The 1996 Finneidfjord landslide, which took four human lives in northern Norway, initiated along a weak layer in the fjord-marine sediments before developing retrogressively across the shoreline. The integration of results from sediment cores, free-fall cone penetrometer tests and high-resolution 3D seismic data indicates that the slide-prone layer is a regional bed likely sourced from clay-slide activity in the catchment of the fjord. The sediments in this regional layer are softer and more sensitive than the typical bioturbated, fjord-marine deposits, which explains their role in slope instability. In addition, biogenic gas in the stratified event bed may further affect its geotechnical properties. Similar, fine-grained, stratified beds with comparable origin and properties occur in other Norwegian fjords. They are presumably also present along coastlines of other previously glaciated margins, where they could contribute to mass movements. © Springer Science+Business Media B.V. 2012.
CITATION STYLE
L’Heureux, J. S., Longva, O., Steiner, A., Hansen, L., Vardy, M. E., Vanneste, M., … Kopf, A. (2012). Identification of weak layers and their role for the stability of slopes at Finneidfjord, Northern Norway. In Submarine Mass Movements and Their Consequences - 5th International Symposium (pp. 321–330). Kluwer Academic Publishers. https://doi.org/10.1007/978-94-007-2162-3_29
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