Difference between revisions of "Landslides and Debris Flows in the California Central Coast Region"

From CCoWS Wiki
Jump to: navigation, search
Line 17: Line 17:
 
===Wildfire and Vegetation===
 
===Wildfire and Vegetation===
  
Another common natural impacts leading to landslides is wildfire. [[Wildfires in the Central Coast Region|Wildfires]] in the Central Coast Region remove vegetation and their root structures, leaving the soil unstable and prone to erosion and slope failure.<ref name="geology"></ref>
+
Another common natural impacts leading to landslides is wildfire. [[Wildfires in the Central Coast Region|Wildfires]] in the Central Coast Region remove vegetation and their root structures, leaving the soil unstable and prone to erosion and slope failure.<ref name="geology"></ref> Without the reinforcement of a root system, post-fire areas are highly susceptible to landslides when rainfall occurs.<ref name="usa">[https://www.usatoday.com/story/news/nation/2018/01/10/california-mudslide-debris-flow-explainer/1021555001/ USA Today 2018 Thomas Fire Article: CDC Quote]</ref> 
  
 
===Earthquakes===
 
===Earthquakes===

Revision as of 19:50, 6 April 2020

An environmental summary created by the ENVS 560/L Watershed Systems class at CSUMB.

Summary

Types of Landslides. Image: USGS.

Landslides are a characterized as the falling or movement of soil or rock down a slope and can manifest through mudflows, mudslides, debris flows, rock falls, rockslides, debris avalanches, debris slides, and slump-earth flows.[1] This movement occurs when the down-slope force exceeds the strength of the soil or other material holding the slope together.[2] Typically, landslides take time to initiate movement as the soil saturates and ultimately moves at a slow pace, but can cause significant damage to buildings and other infrastructure. [3] Debris flows, a type of landslide, occur suddenly with shorter and intense rainfall creating a slurry that moves at a rapid pace and often can result in loss of life making them more dangerous.[3]

In the United States, landslides are an extremely destructive hazard. Landslides in the country cause approximately $3.5 billion in damage, and kill between 25 and 50 people annually.[4] On a more local scale, landslides are one of the most costly geologic hazards in Monterey County, costing millions of dollars yearly in infrastructure.[5] Surrounding Monterey, many other regions are prone to landslides. Along the coast, between Point Lobos State Natural Reserve and Capoforo Creek, 1,500 landslides were mapped in 2001 which indicated slope-failure is common.[6] Additionally, Los Padres National Forest contains at least 250 active landslide sites and over half of the forest is highly susceptible to slope failures.[7] In Hollister, the hillslopes are susceptible to slope failure as well. Creep, slump, and other earthflows are common in the area.[8] In California's Central Coast Region, landslides and flows are common due to rainfall and steep slopes. Other causes are present in the region which facilitate landslide occurrences.

Causes

Precipitation

Precipitation is the major influence on landslides.[9] Rainfall intensity, duration, and frequency are important factors related to slope failure. Many deep-seated landslides occur after prolonged, intense rainfall and towards the end of the rainy season as soil becomes fully saturated, weakening the stability of a slope.[10] Because of the high precipitation, runoff, and soil saturation, landslides and flooding are often correlated.[4] During El Nino events, Central California can be exposed to extreme rainfall and subsequently a higher risk of landslides.[1] During these times, debris flows and floods are often mistaken for each other and could occur simultaneously.[4] Frequent slope failures from heavy precipitation are common in the Big Sur Region, the Carmel River Watershed, and most of Monterey County.[9][11][5]

Wildfire and Vegetation

Another common natural impacts leading to landslides is wildfire. Wildfires in the Central Coast Region remove vegetation and their root structures, leaving the soil unstable and prone to erosion and slope failure.[7] Without the reinforcement of a root system, post-fire areas are highly susceptible to landslides when rainfall occurs.[12]

Earthquakes

Development

Prediction and Mitigation

Major Events

References

  1. 1.0 1.1 Monterey County Office of Emergency Services
  2. USGS Natural Hazards
  3. 3.0 3.1 California Department of Conservation
  4. 4.0 4.1 4.2 USGS Landslide Types and Processes Fact Sheet
  5. 5.0 5.1 Geologic Resources and Constraints in Monterey County: A Technical Report
  6. CCoWS Physical and Hydrologic Assessment of the Carmel River Watershed
  7. 7.0 7.1 USDA Forest Service Geology-Landslides
  8. USGS Field Trip of The Calaveras and San Andreas Faults In and Around Hollister
  9. 9.0 9.1 Department of Conservation Special Report on Landslides for the Coast Highway Management Plan
  10. USGS Rainfall and Landslides in Northern and Central California
  11. Los Padres Dam and Reservoir Long-Term Strategic and Short-Term Tactical Plan 2014
  12. USA Today 2018 Thomas Fire Article: CDC Quote

Disclaimer

This page may contain students' work completed as part of assigned coursework. It may not be accurate. It does not necessarily reflect the opinion or policy of CSUMB, its staff, or students...