Your search keyword '"Steffensen, Jørgen Peder"' showing total 3 results

1. A detailed framework of Marine Isotope Stages 4 and 5 volcanic events recorded in two Greenland ice-cores

Author

Abbott, Peter M., Davies, Siwan M., Steffensen, Jørgen Peder, Pearce, Nicholas J.G., Bigler, Matthias, Johnsen, Sigfus J., Seierstad, Inger K., Svensson, Anders, and Wastegård, Stefan

Subjects

*VOLCANIC eruptions, *ICE cores, *TEPHROCHRONOLOGY, *CLIMATOLOGY, *VOLCANIC ash, tuff, etc., *ISOTOPE geology

Abstract

Abstract: Sulphate records from Greenland ice-cores indicate that Marine Isotope Stages 4 and 5 were characterised by a higher incidence of large volcanic eruptions than other periods during the last glacial period, however, few investigations have focused on tephra deposits associated with these volcanic eruptions and the nature and origin of the events. Here we present a detailed tephrochronological framework of the products of 15 volcanic events spanning this interval; the majority of which have been preserved as cryptotephra horizons within the Greenland records. The major element compositions of individual glass shards within these horizons indicate that 13 of the eruptions originated from Iceland and 6 of these events can be correlated to the specific volcanic systems of Katla, Grímsvötn, Grímsvötn-Kverkfjöll and either Reykjanes or Veidivötn-Bárdarbunga. For the remaining Icelandic horizons a source from either the rift zone or a flank zone can be suggested based on rock suite affinities. Two horizons have been correlated to a source from the Jan Mayen volcanic system which represents the first discovery of material from this system within any Greenland ice-cores. The robust geochemical characterisations, independent ages for these horizons (derived from the GICC05 ice-core chronology) and stratigraphic positions relative to the Dansgaard-Oeschger climate events recorded in the Greenland ice-cores represent a critical framework that provides new information on the frequency and nature of volcanic events occurring in the North Atlantic region during MIS 4 and 5. This framework can now be utilised in the assessment of the differential timing and rate of response to the millennial-scale climatic events that characterised this period, through the use of the tephra horizons as time-synchronous tie-lines to other palaeoclimatic sequences. [Copyright &y& Elsevier]

Published

2012

2. Volcanism and the Greenland ice cores: A new tephrochronological framework for the last glacial-interglacial transition (LGIT) based on cryptotephra deposits in three ice cores.

Author

Cook, Eliza, Abbott, Peter M., Pearce, Nick J.G., Mojtabavi, Seyedhamidreza, Svensson, Anders, Bourne, Anna J., Rasmussen, Sune O., Seierstad, Inger K., Vinther, Bo M., Harrison, Joseph, Street, Elliott, Steffensen, Jørgen Peder, Wilhelms, Frank, and Davies, Siwan M.

Subjects

*ICE cores, *GREENLAND ice, *EXPLOSIVE volcanic eruptions, *VOLCANISM, *ICE sheet thawing, *MARINE sediments

Abstract

Chemical profiles from Greenland ice cores show that the frequency of volcanism was higher during the last glacial-interglacial transition (LGIT) and early Holocene, (17–9 ka b2k) than in any other period during the last 110 kyr. This increased frequency has partly been linked to climate-driven melting of the Icelandic ice sheet during the last deglaciation, with regional isostatic changes thought to alter mantle viscosity and lead to more eruptions. Our study is the first to construct a comprehensive tephrochronological framework from Greenland ice cores over the LGIT to aid in the reconstruction of volcanic activity over this period. The framework is based on extensive high-resolution sampling of three Greenland ice cores between 17.4 and 11.6 ka b2k and comprises a total of 64 cryptotephra deposits from the NGRIP, GRIP and NEEM ice cores. We show that many of these tephras are preserved within the core without an associated chemical signature in the ice, which implies that reconstructions of volcanism based solely on glacio-chemical indicators might underestimate the number of events. Single glass shards from each deposit were geochemically characterised to trace the volcanic source and many of these deposits could be correlated between cores. We show that the 64 deposits represent tephra deposits from 42 separate volcanic events, and of these, 39 are from Iceland, two from the north Pacific region (Japan and USA) and one has an unknown source. Six deposits can be correlated to terrestrial and/or marine tephra deposits in the Northern Hemisphere and the remaining 36 are unreported in other archives. We did not locate tephra from the compositionally distinctive Laacher See eruption (∼13 ka b2k) in our records. Combining our new discoveries with the previously published tephra framework, raises the number of individual tephra horizons found in Greenland ice over this interval to 50. This significantly improves the regional tephrochronological framework, our knowledge of the eruptive history of Iceland during the LGIT and provides new tephra constraints over key LGIT climate events. Consequentially, this framework can guide sampling strategies of future tephra studies in the terrestrial and marine realms aiming to link these records to the Greenland ice cores to assess regional climate synchroneity. • This study improves our knowledge of Icelandic volcanism during the LGIT. • 64 cryptotephras found in Greenland ice, from 42 separate volcanic events. • A previously unreported basaltic deposit constrains Holocene onset. • 2 deposits from the north Pacific: Mt. St. Helens J-Set and Towada To-H (Japan). [ABSTRACT FROM AUTHOR]

Published

2022

3. Synchronisation of palaeoenvironmental records over the last 60,000 years, and an extended INTIMATE 1 event stratigraphy to 48,000 b2k

Author

Blockley, Simon P.E., Lane, Christine S., Hardiman, Mark, Rasmussen, Sune Olander, Seierstad, Inger K., Steffensen, Jørgen Peder, Svensson, Anders, Lotter, Andre F., Turney, Chris S.M., and Bronk Ramsey, Christopher

Subjects

*PALEOCLIMATOLOGY, *VOLCANOES, *CHRONOLOGY, *ICE cores, *GLACIERS, *CLIMATE change research, *VOLCANIC ash, tuff, etc.

Abstract

Abstract: The INTIMATE protocol for the correlation of marine ice core and terrestrial records is here updated, reflecting recent developments in palaeoclimate research. Originally focussed on Last Glacial to Interglacial Transition (LGIT: 22,000–11,500 years B.P.), the INTIMATE group has now extended its study period back to 60,000 years. As a first step, the INTIMATE event stratigraphy has now been extended to include 8000–48,000 b2k based on a combined NGRIP and GRIP isotope profile against a GICC05 chronology and key tephra horizons from Iceland and continental European volcanic sources. In this lead article of this INTIMATE special issue we introduce some of the recent achievements of the INTIMATE community and discuss the challenges associated with extending the INTIMATE approach back in time, focussing in particular on the chronological problems inherent in comparing different proxy records. The INTIMATE approach has thus far been limited predominantly to the North Atlantic and Australasian regions and we also discuss the potential to extend the INTIMATE protocol beyond these regions. [Copyright &y& Elsevier]

Published

2012