Sediment production and delivery from recent large landslides and earthquake-induced rock falls in the Upper Soca River Valley, Slovenia

摘要

Landsliding not only changes the morphology of the terrain but is also an effective factor in sediment production. Extreme events such as earthquake-induced large rock falls or rainfall-induced landslides may, during the event itself or in a period after it, greatly increase the sediment delivery and river sediment transport. The effects of strong earthquakes and large landslides on sedimentation are evident in the Upper Soca River basin, NW Slovenia. The annual sediment production in the headwaters of this typical alpine valley in western Slovenia is estimated to average> 1000 m~3 km~(-2) a~(-1). In the last few years, two large landslides triggered there were of comparable volume but differed regarding sediment delivery to the fluvial network. The 2000 Stoze landslide at 1.5 million m~3 was a debris flow that delivered more than 1 million m~3 to the Koritnica River. The Strug complex landslide was initiated in 2001 by a rock slide and soon amounted to an estimated volume of 310,000 m~3. In 2002, it released over 20 rainfall-induced debris flows on the order of 100 to 1000 m~3 to the fluvial system. In mountainous terrain in the headwaters of the Upper Soca River, slope failures may occur during strong earthquakes depending on the event magnitude. The earthquake of April 12, 1998 (M_s 5.6) caused more than 100 failures, among them 50 rock falls. About 260,000 m~3 of rock fall material will remain on hill slopes with no potential of reaching the river network, while an estimated volume of 480,000 m~3 may be released to watercourses in a longer period during extreme events. About 200,000 m~3 of rock fall debris was deposited in areas from where the material was released to watercourses during rainfall events. As a consequence of the 1998 earthquake, hyperconcentrated flows were observed during floods in some torrential tributary channels of the Upper Soca River. After the earthquake of July 12, 2004 (M_s 4.9), 50 rather superficial slope failures including 38 rock falls were registered. From 2000 until 2004, more than 150,000 m~3 sediments were dredged from the Upper Soca River channel.