Radionuclides measured on water bottle samples during SONNE cruise SO202 (INOPEX)

Boundary scavenging, or the enhanced removal of adsorption-prone elements from the ocean in areas of high particle flux, is an often cited, though not well-quantified, concept used to understand the oceanic distribution of many trace metals. Because 230Th and 231Pa are produced uniformly from uraniu...

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Bibliographic Details
Main Authors: Hayes, Christopher T, Anderson, Robert F, Jaccard, Samuel L, Francois, Roger, Fleisher, Martin Q, Soon, Maureen, Gersonde, Rainer
Format: Dataset
Language:English
Published: PANGAEA 2013
Subjects:
CTD
SEA-BIRD
CTD/Rosette
CTD-RO
Date
Date/Time of event
DEPTH
water
Elevation of event
Event label
Innovatives Nordpazifik Experiment - Paläoozeanographie und Magnetik
INOPEX
Latitude of event
Longitude of event
North Pacific Ocean
Oxygen
Pressure
Protactinium-231
dissolved
standard deviation
Salinity
see further details
SO202/1
SO202/1_05-5
SO202/1_24-1
SO202/1_32-1
SO202/1_36-1
SO202/1_39-1
SO202/1_41-2
SO202/1_44-3
Sonne
Temperature
Thorium-230
Thorium-232
Pacific
Subarctic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.811760
https://doi.org/10.1594/PANGAEA.811760
Description
Summary:Boundary scavenging, or the enhanced removal of adsorption-prone elements from the ocean in areas of high particle flux, is an often cited, though not well-quantified, concept used to understand the oceanic distribution of many trace metals. Because 230Th and 231Pa are produced uniformly from uranium decay and removed differentially by scavenging, the process of boundary scavenging can be elucidated by a more detailed knowledge of their water column distributions. To this end, filtered seawater was collected across the gradients in particle flux which span the subarctic Pacific: in the west during the Innovative North Pacific Experiment (INOPEX) and in the east along Line P. Lateral concentration gradients of dissolved 230Th are small throughout the subarctic Pacific at 12 sites of variable particle flux. This contradicts the prediction of the traditional boundary scavenging model. A compilation of water column data from throughout the North Pacific reveals much larger lateral concentration gradients for 230Th between the subarctic North Pacific and subtropical gyre, over lateral gradients in scavenging intensity similar to those found within the subarctic. This reflects a biogeochemical-province aspect to scavenging. Upper water column distributions of 231Pa and 231Pa/230Th ratio are consistent with the influence of scavenging by biogenic opal, while deep waters (>2.5 km) reveal an additional 231Pa sink possibly related to manganese oxides produced at continental margins or ridge crests.

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