Relationships between the color and chemical composition of quaternary bottom sediments from the southern part of the Mendeleev Rise and the continental slope of the East Siberian Sea

被引：0

作者：

M. A. Levitan

K. V. Syromyatnikov

I. A. Roshchina

R. Stein

机构：

[1] Russian Academy of Sciences,Vernadsky Institute of Geochemistry and Analytical Chemistry

[2] Alfred Wegener Institute for Polar and Marine Research,undefined

来源：

Geochemistry International | 2014年 / 52卷

关键词：

chemical composition; color; bottom sediments; Arctic Ocean; glaciations; interglacial periods; diagenesis; sedimentation; X-ray fluorescence analysis; analysis of variance;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

This paper addresses the problem of relationships between the chemical composition and color of Quaternary marine sediments using the data of X-ray fluorescence analysis for the region of the Mendeleev Rise (Arctic Ocean). The contributions of sedimentation and diagenetic factors to color formation were estimated. It was shown that lithostratigraphic correlations should be performed (with certain limitations) using only sediment layers of dark brown and pink color.

引用

页码：215 / 228

页数：13

共 11 条

[1] Relationships between the color and chemical composition of quaternary bottom sediments from the southern part of the Mendeleev Rise and the continental slope of the East Siberian Sea
Levitan, M. A.
Syromyatnikov, K. V.
Roshchina, I. A.
Stein, R.
[J]. GEOCHEMISTRY INTERNATIONAL, 2014, 52 (03) : 215 - 228
[2] Lithological Composition and Hydrocarbon Anomalies of Bottom Sediments in the Western Part of the East Siberian Sea
Gresov, A. I.
Yatsuk, A. V.
Aksentov, K. I.
[J]. LITHOLOGY AND MINERAL RESOURCES, 2023, 58 (01) : 16 - 31
[3] Lithological Composition and Hydrocarbon Anomalies of Bottom Sediments in the Western Part of the East Siberian Sea
A. I. Gresov
A. V. Yatsuk
K. I. Aksentov
[J]. Lithology and Mineral Resources, 2023, 58 : 16 - 31
[4] Sources of Bottom Sediments in the Eastern Part of East Siberian Sea (Reconstruction from Geochemical Data)
Maslov, A., V
[J]. OCEANOLOGY, 2021, 61 (04) : 517 - 532
[5] Sources of Bottom Sediments in the Eastern Part of East Siberian Sea (Reconstruction from Geochemical Data)
A. V. Maslov
[J]. Oceanology, 2021, 61 : 517 - 532
[6] Color and chemical composition of bottom sediments from the Kuril Basin (Sea of Okhotsk) and the Kuril-Kamchatka Trench area (Northwest Pacific)
Kolesnik, Alexander N.
Kolesnik, Olga N.
Sattarova, Valentina V.
Karabtsov, Alexander A.
Yaroshchuk, Elena, I
[J]. PROGRESS IN OCEANOGRAPHY, 2019, 178
[7] Input of glaciomarine sediments along the East Antarctic continental margin;: depositional processes on the Cosmonaut Sea continental slope and rise and a regional acoustic stratigraphic correlation from 40° W to 80° E
Kuvaas, B
Kristoffersen, Y
Guseva, J
Leitchenkov, G
Gandjukhin, V
Kudryavtsev, G
[J]. MARINE GEOPHYSICAL RESEARCH, 2004, 25 (3-4) : 247 - 263
[8] Input of Glaciomarine Sediments along the East Antarctic Continental Margin; Depositional Processes on the Cosmonaut Sea Continental Slope and Rise and a Regional Acoustic Stratigraphic Correlation from 40° W to 80° E
B. Kuvaas
Y. Kristoffersen
J. Guseva
G. Leitchenkov
V. Gandjukhin
G. Kudryavtsev
[J]. Marine Geophysical Researches, 2004, 25 : 247 - 263
[9] The metabolic core of the prokaryotic community from deep-sea sediments of the southern Gulf of Mexico shows different functional signatures between the continental slope and abyssal plain
Torres-Beltran, Monica
Vargas-Gastelum, Lluvia
Magdaleno-Moncayo, Dante
Riquelme, Meritxell
Carlos Herguera-Garcia, Juan
Prieto-Davo, Alejandra
Lago-Leston, Asuncion
[J]. PEERJ, 2021, 9
[10] Preliminary findings of the IMAGES-II programme (International MArine Global changE Study) using giant piston cores of Late Quaternary marine sediments from the continental slope and rise off southern Africa
Rogers, J
[J]. SOUTH AFRICAN JOURNAL OF GEOLOGY, 1999, 102 (04): : 384 - 390

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