Evaluation of landslide hazards with ground-penetrating radar, Lake Michigan coast

Walter A. Barnhardt; Bruce E. Jaffe; Robert Kayen

Evaluation of landslide hazards with ground-penetrating radar, Lake Michigan coast

By: Walter A. Barnhardt, Bruce E. Jaffe, and Robert Kayen

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Abstract

Ground-penetrating radar (GPR) and boreholes were used to investigate a landslide-prone bluff at Sleeping Bear Dunes National Lakeshore on the northeastern coast of Lake Michigan. Based on borehole observations, sediment underlying the area is homogeneous, consisting of well-sorted, medium to coarse sand. GPR penetrated up to 20 m deep in these sediments, revealing the late Quaternary stratigraphy in great detail. We define four units, or radar facies, based on criteria similar to those used in seismic stratigraphy. Directly beneath a landslide at Sleeping Bear Point (and nowhere else in this survey) is a deeply incised, channel-fill deposit that intersects the shoreline at a high angle. The buried channel is at least 10 m deep and 400 m wide, and it might be a subglacially carved feature of Pleistocene age. A prominent, planar unconformity marks the upper surface of the channel deposit, which is overlain by stratified beach and dune material. Several crosshole GPR surveys were performed in the vicinity of the landslide: 1) a constant offset profile (COP), 2) a multiple offset gather (MOG), and 3) a vertical radar profile (VRP). Tomographic analysis of these data determined the velocity structure of sandy sediment that underlie the failed bluff. Because GPR velocity is dependent on electrical properties, we use it as a proxy for geotechnical properties of the soils. Our working hypothesis is that the hidden channel may act as a conduit for pore water flow between upland regions and Lake Michigan, and thereby locally reduce soil strength and promote slope failure.

Additional publication details
Publication type	Conference Paper
Publication Subtype	Conference Paper
Title	Evaluation of landslide hazards with ground-penetrating radar, Lake Michigan coast
Volume	4
Issue	2
Year Published	1999
Language	English
Description	9 p.
Larger Work Type	Conference Paper
Larger Work Subtype	Conference Paper
Larger Work Title	4th international symposium on Coastal engineering and science of coastal sediment processes
First page	1153
Last page	1165
Conference Title	Scales of coastal sediment motion and geomorphic change
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