Paired dissolved and particulate phase Cu isotope distributions in the South Atlantic

Copper (Cu) is both an essential micronutrient and toxic to photosynthesizing microorganisms at low concentrations. Its dissolved vertical distribution in the oceans is unusual, being neither a nutrient-type nor scavenged-type element. This distribution is attributed to biological uptake in the surf...

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Bibliographic Details
Published in:Chemical Geology
Main Authors: Little, SH, Archer, C, Milne, A, Schlosser, C, Achterberg, E, Lohan, M, Vance, D
Other Authors: Leverhulme Trust, Natural Environment Research Council (NERC)
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier 2018
Subjects:
Science & Technology
Physical Sciences
Geochemistry & Geophysics
Copper isotopes
GEOTRACES
Particulate
Dissolved
South Atlantic
PLASMA-MASS SPECTROMETRY
ARCTIC PACIFIC-OCEAN
ACID CHELATING RESIN
MARINE-SEDIMENTS
NORTH-ATLANTIC
TRACE-ELEMENTS
ORGANIC-LIGANDS
ZINC ISOTOPES
TASMAN SEA
DEEP-OCEAN
0402 Geochemistry
0403 Geology
0406 Physical Geography And Environmental Geoscience
Arctic
Pacific
North Atlantic
Online Access:http://hdl.handle.net/10044/1/62832
https://doi.org/10.1016/j.chemgeo.2018.07.022
Description
Summary:Copper (Cu) is both an essential micronutrient and toxic to photosynthesizing microorganisms at low concentrations. Its dissolved vertical distribution in the oceans is unusual, being neither a nutrient-type nor scavenged-type element. This distribution is attributed to biological uptake in the surface ocean with remineralisation at depth, combined with strong organic complexation by dissolved ligands, scavenging onto particles, and benthic sedimentary input. We present coupled dissolved and particulate phase Cu isotope data along the UK-GEOTRACES South Atlantic section, alongside higher resolution dissolved and particulate phase Cu concentration measurements. Our dissolved phase isotope data contribute to an emerging picture of homogeneous deep ocean δ65Cu, at about +0.65‰ (relative to NIST SRM 976). We identify two pools of Cu in the particulate phase: a refractory, lithogenic pool, at about 0‰, and a labile pool accessed via a weak acidic leach, at about +0.4‰. These two pools are comparable to those previously observed in sediments. We observe deviations towards lighter δ65Cu values in the dissolved phase associated with local enrichments in particulate Cu concentrations along the continental slopes, and in the surface ocean. Copper isotopes are thus a sensitive indicator of localised particle-associated benthic or estuarine Cu inputs. The measurement of Cu isotopes in seawater is analytically challenging, and we call for an intercalibration exercise to better evaluate the potential impacts of UV-irradiation, storage time, and different analytical procedures.

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