Earth: An Introduction to Physical Geology PDF

Summary

This textbook, "Earth: An Introduction to Physical Geology", provides an introduction to the subject of physical geology. The book covers topics such as the science of geology and the difference between physical and historical geology. It also discusses the scientific method and scientific inquiry, and includes questions to test understanding and application

Full Transcript

Earth: An Introduction to Physical Geology
Thirteenth Edition

Chapter 1 Lecture

An Introduction to Geology

Copyright @ 2021 Regina Capuano

Copyright © 2020, 2017, 2014 Pearson Education, Inc. All Rights Reserved
The Science of Geology (1 of 4)
Geology is the study of the Earth
– Physical geology (this course) – study of earth materials
and the processes that operate beneath and on the surface
of our planet

– Historical geology – study of the origin of Earth and its
development through time

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The primary difference between Physical
and Historical Geology is that________.
a. Historical Geology is about what people experienced on Earth in the
past and Physical Geology is about the shape of Earth.
b. Physical Geology is about modern time and Historical Geology is
about the past.
c. Physical Geology is about the processes that have shaped Earth over
time and Historical Geology is about how we can reconstruct the
record of change on Earth.
d. Physical Geology is the study of rocks and Historical Geology is the
study of fossils.
The Science of Geology (1 of 4)
Geologist study the earth
It involves both outdoor fieldwork and laboratory work
Geologists need a background in geology, chemistry,
physics, mathematics, biology, and programing.
 The Science of Geology (2 of 4)
Geology has an influence on people and on the environment.
Similarly, people have an influence on geology and the
environment.
As the world population increases the greater our influence on
Natural hazards
Global climate change
Resources Now predicting a population decline
The Science of Geology (3 of 4)
Natural hazards are natural processes that become a hazard
when they occur where people live.
– volcanoes, floods, tsunamis, earthquakes, and landslides.
– As the world population increases more people must live where
they risk death and damage from significant geologic hazards.

Earthquake in Ecuador
The Science of Geology (4 of 4)
Global climate change is naturally variable, however human activity
(and increased population) influences this change
Resources – Earth is a source of resources
– water, soil, metallic and nonmetallic minerals, and energy
– increased population stresses our limited supply of resources

Open pit mine in southern Arizona
The Development of Geology
Before 1795, it was thought Earth’s landscapes were shaped primarily
by catastrophes (Catastrophism)
In 1795 – James Hutton (note you do not need to memorize this date or name)
– Uniformitarianism- The physical, chemical, and biologic laws that
operate today have operated throughout the geologic past
The present is the key to the past
– Used to prove Earth is very old (Earth is 4.6 billion years old)
Earth processes vary in intensity but still take a very long time
to create or destroy major landscape features.
The magnitude of geologic time involves millions and billions of
years.
Slow Fast

Monument Valley, AZ. Meteor Crater, AZ
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We have lots of examples of catastrophic natural events,
like earthquakes, hurricanes, and landslides. So how do
geoscientists explain these events when Uniformitarianism
appears to describe only slow processes and this view
replaces Catastrophism?
a. Earthquakes, hurricanes, and landslides are not part of geology.
b. Catastrophes happen but they do not obey the concept of
Uniformitarianism, so scientists cannot predict them.
c. Catastrophes happen and they are explained by Uniformitarianism,
because the processes that cause them are known.
d. Catastrophes do not really happen. The news reports tend to
exaggerate some relatively minor events that scientists understand
well.
The Nature of Scientific Inquiry –
don’t be fooled

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The Nature of Scientific Inquiry
How or why things happen are explained using the Scientific Method.
Scientific Method – the process by which researchers raise
questions, gather data, and formulate and test scientific hypotheses
– Observations – are statements based on data.
– Hypothesis – is an untested explanation of observations
– Theory - a well-tested and widely accepted view that the scientific
community agrees best explains certain observable facts. A well
tested and accepted hypothesis becomes a theory.
A Theory is NOT a law of nature, it could still at some time in
the future be changed.

Assumption (something accepted as true where no proof is given)
should not be used in scientific inquiry. This is NOT the scientific
method.
Measurements show that climate is changing at an
alarmingly fast rate, but the details of the mechanism for
the change are still being worked out. Does this make
global climate change a Theory, Hypothesis, Observation,
Fact, or a completely disproven idea?

a. Theory
b. Hypothesis
c. Assumption
d. Observation
e. Disproven Idea
“alarming fast rate” is an
observation, why it is happening
would be a hypothesis.
Earth as a System (1 of 5)

Earth is a dynamic body with
many separate, but interacting,
parts (spheres):
– Hydrosphere - global ocean
and fresh water
– Atmosphere - gaseous
envelope
– Geosphere - the solid Earth
– Biosphere - all plant and
animal life
Earth as a System (2 of 5)
Earth’s system is a group of interacting parts that form a
complex whole.
Earth system science:
– Aims to study Earth as a system composed of
numerous interacting parts
– Employs an interdisciplinary approach to solve global
environmental problems
 Earth as a System (3 of 5)
Interactions in Earth’s system can have a profound effect
on plants and animals (including humans)
– For example, in Southern California, drought results in deadly fires
and loss of vegetation.
– Later heavy rains on the slopes without vegetation, result in
flashfloods and mudflows.

A year after fires, deadly mudflows following heavy rain. Montecito, California,162018
Earth as a System (4 of 5)
Cycles within the Earth System
External processes
– occur above Earth’s
surface
– The hydrologic cycle
Internal processes
– occur beneath Earth’s
surface
– The rock cycle

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Earth as a System (5 of 5)
Processes that occur in the Earth System are
powered by
Sun’s heat which drives the
external processes of the
hydrologic cycle.
Internal heat of Earth from
radioactive decay which
drives the internal processes
or the rock cycle

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 Origin and Early Evolution of Earth
4.6 Billion years ago material accumulated forming Earth
which had no layers.
After accumulating, Earth was hot enough that it melted, at
which point density differences of the elements resulted in
chemical differentiation.
– More dense metals (iron and nickel) sank to the center
forming the iron and nickel core.
– Less dense elements (oxygen, silica and aluminum)
rose to the surface as molten rock producing the crust.
This created the three compositional layers of the Earth’s
interior: core, mantle, and crust
– At the same time, a primitive atmosphere evolved from
volcanic gases
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Earth has three compositional layers
– Crust – a thin outer skin, divided into
▪ Oceanic crust crust
▪ approximately 7 kilometers thick
▪ Basaltic composition composed of the
rock basalt. mantle
▪ Continental crust
▪ 35–70 kilometers thick
core
▪ granitic composition composed
primarily of the rock granodiorite
– Mantle - approximately 2900 kilometers
thick and composed of the rock
peridotite
– Core - composed of an iron-nickel alloy

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Earth has five physical layers
Earth is divided into layers based on physical
properties (whether solid or liquid, rigid or soft).
Lithosphere – solid and rigid
– Consists of the crust and upper-most mantle
Asthenosphere
– solid but mobile, soft, and weak because
very near its melting temperature.
– Part of upper mantle
Transition zone – solid, marked by a sharp
increase in density.
– Middle mantle
Lower Mantle – solid, strong, very hot rocks
subjected to gradual flow
Outer core –
– liquid (gives earth its magnetic field
Inner core - solid
 Continental Crust Oceanic Crust
(Granitic composition) (Basaltic composition)
Granodiorite
Basalt

Mantle
Granite (ultramafic composition)
Peridotite

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Chemical differentiation, which led to the formation of
chemical layers in the Earth, is based on what property of
the materials involved?

a. pressure
b. temperature
c. density
d. viscosity
Lithosphere versus continental and oceanic crust.

Chemical Layers

Physical Layers

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Thickness of Earth’s crust (km)
▪ Oceanic crust approximately 7 kilometers thick
▪ Continental crust 35–70 kilometers thick

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Sourcehttp://quake.wr.usgs.gov/research/structure/CrustalStructure/abstract.html
 Rocks
Rocks are composed of minerals
Minerals are a chemical compound or an element, each
with its own composition and physical properties.
A rock’s mineral composition and texture give information
the geologic processes that created it.
– Texture is the size, shape or arrangement of minerals
Mineral grains or crystals can be large or microscopic

Coursed grained texture Fine grained texture Glassy texture

Granite Basalt

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Rocks and the Rock Cycle
Rocks are divided into three major groups: The Rock Cycle
– igneous, sedimentary, and metamorphic
Igneous rocks – Form from cooling and
solidification of molten rock
Sedimentary rocks - Form from sediments
undergoing lithification (which means
“conversion into rock”) usually by compaction
and/or cementation
– The sediments are derived from
weathering of preexisting rocks
– Form on Earth’s surface
Metamorphic rocks - Form by transforming
(without melting) preexisting igneous,
sedimentary, or other metamorphic rocks
– Driving forces are heat and pressure
The Face of Earth
Earth is covered with either
– continents (continental crust) 40%
– ocean basins (oceanic crust) 60%

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The Face of Earth - Continents
Cratons - the stable interiors of continent that have been undisturbed
for the last 100 million years
– Shield – expansive flat area of old (weathered down) deformed
crystalline rocks that are the exposed portion of the craton.
– Stable platforms – portion of the craton covered with a thin layer
of young sediments weathered off the shield.
Mountain Belts – occur on the edges of some cratons.

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 The Face of Earth – Ocean Floor
Continental margins – seafloor that is adjacent to major landmasses.
– Tectonically inactive continental margins
Continental shelf – portion of the continental crust that extend
from the coastline
Continental slope - steep drop-off that marks the true edge of
the continent (note the edge is not at the coastline).

Granitic
Basalt
The Face of Earth – Ocean Floor (2 of 3)
Continental margins (cont.) –
– Tectonically active continental margins
Deep Ocean Trenches – deep, narrow depressions at
subduction zones

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 Review
Compare the two types of continental margins
on the ocean floor.
tectonically inactive tectonically active
continental slope subduction zone

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The Face of Earth – Ocean Floor (3 of 3)

Abyssal plain - flat featureless expanse in the deep ocean.
– Seamounts - volcanic structures that dot the ocean floor.
Oceanic ridges (mid-ocean ridges) are the most prominent
feature on the ocean floor and are composed of igneous rock
that has been fractured and uplifted.
The Face of Earth (3 of 6)
Abyssal plain - flat featureless expanse in the deep ocean.
Seamounts - volcanic structures that dot the ocean floor.
Oceanic ridges (mid-ocean ridges) are the most prominent
feature on the ocean floor and are composed of igneous rock
that has been fractured and uplifted.
Chapter 1 figure from GEODE Earth

A
B
C
D

Oceanic Crust

Continental crust

Lithosphere
Asthenosphere
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 Key Words
Geology Asthenosphere Stable Interior
Physical geology Transition Zone Craton
Historical geology Lower Mantle Shield
Earth system Inner core Stable Platform
Hydrologic cycle Outer core Continental Margin
Rock cycle Oxygen = O Continental Shelf
Catastrophism Silica = Si Continental Slope
Uniformitarianism Aluminum = Al Deep ocean basin
Hypothesis Iron = Fe Ocean (mid-ocean) ridge
Theory Magnesium = Mg Deep-ocean trench
Scientific Method Sodium = Na Abyssal plain
Chemical layers Potassium = K Volcanic arc
Density Granite Sediment
Crust Granodiorite Sedimentary rock
Mantle Basalt Metamorphic rock
Core Peridotite Igneous rock
Fe-Ni Alloy Continental Crust Magma
Physical layers Oceanic Crust
Lithosphere Mountain belts

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 The End
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