1 / 57

Chapter 15 Mass Wasting

Mass wastingThe downslope movement of rock, regolith, soil, etc. under the direct influence of gravityDoes not require a transporting medium (water, air, ice). Plays a role in developing landforms (surface features)Weathering, by itself, doesn't produce significant landformsLandforms are devel

gallagher
Télécharger la présentation

Chapter 15 Mass Wasting

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

    1. Chapter 15 Mass Wasting

    2. Mass wasting The downslope movement of rock, regolith, soil, etc. under the direct influence of gravity Does not require a transporting medium (water, air, ice)

    3. Plays a role in developing landforms (surface features) Weathering, by itself, doesnt produce significant landforms Landforms are developed as weathering products are removed from their original place

    5. Weathering weakens & breaks rock apart Mass wasting transports the debris downslope Generally to a stream, which carries material away This material may then be deposited anywhere downstream Ultimate destination the ocean

    6. For mass wasting to occur, need slopes that is, differences in elevation Most rapid mass wasting occurs in rugged, geologically-young mountains as mtn building subsides, mass wasting & erosion lowers the land leads to a gentler terrain

    7. Causes of mass wasting Water Slope Vegetation Other triggers

    8. Waters role a major trigger heavy rains or snowmelt saturate surface materials pores in sediment fill w/water, reducing cohesion between particles particles can then slide apart easily (ex.: use slightly wet sand to make a sand castle. Add more water to the sand, what happens?)

    10. Clay A dry clay is fairly rigid Wet clay is very slick Water also adds mass (weight), and helps to start movement of material downslope

    11. Effects of slope If slope is too steep, material will move (oversteepening) Examples: Stream undercutting a valley wall Waves pounding against a cliff Human activity (that is, stupidity)

    12. Angle of repose A characteristic of unconsolidated, granular materials (sand size or larger) The steepest angle where a pile of the material is stable Generally 25 40 from horizontal Larger, more angular fragments form the steepest slopes

    13. Vegetation Root systems bind soil materials together Plants also shield underlying materials from erosional effects of raindrops More important when the vegetation removed Build a house on a scenic hillside, remove the natural vegetation so you have a view & a normal house wait for a few heavy rains Wildfires (or clear-cutting) Removes vegetation Land exposed for erosion

    14. Other triggers Earthquakes can dislodge rock & unconsolidated materials that were semi-stable Liquefaction shaking during EQ causes water-saturated sediments to lose strength & behave as a fluid Some movements occur without any obvious trigger

    15. Mass Wasting Processes 4 main processes Slump Rockslide Debris flow Earthflow

    16. These classes based on: Type of material Kind of motion Rate of motion

    17. Type of material Unconsolidated or bedrock Type of motion Fall, slide, or flow

    18. Fall: The freefall of detached, individual pieces (of any size) Watch for falling rock

    21. Slide The material remains fairly coherent Moves along a well-defined surface This surface may be parallel to the slope, or curved Landslide geologically, no definition. Yet, we all use the term to describe much mass wasting.

    22. Flow Material moves downslope as a thick fluid Material almost always saturated w/water

    23. Rate of movement Most movement is quite slow (more in a bit) Very rapid movement generally asso. with rock avalanches Speeds >125 mph As best we can tell, air becomes entrapped beneath a mass of debris, creating a rock hovercraft

    24. Slumps Downward sliding of a mass of rock/ unconsolidated material along a curved surface Material generally doesnt move very fast or travel very far Often happens in multiple blocks

    26. Slumps often the result of oversteepening of a slope Examples (again) Valley wall cut by river Waves Overloading a slope (material deposited on top, humans build on edge of a slope)

    29. Rockslide Blocks of bedrock break loose, slide downslope If material relatively unconsolidated, called a debris slide These tend to be the fastest & most destructive movements In areas where rock strata are inclined, or has joints/fractures parallel to the slope

    32. Debris flow Involves the flow of soil/regolith containing large amounts of water Also called mudflows Generally seen in semiarid mountainous regions, and slopes of some volcanoes Flows often follow existing canyons & stream channels

    34. Flows in semi-arid areas Heavy rain or rapid snowmelt results in sudden floods Large amounts of soil, etc., washed into nearby streams Rate of flow depends on area slopes & water content of material If flow dense enough, can carry or push large boulders, trees, houses

    35. Lahars A type of debris flow defined as having 40% or more by weight of volcanic debris Mostly volcanic materials on the flanks of volcanoes May occur during eruption or when volcano quiet Unconsolidated layers of ash & debris become water saturated & flow downslope Caused by heavy rains, or melting of snow/ice as a result of pre-eruption heatflow

    36. Earthflow Generally occurs on hillsides in humid areas as a result of heavy precipitation or snowmelt Material involved often rich in clay/silt-sized particles Movement generally slow (up to several meters per day) And, this isnt the slowest movement

    38. Creep The slowest of the movements The gradual downhill movement of soil/regolith Often results from the alternate expansion/contraction of surficial materials by freeze/thaw cycles or wet/dry periods

    40. Other causes of creep: Impact of raindrops Disturbance of material by plant roots and/or burrowing critters Saturation of ground with water (that pesky fluid again!)

    41. Creep is a very slow process We cant sit there and observe it happening (unless you have little else to do) We can see the effects of it, after a bit of time

    46. Some other ideas Solifluction The down-slope flow of water-saturated soil Occurs where water cant escape from a saturated surface layer Usually due to an underlying dense clay layer or an impermeable rock layer

    47. Geologic dictionary defines this as occurring in high elevations in regions underlain by frozen ground, which acts as a downward barrier to water movement Rate of movement 0.5 to 15 cm/yr

    48. Permafrost A layer of unconsolidated material containing water which is frozen May be 30 cm to over 1000 m thick (1 to 3000 ft) When surface thaws (for whatever reason), water cannot seep down due to frozen material deeper down Surface becomes a mushy muck

    51. Upper, thawed layer can slowly flow Alaska pipeline A few years back Pipeline from the North Slope to the coast Oil needs to be warm to flow The pipeline would wreck havoc to Alaskas permafrost area, not to mention the wildlife (oh, thats biology or environmental science)

    55. Mass wasting also occurs below the ocean surface These just arent seen as much Slides Along flanks of volcanic islands & seamounts Along continental margins, especially near deltas Contribute to tsunamis

    56. A final thought on mass wasting.

More Related