Ba distribution in surface sediments of the Southern Ocean


Autoria(s): Fagel, Nathalie; Dehairs, Frank; André, Luc; Bareille, Gilles F; Monnin, Christophe
Cobertura

MEDIAN LATITUDE: -55.361356 * MEDIAN LONGITUDE: 81.585911 * SOUTH-BOUND LATITUDE: -64.668500 * WEST-BOUND LONGITUDE: -6.769417 * NORTH-BOUND LATITUDE: -44.116667 * EAST-BOUND LONGITUDE: 145.287500 * DATE/TIME START: 1984-01-01T00:00:00 * DATE/TIME END: 1992-11-22T00:00:00

Data(s)

27/03/2002

Resumo

We present excess Ba (Baxs) data (i.e., total Ba corrected for lithogenic Ba) for surface sediments from a north-south transect between the Polar Front Zone and the northern Weddell Gyre in the Atlantic sector and between the Polar Front Zone and the Antarctic continent in the Indian sector. Focus is on two different processes that affect excess Ba accumulation in the sediments: sediment redistribution and excess Ba dissolution. The effect of these processes needs to be corrected for in order to convert accumulation rate into vertical rain rate, the flux component that can be linked to export production. In the Southern Ocean a major process affecting Ba accumulation rate is sediment focusing, which is corrected for using excess 230Th. This correction, however, may not always be straightforward because of boundary scavenging effects. A further major process affecting excess Ba accumulation is barite dissolution during exposure at the sediment-water column interface. Export production estimates derived from excess 230Th and barite dissolution corrected Baxs accumulation rates (i.e., excess Ba vertical rain rates) are of the same magnitude but generally larger than export production estimates based on water column proxies (234Th-deficit in the upper water column; particulate excess Ba enrichment in the mesopelagic water column). We believe export production values based on excess Ba vertical rain rate might be overestimated due to inaccurate assessment of the Baxs preservation rate. Barite dissolution has, in general, been taken into account by relating it to exposure time before burial depending on the rate of sediment accumulation. However, the observed decrease of excess Ba content with increasing water column depth (or increasing hydrostatic pressure) illustrates the dependence of barite preservation on degree of saturation in the deep water column in accordance with available thermodynamic data. Therefore correction for barite dissolution would not be appropriate by considering only exposure time of the barite to some uniformly undersaturated deep water but requires also that regional differences in degree of undersatuation be taken into account.

Formato

application/zip, 2 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.845013

doi:10.1594/PANGAEA.845013

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Fagel, Nathalie; Dehairs, Frank; André, Luc; Bareille, Gilles F; Monnin, Christophe (2002): Ba distribution in surface Southern Ocean sediments and export production estimates. Paleoceanography, 17(2), 1-20, doi:10.1029/2000PA000552

Palavras-Chave #230Th xs; Accumulation rate, sediment, mean; Al2O3; Aluminium oxide; Ba; Ba/Al; Barit; Barium; Barium, terrigenous; Barium/Aluminium ratio; Barium corrected with Aluminium; Barium corrected with Titan; Barium corrected with Zirconium; Barium excess; Barium excess, portion of total barium; based on an estimated stoichiometric amount of CO2 assuming that all the measure; Ba ter; Ba xs; Ba xs/Ba tot; bSiO2; CaCO3; Calcium carbonate; Calcium oxide; CaO; DBD; Density, dry bulk; Depth; DEPTH, sediment/rock; Environment; Event; Export production; Focus; Focus fac; Focusing; Focusing factor; For two samples in the POOZ, two estimates of export production are reported: the first value took into account the Dymond et al. [1992] algorithm for calculation of the preservation rate, and the second value (in parentheses) assumed a 100% preservation rate.; ICP-AES, Inductively coupled plasma - atomic emission spectroscopy; ICP-MS, Inductively coupled plasma - mass spectrometry; MAR; Nd; Neodymium; Opal, biogenic silica; PP exp; Sample position; Samp pos; Saturation index; Sedimentation rate; Sed rate; SI; Silicon dioxide; SiO2; Sr; Strontium; Th; Thorium; Thorium 230 excess; TiO2; Titanium oxide; Zirconium; Zr
Tipo

Dataset