Gravitational erosion

From Wikipedia, the free encyclopedia

Gravitational erosion is caused by gravity in contrast to the physical movement of wind and water required for other types of soil erosion. Gravitational erosion involves both large scale mass wasting and smaller scale erosion. Forms of gravitational erosion include avalanche, landslide, debris flow, mudflow, and sinkhole formation. ^[1] Two types of mass movements are slump and creep.

[edit] Slump

Material slips down along a curved surface
When the slope becomes too steep, the base material cannot support the rock and sediment above.
Water can cause slump by weakening the slipping mass.
Where a stronger layer rests on top of a weaker layer, it collapses.
A curved scar is left where the slumped materials originally rested.

[edit] Creep

Materials slowly shift downhill
Creep is caused by gravity alone
This process is extremely slow and would be difficult to see without a LOT of time and measurements

Gravitational erosion can leave major scars and land.

[edit] References

^ (2003) Manual on Sediment Management and Measurement. World Meteorological Organization. ISBN 92-63-10948-6. Retrieved on 2006-06-22.

Categories: Geomorphology | Geological processes | Soil

Views

Interaction

Search

This page was last modified 03:05, 29 April 2008 by Anonymous user(s) of Wikipedia. Based on work by Wikipedia user(s) Paleorthid, Zidane tribal, MartinBot, AlienZen, SmackBot, P199, Czolgolz and Drummer153.
All text is available under the terms of the GNU Free Documentation License. (See Copyrights for details.)
Wikipedia® is a registered trademark of the Wikimedia Foundation, Inc., a U.S. registered 501(c)(3) tax-deductible nonprofit charity.
About Wikipedia
Disclaimers