TY - SER ID - deschamps2018mgsp T1 - Mineralogical, geochemical, sediment provenance and grain-size end members from sediment core AMD0214-02PC and HLY0501-01JPC from the western Arctic Ocean AU - Deschamps, Charles-Edouard AU - Montero-Serrano, Jean-Carlos AU - St-Onge, Guillaume PY - 2018/06/14/ T2 - Supplement to: Deschamps, C-E et al. (2018): Sediment provenance changes in the western Arctic Ocean in response to ice rafting, sea level, and oceanic circulation variations since the last deglaciation. Geochemistry, Geophysics, Geosystems, 19(7), 2147-2165, https://doi.org/10.1029/2017GC007411 PB - PANGAEA DO - 10.1594/PANGAEA.891053 UR - https://doi.org/10.1594/PANGAEA.891053 N2 - Two sediment piston cores were recovered from the Chukchi-Alaskan (05JPC) and Canadian Beaufort (02PC) margins to investigate grain-size, geochemical and mineralogical compositions. This allowed the reconstruction of changes in detrital sediment provenance and transport related to climate variability since the last deglaciation. The end-member modelling analyses of grain-size indicate that sea ice and nepheloid transport as well as the Mackenzie River sediment plume are major factors influencing sedimentation in the Chukchi-Alaskan and Canadian Beaufort margins, respectively. Unmixing of the sediment composition indicates that detrital sediments in core 02PC are derived mainly from the Mackenzie River, whereas sediments from core 05JPC are derived mainly from the Mackenzie River during the deglaciation and include a mixture of Holocene sediments from the Bering Strait, Mackenzie River, and Eurasian margin. The dolomite-rich IRD recorded in both cores could be related to the different phases of iceberg discharges from the Amundsen Gulf Ice Stream. Quartz and feldspar-rich IRD dated at 13 and 10.6 ka cal BP are related to the Lake Agassiz outburst in core 02PC and meltwater discharge from the Brooks Range glaciers in core 05JPC. Detrital proxies in core 02PC support the hypothesis that large meltwater and iceberg discharges from the Lake Agassiz outburst to the Arctic Ocean and Amundsen Gulf ice stream may have triggered the Younger Dryas. Finally, similar trends observed between sea-level curves and our detrital proxy suggest that the sea-level changes in the western Arctic Ocean have an important influence on the sediment dynamic during the early- to mid-Holocene. ER -