Atlantic. Using geochemical analysis (major- and trace-element) of individual volcanic glass shards, we provide a robust correlation between this cryptotephra and the large mid-Holocene explosive eruption of Mt. Hudson in Patagonia, Chile (H2; ∼3.9 ka cal BP). The occurrence of H2 as a cryptotephra in the Falkland Islands significantly increases the known distribution of this marker horizon to more than 1200 km from the volcano, a threefold increase of its previous known extent. A high-resolution radiocarbon chronology, based on terrestrial plant macrofossils, dates the H2 tephra to 4265 ± 65 cal yr BP, suggesting that the eruption may have occurred slightly earlier than previously reported. The refined age and new geochemical reference dataset will facilitate the identification of the H2 tephra in other distal locations. The high concentration of glass shards in our peat sequence indicates that the H2 tephra may extend well beyond the Falkland Islands and we recommend future studies search for its presence across the sub-Antarctic islands and Antarctic Peninsula as a potentially useful chronological marker.
Antarctic, Cryptotephra, Hudson, Patagonia, South America, South Atlantic, Southern Ocean, Southern volcanic zone, Tephrochronology
Panaretos, Panayiotis
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Albert, Paul G.
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Thomas, Zoë A.
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Turney, Chris S.M.
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Stern, Charles R.
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Jones, G.
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Williams, Alan N.
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Smith, Victoria C.
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Hogg, Alan G.
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Manning, Christina J.
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15 August 2021
Panaretos, Panayiotis
baa7ae8b-1a80-48d2-9bf4-101ad4ece5e5
Albert, Paul G.
be910cb9-ccc3-4004-8cec-843d04fbcd4d
Thomas, Zoë A.
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Turney, Chris S.M.
5149b57c-77c2-4375-97a2-a4f00aa74d97
Stern, Charles R.
d52d93ca-33c8-4c32-a95e-6395257b16be
Jones, G.
2535eae2-6768-4e75-9433-d340a6e22816
Williams, Alan N.
1cb0b99a-5e2d-4f60-8c0f-7f672c48736d
Smith, Victoria C.
38da622d-ce8d-4182-ba0a-26a2a8f6b80c
Hogg, Alan G.
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Manning, Christina J.
8d0e4468-f63f-407a-8c61-1caeb27828c7
Panaretos, Panayiotis, Albert, Paul G. and Thomas, Zoë A.
,
et al.
(2021)
Distal ash fall from the mid-Holocene eruption of Mount Hudson (H2) discovered in the Falkland Islands: New possibilities for Southern Hemisphere archive synchronisation.
Quaternary Science Reviews, 266 (8), [107074].
(doi:10.1016/j.quascirev.2021.107074).
Abstract
Cryptotephra deposits (microscopic volcanic ash) are important geochronological tools that can be used to synchronize records of past environmental change. Here we report a distal cryptotephra from a Holocene peat sequence (Canopus Hill) in the Falkland Islands, in the South Atlantic. Using geochemical analysis (major- and trace-element) of individual volcanic glass shards, we provide a robust correlation between this cryptotephra and the large mid-Holocene explosive eruption of Mt. Hudson in Patagonia, Chile (H2; ∼3.9 ka cal BP). The occurrence of H2 as a cryptotephra in the Falkland Islands significantly increases the known distribution of this marker horizon to more than 1200 km from the volcano, a threefold increase of its previous known extent. A high-resolution radiocarbon chronology, based on terrestrial plant macrofossils, dates the H2 tephra to 4265 ± 65 cal yr BP, suggesting that the eruption may have occurred slightly earlier than previously reported. The refined age and new geochemical reference dataset will facilitate the identification of the H2 tephra in other distal locations. The high concentration of glass shards in our peat sequence indicates that the H2 tephra may extend well beyond the Falkland Islands and we recommend future studies search for its presence across the sub-Antarctic islands and Antarctic Peninsula as a potentially useful chronological marker.
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Accepted/In Press date: 29 June 2021
Published date: 15 August 2021
Additional Information:
Funding Information:
This project was supported by the Australian Research Council (grant no. DE200100907 and DP130104156). P. Panaretos was supported by a UNSW Summer Vacation Research Scholarship. P.G.A and G.J are funded through a UK Research and Innovation Future Leaders Fellowship (MR/S035478/1). We thank Rebecca Smith for providing constructive comments on an earlier version of this manuscript. We thank the Falkland Islands Government for permission to undertake sampling on the island (permit number: R07/2011).
Funding Information:
This project was supported by the Australian Research Council (grant no. DE200100907 and DP130104156 ). P. Panaretos was supported by a UNSW Summer Vacation Research Scholarship. P.G.A and G.J are funded through a UK Research and Innovation Future Leaders Fellowship ( MR/S035478/1 ). We thank Rebecca Smith for providing constructive comments on an earlier version of this manuscript. We thank the Falkland Islands Government for permission to undertake sampling on the island (permit number: R07/2011).
Publisher Copyright:
© 2021
Keywords:
Antarctic, Cryptotephra, Hudson, Patagonia, South America, South Atlantic, Southern Ocean, Southern volcanic zone, Tephrochronology
Identifiers
Local EPrints ID: 476220
URI: http://eprints.soton.ac.uk/id/eprint/476220
ISSN: 0277-3791
PURE UUID: f18f558b-dd78-4a0b-a4ee-ed3dc8fcb48b
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Date deposited: 14 Apr 2023 16:47
Last modified: 18 Mar 2024 04:10
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Contributors
Author:
Panayiotis Panaretos
Author:
Paul G. Albert
Author:
Zoë A. Thomas
Author:
Chris S.M. Turney
Author:
Charles R. Stern
Author:
G. Jones
Author:
Alan N. Williams
Author:
Victoria C. Smith
Author:
Alan G. Hogg
Author:
Christina J. Manning
Corporate Author: et al.
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