GCPD3K La Conchita Landslides (Earthcache) in California, United States created by TerryDad2

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GCPD3K ▼

A cache by TerryDad2 Message this owner

Hidden : 6/21/2005

Difficulty:

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Size: Size: not chosen (not chosen)

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Geocache Description:

This is the location of two destructive landslides that hit the community of La Conchita. The first side occurred in March 1995 and destroyed or damaged nine homes. The second slide occurred in January 2005 and destroyed 13 homes, damaged 18, and killed 10 people. A memorial to some of them can be seen at the bottom of the slide. There is ample parking just across the railroad tracks. The following information was compiled from the sources listed at the end of the cache.

The community of La Conchita sits on a narrow coastal strip (about 800 ft wide) between the shore and a steep bluff. The top part of the bluff is made up of marine shale, siltstone, and sandstone of the Miocene (23.8 - 5.3 million years ago) Monterey Formation. The bottom part is made up of siltstone, sandstone, and mudstone of the Pliocene (5.3 - 1.8 million years ago) Pico Formation. All of these rocks are very weakly cemented which means the individual grains of the rock are not held together very well. (They are being nice calling the material in the bluff a stone, most people would probably just call it hard dirt). Between the two formations and across the bluff face runs the active Red Mountain Fault. This fault has thrust the older Monterey Formation on top of the younger Pico Formation.

These bluffs have a long history of land slides. These old slides are difficult to identify, but the photos in the references call them out. Near the top of the bluff, stretching from the recent slides west to the canyon, there is a narrow flat terrace a little below the top of the bluffs. This is the top of an ancient landslide that included material from the entire bluff. There are additional smaller slides, below this ancient slide. The rail line behind you has been buried by landslides at various intervals.

The two most recent slides are readily apparent. The March 1995 slide involved the material in front of the now unvegitated bluff face. That material, approximately 1.7 million cubic yards, apparently slumped down in a relatively coherent mass and slammed into the homes below in just a few minutes. It was estimated that the thickness of the slide was over one-hundred feet. Prior to this massive side, there were some warning signs. Surface cracks were discovered on the upper part of the slope as early as the summer of 1994, as well as some smaller between the summer of 1994 and March 1995.

The ultimate cause of the landslide appears to have been the result of an unusually high rainfall season. In the rainy season prior to the slide, approximately twice as much rain fell as normal. During that time, it was noted that the open cracks in the upper part of the slide were channeling water directly into the ground. Due to the increased rainfall and direct infiltration of water into the ground, groundwater levels directly beneath the slide began to rise. The storm a couple of days before the slide was the likely trigger that started the slide. The forces that were keeping the bluff together were reduced by the groundwater until the weight of the material in the bluff finally broke off a thick mass of material and it slid down as one cohesive chunk. This conclusion of what caused the landslide and how it slid is based on the thickness of layer that slid, the fact that the slide occurred days after a rainfall event, and eye witness accounts.

Ten years later, a second slide caused the southeastern portion of the 1995 to slide again. In this case, 250,000 cubic yards of material flowed down over the retain wall that had been built at the base of the 1995 slide. As in 1995, the there had been unusually high rainfall throughout the season and the slide occurred after more than 2 weeks of almost constant rainfall. Video of the slide shows relatively dry material flowing down into the houses.

In this case, it is suggested that the landscape created by the 1995 slide concentrated the rainfall into the southeastern portion of the slide. That rainfall saturated a layer deep under slide causing the upper material to break loose and float down on top of the saturated layer. Days after the slide, water was still coming out of the bottom of the slide. These slides are not likely to be the last in the area.

Logging requirements:
Send me a note with :

The text "GCPD3K La Conchita Landslides" on the first line
The number of people in your group.
Using the photos and diagrams from the references, E-mail the difference you see between the 1995 and 2005 slides. You can't just use the photos since the area has changed since the photos were taken.
Look at the rest of the hillside and see if you see any features to suggest other sections are ready to slide.

The following sources were used to generate this cache.

Jibson, Randall W, Landslide Hazards at La Conchita, California Open-File Report 2005–1067, USGS, http://pubs.usgs.gov/of/2005/1067/508of05-1067.html
http://www.consrv.ca.gov/SMGB/special%20reports/Advis2005-02.pdf
O'Tousa, James, 1995, La Conchita landslide, Ventura county, California: AEG News, Association of Engineering Geologists, v. 38, no. 4, p. 22-24.