Mineralogical, geochemical and magnetic signatures of surface sediments from the Canadian Beaufort Shelf and Amundsen Gulf (Canadian Arctic)
| Cobertura |
MEDIAN LATITUDE: 70.562106 * MEDIAN LONGITUDE: -130.901482 * SOUTH-BOUND LATITUDE: 69.488000 * WEST-BOUND LONGITUDE: -138.597000 * NORTH-BOUND LATITUDE: 71.907000 * EAST-BOUND LONGITUDE: -122.630000 |
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| Data(s) |
18/10/2016
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| Resumo |
Mineralogical, geochemical, magnetic, and siliciclastic grain-size signatures of 34 surface sediment samples from the Mackenzie-Beaufort Sea Slope and Amundsen Gulf were studied in order to better constrain the redox status, detrital particle provenance, and sediment dynamics in the western Canadian Arctic. Redox-sensitive elements (Mn, Fe, V, Cr, Zn) indicate that modern sedimentary deposition within the Mackenzie-Beaufort Sea Slope and Amundsen Gulf took place under oxic bottom-water conditions, with more turbulent mixing conditions and thus a well-oxygenated water column prevailing within the Amundsen Gulf. The analytical data obtained, combined with multivariate statistical (notably, principal component and fuzzy c-means clustering analyses) and spatial analyses, allowed the division of the study area into four provinces with distinct sedimentary compositions: (1) the Mackenzie Trough-Canadian Beaufort Shelf with high phyllosilicate-Fe oxide-magnetite and Al-K-Ti-Fe-Cr-V-Zn-P contents; (2) Southwestern Banks Island, characterized by high dolomite-K-feldspar and Ca-Mg-LOI contents; (3) the Central Amundsen Gulf, a transitional zone typified by intermediate phyllosilicate-magnetite-K-feldspar-dolomite and Al-K-Ti-Fe-Mn-V-Zn-Sr-Ca-Mg-LOI contents; and (4) mud volcanoes on the Canadian Beaufort Shelf distinguished by poorly sorted coarse-silt with high quartz-plagioclase-authigenic carbonate and Si-Zr contents, as well as high magnetic susceptibility. Our results also confirm that the present-day sedimentary dynamics on the Canadian Beaufort Shelf is mainly controlled by sediment supply from the Mackenzie River. Overall, these insights provide a basis for future studies using mineralogical, geochemical, and magnetic signatures of Canadian Arctic sediments in order to reconstruct past variations in sediment inputs and transport pathways related to late Quaternary climate and oceanographic changes. |
| Formato |
application/zip, 5 datasets |
| Identificador | |
| Idioma(s) |
en |
| Publicador |
PANGAEA |
| Direitos |
CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted |
| Fonte |
Supplement to: Gamboa, Adriana; Montero-Serrano, Jean-Carlos; St-Onge, Guillaume; Rochon, André; Desiage, Pierre-Arnaud: Mineralogical, geochemical and magnetic signatures of surface sediments from the Canadian Beaufort Shelf and Amundsen Gulf (Canadian Arctic). Geochemistry, Geophysics, Geosystems, submitted |
| Palavras-Chave | #<2 µm, >9 phi; µm, Geometric; 16-8 µm; 32-16 µm; 4-2 µm; 8-4 µm; Al; Aluminium; Based on the regional morphology, mud volcanoes distribution (Blasco et al., 2013), and the influence of the Mackenzie River plume (Richerol et al., 2008; Scott et al., 2008), the surface sediment samples were divided into four main geographical areas: Mackenzie Trough-Canadian Beaufort Shelf (MT-CBS), mud volcanoes (MV), central Amundsen Gulf (cAG), and southwestern Banks Island (SWBI).; Based on the regional morphology, mud volcanoes distribution (Blasco et al., 2013), and the influence of the Mackenzie River plume (Richerol et al., 2008; Scott et al., 2008), the surface sediment samples were divided into four main geographical areas: Mackenzie Trough-Canadian Beaufort Shelf (MT-CBS), mud volcanoes (MV), central Amundsen Gulf (cAG), and southwestern Banks Island (SWBI).; bulk coercive force; Ca; Cal; Calcite; Calcium; Chromium; Coercivity; Cr; Depth; DEPTH, sediment/rock; Diff; Difference; Dol; Dolomite; EM; End member; Event; Factor 1; Factor 2; Fe; Fe3O4; Fe oxide; Frequency-dependent susceptibility ratio; Geometric; Goodness of fit; Grain size, mean; gs mean; Hc; Hcr; Hcr/Hc; Hysteresis, coercivity of remanence/coercivity; Hysteresis, remanent coercive force; hysteresis, remanent coercive force / bulk coercive force; Hysteresis, saturation magnetization; Hysteresis, saturation magnetization/ saturation remanence; Hysteresis, saturation remanence; Iron; Iron oxide; K; Kalifeldspar; Kfs; KHF; KLF; KLF/KHF; Log(EM1/EM2+EM3), end-member modelling analysis; Log(EM2/EM3), end-member modelling analysis; Logarithmic; LOI; Loss on ignition; Magnesium; Magnetic susceptibility; Magnetic susceptibility, high-field; Magnetic susceptibility, low-field; Magnetite; MAGS; Manganese; Mean; Mean, grain size; Mg; Mn; Mrs; Mrs/Ms; Ms; P; PC1; PC1-XRD (65.37%); PC1-XRF (61.95%); PC2; PC2-XRD (19.54%); PC2-XRF (27.77%); Phosphorus; Phyllosilicate; Pl; Plagioclase; Potassium; Principal component analyses (PCA); Pyrox; Pyroxene; Quartz; Qz; r**2; R-profile: difference between the observed and calculated XRD patterns; Si; Silicon; Size fraction < 0.002 mm, > 9 phi, clay; Size fraction 0.004-0.002 mm, 8.0-9.0 phi, very fine silt; Size fraction 0.008-0.004 mm, 7.0-8.0 phi, fine silt; Size fraction 0.016-0.008 mm, 6.0-7.0 phi, medium silt; Size fraction 0.032-0.016 mm, 5.0-6.0 phi, coarse silt; Sort; Sorting; Sorting in phi; Sort p; Sr; Station; Strontium; Ti; Titanium; V; Vanadium; wt. %; X-ray diffraction (XRD); X-ray fluorescence (XRF); Zinc; Zirconium; Zn; Zone; Zr |
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