CGRG Bibliography of Canadian Geomorphology
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Author : Barnes, R.G.
Date : 1978
Title : Hydrogeology of the Brazeau--Canoe River Area, Alberta
Publication : Research Council of Alberta Edmonton. Report
Issue : 77-5
Page(s) : 33 p
Abstract
The hydrogeology of surficial aquifers and shallow bedrock aquifers of the uppermost 500 ft of strata in Brazeau-Canoe River map area was described. Lithology, geologic structure, topographic position, and climate are the major elements of the hydro-geological regime. Within the Rocky Mountain Main Ranges and Front Ranges, limestone and dolomite are the dominant rock types. A synthesis of the geologic and geomorphologic characteristics of these rocks indicates that conduits and fractures are the major mode of storage and transmission of groundwater. Thrust faults have a strong influence on valley position and extend for many miles along strike. They have the potential of directing groundwater flow from distant sources toward localized surface discharge points within the valley floors. The valley floors serve as regional and local groundwater drains. The most prospective bedrock aquifers of the Foothills belt occur in the Upper Cretaceous Blairmore Group. Fracture permeability is well developed in thick sandstone units and coal beds. The Upper Cretaceous to Tertiary Brazeau Formation extends to depths of greater than 1000 ft in the Western Alberta High Plains. Intergranular and fracture porosity have a patchy distribution within these clayey and sometimes bentonitic sandstones and mudstones. The valley floor glaciofluvial and alluvial sand and gravel deposits are the most prospective aquifers of the map area. Groundwater availability and yield potential are dependent on the topographic position, permeability, saturated thickness, and recharge characteristics of these deposits. With the exception of the local occurrence of calcium-magnesium sulfate type groundwater in the Front Ranges (which can contain over 2000 ppm total dissolved solids), groundwater quality is excellent throughout the map area, and total dissolved solids contents rarely exceed 500 ppm.
Bibliography of Canadian Geomorphology