Distal ash fall from the mid-Holocene eruption of Mount Hudson (H2) discovered in the Falkland Islands: New possibilities for Southern Hemisphere archive synchronisation
@inproceedings{Panaretos2021DistalAF, title={Distal ash fall from the mid-Holocene eruption of Mount Hudson (H2) discovered in the Falkland Islands: New possibilities for Southern Hemisphere archive synchronisation}, author={Panayiotis Panaretos and Paul G. Albert and Zo{\"e} A. Thomas and Chris S. M. Turney and Charles R. Stern and Gwydion Jones and Alan N. Williams and Victoria C. Smith and Alan G. Hogg and Christina J. Manning}, year={2021} }
2 Citations
How reliable is µXRF core scanning at detecting tephra layers in sedimentary records? A case study using the Lake Suigetsu archive (central Japan)
- GeographyJournal of Quaternary Science
- 2022
Here, we evaluate the ability of micro X‐ray fluorescence (µXRF) core scanning to identify non‐visible volcanic ash (cryptotephra) layers in sedimentary records. Its suitability is assessed using the…
Holocene glacier readvances on the Fildes Peninsula, King George Island (Isla 25 de Mayo), NW Antarctic Peninsula
- Geography
- 2022
1Alfred-Wegener-Institut Helmholtz-Zentrum für Polarund Meeresforschung, Geosciences Division, Am Alten Hafen 26, 27568 Bremerhaven, Germany. 2University of Bremen, Department of Geosciences,…
References
SHOWING 1-10 OF 74 REFERENCES
Evidence for distal transport of reworked Andean tephra: Extending the cryptotephra framework from the Austral volcanic zone
- Environmental Science, GeographyQuaternary Geochronology
- 2019
Ultra-distal fine ash occurrences of the Icelandic Askja-S Plinian eruption deposits in Southern Carpathian lakes: New age constraints on a continental scale tephrostratigraphic marker
- Environmental Science, Geography
- 2018
A Holocene tephra layer within coastal aeolian deposits north of Caleta Olivia (Santa Cruz Province, Argentina)
- Geology
- 2021
In this paper we illustrate the stratigraphy, geochronology, and geochemistry (major, minor, trace elements and Sr-isotopes) of a Holocene tephra layer found within coastal sedimentary deposits north…
Late Glacial-Holocene tephra from southern Patagonia and Tierra del Fuego (Argentina, Chile): A complete textural and geochemical fingerprinting for distal correlations in the Southern Hemisphere
- Geology, Environmental ScienceQuaternary Science Reviews
- 2018
Evolution of ice-dammed proglacial lakes in ultima Esperanza, Chile: implications from the late-glacial R1 eruption of Reclus volcano, Andean Austral Volcanic Zone
- Environmental Science, Geography
- 2011
Newly described outcrops, excavations and sediment cores from the region of Ultima Esperanza, Magallanes, contain tephra derived from the large late-glacial explosive R1 eruption of the Reclus…
Patagonian ash on sub‐Antarctic South Georgia: expanding the tephrostratigraphy of southern South America into the Atlantic sector of the Southern Ocean
- Environmental Science
- 2018
Fingerprinting non‐visible volcanic ash (cryptotephra) enables precise dating and time synchronization of palaeoclimate archives. Recent analytical advances allow us to strengthen and expand existing…
Refining the Late Quaternary tephrochronology for southern South America using the Laguna Potrok Aike sedimentary record
- Environmental ScienceQuaternary Science Reviews
- 2019
Lacustrine record of last millennia eruptions in Northern Chilean Patagonia (45–47°S)
- Environmental Science
- 2017
Due to its tectonic setting, the Andean Southern Volcanism Zone (SSVZ) is characterized by frequent volcanic activity. Chilean Patagonia lake sediments represent powerful archives of historical and…
First marine cryptotephra in Antarctica found in sediments of the western Ross Sea correlates with englacial tephras and climate records
- GeologyScientific reports
- 2019
The discovery of an important new cryptotephra within marine sediments close to Cape Hallett (northern Victoria Land), in the western Ross Sea, Antarctica further confirms the occurrence of a long-lasting, significant explosive eruption from Mount Rittmann in historical times that produced abundant widely dispersed fine ash.
A 16,000-yr tephra framework for the Antarctic ice sheet: a contribution from the new Talos Dome core
- Environmental Science, Geology
- 2012