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The Lithosphere and the Hydrosphere

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Title: The Lithosphere and the Hydrosphere


1
The Lithosphere and the Hydrosphere
  • Observatory Chapter 6 pages 182-219

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2
Why study the lithosphere and hydrosphere?
  • The earths crust, freshwaters and oceans have
    given humans the means to survive and prosper.
  • Thanks to the resources provided by the
    lithosphere and hydrosphere, we have built
    cities, farmed landscapes, developed
    technologies, fuelled engines and acquired our
    food.

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3
The Lithosphere
  • Observatory textbook pages 183-200

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1. The Lithosphere
  • The lithosphere is the hard shell of the Earth,
    consisting of the crust and the topmost part of
    the upper mantle.
  • It is an average of 100km thick.
  • It contains the minerals, rocks and soils that
    humans have used for building materials, metals
    and agriculture.

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1.1 Minerals
  • Minerals are solid inorganic substances with
    clearly defined composition and properties.
  • In most minerals atoms are organized in the form
    of identically shaped crystals.
  • Each mineral has its own distinct chemical
    composition.
  • 4000 different minerals exist on Earth.

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6
Examples of Minerals
  • Gold (Au)
  • Copper (Cu)
  • Iron (Fe)
  • Quartz (SiO2)
  • Copper sulfate (CuSO4)

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Gold Ore
Quartz
7
Classifying Minerals
  • Minerals are classified according to the
    following 4 properties
  • Colour
  • Transparency
  • Hardness
  • Streak

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1. Colour
  • Idiochromatic minerals have a characteristic
    colour.
  • eg azurite is blue
  • Allochromatic minerals vary in colour.
  • eg quartz

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2. Transparency
  • Minerals are one of the following
  • Transparent (let light pass through)
  • Translucent (let light through but blurred)
  • Opaque (no light passes through)

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10
3. Hardness
  • Minerals are classified according to how hard
    they are.
  • Mohs scale assigns a value from 1 to 10 to
    indicate a minerals hardness.
  • Talc is soft and scores a 1 on Mohs scale
  • Quartz scores a 7
  • Diamond scores a 10

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4. Streak
  • When a mineral is rubbed on a surface it leaves a
    powder streak that is a characteristic colour for
    that mineral.

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Mining of Minerals
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Mining of Minerals
  • Minerals are extracted from rock ores which are
    mined from the lithosphere.
  • Quebec is known for large deposits of gold,
    copper, zinc, and most recently diamonds.
  • Once the ore is extracted, the mineral is
    separated from the rock by chemical and physical
    means.

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14
1.2 Rocks
  • Rocks are heterogenous solids composed of many
    minerals.
  • The physical and chemical properties of rocks are
    not strictly defined.
  • There are 3 types of rocks
  • Igneous
  • Sedimentary
  • Metamorphic

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15
1. Igneous Rocks
  • Formed when magma (molten rock) cools and
    solidifies
  • eg granite

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16
2. Sedimentary Rocks
  • Formed by the accumulation and compaction of
    debris at the bottom of lakes and oceans.

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Limestone is a sedimentary rock used in
construction
17
3. Metamorphic Rocks
  • Former igneous or sedimentary rocks that have
    been transformed by heat or pressure underground.
  • eg granite turns to gneiss
  • eg limestone turns to marble

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18
1.3 Soils
  • As rock erodes due to rain, frost and wind, the
    fragments of rock mix with decomposing plants and
    animals.
  • Eventually, soil is produced.
  • It takes 200 years to form 1cm of soil!

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19
Soil Horizons
  • As soils thicken they form distinct layers called
    horizons.

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20
Importance of Soils
  • Soils absorb, filter and store water.
  • Create a habitat for micro-organisms that
    decompose organic matter.
  • Create a habitat for a variety of insects and a
    nutrient source for plants.
  • Resist changes in pH through their buffering
    capacity. Soils can neutralize acids or bases.

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21
Environmental Damage to Soils
  • The use of heavy machinery compacts the soil
    which reduces the oxygen content and prevents
    rain from penetrating the rainwater runoff
    carries away the nutrients needed for plant
    growth.
  • Accelerated crop rotation prevents soils from
    regenerating nutrients naturally as a result
    more fertilizers have to be used.
  • Excessive use of pesticides contaminate the soil
    and can reduce biodiversity by killing many
    beneficial microorganisms and insects.

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22
1.4 Permafrost
  • Soils that are permanently frozen
  • 50 of Canada is covered in permafrost
  • Can be up to 500m thick
  • Found at high latitudes and altitudes
  • Makes construction difficult
  • If the permafrost melts, the ground becomes
    unstable.

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Permafrost
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24
1.5 Energy Resources from the Lithosphere
  • Fossil Fuels
  • Uranium
  • Geothermal Energy

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25
Fossil Fuels
  • Coal, oil, natural gas
  • 60 of the worlds energy supply
  • formed from the remains of dead plants and
    animals (p. 196)
  • When organisms died they sank to the bottom of
    lakes and oceans and were covered with layers of
    sediment
  • Over millions of years they slowly turned to
    fossil fuels

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Problems with Fossil Fuels
  • When fossil fuels burn they release thermal
    energy (heat) which can be converted into
    mechanical or electrical energy (eg car engine,
    home heating).
  • Fossil fuels will eventually run out within the
    next few decades.
  • Furthermore, burning fossil fuels produces gases
    which are damaging to the environment.

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29
Gases released when burning fossil fuels
  • CO2 and CO ? major greenhouse gases
  • SO2 and NOx ? creates acid rain
  • NOx ? produces smog
  • Note that the fossil fuel natural gas or methane
    (CH4) is itself a greenhouse gas 21 times more
    powerful than CO2

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30
Uranium
  • Uranium is a radioactive element found in the
    lithosphere.
  • When the nuclei of uranium atoms split a huge
    amount of energy is released (nuclear fission).
  • This nuclear energy can be harnessed and
    converted into electrical energy inside a nuclear
    power plant.

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31
Advantages of Nuclear Energy
  • lt 1 kg of uranium can produce as much electrical
    energy as 70 000 kg of coal.
  • Fission of the uranium atoms does not release
    greenhouse gases.

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32
Disadvantages of Nuclear Energy
  • The energy emitted from fission is accompanied by
    radioactivity.
  • Risk of an accident a constant concern.
  • Waste is produced which remains radioactive for
    hundreds of years.
  • There is no method to neutralize radioactivity
    so the waste is stored underwater in large pools
    or buried in old mines.

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Geothermal Energy
  • Molten rock beneath the lithosphere contains a
    huge amount of heat energy.
  • To harness this geothermal energy a fluid is
    circulated deep underground which heats up and
    rises to the surface with a higher temperature.
  • This warm fluid can be used to heat buildings
    (eg Carleton University).
  • Geothermal energy is renewable and non-polluting
    (no greenhouse gas emissions).
  • A few geothermal systems for heating buildings
    are now in use but they remain expensive to
    construct.

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35
Lithosphere Review
  • Answer questions 1 to 19 on pages 214-215
  • Use your notes and refer to pages 183 to 200 in
    Observatory to guide you in your responses

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