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This inventory was originally created by Garcia-Delgado and others (2019) describing the landslides triggered by the M 5.7 Mesetas, Columbia earthquake that occurred on 24 December 2019 at 19:19:03 UTC. Care should be taken when comparing with other inventories because different authors use different mapping techniques. This inventory also could be associated with other earthquakes such as aftershocks or triggered events. Please check the author methods summary and the original data source for more information on these details and to confirm the viability of this inventory for your specific use. With the exception of the data from USGS sources, the inventory data and associated metadata were not acquired by the...
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This inventory was originally created by Okuyama and others (2013) describing the landslides triggered by the M 9.1 Tohoku-Oki, Japan earthquake that occurred on 2011-03-11 at 05:46:24 UTC. Care should be taken when comparing with other inventories because different authors use different mapping techniques. This inventory also could be associated with other earthquakes such as aftershocks or triggered events. Please check the author methods summary and the original data source for more information on these details and to confirm the viability of this inventory for your specific use. With the exception of the data from USGS sources, the inventory data and associated metadata were not acquired by the U.S. Geological...
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Aerial view of massive rockslide that burried California State Route 140 leading into Yosemite National Park, California, in 2006. Red dots are locations of spider monitoring units. Published as Figure 1 in U.S. Geological Survey Fact Sheet 12-3008, "Real-Time Monitoring of Landslides."
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The Aratozawa Dam landslide in Japan, was triggered by the 7.2 magnitude Iwate-Miyagi-Nariku earthquake which occurred on 14 June 2008. The landslide at the Aratozawa Dam in Kurihara measures over 1km in length and is 0.8 km wide. The landslide body mass is around 6700 million cubic meters and the amount of displacement was around 300 meters in the main section. The landslide was translational in nature and the geology comprises hard volcanic rocks overlying soft Tertiary sediments.
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The Aratozawa Dam landslide in Japan, was triggered by the 7.2 magnitude Iwate-Miyagi-Nariku earthquake which occurred on 14 June 2008. The landslide at the Aratozawa Dam in Kurihara measures over 1km in length and is 0.8 km wide. The landslide body mass is around 6700 million cubic meters and the amount of displacement was around 300 meters in the main section. The landslide was translational in nature and the geology comprises hard volcanic rocks overlying soft Tertiary sediments.
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The Aratozawa Dam landslide in Japan, was triggered by the 7.2 magnitude Iwate-Miyagi-Nariku earthquake which occurred on 14 June 2008. The landslide at the Aratozawa Dam in Kurihara measures over 1km in length and is 0.8 km wide. The landslide body mass is around 6700 million cubic meters and the amount of displacement was around 300 meters in the main section. The landslide was translational in nature and the geology comprises hard volcanic rocks overlying soft Tertiary sediments.
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The Aratozawa Dam landslide in Japan, was triggered by the 7.2 magnitude Iwate-Miyagi-Nariku earthquake which occurred on 14 June 2008. The landslide at the Aratozawa Dam in Kurihara measures over 1km in length and is 0.8 km wide. The landslide body mass is around 6700 million cubic meters and the amount of displacement was around 300 meters in the main section. The landslide was translational in nature and the geology comprises hard volcanic rocks overlying soft Tertiary sediments.
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Landslide beds of White River formation north of Slim Buttes, thickness of beds included in the slide about 125 feet. Harding County, South Dakota. 1911. Plate 3-B in U.S. Geological Survey Bulletin 627. 1916.
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This inventory was originally created by Xu and others (2015) describing the landslides triggered by the M 6.6 Western Sichuan, China earthquake that occurred on 20 April 2013 at 00:02:47 UTC. Care should be taken when comparing with other inventories because different authors use different mapping techniques. This inventory also could be associated with other earthquakes such as aftershocks or triggered events. Please check the author methods summary and the original data source for more information on these details and to confirm the viability of this inventory for your specific use. With the exception of the data from USGS sources, the inventory data and associated metadata were not acquired by the U.S. Geological...
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Photo shows the Aguas Calientes, Peru landslide taken in April, 2004. Photo also on Wikipedia Commons, http://commons.wikimedia.org/wiki/File:Aguas_calientes_landslide_april_2004.jpg
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On January 5, 2013, the massive landslide took out a football field-sized portion of Newfound Gap Road (US 441) on the North Carolina side. Approximately 90,000 cubic yards of dirt, rock and roadway crashed 45-50 feet down the side of the mountain. Officials from the Great Smoky Mountains National Park found a subsurface spring underneath the landslide. NPS staff said the spring, along with last week's massive amounts of rainfall, contributed to the landslide Wednesday morning, near mile marker 22 between Collins Creek and Webb Overlook. (Photo by National Park Service)
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Aerial view of large rocks brought down by the January 12, 2010 (Magnitude 7) earthquake. The earthquake caused many landslides and rockfalls. (Photograph by Randy Jibson, U.S. Geological Survey)
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Aerial view of large rocks brought down by the January 12, 2010 (Magnitude 7) earthquake. The earthquake caused many landslides and rockfalls. (Photograph by Randy Jibson, U.S. Geological Survey)
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Album caption: Hillside landslide in redwood forest about 4 miles (6.4 km) above Alma, landslide has dammed Los Gatos Creek from the south. Santa Clara County, California. 1906. Published as figure 18 in U. S. Geological Survey. Professional paper 993. 1978. (Not available from U.S.G.S Photo Library. Photograph by J. C. Branner, courtesy of Stanford University Archives.)
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North wall of Provo Canyon, Wasatch Range, under Timpanogos Peak. The west-facing cliffs are probably a fault scarp (S.F. Emmons). There is another fault on the line of the steep gulley at the right. The two ridges crossed by the flume are landslide blocks from a ridge outside the view. Utah County, Utah. no date. Panorama with photo no. 3493) Published as plate 30-A in U.S. Geological Survey Professional Paper 153. 1928.
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Album caption and index card: Gros Ventre Landslide of June 23, 1925. View from top of scarp 2100 (plus) feet above valley bottom, looking down path of slide onto top of dam at foot of lake. Highest part of the dump is piled against red sandstone (Jura-Trieas) cliff (right back) above the new road, 400 feet above the stream bed. T. 42 N., R. 114 W. Lincoln County, Wyoming. September 25, 1926.
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Album caption: Recent landslide south of the Little Missouri River, west of U. S. Highway 85, McKenzie County, North Dakota, circa 1979. Published as Figure 13 in U.S. Geological Survey Circular 798, 1979. Index card: Trimble, D. E. 37 - 35mm: Recent landslide south of the Little Missouri River, west of U. S. Highway 85, McKenzie County, North Dakota, circa 1979. Published as figure 13 in U. S. Geological Survey Circular 798, 1979.
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Alaska Earthquake March 27, 1964. Damage to houses from landslides in Turnagain Heights in Anchorage. Photo by R.A. Page. Pages 24-25 , Earthquake Information Bulletin, v.12, no.1.
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Mass-wasting events that displace water, whether they initiate from underwater sources (submarine landslides) or subaerial sources (subaerial-to-submarine landslides), have the potential to cause tsunami waves that can pose a significant threat to human life and infrastructure in coastal areas (for example towns, cruise ships, bridges, oil platforms, and communication lines). Sheltered inlets and narrow bays can be locations of especially high risk as they often have higher human populations, and the effects of water displacement from moving sediment can be amplified as compared to the effects from similarly sized mass movements in open water. In landscapes undergoing deglaciation, such as the fjords and mountain...
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Summary This data release is an inventory of runoff-generated postfire debris flows compiled from 17 burn areas across five western U.S. states. Debris-flow data from the following fires are included: Arizona: 2017 Pinal and 2019 Woodbury Fires California: 2020 Apple, 2020 Bond, 2015 Butte, 2020 El Dorado, 2014 El Portal, 2018 Ferguson, 2016 Fish (San Gabriel Complex), 2011 Motor, and 2017 Thomas Fires Colorado: 2020 Cameron Peak and 2018 Spring Creek Fires New Mexico: 2018 Buzzard Fire Washington: 2021 Cedar Creek, 2021 Cub Creek 2, and 2021 Muckamuck Fires The included table, “Combined_Inventory.csv”, contains debris-flow records represented as “1” or “0”, indicating whether a debris flow did occur or did not...
map background search result map search result map View from top of scarp 2100 feet above valley bottom. Gros Ventre Landslide, Teton County, Wyoming. 1926. Damage to houses from landslides in Turnagain Heights in Anchorage. Alaska Earthquake March 27, 1964. North wall of Provo Canyon, Wasatch Range, under Timpanogos Peak. Utah County, Utah. no date. Recent landslide south of the Little Missouri River, McKenzie County, North Dakota. Landslide beds of White River formation north of Slim Buttes, thickness of beds included in the slide about 125 feet. Harding County, South Dakota. 1911. Hillside landslide in redwood forest about 4 miles (6.4 km) above Alma, Santa Clara County, California. 1906. Landslide, Aguas Calientes, Peru. 2004. Landslide, Aratozawa Dam, Japan. 2008. Landslide, Aratozawa Dam, Japan, 2008. Landslide, Aratozawa Dam, Japan. 2008. Landslide. Aratozawa Dam, Japan. 2008 Ferguson Landslide. Yosemite National Park, California. 2006. Great Smoky Mountains Landslide, North Carolina. 2013. Landslide, Haiti coastal area, 2010. Landslide, Haiti coastal area, 2010. Xu and others (2015) Inventory map of submarine and subaerial-to-submarine landslides in Glacier Bay, Glacier Bay National Park and Preserve, Alaska Garcia-Delgado and others (2021) Okuyama and others (2013) Compilation of runoff-generated debris-flow inventories for 17 fires across Arizona, California, Colorado, New Mexico, and Washington, USA Okuyama and others (2013) Garcia-Delgado and others (2021) Ferguson Landslide. Yosemite National Park, California. 2006. Hillside landslide in redwood forest about 4 miles (6.4 km) above Alma, Santa Clara County, California. 1906. Xu and others (2015) Landslide beds of White River formation north of Slim Buttes, thickness of beds included in the slide about 125 feet. Harding County, South Dakota. 1911. North wall of Provo Canyon, Wasatch Range, under Timpanogos Peak. Utah County, Utah. no date. Inventory map of submarine and subaerial-to-submarine landslides in Glacier Bay, Glacier Bay National Park and Preserve, Alaska View from top of scarp 2100 feet above valley bottom. Gros Ventre Landslide, Teton County, Wyoming. 1926. Landslide, Haiti coastal area, 2010. Landslide, Haiti coastal area, 2010. Landslide, Aguas Calientes, Peru. 2004. Compilation of runoff-generated debris-flow inventories for 17 fires across Arizona, California, Colorado, New Mexico, and Washington, USA Landslide, Aratozawa Dam, Japan. 2008. Landslide, Aratozawa Dam, Japan, 2008. Landslide, Aratozawa Dam, Japan. 2008. Landslide. Aratozawa Dam, Japan. 2008 Damage to houses from landslides in Turnagain Heights in Anchorage. Alaska Earthquake March 27, 1964.