机构地区:[1]PhD Program in Applied Sciences Mention Marine Coastal Systems,Faculty of Marine Sciences and Biological Resources,University of Antofagasta,Casilla 170,Antofagasta,Chile [2]Laboratory of Sedimentology and Palaeoenvironments,Alexander von Humboldt Institute,Faculty of Marine Sciences and Biological Resources,University of Antofagasta,Antofagasta,Chile [3]International Joint Laboratory PALEOTRACES (Research Institute for Development,Federal Fluminense University,University of Antofagasta,Peruvian University Cayetano Heredia),Chile [4]Network for Extreme Environments Research (University of Antofagasta,University of the Frontera,University of Magallanes),Antofagasta,Chile [5]Department of Geochemistry,Federal Fluminense University,Niteroi,RJ,Brazil [6]IRD-Sorbonne University (UPMC,CNRS-MNHN),LOCEAN,IRD France-Nord,Bondy,France [7]Department of Sciences and Natural Resources,Faculty of Sciences,University of Magallanes,Punta Arenas,Chile
出 处:《International Journal of Sediment Research》2019年第2期178-190,共13页国际泥沙研究(英文版)
基 金:the French Embassy in Chile for the award of a scholarship for a doctoral stay in Paris during 2013
摘 要:Upwelling coastal systems can be used to understand how dissolved oxygen and biological productivity control the accumulation of redox-sensitive metals in marine sediments. The aluminium (Al), cadmium (Cd), iron (Fe), nickel (Ni), molybdenum (Mo), vanadium (V), total organic carbon (TOC), total nitrogen (TN) and total sulfur (TS) contents in surficial sediment collected from different water depths (30, 70, and 120m) in three northern Chilean bays influenced by coastal upwelling and oxygen minimum zones (OMZs) were measured. Principal component analysis (PCA), cluster analysis, and Spearman's rank correlation were used to identify the mechanisms responsible for the redox-sensitive metal accumulation. The content of redox-sensitive metals and organic components in sediment increased with increasing water column depth, whereas lithogenic metals decreased. In the Mejillones del Sur and Caldera bays, the enrichment factors of the redox-sensitive metals showed enrichment for all metals with depth. The Cd and V enrichments are mainly the product of biogenic flow to the seabed, and the Mo and Ni enrichments are due to preservation under low subsurface oxygen conditions. Sulfate reduction is not an important mechanism in the accumulation of redox-sensitive metals in the sediment of the three bays. The PCA showed that the behaviors of the redox-sensitive metals and organic components reflect differences in the effects of the OMZ in sediment along the coast of northern Chile, with a more intense OMZ in Mejillones del Sur bay and weaker OMZs in Caldera and Inglesa bays. However, the high degree of enrichment in redox-sensitive metals in Caldera Bay can be attributed to the intense activity of the mining industry near the bay, a situation that produces geochemical behavior similar to that observed in Mejillones del Sur Bay.Upwelling coastal systems can be used to understand how dissolved oxygen and biological productivity control the accumulation of redox-sensitive metals in marine sediments.The aluminium(Al),cadmium(Cd),iron(Fe),nickel(Ni),molybdenum(Mo),vanadium(V),total organic carbon(TOC),total nitrogen(TN)and total sulfur(TS)contents in surficial sediment collected from different water depths(30,70,and 120 m)in three northern Chilean bays influenced by coastal upwelling and oxygen minimum zones(OMZs)were measured.Principal component analysis(PCA),cluster analysis,and Spearman’s rank correlation were used to identify the mechanisms responsible for the redox-sensitive metal accumulation.The content of redox-sensitive metals and organic components in sediment increased with increasing water column depth,whereas lithogenic metals decreased.In the Mejillones del Sur and Caldera bays,the enrichment factors of the redox-sensitive metals showed enrichment for all metals with depth.The Cd and V enrichments are mainly the product of biogenic flow to the seabed,and the Mo and Ni enrichments are due to preservation under low subsurface oxygen conditions.Sulfate reduction is not an important mechanism in the accumulation of redox-sensitive metals in the sediment of the three bays.The PCA showed that the behaviors of the redox-sensitive metals and organic components reflect differences in the effects of the OMZ in sediment along the coast of northern Chile,with a more intense OMZ in Mejillones del Sur bay and weaker OMZs in Caldera and Inglesa bays.However,the high degree of enrichment in redox-sensitive metals in Caldera Bay can be attributed to the intense activity of the mining industry near the bay,a situation that produces geochemical behavior similar to that observed in Mejillones del Sur Bay.
关 键 词:Redox sensitive-metals ATACAMA Desert Enrichment factor Mejillones del Sur BAY CALDERA BAY system PCA
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