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Mineral Phase-Element Associations Based on Sequential Leaching of Ferromanganese Crusts, Amerasia Basin Arctic Ocean. / Konstantinova, Natalia; Hein, James R.; Gartman, Amy; Mizell, Kira; Barrulas, Pedro; Cherkashev, Georgy; Mikhailik, Pavel; Khanchuk, Alexander.

In: Minerals, Vol. 8, No. 10, 460, 10.2018.

Research output: Contribution to journalArticlepeer-review

Harvard

Konstantinova, N, Hein, JR, Gartman, A, Mizell, K, Barrulas, P, Cherkashev, G, Mikhailik, P & Khanchuk, A 2018, 'Mineral Phase-Element Associations Based on Sequential Leaching of Ferromanganese Crusts, Amerasia Basin Arctic Ocean', Minerals, vol. 8, no. 10, 460. https://doi.org/10.3390/min8100460

APA

Konstantinova, N., Hein, J. R., Gartman, A., Mizell, K., Barrulas, P., Cherkashev, G., Mikhailik, P., & Khanchuk, A. (2018). Mineral Phase-Element Associations Based on Sequential Leaching of Ferromanganese Crusts, Amerasia Basin Arctic Ocean. Minerals, 8(10), [460]. https://doi.org/10.3390/min8100460

Vancouver

Konstantinova N, Hein JR, Gartman A, Mizell K, Barrulas P, Cherkashev G et al. Mineral Phase-Element Associations Based on Sequential Leaching of Ferromanganese Crusts, Amerasia Basin Arctic Ocean. Minerals. 2018 Oct;8(10). 460. https://doi.org/10.3390/min8100460

Author

Konstantinova, Natalia ; Hein, James R. ; Gartman, Amy ; Mizell, Kira ; Barrulas, Pedro ; Cherkashev, Georgy ; Mikhailik, Pavel ; Khanchuk, Alexander. / Mineral Phase-Element Associations Based on Sequential Leaching of Ferromanganese Crusts, Amerasia Basin Arctic Ocean. In: Minerals. 2018 ; Vol. 8, No. 10.

BibTeX

@article{bdc6fb9c5474468caf9978056205bd90,
title = "Mineral Phase-Element Associations Based on Sequential Leaching of Ferromanganese Crusts, Amerasia Basin Arctic Ocean",
abstract = "Ferromanganese (FeMn) crusts from Mendeleev Ridge, Chukchi Borderland, and Alpha Ridge, in the Amerasia Basin, Arctic Ocean, are similar based on morphology and chemical composition. The crusts are characterized by a two- to four-layered stratigraphy. The chemical composition of the Arctic crusts differs significantly from hydrogenetic crusts from elsewhere of global ocean by high mean Fe/Mn ratios, high As, Li, V, Sc, and Th concentrations, and high detrital contents. Here, we present element distributions through crust stratigraphic sections and element phase association using several complementary techniques such as SEM-EDS, LA-ICP-MS, and sequential leaching, a widely employed method of element phase association that dissolves mineral phases of different stability step-by-step: Exchangeable cations and Ca carbonates, Mn-oxides, Fe-hydroxides, and residual fraction. Sequential leaching shows that the Arctic crusts have higher contents of most elements characteristic of the aluminosilicate phase than do Pacific crusts. Elements have similar distributions between the hydrogenetic Mn and Fe phases in all the Arctic and Pacific crusts. The main host phases for the elements enriched in the Arctic crusts over Pacific crusts (Li, As, Th, and V) are the Mn-phase for Li and Fe-phase for As, Th, and V; those elements also have higher contents in the residual aluminosilicate phase. Thus, higher concentrations of Li, As, Th, and V likely occur in the dissolved and particulate phases in bottom waters where the Arctic crusts grow, which has been shown to be true for Sc, also highly enriched in the crusts. The phase distributions of elements within the crust layers is mostly consistent among the Arctic crusts, being somewhat different in element concentrations in the residual phase.",
keywords = "Amerasia Basin, Arctic Ocean, Ferromanganese crusts, Phase associations, Sequential leaching",
author = "Natalia Konstantinova and Hein, {James R.} and Amy Gartman and Kira Mizell and Pedro Barrulas and Georgy Cherkashev and Pavel Mikhailik and Alexander Khanchuk",
year = "2018",
month = oct,
doi = "10.3390/min8100460",
language = "Английский",
volume = "8",
journal = "Minerals",
issn = "2075-163X",
publisher = "MDPI AG",
number = "10",

}

RIS

TY - JOUR

T1 - Mineral Phase-Element Associations Based on Sequential Leaching of Ferromanganese Crusts, Amerasia Basin Arctic Ocean

AU - Konstantinova, Natalia

AU - Hein, James R.

AU - Gartman, Amy

AU - Mizell, Kira

AU - Barrulas, Pedro

AU - Cherkashev, Georgy

AU - Mikhailik, Pavel

AU - Khanchuk, Alexander

PY - 2018/10

Y1 - 2018/10

N2 - Ferromanganese (FeMn) crusts from Mendeleev Ridge, Chukchi Borderland, and Alpha Ridge, in the Amerasia Basin, Arctic Ocean, are similar based on morphology and chemical composition. The crusts are characterized by a two- to four-layered stratigraphy. The chemical composition of the Arctic crusts differs significantly from hydrogenetic crusts from elsewhere of global ocean by high mean Fe/Mn ratios, high As, Li, V, Sc, and Th concentrations, and high detrital contents. Here, we present element distributions through crust stratigraphic sections and element phase association using several complementary techniques such as SEM-EDS, LA-ICP-MS, and sequential leaching, a widely employed method of element phase association that dissolves mineral phases of different stability step-by-step: Exchangeable cations and Ca carbonates, Mn-oxides, Fe-hydroxides, and residual fraction. Sequential leaching shows that the Arctic crusts have higher contents of most elements characteristic of the aluminosilicate phase than do Pacific crusts. Elements have similar distributions between the hydrogenetic Mn and Fe phases in all the Arctic and Pacific crusts. The main host phases for the elements enriched in the Arctic crusts over Pacific crusts (Li, As, Th, and V) are the Mn-phase for Li and Fe-phase for As, Th, and V; those elements also have higher contents in the residual aluminosilicate phase. Thus, higher concentrations of Li, As, Th, and V likely occur in the dissolved and particulate phases in bottom waters where the Arctic crusts grow, which has been shown to be true for Sc, also highly enriched in the crusts. The phase distributions of elements within the crust layers is mostly consistent among the Arctic crusts, being somewhat different in element concentrations in the residual phase.

AB - Ferromanganese (FeMn) crusts from Mendeleev Ridge, Chukchi Borderland, and Alpha Ridge, in the Amerasia Basin, Arctic Ocean, are similar based on morphology and chemical composition. The crusts are characterized by a two- to four-layered stratigraphy. The chemical composition of the Arctic crusts differs significantly from hydrogenetic crusts from elsewhere of global ocean by high mean Fe/Mn ratios, high As, Li, V, Sc, and Th concentrations, and high detrital contents. Here, we present element distributions through crust stratigraphic sections and element phase association using several complementary techniques such as SEM-EDS, LA-ICP-MS, and sequential leaching, a widely employed method of element phase association that dissolves mineral phases of different stability step-by-step: Exchangeable cations and Ca carbonates, Mn-oxides, Fe-hydroxides, and residual fraction. Sequential leaching shows that the Arctic crusts have higher contents of most elements characteristic of the aluminosilicate phase than do Pacific crusts. Elements have similar distributions between the hydrogenetic Mn and Fe phases in all the Arctic and Pacific crusts. The main host phases for the elements enriched in the Arctic crusts over Pacific crusts (Li, As, Th, and V) are the Mn-phase for Li and Fe-phase for As, Th, and V; those elements also have higher contents in the residual aluminosilicate phase. Thus, higher concentrations of Li, As, Th, and V likely occur in the dissolved and particulate phases in bottom waters where the Arctic crusts grow, which has been shown to be true for Sc, also highly enriched in the crusts. The phase distributions of elements within the crust layers is mostly consistent among the Arctic crusts, being somewhat different in element concentrations in the residual phase.

KW - Amerasia Basin

KW - Arctic Ocean

KW - Ferromanganese crusts

KW - Phase associations

KW - Sequential leaching

UR - http://www.scopus.com/inward/record.url?scp=85056308915&partnerID=8YFLogxK

U2 - 10.3390/min8100460

DO - 10.3390/min8100460

M3 - статья

AN - SCOPUS:85056308915

VL - 8

JO - Minerals

JF - Minerals

SN - 2075-163X

IS - 10

M1 - 460

ER -

ID: 35817290