(Figure 3) Dissolved aluminium concentrations during POLARSTERN Cruise ANT-XXIV/3

Dissolved aluminium (Al) occurs in a wide range of concentrations in the world oceans. The concentrations of Al in the Southern Ocean are among the lowest ever observed. An all-titanium CTD sampling system makes it possible to study complete deep ocean sections of Al and other trace elements with th...

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Bibliographic Details
Main Authors: Middag, Rob, van Slooten, C, de Baar, Hein J W, Laan, Patrick
Format: Dataset
Language:English
Published: PANGAEA 2011
Subjects:
Aluminium
standard deviation
ANT-XXIV/3
Bottle number
CTD
CTD/Rosette
ultra clean
CTD-UC
DATE/TIME
DEPTH
water
Elevation of event
Event label
GEOTRACES
Global marine biogeochemical cycles of trace elements and their isotopes
International Polar Year (2007-2008)
IPY
Latitude of event
Longitude of event
Oxygen
apparent utilization
Oxygen saturation
Polarstern
PS71
PS71/101-2
PS71/103-1
PS71/104-2
PS71/107-3
PS71/110-1
PS71/113-3
PS71/116-1
PS71/119-1
PS71/122-1
PS71/128-1
PS71/131-5
PS71/135-1
PS71/138-1
PS71/141-1
PS71/144-1
PS71/147-3
PS71/150-2
PS71/161-6
PS71/163-1
PS71/167-1
PS71/175-3
PS71/178-4
Quality flag
South Atlantic Ocean
Bouvet
Southern Ocean
Weddell
Weddell Basin
Weddell Sea
International Polar Year
North Atlantic Deep Water
North Atlantic
Sea ice
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.816968
https://doi.org/10.1594/PANGAEA.816968
Description
Summary:Dissolved aluminium (Al) occurs in a wide range of concentrations in the world oceans. The concentrations of Al in the Southern Ocean are among the lowest ever observed. An all-titanium CTD sampling system makes it possible to study complete deep ocean sections of Al and other trace elements with the same high vertical resolution of 24 depths as normal for traditional CTD/Rosette sampling. Overall, 470 new data points of Al are reported for 22 full depth stations and 24 surface sampling positions along one transect. This transect consisted of 18 stations on the zero meridian proper from 51°57'S until 69°24'S, and 4 stations somewhat to the northeast towards Cape Town from 42°20'S, 09°E to 50°17'S, 01°27'E. The actual concentrations of Al in the Southern Ocean were lower than previously reported. The concentration of Al in the upper 25 m was relatively elevated with an average concentration of 0.71 nM (n=22; S.D.=0.43 nM), most likely due to atmospheric input by a suggested combination of direct atmospheric (wet and dry) input and indirect atmospheric input via melting sea ice. Below the surface waters there was a distinct Al minimum with an average concentration of 0.33 nM (n=22; S.D.=0.13 nM) at an average depth of 120 m. In the deep southernmost Weddell Basin the concentration of Al increased with depth to ~0.8 nM at 4000 m, and a higher concentration of ~1.5 nM in the ~4500-5200 m deep Weddell Sea Bottom Water. Over the Bouvet triple junction region, where three deep ocean ridges meet, the concentration of Al increased to ~1.4 nM at about 2000 m depth over the ridge crest. In the deep basin north of the Bouvet region the concentration of Al increased to higher deep values of 4-6 nM due to influence of North Atlantic Deep Water. In general the intermediate and deep distribution of Al results from the mixing of water masses with different origins, the formation of deep water and additional input from sedimentary sources at sea floor elevations. No significant correlation between Al and silicate (Si) was ...

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