Robert W.C. Arnott’s research while affiliated with Ottawa University and other places

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Publications (1)


FIGURE 4. Stratigraphic column and conceptual architectural model of the ORM area. (A) Stratigraphic framework modified by Karrow (1974). (B) Conceptual stratigraphic model of the central ORM area. Original art work by J. Glew. 
FIGURE 5. Datasets used to create the ORM structural and isopach maps. (A) Surficial geology field stations (n = 1 344) of Russell and White (1997). (B) Hydrogeology borehole data (n = 92) and location of two Interim Waste Authority (IWA) site. (C) Geotechnical borehole sites (n = 500) and location of seismic profiles (n = 5). (D) Selected Ministry of Environment (MOE) water well date based on deepest hole per 500 m grid cell (n = 2 028). 
FIGURE 11. Graphic stratigraphic logs of three continuous cores from the Vaughan IWA site, northeastern Humber River watershed. Interbedded glaciolacustrine and diamicton Halton Till overlies ORM sediment. Note the ca. 40 m thick diffusely graded sand in the lower part of DH-V-158. See Figure 10 for description of symbols. 
Stratigraphic Architecture and Sediment Facies of the Western Oak Ridges Moraine, Humber River Watershed, Southern Ontario
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January 2004

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13 Citations

Géographie physique et Quaternaire

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Robert W.C. Arnott

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The Oak Ridges Moraine in southern Ontario is a ca. 160 km long east-west trending ridge of sand and gravel situated north of Lake Ontario. Study of the Oak Ridges Moraine in the Humber River watershed was undertaken to assess its role in the groundwater system of the buried Laurentian Valley. The Oak Ridges Moraine is interpreted to have been deposited in three stages. Stage I records rapid deposition from hyperconcentrated flows where tunnel channels discharged into a subglacial lake in the Lake Ontario basin. Low-energy basin sedimentation of Stage II was in a subglacial and ice-contact setting of a highly crevassed ice sheet. Stage III sedimentation is characterized by rapid facies changes associated with esker, subaqueous fan, and basinal sedimentation. Detailed sediment analysis challenges the concept that the Oak Ridges Moraine was deposited principally from seasonal meltwater discharges, climatic modulated ice-marginal fluctuations, or in an interlobate position. Instead it is interpreted to have formed in response to late-glacial ice sheet events associated with subglacial meltwater ponding, episodic and catastrophic subglacial meltwater discharge, and subsequent seasonal meltwater discharge. The moraine probably formed as the glacial-hydraulic system re-equilibrated to the presence of a thinned, grounded ice shelf and a subglacial lake in the Lake Ontario basin.

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... 11 and 12) and Port Huron stages (Karrow et al. 2000; Fig. 13). During both these intervals, substantial volumes of sediment and rock were eroded and entrained by energetic fast-flowing ice streams (and their associated meltwater systems; Figs. 14 and 15) and deposited as large interlobate moraine complexes (e.g., Waterloo, Orangeville, and Oak Ridges; Russell et al. 2004;Sharpe et al. 2007;Bajc et al. 2014;Burt and Dodge 2016;Burt 2018). ...

Reference:

Laurentide Ice Sheet configuration in southern Ontario, Canada during the last glaciation (MIS 4 to 2) from stratigraphic drilling and LIDAR-based surficial mapping
Stratigraphic Architecture and Sediment Facies of the Western Oak Ridges Moraine, Humber River Watershed, Southern Ontario

Géographie physique et Quaternaire