Radionuclides of surface sediments and water samples in the South Atlantic south of the Polar Front

The fractionation of 230Th and 231Pa was investigated throughout the Atlantic sector of the Southern Ocean. Published scavenging models generally assume that the 231Pa/230T ratio of surface sediments is primarily determined by the mass flux of particles. This relationship holds north of the Polar Fr...

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Bibliographic Details
Main Authors: Walter, Hans-Jürgen, Rutgers van der Loeff, Michiel M, Hoeltzen, H
Format: Dataset
Language:English
Published: PANGAEA 1997
Subjects:
Agulhas Basin
ANT-IX/2
ANT-IX/3
ANT-VIII/3
ANT-X/5
ANT-X/6
ANT-XI/4
Atlantic Ridge
AWI_MarGeoChem
AWI_Paleo
Cosmonaut Sea
CTD/Rosette
CTD-RO
Filchner Trough
Giant box corer
GKG
Halley Bay
Indian-Antarctic Ridge
In situ pump
ISP
KL
Lazarev Sea
Marine Geochemistry @ AWI
Maud Rise
Meteor Rise
MIC
MiniCorer
MUC
MultiCorer
Paleoenvironmental Reconstructions from Marine Sediments @ AWI
Piston corer (BGR type)
Polarstern
PS16
PS16/267
PS16/271
PS16/281
PS16/294
PS16/306
PS16/311
PS16/321
PS16/334
PS16/342
PS16/351
PS16/354
PS16/362
PS1751-2
PS1752-5
PS1755-1
PS1759-1
PS1765-1
Antarctic
Indian
Lazarev
Southern Ocean
The Antarctic
Weddell
Weddell Sea
Antarc*
Cosmonaut sea
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.730455
https://doi.org/10.1594/PANGAEA.730455
Description
Summary:The fractionation of 230Th and 231Pa was investigated throughout the Atlantic sector of the Southern Ocean. Published scavenging models generally assume that the 231Pa/230T ratio of surface sediments is primarily determined by the mass flux of particles. This relationship holds north of the Polar Front, where low primary productivity coincides with ratios of unsupported 231Pa/230Th-xs(231Pa/230Th) - in surface sediments below the production ratio of both radionuclides in the water column. However, we observed high xs231Pa/230Th ratios, conventionally interpreted as a high-productivity signal, in surface sediments south of the Polar Front, especially throughout the Weddell Sea, in contradiction with the low particle flux of this region. Measurements of both dissolved and particulate fractions of 231Pa and 230Th in the water column revealed a strong N-S decrease in the Th/Pa fractionation factor, from typical open ocean values around 10 north of the Polar Front to values between 1 and 2 south of 60°S. This observation clearly indicates that the high xs231Pa/230Th ratios in surface sediments south of the Antarctic Circumpolar Current are produced by a N-S increase in the relative scavenging efficiency of 231Pa relative to 230Th, most probably due to a change in the chemical composition of particulate matter, and not by a high mass flux. It is speculated that biogenic opal, suggested not to significantly fractionate231Pa and 230Th, may explain the enhanced scavenging of 231Pa to the south. This assumption is further supported by extremely high 231Pa/230Th ratios up to 0.34 in material collected with sediment traps south of the Polar Front, where fluxes are primarily determined by biogenic opal. Based on these results we conclude that, in regions where the sedimenting flux is dominated by biogenic opal, the 231Pa/230Th ratio is not a reliable indicator for the mass flux of particles, thus limiting its use as a paleoproductivity proxy in the Southern Ocean.

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