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NUEVA PUBLICACIÓN: IRON AND COPPER COMPLEXATION IN MACARONESIAN COASTAL WATERS

Investigadores del grupo QUIMA (IOCAG, ULPGC) ha publicado recientemente un artículo en la revista Marine Chemistry (Q1, JCR). Este artículo ha sido liderado por la investigadora en formación, Veronica Arnone y se ha titulado "Iron and copper complexation in Macaronesian coastal waters".

Este trabajo se basa en las medidas de la concentración de Fe y Cu, además de los ligandos orgánicos de Fe y Cu en aguas costeras de la región Macaronésica. De esta forma, se demuestra que el estudio de metales en zonas costeras es fundamental para entender y comprender los ciclos biogeoquímicos globales. En estas zonas costerass pueden confluir una diversidad de fenómenos que afectan a la concentración de metales y a su especiación.

Figura 1 extraída de Arnone et al., 2022.



Este trabajo contribuye al Objetivo 1 de ATOPFe.

Aquí se puede leer el abstract original del trabajo:

Abstract

Dissolved iron (dFe) and copper (dCu), the concentration and the conditional stability constants of organic binding ligands (LFe, LCu, log KcondFe3+L and log KcondCu2+L) were studied in the surface coastal waters of the Macaronesia region (Cape Verde, Canary Islands, and Madeira) using competitive ligand exchange-adsorptive cathodic stripping voltammetry (CLE-ACSV). Two oceanic stations were also studied: the Cape Verde Ocean Observatory (CVOO) and the European Station for Time Series in the Ocean in the Canary Islands (ESTOC). Dissolved Fe varied from 0.46 to 1.32 nM and LFe concentrations were between 0.56 and 2.96 nM. More than 98% of the total dFe was complexed with conditional stability constants (log KcondFe3+L) between 20.77 and 21.90 (L2-type ligands). Dissolved Cu concentrations ranged between 0.07 and 4.03 nM and the amount of LCu varied between 0.54 and 2.59 nM, with more than 99% of dCu organically complexed. The conditional stability constant (log KcondCu2+L) showed values between 13.40 and 14.42 (L1-type).

Due to biological activity and water mixing induced by the wind around the islands, dissolved metals and ligand concentrations were greater at the coastal stations than in oceanic water. Variations were observed between the eastern and western parts of Fogo, Tenerife and Gran Canaria. On the east coasts, the increase in dissolved metals and ligand concentrations were related to wind-induced water mixing. The results of this study will contribute to the knowledge about the impact of coastal areas on the Fe and Cu biogeochemical cycles.