Application of the surface azimuthal electrical resistivity survey method to determine patterns of regional joint orientation in glacial tills

Q2 Earth and Planetary Sciences Environmental Geosciences Pub Date : 2010-12-01 DOI:10.1306/EG.04061010002
D. Carlson
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Abstract

Joints within unconsolidated material such as glacial till can be primary avenues for the flow of electrical charge, water, and contaminants. To facilitate the siting and design of remediation programs, a need exists to map anisotropic distribution of such pathways within glacial tills by determining the azimuth of the dominant joint set. The azimuthal survey method uses standard resistivity equipment with a Wenner array rotated about a fixed center point at selected degree intervals that yields an apparent resistivity ellipse. From this ellipse, joint set orientation can be determined. Azimuthal surveys were conducted at 21 sites in a 500-km2 (193 mi2) area around Milwaukee, Wisconsin, and more specifically, at sites having more than 30 m (98 ft) of glacial till (to minimize the influence of underlying bedrock joints). The 26 azimuthal surveys revealed a systematic pattern to the trend of the dominant joint set within the tills, which is approximately parallel to ice flow direction during till deposition. The average orientation of the joint set parallel with the ice flow direction is N77E and N37E for the Oak Creek and Ozaukee tills, respectively. The mean difference between average direct observation of joint set orientations and average azimuthal resistivity results is 8, which is one fifth of the difference of ice flow direction between the Ozaukee and Oak Creek tills. The results of this study suggest that the surface azimuthal electrical resistivity survey method used for local in situ studies can be a useful noninvasive method for delineating joint sets within shallow geologic material for regional studies.
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地表方位角电阻率测量法在确定冰碛区域节理定向模式中的应用
未固结材料(如冰碛物)中的节理可能是电荷、水和污染物流动的主要途径。为了促进修复方案的选址和设计,有必要通过确定优势连接集的方位角来绘制冰川丘内这些通道的各向异性分布。方位角测量方法使用标准电阻率设备,温纳阵列围绕固定中心点以选定的度间隔旋转,产生视电阻率椭圆。从这个椭圆可以确定关节集的方向。在威斯康星州密尔沃基周围500平方公里(193平方英里)范围内的21个地点进行了方位角调查,更具体地说,在超过30米(98英尺)的冰川坡地(以尽量减少下伏基岩节理的影响)的地点进行了方位角调查。26次方位角测量显示,坡顶内优势节理组的走向与坡顶沉积过程中的冰流方向近似平行,具有系统的规律。与冰流方向平行的节理集在Oak Creek和Ozaukee的平均方向分别为N77E和N37E。节理集定向平均直接观测结果与平均方位电阻率结果的平均差值为8,是Ozaukee和Oak Creek井冰流方向差值的1 / 5。本研究结果表明,用于局部原位研究的地表方位电阻率测量方法可以成为一种有效的非侵入性方法,用于区域研究浅层地质物质中节理集的圈定。
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Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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