Quarternary tephra layers in sediment cores from the Bellingshausen Sea and Scotia Sea

The Southern Ocean is a region of the world's ocean which is fundamental to the generation of cold deep ocean water which drives the global therrno-haline circulation. Previous investigations of deep-sea sediments south of the Polar Front have been significantly constrained by the lack of a sui...

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Bibliographic Details
Main Author: Moreton, Steven Grahame
Format: Dataset
Language:English
Published: PANGAEA 2007
Subjects:
Drake Passage
E11-21
E11-22
E42-11
E5-24
Explorer
FoxBay
GC
GC027
GC037
GC105
GC114
Gravity corer
HAND
KC081
PC
PC029
PC063
PC078
PC079
PC103
PC106
PC108
PC110
PC111
PC113
Piston corer
Sampling by hand
SED-04
SED-06
SED-07
SEDANO-I
Southern Ocean
Scotia Sea
South Shetland Islands
Bellingshausen Sea
Weddell
Deception Island
Jane Basin
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.671682
https://doi.org/10.1594/PANGAEA.671682
Description
Summary:The Southern Ocean is a region of the world's ocean which is fundamental to the generation of cold deep ocean water which drives the global therrno-haline circulation. Previous investigations of deep-sea sediments south of the Polar Front have been significantly constrained by the lack of a suitable correlation and dating technique. In this study, deep-sea sediment cores from the Bellingshausen, Scotia and Weddell seas have been investigated for the presence of tephra layers. The major oxide and trace element composition of glass shards have been used to correlate tephra isochrons over distances in excess of 600 km. The source volcanoes for individual tephra layers have been identified. Atmospheric transport distances greater than 1500 km for >32 pm shards are reported. One megascopic tephra is identified and correlated across 7 sediment drifts on the continental rise in the Bellingshausen Sea. Its occurrence in a sedimentary unit that has been biostratigraphically dated to delta 18O substage 5e identifies it as a key regional marker horizon for that stage. An unusual bimodal megascopic ash layer erupted from Deception Island, South Shetland Islands, has been correlated between 6 sediment cores which form a 600 km NE-SW transect from the central Scotia Sea to Jane Basin. This megascopic ash layer has been 14C dated at c. 10,670 years BP. It represents the last significant input of tephra into the Scotia Sea or Jane Basin from that volcano and forms an important early Holocene marker horizon for the region. Five disseminated tephras can be correlated to varying extents across the central Scotia Sea cores. Together with the megascopic tephra they form a tephrostratigraphic framework that will greatly aid palaeoclimatic, palaeoenvironrnental and palaeoceanographic investigations in the region.

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