Sedimentology of various cores from the West Antarctic continental margin

Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in late Quaternary glaciomarine sediments deposited on the West Antarctic continental margin. The stratigraphical positions of the distal tephra layers in 28 of the 32 studied sediment cores suggest their...

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Bibliographic Details
Main Authors: Hillenbrand, Claus-Dieter, Moreton, Steven Grahame, Caburlotto, Andrea, Pudsey, Carol J, Lucchi, Renata G, Smellie, John L, Benetti, Sara, Grobe, Hannes, Hunt, John B, Larter, Robert D
Format: Dataset
Language:English
Published: PANGAEA 2008
Subjects:
Antarctica
Bellingshausen Sea
slope on TMF
DF
Dome_Fuji
DomeC
DRILL
Drilling/drill rig
ELT05
ELT05.024-PC
Eltanin
Explorer
GC
GC105
GC378 CORE_NO 378
Gravity corer
Ice_core_diverse
James Clark Ross
JR104
JR104-GC378
JR20040123
Mount_Berlin
Mount_Takahe
OUTCROP
Outcrop sample
PC
PC103
PC106
PC108
PC110
PC111
PC113
Piston corer
Sampling/drilling ice
SED-04
SED-06
SED-07
SED-14
SED-15
SED-16
SED-17
SEDANO-I
SEDANO-II
Vostok
Antarctic
East Antarctica
West Antarctica
Byrd
Dome Fuji
Marie Byrd Land
Takahe
Mount Takahe
Mount Moulton
Antarc*
EPICA
ice core
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.671520
https://doi.org/10.1594/PANGAEA.671520
Description
Summary:Three megascopic and disseminated tephra layers (which we refer to as layers A, B, and C) occur in late Quaternary glaciomarine sediments deposited on the West Antarctic continental margin. The stratigraphical positions of the distal tephra layers in 28 of the 32 studied sediment cores suggest their deposition during latest Marine Isotopic Stage (MIS) 6 and MIS 5. One prominent tephra layer (layer B), which was deposited subsequent to the penultimate deglaciation (Termination II), is present in almost all of the cores. Geochemical analyses carried out on the glass shards of the layers reveal a uniform trachytic composition and indicate Marie Byrd Land (MBL), West Antarctica, as the common volcanic source. The geochemical composition of the marine tephra is compared to that of ash layers of similar age described from Mount Moulton and Mount Takahe in MBL and from ice cores drilled at Dome Fuji, Vostok and EPICA Dome C in East Antarctica. The three tephra layers in the marine sediments are chemically indistinguishable. Also five englacial ash layers from Mt. Moulton, which originated from highly explosive Plinian eruptions of the Mt. Berlin volcano in MBL between 142 ka and 92 ka ago, are chemically very similar, as are two tephra layers erupted from Mt. Takahe at ca. 102 ka and ca. 93 ka. Statistical analysis of the chemical composition of the glass shards indicates that the youngest tephra (layer A) in the marine cores matches the ash layer erupted from Mt. Berlin at 92 ka, which was previously correlated with tephra layers in the EPICA Dome C and the Dome Fuji ice cores. A tephra erupted from Mt. Berlin at 136 ka seems to correspond to a tephra layer deposited at 1733 m in the EPICA Dome C ice core. Additionally, the oldest tephra (layer C) in the marine sediments resembles an ash layer deposited at Vostok around 142 ka, but statistical evidence for the validity of this correlation is inconclusive. Although our results underscore the potential of tephrostratigraphy for correlating terrestrial and marine ...

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