Research output: Contribution to journal › Article › peer-review
Mineralogical–Geochemical Features of Ice-Rafted Sediments in Some Arctic Regions. / Maslov, A. V.; Shevchenko, V. P.; Bobrov, V. A.; Belogub, E. V.; Ershova, V. B.; Vereshchagin, O. S.; Khvorov, P. V.
In: Lithology and Mineral Resources, Vol. 53, No. 2, 01.03.2018, p. 110-129.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Mineralogical–Geochemical Features of Ice-Rafted Sediments in Some Arctic Regions
AU - Maslov, A. V.
AU - Shevchenko, V. P.
AU - Bobrov, V. A.
AU - Belogub, E. V.
AU - Ershova, V. B.
AU - Vereshchagin, O. S.
AU - Khvorov, P. V.
PY - 2018/3/1
Y1 - 2018/3/1
N2 - The quantitative mineral composition estimated using the Rietveld method and some geochemical features are considered for bulk samples of the ice-rafted sediments (IRS) from some Arctic regions. Layer silicates in the studied samples vary from degrees 20 to degrees 50%. They are dominated by micas and their decomposition products (illite and likely some part of smectites) at significant contents of kaolinite, chlorite, and transformation/decomposition products of the latter. A significant content of illite and muscovite among layer silicates in most IRS samples suggests that sources of the sedimentary material were mainly mineralogically similar to modern bottom sediments of the East Siberian and Chukchi seas, as well as presumably sediments of the eastern Laptev Sea. It is suggested that a significant kaolinite fraction in IRS samples from the North Pole area can be caused by the influx of ice-rafted fine-grained sedimentary material from the Beaufort or Chukchi seas, where kaolinite is supplied from the Bering Sea. Positions of IRS data points in the (La/Yb)(N)-Eu/Eu*, (La/Yb)(N)-(Eu/Sm)(N), and (La/Yb)(N)-Th diagrams show that the studied samples contain variable proportions of erosion products of both mafic and felsic magmatic rocks and/or sufficiently mature sedimentary rocks. This conclusion is confirmed by localization of IRS data points in the Th/Co-La, Si/Al-Ce, and Si/Al-Sr diagrams.
AB - The quantitative mineral composition estimated using the Rietveld method and some geochemical features are considered for bulk samples of the ice-rafted sediments (IRS) from some Arctic regions. Layer silicates in the studied samples vary from degrees 20 to degrees 50%. They are dominated by micas and their decomposition products (illite and likely some part of smectites) at significant contents of kaolinite, chlorite, and transformation/decomposition products of the latter. A significant content of illite and muscovite among layer silicates in most IRS samples suggests that sources of the sedimentary material were mainly mineralogically similar to modern bottom sediments of the East Siberian and Chukchi seas, as well as presumably sediments of the eastern Laptev Sea. It is suggested that a significant kaolinite fraction in IRS samples from the North Pole area can be caused by the influx of ice-rafted fine-grained sedimentary material from the Beaufort or Chukchi seas, where kaolinite is supplied from the Bering Sea. Positions of IRS data points in the (La/Yb)(N)-Eu/Eu*, (La/Yb)(N)-(Eu/Sm)(N), and (La/Yb)(N)-Th diagrams show that the studied samples contain variable proportions of erosion products of both mafic and felsic magmatic rocks and/or sufficiently mature sedimentary rocks. This conclusion is confirmed by localization of IRS data points in the Th/Co-La, Si/Al-Ce, and Si/Al-Sr diagrams.
UR - http://link.springer.com/10.1134/S0024490218020037
UR - http://www.mendeley.com/research/mineralogicalgeochemical-features-icerafted-sediments-some-arctic-regions
U2 - 10.1134/S0024490218020037
DO - 10.1134/S0024490218020037
M3 - Article
AN - SCOPUS:85043974758
VL - 53
SP - 110
EP - 129
JO - Lithology and Mineral Resources
JF - Lithology and Mineral Resources
SN - 0024-4902
IS - 2
ER -
ID: 36107288