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Increasing tephra deposition in northeastern North America points to atmospheric circulation changes at the Early-Mid Holocene transition

Increasing tephra deposition in northeastern North America points to atmospheric circulation changes at the Early-Mid Holocene transition
Increasing tephra deposition in northeastern North America points to atmospheric circulation changes at the Early-Mid Holocene transition
The number of cryptotephra (non-visible volcanic ash) records from northeastern North America is unique in the continent. The resulting tephrostratigraphic framework includes ash deposits sourced from volcanic arcs across the Northern Hemisphere and is an exceptional resource for correlating and dating paleoenvironmental records. It also provides an opportunity to explore more novel questions regarding the controls on ultra-distal tephra (volcanic ash >3,000 km from source) dispersal and deposition. Here, we examine temporal patterns in the tephrostratigraphy of northeastern North America to test the legitimacy of a previously noted change in ash deposition frequency at the Early Mid Holocene transition. We integrate five new cryptotephra records into the existing framework to improve its temporal and spatial extent and report further occurrences of widespread cryptotephra deposits including Mt. St. Helens We, Jala pumice, White River Ash east, Ruppert tephra, Mt. St. Helens Yn and Mazama Ash. Reexamination of the combined tephrostratigraphy using breakpoint analysis shows a significant increase in the frequency of ashfall after ca. 9,000 (7,860–9,650) cal yr BP (calendar years before C.E. 1950). We discuss this change in relation to volcanic and environmental controls of fine ash dispersal and preservation. We reject hypotheses relating to eruption frequency or depositional processes in favor of changing atmospheric transport patterns and tephra dispersal—possibly caused by the retreat of the Laurentide Ice Sheet. Our study is a novel example of how tephrostratigraphy can be used beyond traditional correlative and dating studies, in this case indicating large-scale changes in atmospheric circulation through time.
Atmspheric Circulation, Holocene, Tephra
0148-0227
Monteath, A.J.
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Jensen, B.J.L.
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Davies, L.J.
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Bolton, M.S.M.
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Hughes, P.D.M.
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Mackay, H.
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Edwards, M.E.
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Finkenbinder, M.
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Booth, R.K.
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Cwynar, L.C.
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Harvey, J.
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Pyne-O’Donnell, S.
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Papp, C.N.
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Froese, D.G.
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Mallon, G.
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Amesbury, M.J.
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Mayfield, R.J.
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Monteath, A.J.
9ffea032-b0bb-4d40-b06a-289938351b0d
Jensen, B.J.L.
21ee32a5-3e2d-4832-a421-4d484be0283a
Davies, L.J.
af22138d-19c2-42e0-a53f-94825f5bee31
Bolton, M.S.M.
615fa18f-17f0-4f98-95e5-d8760581b5f1
Hughes, P.D.M.
14f83168-b203-4a91-a850-8c48535dc31b
Mackay, H.
483b07c4-6dbb-49f9-abe5-b68aaa99e1f6
Edwards, M.E.
4b6a3389-f3a4-4933-b8fd-acdfef72200e
Finkenbinder, M.
246545d7-79e1-4296-876d-d10077909786
Booth, R.K.
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Cwynar, L.C.
b1e9bd77-9eea-4340-964f-f3bd1c422660
Harvey, J.
6a62bfca-3d77-4222-a153-6c8f59f33e28
Pyne-O’Donnell, S.
fbc701e7-372d-44b7-ae74-1f34f1020804
Papp, C.N.
76c53285-7c63-4f27-aa05-10c3ad317446
Froese, D.G.
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Mallon, G.
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Amesbury, M.J.
cbda57b5-7ba9-4df0-93ed-914735cd7381
Mayfield, R.J.
791d3e42-f345-42b1-b5c0-b6940f2beff6

Monteath, A.J., Jensen, B.J.L., Davies, L.J., Bolton, M.S.M., Hughes, P.D.M., Mackay, H., Edwards, M.E., Finkenbinder, M., Booth, R.K., Cwynar, L.C., Harvey, J., Pyne-O’Donnell, S., Papp, C.N., Froese, D.G., Mallon, G., Amesbury, M.J. and Mayfield, R.J. (2025) Increasing tephra deposition in northeastern North America points to atmospheric circulation changes at the Early-Mid Holocene transition. Journal of Geophysical Research, 130 (1), [e2024JD042135]. (doi:10.1029/2024JD042135).

Record type: Article

Abstract

The number of cryptotephra (non-visible volcanic ash) records from northeastern North America is unique in the continent. The resulting tephrostratigraphic framework includes ash deposits sourced from volcanic arcs across the Northern Hemisphere and is an exceptional resource for correlating and dating paleoenvironmental records. It also provides an opportunity to explore more novel questions regarding the controls on ultra-distal tephra (volcanic ash >3,000 km from source) dispersal and deposition. Here, we examine temporal patterns in the tephrostratigraphy of northeastern North America to test the legitimacy of a previously noted change in ash deposition frequency at the Early Mid Holocene transition. We integrate five new cryptotephra records into the existing framework to improve its temporal and spatial extent and report further occurrences of widespread cryptotephra deposits including Mt. St. Helens We, Jala pumice, White River Ash east, Ruppert tephra, Mt. St. Helens Yn and Mazama Ash. Reexamination of the combined tephrostratigraphy using breakpoint analysis shows a significant increase in the frequency of ashfall after ca. 9,000 (7,860–9,650) cal yr BP (calendar years before C.E. 1950). We discuss this change in relation to volcanic and environmental controls of fine ash dispersal and preservation. We reject hypotheses relating to eruption frequency or depositional processes in favor of changing atmospheric transport patterns and tephra dispersal—possibly caused by the retreat of the Laurentide Ice Sheet. Our study is a novel example of how tephrostratigraphy can be used beyond traditional correlative and dating studies, in this case indicating large-scale changes in atmospheric circulation through time.

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Accepted/In Press date: 4 December 2024
e-pub ahead of print date: 7 January 2025
Published date: 7 January 2025
Keywords: Atmspheric Circulation, Holocene, Tephra
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Identifiers

Local EPrints ID: 499606
URI: http://eprints.soton.ac.uk/id/eprint/499606
DOI: doi:10.1029/2024JD042135
ISSN: 0148-0227
PURE UUID: 51d140c7-0996-47df-bef2-e64d8f18156e
ORCID for P.D.M. Hughes: ORCID iD orcid.org/0000-0002-8447-382X
ORCID for M.E. Edwards: ORCID iD orcid.org/0000-0002-3490-6682

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Date deposited: 27 Mar 2025 17:45
Last modified: 22 Aug 2025 01:49

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Contributors

Author: A.J. Monteath
Author: B.J.L. Jensen
Author: L.J. Davies
Author: M.S.M. Bolton
Author: P.D.M. Hughes ORCID iD
Author: H. Mackay
Author: M.E. Edwards ORCID iD
Author: M. Finkenbinder
Author: R.K. Booth
Author: L.C. Cwynar
Author: J. Harvey
Author: S. Pyne-O’Donnell
Author: C.N. Papp
Author: D.G. Froese
Author: G. Mallon
Author: M.J. Amesbury
Author: R.J. Mayfield

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