Central Arctic Lithostratigraphy: Implication for Sediment Transport and Paleoceanography
Multiple cores from the Arctic were analyzed by XRF methods to determine the western Arctic lithostratigraphy as expressed in its geochemistry. In general, glacial and interglacial events have distinctly different chemistry. During glacial events, the sediments have elevated Ti, Fe, Rb, and Zr conce...
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ftwrightuniv:oai:corescholar.libraries.wright.edu:etd_all-1770 2023-05-15T14:44:27+02:00 Central Arctic Lithostratigraphy: Implication for Sediment Transport and Paleoceanography Council, Edward Augustus, III 2012-01-01T08:00:00Z application/pdf https://corescholar.libraries.wright.edu/etd_all/631 https://corescholar.libraries.wright.edu/cgi/viewcontent.cgi?article=1770&context=etd_all unknown CORE Scholar https://corescholar.libraries.wright.edu/etd_all/631 https://corescholar.libraries.wright.edu/cgi/viewcontent.cgi?article=1770&context=etd_all Browse all Theses and Dissertations Department of Earth and Environmental Sciences Arctic Sediment Lithostratigraphy XRF Provenance Environmental Sciences Physical Sciences and Mathematics text 2012 ftwrightuniv 2021-11-21T10:16:22Z Multiple cores from the Arctic were analyzed by XRF methods to determine the western Arctic lithostratigraphy as expressed in its geochemistry. In general, glacial and interglacial events have distinctly different chemistry. During glacial events, the sediments have elevated Ti, Fe, Rb, and Zr concentrations and depressed Sr and Mn concentrations. The opposite is true of the brown layers, where Ti, Fe, Rb and Zr are lower with higher levels of Mn and Sr. These data indicate that there are 18 chemically unique lithologic units (LUs) that exist among MIS-1 to MIS-16 age sediments. Isopach maps indicate two general depositional patterns appear to have existed during the late Quaternary. The first pattern is defined as a glacial depositional pattern based on sediment thicknesses present in Clark et al. (1980) SLUs F, H, J, and L. This pattern has the thickest deposits located on parts of the Northwind-Alpha Ridges as well as within the Makarov Basin. The second pattern is associated with interglacial deposits and is based on sediment thicknesses present in SLUs G, I, and K. The interglacial pattern is characterized by much thinner deposits especially for the central Arctic region. Based on the isopach sediment patterns, the potential source areas of the sediments deposited during the glacial and interglacial periods are slightly different. During glacial stages, a strong Canadian source area is suggested. During interglacial stages a Canadian source area exists for deposits in the Canadian Basin, and a potential mixture of Canadian and Russian source areas for sediments located along the Trans-Polar Drift between the Mendeleev-Lomonosov Ridges. Stratigraphic correlations indicate that the western Arctic, central Lomonosov Ridge, and eastern Arctic are geochemically different suggesting different sources for each area. Analysis of the coarse ice-rafted fraction (>250 μm) from strata associated with MIS-16 (LU-17) indicates a Canadian source for the carbonate grains in this unit. However, statistical analysis of these grains in four cores supports the existence of a modified Beaufort Gyre circulation system existed during this period, similar to that identified by Bischof and Darby (1997). Text Arctic Lomonosov Ridge makarov basin Wright State University: CORE Scholar (Campus Online Repository) Arctic Darby ENVELOPE(162.217,162.217,-77.667,-77.667) Makarov Basin ENVELOPE(170.000,170.000,87.000,87.000) |
| institution |
Open Polar |
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Wright State University: CORE Scholar (Campus Online Repository) |
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ftwrightuniv |
| language |
unknown |
| topic |
Department of Earth and Environmental Sciences Arctic Sediment Lithostratigraphy XRF Provenance Environmental Sciences Physical Sciences and Mathematics |
| spellingShingle |
Department of Earth and Environmental Sciences Arctic Sediment Lithostratigraphy XRF Provenance Environmental Sciences Physical Sciences and Mathematics Council, Edward Augustus, III Central Arctic Lithostratigraphy: Implication for Sediment Transport and Paleoceanography |
| topic_facet |
Department of Earth and Environmental Sciences Arctic Sediment Lithostratigraphy XRF Provenance Environmental Sciences Physical Sciences and Mathematics |
| description |
Multiple cores from the Arctic were analyzed by XRF methods to determine the western Arctic lithostratigraphy as expressed in its geochemistry. In general, glacial and interglacial events have distinctly different chemistry. During glacial events, the sediments have elevated Ti, Fe, Rb, and Zr concentrations and depressed Sr and Mn concentrations. The opposite is true of the brown layers, where Ti, Fe, Rb and Zr are lower with higher levels of Mn and Sr. These data indicate that there are 18 chemically unique lithologic units (LUs) that exist among MIS-1 to MIS-16 age sediments. Isopach maps indicate two general depositional patterns appear to have existed during the late Quaternary. The first pattern is defined as a glacial depositional pattern based on sediment thicknesses present in Clark et al. (1980) SLUs F, H, J, and L. This pattern has the thickest deposits located on parts of the Northwind-Alpha Ridges as well as within the Makarov Basin. The second pattern is associated with interglacial deposits and is based on sediment thicknesses present in SLUs G, I, and K. The interglacial pattern is characterized by much thinner deposits especially for the central Arctic region. Based on the isopach sediment patterns, the potential source areas of the sediments deposited during the glacial and interglacial periods are slightly different. During glacial stages, a strong Canadian source area is suggested. During interglacial stages a Canadian source area exists for deposits in the Canadian Basin, and a potential mixture of Canadian and Russian source areas for sediments located along the Trans-Polar Drift between the Mendeleev-Lomonosov Ridges. Stratigraphic correlations indicate that the western Arctic, central Lomonosov Ridge, and eastern Arctic are geochemically different suggesting different sources for each area. Analysis of the coarse ice-rafted fraction (>250 μm) from strata associated with MIS-16 (LU-17) indicates a Canadian source for the carbonate grains in this unit. However, statistical analysis of these grains in four cores supports the existence of a modified Beaufort Gyre circulation system existed during this period, similar to that identified by Bischof and Darby (1997). |
| format |
Text |
| author |
Council, Edward Augustus, III |
| author_facet |
Council, Edward Augustus, III |
| author_sort |
Council, Edward Augustus, III |
| title |
Central Arctic Lithostratigraphy: Implication for Sediment Transport and Paleoceanography |
| title_short |
Central Arctic Lithostratigraphy: Implication for Sediment Transport and Paleoceanography |
| title_full |
Central Arctic Lithostratigraphy: Implication for Sediment Transport and Paleoceanography |
| title_fullStr |
Central Arctic Lithostratigraphy: Implication for Sediment Transport and Paleoceanography |
| title_full_unstemmed |
Central Arctic Lithostratigraphy: Implication for Sediment Transport and Paleoceanography |
| title_sort |
central arctic lithostratigraphy: implication for sediment transport and paleoceanography |
| publisher |
CORE Scholar |
| publishDate |
2012 |
| url |
https://corescholar.libraries.wright.edu/etd_all/631 https://corescholar.libraries.wright.edu/cgi/viewcontent.cgi?article=1770&context=etd_all |
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ENVELOPE(162.217,162.217,-77.667,-77.667) ENVELOPE(170.000,170.000,87.000,87.000) |
| geographic |
Arctic Darby Makarov Basin |
| geographic_facet |
Arctic Darby Makarov Basin |
| genre |
Arctic Lomonosov Ridge makarov basin |
| genre_facet |
Arctic Lomonosov Ridge makarov basin |
| op_source |
Browse all Theses and Dissertations |
| op_relation |
https://corescholar.libraries.wright.edu/etd_all/631 https://corescholar.libraries.wright.edu/cgi/viewcontent.cgi?article=1770&context=etd_all |
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1766315946615504896 |