CGRG Bibliography of Canadian Geomorphology
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Author : Forbes, D.L.; Craymer, M.; Henton, J.; Herron, T.; Kokelj, S.; Lapelle, E.; Manson, G.; Marsh, P.; Mazzotti, S.; Piraszewski, M.; Solomon, S.M.; Whalen, D.�
Date : 2007.
Title : Combining geological, geodetic, and tide-gauge data to estimate coastal subsidence and flooding hazards in the Mackenzie Delta, Western Arctic Canada.
Publication : EOS Transactions. American Geophysical Union Fall Meeting. 10-14 December 2007, San Francisco, California, USA.
Issue : 88(52). Fall Meeting Supplement.
Page(s) : Abstract G51A-0136.
Abstract
Relative sea-level trends across the Canadian Arctic are highly variable, in part because of the strong imprint of postglacial isostatic adjustment. In many parts of the central Arctic, ongoing uplift exceeds the rate of regional sea-level rise, resulting in continued coastal emergence. In peripheral areas such as the western Arctic coastal plain, models and geological evidence point to ongoing subsidence, adding to relative sea-level (RSL) rise in the Beaufort-Mackenzie region. Additional sources of subsidence in the Mackenzie Delta include long-term sediment loading and sediment compaction, as well as thaw subsidence where thermal changes such as deeper seasonal thaw lead to melting of excess ground ice. Compaction is reduced in ice-bonded sediments and the thickness of ice bonding varies with the depth of permafrost, which ranges from 0 to 100 m in the main body of the Holocene delta and >500 m in areas outside the main valley fill. Ice-bonding is reduced or absent in thaw taliks beneath deep lakes and channels. Differential subsidence rates may play a role in maintaining or expanding lake area on the delta plain and in promoting delta-front erosion. Beginning in 2001, we have established an Arctic network of continuous GPS (CGPS) stations, including CGPS co-located with tide gauges at Tuktoyaktuk and Ulukhaktok. Fixed monuments for episodic GPS observations have been established and occupied repeatedly in the Mackenzie Delta and we are currently developing a network of fixed reflectors for persistent-scatterer InSAR. Velocities from the North American Reference Frame Working Group (consistent with rates from JPL and SOPAC) indicate positive values (uplift) at all CGPS stations, even in the Beaufort-Mackenzie region. However, the long-term tide-gauge record at Tuktoyaktuk shows a 45-year rising RSL trend (1961-2006) of +3.5±1.3 mm/a. If sea-level rise in the Beaufort Sea has been comparable to the global mean trend during this interval, the implied motion at Tuktoyaktuk is about -1.7±1.8 mm/a (subsidence). Preliminary GPS results from the Mackenzie Delta indicate natural subsidence ranging from 0 to 20 mm/a. These results are being used in the environmental review of proposed natural gas production and transportation facilities. Impacts of natural and potential induced subsidence on nesting waterfowl habitat are being assessed by simulating effects on flooding frequency using high-resolution digital elevation models derived from scanning airborne laser altimetry (LiDAR).
Bibliography of Canadian Geomorphology