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Aeolian Process and Landforms Desert Landscapes

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Aeolian Process and Landforms Desert Landscapes Aeolus, Greek god of the winds Arid and Semi-arid Wind Erosion Deflation removal of loose particles by wind max ... – PowerPoint PPT presentation

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Title: Aeolian Process and Landforms Desert Landscapes


1
Aeolian Process and LandformsDesert Landscapes
  • Aeolus, Greek god of the winds

2
Wind as a geomorphic agent
12 consecutive months with no precip
lt 10 in. precip
10 -20 in. precip
requires fine grained sediment and little
vegetation
3
Arid and Semi-arid
Tunisia
Morocco
Algeria
Egypt
Libya
Sahel
4
Wind Erosion
  • Deflation
  • removal of loose particles by wind
  • max effectiveness when grain size 100mm
  • silt and clay size move most easily and carried
    in suspension by turbulence
  • takes a long time to move sand
  • Abrasion
  • bombarding of rock by airborne particles
  • natural sandblasting
  • sand-sized most effective
  • uncommon gt 2m. above ground

5
Making the Sahara Desert
  • http//www.sciencefriday.com/videos/watch/10070

6
by Salt Weathering
Arches NP Arch Formation
7
Arches N.P.
  • Greatest concentration of natural rock arches in
    the world
  • Arches form by
  • (Salt) weathering of vertical joints, in Entrada
    sandstone, produced by folding
  • Salt-cored anticlines undergoing dissolution
  • Exfoliation weathering
  • Sand grains are cemented by CaCO3
  • Rain forms carbonic acid dissolving bond
  • Wind and water erosion exploit joints
  • Groundwater sapping

8
Arch formation
9
Wind Erosion
  • Deflation
  • Variations in lithology or cementation enable
    preferential wind scour
  • Desert pavement
  • Abrasion
  • Ventifacts

10
Wind Transport
  • Saltation
  • bounce off the ground and other grains
  • effective lt 2m. above ground
  • powers the remaining 3 processes
  • Reptation
  • impacting grain releases shower of particles
  • Suspension
  • silt and clay-sized
  • travel around the world
  • Creep or dry ravel
  • individual particles (sand and pebble size) roll
    and slide by momentum imparted by an impacting
    particle

11
Wind deposition
  • Where does the dust go?
  • 90 on land 10 in oceans
  • Sedimentation
  • Grains fall to ground
  • Air velocity decreases
  • Air currents bring silt/clay sizes near ground
  • Accretion
  • Where saltating grains come to rest
  • Encroachment
  • Creep is stopped by surface roughness

12
Aeolian Forms Transport by Suspension
  • Loess
  • Grain size 20-40 microns
  • Accumulation rates fractions of mms/yr
  • Mixed grain sizes are needed to entrain dust
  • Large saltating grains disrupt the laminar
    sublayer to entrail dust
  • Dust sources alluvial fans/rivers, glacial
    outwash plains
  • Thickness declines with distance from source

13
Chinese Loess
  • 247,000 mi2 loess plateau
  • Up to 300m thick
  • Source deserts of interior China and Tibet

http//www.clw.csiro.au/ReVegIH/Maps.htm
14
Loess Strat
  • Soils separated by unweathered silt
  • Used to correlate with deep sea records of
    paleoclimate
  • Pleistocene
  • windier and drier

glacial
Interglacial, odd numbers
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