Controls on trace metal authigenic enrichment in reducing sediments: Insights from modern oxygen-deficient settings

Little, Susan H.; Vance, Derek; Lyons, Timothy W.; McManus, James

doi:10.2475/02.2015.01

Cited by 189 publications

(140 citation statements)

References 176 publications

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“…We distinguish between sulfidic sediments and a sulfidic water column and define reducing environments as those in which sulfide accumulation is restricted to pore fluids. These conditions often occur beneath low-oxygen bottom-waters similar to modern oxygen minimum zone environments (Little et al, 2015). In the modern oxic ocean, V is characterized by a shorter residence time [∼50 to 100 kyr, Algeo, 2004;Morford and Emerson, 1999] and a smaller dissolved marine reservoir [35 to 45 nM, Morford and Emerson, 1999, and references therein], regulated primarily through its removal as vanadate oxyanions (HVO 2− 4 and HVO − 4 ) associated with Mn-and Fe-oxides and by efficient burial in low oxygen settings (as reviewed by Tribovillard et al, 2006).…”

Section: Trace Metal Geochemistrymentioning

confidence: 99%

Empirical links between trace metal cycling and marine microbial ecology during a large perturbation to Earth's carbon cycle

Owens

Reinhard

Rohrssen

et al. 2016

Earth and Planetary Science Letters

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Available online xxxx Editor: D. Vance Keywords: oceanic anoxic event (OAE2) trace metal drawdown geochemistry anoxia euxinia biomarkersUnderstanding the global redox state of the oceans and its cause-and-effect relationship with periods of widespread organic-carbon deposition is vital to interpretations of Earth's climatic and biotic feedbacks during periods of expanded oceanic oxygen deficiency. Here, we present a compilation of new and published data from an organic-rich locality within the proto-North Atlantic Ocean during the Cenomanian-Turonian boundary event that shows a dramatic drawdown of redox-sensitive trace elements. Iron geochemistry independently suggests euxinic deposition (i.e., anoxic and sulfidic bottom waters) for the entire section, thus confirming its potential as an archive of global marine metal inventories. In particular, depleted molybdenum (Mo) and vanadium (V) concentrations effectively record the global expansion of euxinic and oxygen-deficient but non-sulfidic waters, respectively. The V drawdown precedes the OAE, fingerprinting an expansion of oxygen deficiency prior to an expansion of euxinia. Molybdenum drawdown, in contrast, is delayed with respect to V and coincides with the onset of OAE2. Parallel lipid biomarker analyses provide evidence for significant and progressive reorganization of marine microbial ecology during the OAE in this region of the proto-North Atlantic, with the smallest relative eukaryotic contributions to total primary production occurring during metal-depleted intervals. This relationship may be related to decreasing supplies of enzymatically important trace elements. Similarly, box modeling suggests that oceanic drawdown of Mo may have approached levels capable of affecting marine nitrogen fixation. Predictions of possible nitrogen stress on eukaryotic production, locally and globally, are consistent with the low observed levels of Mo and a rise in 2-methylhopane index values during the peak of the OAE. At the same time, the environmental challenge presented by low dissolved oxygen and euxinia coincides with increased turnover rates of radiolarian clades, calcareous nanofossils, and foraminifera, suggesting that the temporal patterns of anoxia/euxinia and associated nutrient limitation may have contributed to the fabric of OAE2-related turnover.

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Section: Trace Metal Geochemistrymentioning

confidence: 99%

Empirical links between trace metal cycling and marine microbial ecology during a large perturbation to Earth's carbon cycle

Owens

Reinhard

Rohrssen

et al. 2016

Earth and Planetary Science Letters

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“…The three sinks quoted above are also the most important sinks of molybdenum from the ocean (Anbar 2004). An updated mass balance by Little et al (2015) suggests that of the total molybdenum output (1.34-1.9 • 10 8 mol/yr), 6-8% (mean 7%) are removed in restricted euxinic basins, 13-77% (mean 45%) are removed in anoxic or suboxic parts of continental margins, and 18-77% (mean 48%) are removed in oxic settings, i.e. by adsorption to manganese oxides.…”

Section: (Type Iii) Adsorption Of Se(iv) Onto Ferromanganese Oxidesmentioning

confidence: 99%

Selenium Isotopes as a Biogeochemical Proxy in Deep Time

Stüeken

2017

Reviews in Mineralogy and Geochemistry

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“…Briefly, dissolved chemical species present in seawater can easily bind onto the Fe and Mn oxy-hydroxides forming particles in the oxidizing part of the water column, thus becoming incorporated in a reversible way. During settling, Fe and Mn oxy-hydroxides can scavenge significant amounts of Mo (Crusius et al, 1996;Little et al, 2015). The oxy-hydroxides can in turn bind settling particles or flocs of OM, or be adsorbed onto clay minerals.…”

Section: Trace Elementsmentioning

confidence: 99%

“…The restriction of deepwater circulation can influence authigenic U-Mo enrichment of marine sediments. All other variables being equal, restricted circulation lowers the degree of trace element enrichment in sediments owing to a decreased input of aqueous trace metal species supplied to the basinal water mass from the global ocean Little et al, 2015). However, water-mass restriction is often correlated with other environmental variables such as reduced redox conditions (especially within the suboxic-anoxic redox range), which may enhance trace metal uptake and offset the effects of increased restriction .…”

Section: Paleoenvironmentsmentioning

confidence: 99%

Paleoenvironmental evolution of the southern Neuquèn basin (Argentina) during the Tithonian-Berriasian (Vaca Muerta and Picún Leufú Formations): a multi-proxy approach

Krim

Bonnel

Tribovillard

et al. 2017

Bull. Soc. géol. Fr.

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-The Tithonian-Berriasian interval in the southern part of the Neuquén Basin is represented by the Vaca Muerta and the Pic un Leuf u Formations. Facies analysis and correlation of the Vaca Muerta Formation and the lower part of the Pic un Leuf u Formation in the Pic un Leuf u Anticline allow us to characterize the evolution of successive facies belts representing siliciclastic shelf and mixed ramp environments. Shoreface and offshore facies are developed on the siliciclastic shelf in the western and southern parts of the Pic un Leuf u Anticline. The offshore transition domain is characterized by storm beds and slump features, whereas the offshore domain corresponds to black to grey shales and turbidites. The mixed siliciclastic-carbonate ramp is characterized by the development of a lagoon and high-energy shoal in the proximal part of the inner ramp, whereas the distal part comprises a tidal complex. The mid-ramp zone is characterized by storm influence and the outer ramp by fine-grained deposits. Two major transgressiveregressive sequences and five high-frequency transgressive-regressive sequences are recognized. The highfrequency transgressive-regressive sequences make up three progradational sequences, an aggradationalprogradational sequence and an aggradational sequence. The geochemical characteristics and clay mineralogy of the Tithonian-Berriasian interval in the southern Neuquén Basin indicate that (1) climate played a key role in the evolution of the sedimentary environment, (2) a "normal marine" depositional environment with oxic sea water and sediment pore waters, rapidly changing to suboxic conditions at shallow depth below the seabed and (3) the occurrence of episodically restricted water-mass circulation at the onset of deposition of the Vaca Muerta Formation.Keywords: Vaca Muerta Formation / source rocks / siliciclastic shelf / mixed siliciclastic-carbonate ramp / sequence stratigraphy / oxygenation status Résumé -Évolution paléoenvironnementale de la partie sud du bassin de Neuquèn (Argentine) pendant l'intervalle tithonien-berriasien (formations Vaca Muerta et Pic un Leuf u) : approche multiproxy. L'intervalle tithonien-berriasien de la partie méridionale du bassin Neuquén est représenté par les formations de la Vaca Muerta et de Pic un Leuf u. L'analyse de faciès et la corrélation de logs sédimentaires de la formation de la Vaca Muerta et de la partie inférieure de la formation de Pic un Leuf u dans l'anticlinal Pic un Leuf u a permis de mettre en évidence un environnement de rampe silicoclastique évoluant vers un environnement de rampe mixte. En environnement de rampe silicoclastique, les faciès de shoreface et d'offshore se localisent dans les parties ouest et sud de l'anticlinal Pic un Leuf u. La zone de transition est caractérisée par des niveaux de tempête et des niveaux déstructurés et slumpés, alors que le domaine d'offshore correspond à des marnes noires à grises ainsi qu'à des niveaux de turbidites. La rampe mixte silicoclastique-carbonatée se caractérise dans sa partie proxima...

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Controls on trace metal authigenic enrichment in reducing sediments: Insights from modern oxygen-deficient settings

Cited by 189 publications

References 176 publications

Empirical links between trace metal cycling and marine microbial ecology during a large perturbation to Earth's carbon cycle

Empirical links between trace metal cycling and marine microbial ecology during a large perturbation to Earth's carbon cycle

Selenium Isotopes as a Biogeochemical Proxy in Deep Time

Paleoenvironmental evolution of the southern Neuquèn basin (Argentina) during the Tithonian-Berriasian (Vaca Muerta and Picún Leufú Formations): a multi-proxy approach

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