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Transcript 
Introducing Geology and an
Overview of Important Concepts
Physical Geology, Chapter 1
Tim Horner
CSUS Geology Department
[email protected]
(916) 278-5635
Office hours: M, Tu, Th 11:00 - 12:00
or by appointment
Web Resources:
1) Access www.mhhe.com\Plummer11e
2) Click on “Resources” tab at top of page
3) Choose a chapter
4) Select an activity
Geology in Today’s World
• Geology - The scientific study of the Earth
– Physical Geology is the study of Earth’s materials,
changes of the surface and interior of the Earth, and the
forces that cause those changes
• Practical Aspects of Geology
– Natural resources
– Geological hazards
– Environmental protection
Practical Aspects of Geology
• Natural Resources
– All manufactured objects
depend on Earth’s resources
– Localized concentrations of
useful geological resources
are mined or extracted
– If it can’t be grown, it must
be mined
– Most resources are limited in
quantity and non-renewable
Resource Extraction and
Environmental Protection
• Coal Mining
– Careless mining can release acids
into groundwater
• Petroleum Resources
– Removal, transportation and waste
disposal can damage the
environment
Alaska pipeline
• Dwindling resources can encourage disregard for
ecological damage caused by extraction activities
Geologic Hazards
• Earthquakes
– Shaking can damage buildings and
break utility lines; large undersea
quakes may generate tsunamis
• Volcanoes
– Ash flows and mudflows can
overwhelm populated areas
• Landslides, floods, and wave
erosion
Physical Geology Concepts
• Earth’s Heat Engines
– External (energy from the Sun)
• Primary driver of atmospheric (weather) and
hydrospheric (ocean currents) circulation
• Controls weathering of rocks at Earth’s surface
– Internal (heat moving from hot interior to
cooler exterior)
• Primary driver of most geospheric phenomena
(volcanism, magmatism, tectonism)
Earth’s Interior
• Compositional Layers
– Crust (~3-70 km thick)
• Very thin outer rocky shell of Earth
– Continental crust - thicker and less dense
– Oceanic crust - thinner and more dense
– Mantle (~2900 km thick)
• Hot solid that flows slowly over time;
Fe-, Mg-, Si-rich minerals
– Core (~3400 km radius)
• Outer core - metallic liquid; mostly iron
• Inner core - metallic solid; mostly iron
Earth’s Interior
• Mechanical Layers
– Lithosphere (~100 km thick)
• Rigid/brittle outer shell of Earth
• Composed of both crust and
uppermost mantle
• Makes up Earth’s tectonic “plates”
– Asthenosphere
• Plastic (capable of flow) zone on
which the lithosphere “floats”
Theory of Plate Tectonics
• Continental Drift Hypothesis
– Originally proposed in early 20th century to
explain the “fit of continents”, matching rock
types and fossils across ocean basins, etc.
– Insufficient evidence found for driving
mechanism; hypothesis initially rejected
• Plate Tectonics Theory
– Originally proposed in the late 1960s
– Included new understanding of the seafloor
and explanation of driving force
– Describes lithosphere as being broken into
plates that are in motion
– Explains origin and distribution of volcanoes,
fault zones and mountain belts
Tectonic Plate Boundaries
• Divergent boundaries
– Plates move apart
– Magma rises, cools and forms new lithosphere
– Typically expressed as mid-oceanic ridges
• Transform boundaries
– Plates slide past one another
– Fault zones, earthquakes mark boundary
– San Andreas fault in California
• Convergent boundaries
– Plates move toward each other
– Mountain belts and volcanoes common
– Oceanic plates may sink into mantle along a subduction
zone, typically marked by a deep ocean trench
Tectonic Plate Boundaries
• Divergent boundaries
– Plates move apart
– Magma rises, cools and forms new lithosphere
– Typically expressed as mid-oceanic ridges
• Transform boundaries
– Plates slide past one another
– Fault zones, earthquakes mark boundary
– San Andreas fault in California
• Convergent boundaries
– Plates move toward each other
– Mountain belts and volcanoes common
– Oceanic plates may sink into mantle along a subduction
zone, typically marked by a deep ocean trench
Tectonic Plate Boundaries
• Divergent boundaries
– Plates move apart
– Magma rises, cools and forms new lithosphere
– Typically expressed as mid-oceanic ridges
• Transform boundaries
– Plates slide past one another
– Fault zones, earthquakes mark boundary
– San Andreas fault in California
• Convergent boundaries
– Plates move toward each other
– Mountain belts and volcanoes common
– Oceanic plates may sink into mantle along a subduction
zone, typically marked by a deep ocean trench
Geologic Time
• “Deep” Time
– Most geologic processes occur gradually
over millions of years
– Changes typically imperceptible over the
span of a human lifetime
– Current best estimate for age of Earth is
~4.56 billion years
• Geologic Time and the History of Life
– Complex life forms first became abundant about
544 million years ago
– Reptiles became abundant ~230 million years ago
– Dinosaurs became extinct (along with many other
organisms) ~65 million years ago
– Humans have been around for a few million years
• “Nothing hurries geology”
Mark Twain
End of Chapter 1
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