210 Po and 210 Pb distribution, dissolved-particulate exchange rates, and particulate export along the North Atlantic US GEOTRACES GA03 section

International audience Vertical profiles of 210Po and 210Pb in the water column were measured in the dissolved phase (51 µm) particles at seven stations along the US GEOTRACES North Atlantic Zonal Transect (GA03). Mass balance calculations were employed to assess nuclide exchange rates at the dissol...

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Bibliographic Details
Published in:Deep Sea Research Part II: Topical Studies in Oceanography
Main Authors: Rigaud, Sylvain, Stewart, G., Baskaran, M., Marsan, D., Church, T.
Other Authors: Détection, évaluation, gestion des risques CHROniques et éMErgents (CHROME) / Université de Nîmes (CHROME), Université de Nîmes (UNIMES), Queens College New York, City University of New York New York (CUNY), Wayne State University Detroit, Université Savoie Mont Blanc (USMB Université de Savoie Université de Chambéry ), School of Marine Science and Policy, University of Delaware Newark
Format: Article in Journal/Newspaper
Language:English
Published: HAL CCSD 2015
Subjects:
geo
Online Access:https://doi.org/10.1016/j.dsr2.2014.11.003
https://hal.archives-ouvertes.fr/hal-01717772/file/Rigaud%20et%20al.,%20USGTpaper.pdf
https://hal.archives-ouvertes.fr/hal-01717772
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Summary:International audience Vertical profiles of 210Po and 210Pb in the water column were measured in the dissolved phase (51 µm) particles at seven stations along the US GEOTRACES North Atlantic Zonal Transect (GA03). Mass balance calculations were employed to assess nuclide exchange rates at the dissolved-small particle interface and between small and large particles, and to quantify export with settling large particles. In the surface ocean, 210Po scavenging is linearly correlated with the concentration of particulate organic carbon (POC) in large particles, supporting the role of biogenic particle in 210Po bioaccumulation and export. In stations near the coast, this link is more complex due to the variable source of biogenic material and temporal changes in the surface biogeochemical and physical conditions. At depth, 210Po exhibits significant widespread deficit with respect to 210Pb that could in part be attributed to in situ 210Po scavenging and may be related to surface biological productivity. As previously reported the 210Pb scavenging rates in the surface ocean were higher at ocean margins. At depth, 210Pb scavenging increases with depth and eastward due to the increase of adsorption sites available in the benthic layers and to a regional contribution of benthic 210Pb scavenging and/or particle flux, respectively. The benthic nepheloid layer (BNL) and the Hydrothermal TAG plume distinctly enhance 210Pb scavenging due to increased surface adsorption in association with resuspended or freshly formed particles. In contrast, 210Po is not seen to be significantly scavenged in these environments due to its relatively short half-life and the long residence time of particles.