Glacier Peak and mid‐Lateglacial Katla cryptotephras in Scotland: potential new intercontinental and marine‐terrestrial correlations

Pyne-O’Donnell, Sean; Jensen, Britta J.L.

doi:10.1002/jqs.3171

Cited by 8 publications

(3 citation statements)

References 50 publications

(125 reference statements)

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“…(2020) have already shown that the Azores can be a source, and two further papers show that even more distant volcanic regions have contributed tephras to the British Isles tephra framework. Firstly, Pyne‐O'Donnell and Jensen (2020) re‐examine cores from Loch Ashik, Scotland, first investigated by Pyne‐O'Donnell (2004, 2006), at a high resolution and uncover evidence for North American tephra deposition (Glacier Peak G) at this site during the Lateglacial Interstadial. Secondly, through their investigation of early‐ to mid‐Holocene sediments from Llyn Llech Owain, Wales, Jones et al .…”

Section: Theme 3: Applications Of Tephrochronology Around the Globementioning

confidence: 99%

Crossing new frontiers: extending tephrochronology as a global geoscientific research tool

Abbott

Jensen

Lowe

et al. 2020

J Quaternary Science

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Section: Theme 3: Applications Of Tephrochronology Around the Globementioning

confidence: 99%

Crossing new frontiers: extending tephrochronology as a global geoscientific research tool

Abbott

Jensen

Lowe

et al. 2020

J Quaternary Science

Self Cite

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“…Tephra shards that mark volcanic ash layers serve as a powerful chronological tool, enabling the refinement of tephrochronological age uncertainties and provide reliable isochronous tephrostratigraphic tie-points. Widely dispersed tephra from highly explosive eruptions help to facilitate precise temporal comparisons between palaeoenvironmental records over regional to continental scales 9 , 10 . Tephra layers are a particularly useful chronological tool when: (1) glass shards can be confidently correlated to a volcanic centre and/or eruption through chemical compositions 11 ; (2) they are widely dispersed and provide tie-points in important records 12 ; (3) well dated by absolute and relative dating techniques 13 , 14 and; (4) they can be linked to a climatic/archaeological event or transition around the time of the eruption 8 , 15 .…”

Section: Introductionmentioning

confidence: 99%

Identification of the Campanian Ignimbrite in the Dead Sea and consequent time-transgressive hydroclimatic shifts in the Eastern Mediterranean

Kearney,

Schwab,

Redant

et al. 2024

Sci Rep

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Robust chronologies and time equivalent tephra markers are essential to better understand spatial palaeoenvironmental response to past abrupt climatic changes. Identification of well-dated and widely dispersed volcanic ash by tephra and cryptotephra (microscopic volcanic ash) provides time synchronous tie-points and strongly reduces chronological uncertainties. Here, we present the major, minor and trace element analyses of cryptotephra shards in the Dead Sea Deep Drilling sedimentary record (DSDDP 5017-1A) matching the Campanian Ignimbrite (CI). This geochemical identification expands the known dispersal range of the CI to the southeastern Mediterranean, over 2300 km from the volcanic source. Due to the CI eruption occurring near-synchronous with North Atlantic ice surge of Heinrich Event 4 (HE4), this tephra provides insights into regional responses to large-scale climatic change in the Mediterranean. In the Dead Sea, the CI layer is associated with wetter climatic conditions. This contrasts with the contemporaneous occurrence of the CI deposition and dry conditions in the central and eastern Mediterranean suggesting a possible climate time-transgressive expansion of HE4. Our finding underscores the temporal and spatial complexity of regional climate responses and emphasises the importance of tephra as a time marker for studying large-scale climatic changes verses regional variations.

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“…Tephra shards mark volcanic ash layers and serve as a powerful chronological tool, enabling the re nement of tephrochronological age uncertainties and providing isochronous tephrostratigraphic tiepoints. Widely dispersed tephra from highly explosive eruptions help to facilitate precise temporal comparisons between palaeoenvironmental records over continental to regional scales [9,10] . Tephra layers are a particularly useful chronological tool when: 1) glass shards can be con dently correlated to a volcanic centre and eruption through chemical compositions [11] ; 2) they are widely dispersed that lead to tie-points in records at regional and global scales [12] ; 3) well dated by absolute and relative dating techniques [13,14] and; 4) they are linked to a climatic/archaeological event or transition around the time of the eruption [8,15] .…”

Section: Introductionmentioning

confidence: 99%

Identification of the Campanian Ignimbrite in the Dead Sea and consequent time-transgressive hydroclimatic shifts in the Eastern Mediterranean

Kearney,

Schwab,

Redant

et al. 2023

Preprint

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Robust chronologies and time equivalent tephra markers are essential to better understand spatial palaeoenvironmental response to past abrupt climatic changes. Identification of well-dated and widely dispersed volcanic ash by tephra and cryptotephra (microscopic volcanic ash) provide time synchronous tie-points and strongly reduce chronological uncertainties. Here, we present the major, minor and trace element analyses of cryptotephra shards in the Dead Sea Deep Drilling sedimentary record (DSDDP 5017-1A) matching the Campanian Ignimbrite (CI). This geochemical identification expands the know dispersal range of the CI to the southeastern Mediterranean, over 2,300 km from the volcanic source. Due to the CI eruption occurring near-synchronous with North Atlantic ice surge of Heinrich Event 4 (HE4), this tephra provides insights into regional responses to large-scale climatic change in the Mediterranean. In the Dead Sea, the CI layer is associated with wetter climatic conditions. This contrasts with the contemporaneous occurrence of the CI deposition and dry conditions in the northern and western Mediterranean suggesting a possible climate time-transgressive expansion of HE4. Our finding underscores the temporal and spatial complexity of regional climate responses and emphasises the importance of tephra as a time marker for studying large-scale climatic changes verses regional variations.

show abstract

Glacier Peak and mid‐Lateglacial Katla cryptotephras in Scotland: potential new intercontinental and marine‐terrestrial correlations

Cited by 8 publications

References 50 publications

Crossing new frontiers: extending tephrochronology as a global geoscientific research tool

Crossing new frontiers: extending tephrochronology as a global geoscientific research tool

Identification of the Campanian Ignimbrite in the Dead Sea and consequent time-transgressive hydroclimatic shifts in the Eastern Mediterranean

Identification of the Campanian Ignimbrite in the Dead Sea and consequent time-transgressive hydroclimatic shifts in the Eastern Mediterranean

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