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Transcript 
Chapter 15
Weathering, Mass Wasting
& Erosion
Preliminaries to Erosion:
Weathering and Mass Wasting

Weathering
Breaking down of rock into
smaller components by
atmospheric and biotic agents
 Mass
Wasting
Involves the downslope
movement of broken rock
due to gravity
 Erosion
More extensive and
distant removal of
fragmented rock material
Denudation
Impacts of Weathering & Mass Wasting
 Weathering
= fragmentation of
rock in place – no obvious movement
 Mass Wasting = involves down
slope movement – empty space
above and debris strewn below
 Erosion = wearing away of the land
by the action of water, ice or wind
Denudation
Weathering followed
by mass wasting
followed by erosion
 Results in a
lowering of the
landscape over
millions of years

Colorado River is major cause of erosion.
Weather and mass wasting have also played a
part in the carving of Grand Canyon
Weathering
 Jointing
 Weathering
Agents
– Mechanical Weathering
– Chemical Weathering
– Biological Weathering
 Climate
and Weathering
Weathering
 1st
step in external process of rock
disintegration
 Think of weathering as “aging of rock
surfaces”
 Where lithosphere and atmosphere
meet (land/air interface)
 Mechanical or chemical
 Exposed bedrock is prone to
weathering – it’s more “fragile”
 Underlying rock is “stronger”
Faults and Joints
 faults
= displacement of land
 joints = no displacement of land
no displacement
displacement
Faults
The cracking and displacement
of adjacent blocks of rock as a
result of the severe stresses
set up by tectonic activity
Jointing

Vertical

Horizontal
Cracks resulting from
stress – very common
 Show no displacement

Weathering Agents
 Mechanical
 Chemical
 Biological
 Most
are atmospheric – easy for gas
to penetrate bedrock
 Water can also penetrate
 Temperature change
 Biotic influence
Mechanical Weathering
Disintegration of rock material
No change in chemical composition
Mostly occurs at or near the surface
 Frost Wedging = freeze/thaw action of water
 Salt Wedging = salt crystallizes
 Temperature change = heat expansion & cold
contraction
 Exfoliation = layers peel off
Frost Wedging
 Water
permeates cracks/fissures in
rocks, then freezes, then melts
Exfoliation
 Curved
layers
peel off bedrock
 Occurs at
different scales
Exfoliation - hill
Exfoliation - single boulder
Impact of Mechanical Weathering
As rock is fragmented, the amount of rock
surface increases
 More surface area exposed = more
fragmentation

Chemical Weathering
 Decomposition
of rocks by alteration of
minerals
 Chemical weathering requires moisture
 More in humid regions than arid
 Requires oxygen, water & carbon dioxide
 3 processes are:
 Oxidation
 Hydrolosis
 Carbonation
Oxidation
 Oxidation
is the
combination of a
substance with
oxygen
 Combines with
metallic elements to
form new
compounds
 Usually softer and
more easily eroded
Red Rocks - Oxidation
Oxygen combines with iron-bearing silicate
minerals causing "rusting"
Iron oxides are
produced
 Iron oxides are red,
orange, or brown in
color
 "Georgia Red Clay"
derives its color from
the oxidation of iron
bearing minerals

Hydrolysis
 Decomposition
of a chemical
compound by reaction with water
 Igneous rock is very susceptible
 Increases volume of rock and brings
on disintegration
Carbonation
 Reaction
between carbon dioxide in
water & carbonate rocks
 Produces calcium bicarbonate (very
soluble)
 Easily removed by runoff or
percolation
Biological Weathering
 Plants
& Animals
 Roots, lichens
 Burrowing animals
Climate and Weathering
 Weathering
is enhanced by climate
 More chemical weathering with high
temperatures and lots of rain
Mass Wasting
 Fall
 Slide
– Landslide
– Slump
 Flow
– Earthflow
– Mudflow
– Debris Flow
 Creep
Mass Wasting
 2nd
step in external process of rock
disintegration
 Movement of rock and soil downslope
under the influence of gravity
 Denudation: weathering followed by
mass wasting followed by erosion
 Fall:
Falling of pieces of rock downslope
 Slide: Landslide – instantaneous collapse
of a slope
 Flow: Gravity impelling force with water
to bring section of a slope down i.e.
mudflow
 Creep: Slowest and least perceptible
gradual downhill movement
Talus Slope
Pieces of rock become wedged in slope,
then are loosened and fall to bottom
Visual Evidence of Creep
Freeze –Thaw Processes
Freezing lifts particle perpendicular, then
melting deposits it further downslope
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