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Principles of Geology

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Weathering the physical breakdown (disintegration) and chemical ... Granite pluton. Mechanical weathering: unloading. Mechanical Weathering: Thermal expansion ... – PowerPoint PPT presentation

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Title: Principles of Geology


1
Principles of Geology
  • Chapter 6
  • Weathering and Soil

Mian Liu 2007
2
Chapter Outline
  • Physical weathering
  • Chemical weathering
  • Factors controlling the rate of weathering
  • The final product soil

3
Earths external processes
  • Weathering the physical breakdown
    (disintegration) and chemical alteration
    (decomposition) or rock at or near Earths
    surface
  • Erosion the physical removal of material by
    mobile agents such as water, wind, ice, or
    gravity
  • Mass wasting the transfer of rock and soil
    downslope under the influence of gravity

4
Weathering
  • Two basic types of weathering
  • Mechanical (physical) weathering
  • breaking of rocks into smaller pieces without
    changing their composition
  • Chemical Weathering
  • Breaks down rock components and change its
    mineral and chemical composition

5
Mechanical Weathering
  • Four types of mechanical weathering
  • Frost wedging alternate freezing and thawing of
    water in fractures and cracks promotes the
    disintegration of rocks
  • Unloading exfoliation of igneous and
    metamorphic rocks at the Earths surface due to a
    reduction in confining pressure
  • Thermal expansion alternate expansion and
    contraction due to heating and cooling
  • Biological activity disintegration resulting
    from plants and animals

6
Development of Joints and Cracks by Unloading
Granite pluton
7
Mechanical weathering unloading
8
Mechanical Weathering Thermal expansion
9
Weathering
  • Chemical Weathering
  • Breaks down rock components and internal
    structures of minerals
  • Most important agent involved in chemical
    weathering is water (responsible for transport of
    ions and molecules involved in chemical processes)

10
Chemical weathering
  • Dissolution
  • Hydrolysis
  • Oxidation

11
chemical weathering
  • Major processes of chemical weathering
  • Dissolution
  • Oxidation
  • Hydrolysis

12
chemical weathering
  • Major processes of chemical weathering
  • 1. Dissolution
  • Aided by small amounts of acid in the water
  • Soluble ions are retained in the underground
    water supply

13
chemical weathering
  • Major processes of chemical weathering
  • 2. Oxidation
  • Any chemical reaction in which a compound or
    radical loses electrons
  • Important in decomposing ferromagnesian minerals

14
chemical weathering
  • Major processes of chemical weathering
  • 3. Hydrolysis
  • The reaction of any substance with water
  • Hydrogen ion attacks and replaces other positive
    ions

15
Hydrolysis reaction with water (H)
16
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17
Physical weathering and chemical weathering are
related!
18
Rate of weathering
  • Original rocks
  • composition, structure, stability (Bowens
    reaction series)
  • Climate
  • Warm temperatures, moisture -gtfast weathering
  • Cold temperatures, arid regions -gt slow weathering

19
Chemical stability of minerals as indicated by
the Bowens reaction series
20
Rates of weathering
  • Factors affecting weathering
  • Surface area
  • Rock characteristics
  • Rocks containing calcite (marble and limestone)
    readily dissolve in weakly acidic solutions
  • Silicate minerals weather in the same order as
    their order of crystallization

21
Rates of weathering
  • Differential weathering
  • Rocks do not weather uniformly due to regional
    and local factors
  • Results in many unusual and spectacular rock
    formations and landforms

22
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23
Soil
  • Soil combination of mineral and organic mater,
    water, and air
  • Rock and mineral fragments produced by weathering
    (regolith) that supports the growth of plants
  • Humus (decayed animal and plant remains) is a
    small, but essential, component

24
Composition of a good soil
Figure 6.17
25
Two-stages of soil formation
  • Inorganic (geochemical) weathering -gt rotten
    rock (saprolites).
  • Pedochemical weathering biologically controlled,
    involving metabolism of microorganisims, decay of
    vegetal matter. -gt convert saprolite to soil.

26
Soil Profile
O
A
(zone of leaching)
B
(zone of accumulation)
C
27
Soil
  • The soil profile
  • O horizon organic matter
  • A horizon Zone of leaching
  • organic and mineral matter
  • High biological activity
  • Together the O and A horizons make up the topsoil

28
Soil
  • The soil profile
  • B horizon zone of accumulation
  • C horizon partially altered parent material
  • The O, A, and B horizons together are called the
    solum, or true soil

29
Soil
  • Classifying soils
  • Variations in soil formation over time and
    distances has led to a great variety of
    recognized soil types
  • Groups have been established using common
    characteristics
  • In the United States a system is used called the
    soil taxonomy

30
Soil
  • Three very generic soil types
  • Pedalfer
  • Accumulation of iron oxides and Al-rich clays in
    the B horizon
  • Best developed under forest vegetation
  • Pedocal
  • High accumulations of calcium carbonate
  • Associated with dry grasslands and brush
    vegetation
  • Laterite
  • Hot and wet tropical climates
  • Intense chemical weathering

31
Soil
  • Factors controlling soil formation
  • Parent material
  • Residual soil parent material is the underlying
    bedrock
  • Transported soil forms in place on parent
    material that has been carried from elsewhere and
    deposited

32
Soil
  • Factors controlling soil formation
  • Time
  • Important in all geologic processes
  • Amount of time for soil formation varies for
    different soils depending on geologic and
    climatic conditions
  • Climate
  • Most influential control of soil formation
  • Key factors are temperature and precipitation

33
Soil
  • Factors controlling soil formation
  • Plants and animals
  • Organisms influence the soils physical and
    chemical properties
  • Also furnish organic matter to the soil
  • Slope
  • Steep slopes often have poorly developed soils
  • Optimum terrain is a flat-to-undulating upland
    surface

34
Factors controlling soil formation
  • Parental material
  • Time
  • Climate
  • Plants animals
  • Slope

35
Soil
  • Soil erosion
  • Part of the natural recycling of earth materials
  • Natural rates of soil erosion depend on
  • Soil characteristics
  • Climate
  • Slope
  • Type of vegetation

36
Soil
  • In many regions soil erosion is much greater than
    the rate of soil formation
  • Sedimentation and chemical pollution
  • Related to excessive soil erosion
  • Occasionally soil particles are contaminated with
    pesticides

37
End of Chapter 6
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