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GEO7
NELSON
AUTHOR TEAM
Graham Draper, formerly York Region DSB
Ethel Johnston, formerly Toronto DSB
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Nelson GEO7
Authors
Graham Draper
Ethel Johnston
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2014-04-16 1:25 PM
NELSON GEO7 Advisors and Reviewers
ADVISOR TEAM
Lew French, O.I.S.E, University of Toronto
Stephanie Giannatselis, Halton DSB
Mark Lowry, Toronto DSB
Jonathan Rajalingam, Simcoe Muskoka Catholic DSB
SPECIALTY REVIEWERS
Wilfred Burton, First Nations, Métis, and Inuit
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Nancy Christoffer, Bias
CLASSROOM REVIEWERS
Leslie Blais-Omerod, Rainbow DSB
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Todd Horn, Sudbury Catholic DSB
Joanne Kenney, Halton Catholic DSB
Tara Kydd-Wintle, Kawartha Pine Ridge DSB
Steven Ladewig, Durham Catholic DSB
Janice Maggio, Halton DSB
Cindy J. McNeice, Simcoe County DSB
Kathy Morris, Lambton Kent DSB
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Adriana Silvestre, Toronto Catholic DSB
Sharon You, Peel DSB
Robert Zavitz, Ottawa Carleton DSB
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TABLE OF
CONTENTS
USING THIS RESOURCE
WHAT IS GEOGRAPHY?
Why Study Geography?
CASE STUDY: The Kayapo of Brazil
UNIT 1 PHYSICAL PATTERNS IN
A CHANGING WORLD
GLOBAL CONCERN: Global Disaster: Earthquake in the
Indian Ocean
UNIT 1 CHALLENGE: Design a Natural Disaster
Response Plan
CHAPTER 1: LANDFORM PATTERNS
VI
2
4
5
12
14
15
16
What Are Landforms?
18
READING ELEVATION ON MAPS22
How Are Landforms Created and Changed?
26
FOCUS ON: Patterns and Trends
29
How Do We Respond to Challenges Caused
by Earth’s Forces?
34
FOCUS ON: Formulate Questions
36
HEROES IN ACTION: Bilaal Rajan: Helping Victims
of Haiti’s Earthquake
38
CASE STUDY: Eyjafjallajökull: Icelandic Hot Spot
40
LOOKING BACK: CHAPTER 1 42
iv
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TABLE OF CONTENTS
CHAPTER 2: CHANGING PATTERNS OF CLIMATE
44
Why Is Climate Important?
46
NATIONAL GEOGRAPHIC CASE STUDY: Australia’s Water Woes 50
How Do We Describe Climate?
54
READING CLIMATE GRAPHS55
MAKING CLIMATE GRAPHS58
What Factors Affect Climate?
60
GEOGRAPHY AT WORK: Climatologist
62
FOCUS ON: Gather and Organize
63
What Causes Climate Change?
66
HEROES IN ACTION: Alec Loorz: Kids vs Global Warming 69
LOOKING BACK: CHAPTER 2 72
CHAPTER 3: CHANGING PATTERNS OF
NATURAL VEGETATION
74
Why Is Vegetation Important?
76
How Do Natural Factors and Vegetation Interact?
84
READING THEMATIC MAPS85
How Are We Affecting Natural Vegetation?
90
HEROES IN ACTION: Felix Finkbeiner:
Plant-for-the-Planet92
How Do Changing Vegetation Patterns Affect Species? 94
FOCUS ON: Spatial Significance
96
CASE STUDY: Saving Brazil’s Atlantic Forest
98
LOOKING BACK: CHAPTER 3 100
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CHAPTER 4: PATTERNS OF RIVERS AND OCEANS
102
Why Are Earth’s Water Systems Important?
104
What Are the Characteristics of Rivers and Oceans? 108
READING AND ANALYZING TOPOGRAPHIC MAPS110
GEOGRAPHY AT WORK: Marine Geologist
112
How Are We Changing Rivers and Oceans?
116
FOCUS ON: Interpret and Analyze
119
NATIONAL GEOGRAPHIC CASE STUDY:
China’s Powerful Rivers
122
How Can We Protect Earth’s Rivers and Oceans?
126
HEROES IN ACTION: Naomi Estay Casanova and
Omayra Toro Salamanca: Protecting the
Antarctic from Oil Spills
128
LOOKING BACK: CHAPTER 4 130
LOOKING BACK: UNIT 1 UNIT 2 OUR WORLD’S NATURAL
RESOURCES: USE AND SUSTAINABILITY
GLOBAL CONCERN: Global Goods, Local Costs:
Leather Processing in Bangladesh
UNIT 2 CHALLENGE: Create a Personal Plan of Action
CHAPTER 5: OUR NEEDS AND WANTS
AND THE ENVIRONMENT
132
134
136
137
CHAPTER 7: FLOW RESOURCES
138
How Do We Use Natural Resources?
140
NATIONAL GEOGRAPHIC CASE STUDY: Tourists Threaten
Antarctica146
How Does Our Use of Natural Resources Vary?
150
How Do We Measure the Impact of Our Natural
Resource Use?
154
ANALYZING AND CREATING THEMATIC MAPS156
How Are We Addressing Our Use of Natural
Resources?160
FOCUS ON: Geographic Perspective
161
HEROES IN ACTION: Adeline Tiffanie Suwana:
Sahabat Alam
163
LOOKING BACK: CHAPTER 5 166
CHAPTER 6: RENEWABLE RESOURCES
168
What Are Renewable Resources?
170
FOCUS ON: Evaluate and Draw Conclusions
172
How Do We Use and Misuse Soil?
174
HEROES IN ACTION: Kehkashan Basu:
Green Hope UAE
177
MAKING AND READING CIRCLE GRAPHS178
Why Care about Fish?
180
How Renewable Are Forests?
184
GEOGRAPHY AT WORK: Zoologist
187
CASE STUDY: Protecting Natural Resources in India
190
LOOKING BACK: CHAPTER 6 192
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194
Why Are Flow Resources Important?
196
CREATING SPATIAL JOURNALS199
What Are the Challenges Facing Flow Resources?
202
GEOGRAPHY AT WORK: GIS Analyst
205
HEROES IN ACTION: Avani Singh: Ummeed
207
NATIONAL GEOGRAPHIC CASE STUDY:
Argentina’s Sunny Future
210
How Do We Use Flow Resources for Energy?
214
FOCUS ON: Interrelationships
218
LOOKING BACK: CHAPTER 7 220
CHAPTER 8: NON-RENEWABLE RESOURCES 222
Why Are Non-renewable Resources Important?
224
CREATING GIS MAPS227
How Do We Extract Fossil Fuels?
230
How Do We Extract Minerals?
236
FOCUS ON: Communicate
239
CASE STUDY: Conflict Minerals in the Democratic
Republic of the Congo
242
What Is the Future of Non-renewable Resources?
244
HEROES IN ACTION: Ben Powless: Eco-Activist
246
LOOKING BACK: CHAPTER 8 248
LOOKING BACK: UNIT 2 250
GLOSSARY252
INDEX255
CREDITS260
TABLE OF CONTENTS
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USING THIS
RESOURCE
INTRODUCTION
The discipline of geography
is introduced in the
Introduction, as well as the
inquiry skills and geographic
thinking concepts you
will be using throughout
the resource. Use the
Introduction as a reference
that you can turn back to
throughout this resource.
THINKING LIKE
A GEOGRAPHER
GEOGRAPHIC PERSPECTIVE
Studying geography helps you develop ways of thinking about the world.
There are four geographic thinking concepts that are unique to geographic
learning: interrelationships, spatial significance, geographic perspective,
patterns and trends. You can explore the Kayapo case study by examining it
through the lens of each thinking concept.
Geographers study a wide range of issues
facing people and the planet today. Every
issue has supporters and opponents that
reflect environmental, political, economic,
and social values. It is important to know
and examine all perspectives, or points
of view, in order to determine a plan of
action to resolve the issue. This way, we
understand how our plan will affect others.
These various perspectives are based on
the beliefs and value systems of the people
and groups involved. Geographers need to
listen to what people say about a specific
problem and consider the following values:
• environmental: related to the use of the
natural world
• political: related to decisions made by a
governing body
INTERRELATIONSHIPS
• How do people change the physical
environment?
• How do these connections affect the lives
of people living in a specific area?
The Kayapo people have focused on
maintaining a traditional lifestyle of hunting
and fishing. They connect with the land and
try not to change it. The chiefs appreciate
the importance of land ownership and
use twenty-first century technology to
try to protect it. However, a planned
dam development is threatening their
environment and way of life.
PATTERNS AND TRENDS
Once we know about a specific place, we
want to compare its characteristics with
characteristics of other places. That helps us
to determine similarities and differences—
that is, whether there are any patterns.
Patterns are arrangements or similarities
in characteristics. Trends are patterns in
how something is changing or developing.
As you learn about the characteristics of
the natural environment, think about the
patterns that exist and ask questions about
them, such as the following:
• What characteristics are similar or repeat
in different places?
• What causes these patterns?
• Do all places have similar patterns?
• What has happened over time in
particular places?
SPATIAL SIGNIFICANCE
Spatial refers to something that exists or
occurs in a space. Spatial significance relates
specifically to where places are located
on the planet. To indicate where a place is,
geographers talk about its
• absolute location: the precise position
of a place; for example, the Kayapo
territories are at latitude 7.98°S, longitude
53.03°W
• relative location: where a location is
compared to other places around it; for
example, the Kayapo territories are south
of the Amazon River Basin
Significance means importance. So
spatial significance can be defined as the
importance of a place and those things that
are around it.
In the Kayapo case study, we can use maps to
locate where the Kayapo people live. Latitude
and longitude can give us the precise location
of the Kayapo territories. But, this place is
also important to others because it will help
them meet their energy needs. People value
or see the significance differently.
The case study tells us some precise details
about the physical characteristics of the area,
such as its location in the Amazon River Basin.
INTRODUCTION: What Is Geography?
NEL
WHAT IS
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They might even spark a new inquiry question! Or
you may not reach a conclusion because you need
different sources of evidence. Then you may have
to go through the inquiry process again. Remember
that it’s possible to draw many different conclusions
from the same evidence, and there is no one “right”
answer.
In the Kayapo case study, what evidence could
help you to draw a logical conclusion?
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
NEL
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INTRODUCTION: What Is Geography?
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INTERPRET AND ANALYZE > >
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Think about the evidence you collect
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EVALUATE AND DRAW
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CONCLUSIONS
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your evidence by thinking about how it
> > Evaluate
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supports or doesn’t support your inquiry question.
>
> >Use your new understanding and what you already
> > to draw conclusions about your inquiry
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know
>
> >Your conclusions might be quite different
>
question.
> you thought you would find.
from the answers
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inquiry question, evidence, and
conclusions are clear and engaging
to your intended audience. When
geographers communicate their
findings, people learn about the
world around them.
If you were presenting the
Kayapo case study, what format
would you use?
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00a_geo7_fm.indd 6
USING THIS RESOURCE
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vi
INTRODUCTION: What Is Geography?
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Good inquiry questions
• are important and meaningful to us
• are open-ended; they do not have just one
final and complete answer
• can be answered by gathering evidence
• need support; to explain and prove your
answers, you need to provide evidence
and facts
It can be challenging to come up with a
good inquiry question, but it is worth spending
the time to formulate one.
How are the Kayapo people using
twenty-first century technology to protect
a traditional lifestyle?
>>>
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>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
FORMULATE QUESTIONS
Collect your data, keeping your inquiry
question in mind. Your data will come
from field studies, primary sources, and
secondary sources. Primary sources are maps,
photographs, satellite images, letters, journals,
and other types of documents. Secondary
sources are often based on analysis of primary
data, such as documentaries, news articles,
reference books, or websites. Organize your
evidence so that you are using sources
connected to your inquiry question.
What geographic clues are found in the
Kayapo case study that give you an idea of
the characteristics of where the Kayapo live?
Where do you think the author might have
found this information?
7
You can communicate your findings
in many different ways, including
>>
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GATHER AND ORGANIZE
If we look at a map of the Kayapo territory,
such as the one on page 10, we might see
a pattern of forests and deforestation. The
case study tells us that the Kayapo have
maintained a traditional lifestyle and have
protected their land from development. It
also tells us that the chiefs are concerned
about development that is going on around
them. We could find out how development
has affected similar communities around
the world. Then we could try to draw some
conclusions about what might happen to the
Kayapo in the future.
spatial journals,
blog posts, slide
>>>
shows,
and presentations. When
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> > > >you communicate, make sure your
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In any geography course, you will be asked
to find out about topics that connect to
physical geography, natural resources, and
related issues. Doing research can seem
like a very complicated process, but by
breaking it down into smaller pieces,
you can make it more manageable.
Once you have a topic or issue that
you want to learn more about, you
can gather, organize, and analyze
information in various stages. How
can you use the inquiry process to
examine the Kayapo case study?
This will help you expand your
understanding of the world around you.
INTRODUCTION: What Is Geography?
COMMUNICATE
GEOGRAPHIC
INQUIRY?
• What might happen in the future?
• How do these patterns affect the lives of
people living there?
NEL
>>
>
6
In the Kayapo case study, the government
of Brazil believes that the dam is essential
to develop industries. That is an economic
perspective. It may also be a political
perspective as the government’s supporters
want the development. However, for the
Kayapo, their way of life is being threatened.
They also agree with the environmentalists
who say that building dams will have a severe
impact on the environment. Understanding
different perspectives can give geographers
insight into how to develop alternative
solutions.
>>
When geographers look at the
significance of a place, they also look at
interrelationships. Interrelationships are the
connections between parts in one system,
or between two systems, such as between
the natural environment and human
environments.
Geographers examine interrelationships
by asking
• What characteristics do the physical and
human environments in a specific area
have?
• How are these systems connected?
• economic: related to opportunities to
make money in order to meet needs and
address wants
• cultural/social: related to protection of a
society
9
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2014-04-16 1:25 PM
UNIT OPENER
UNIT2
There are two units in
this book. Each unit has
four chapters.
These questions are from
the point of view of each
geographic thinking
concept. You will also see
these bubbles throughout
each chapter. The colours
will always connect
to the same thinking
concept. PINK means
Interrelationships, YELLOW
means Spatial Significance,
GREEN is Patterns and
Trends, and BLUE means
Geographic Perspective.
OUR WORLD’S NATURAL RESOURCES:
USE AND SUSTAINABILITY
GEOGRAPHIC
PERSPECTIVE
What different ideas
might groups of people
have about developing
this area?
SPATIAL
SIGNIFICANCE
What clues can you use
to decide where this photo
was taken?
RAL
WHY ARE NATURTANT?
PO
IM
S
CE
UR
SO
RE
PATTERNS
AND TRENDS
What do you think this
place might look like
in 100 years?
Natural resources are materials found in the environment that people
find useful or valuable. In some parts of the world, it’s easy for people
to meet their needs. In other areas, it is much more challenging.
This satellite image shows the Irrawaddy River Delta, which runs
through Burma (Myanmar). Mangrove forests (in dark green) used to
line the whole shoreline of the delta before the area was cleared for rice
fields. Mangrove trees protect the local area from erosion and flooding.
Removing them has left nearby villages exposed to the sea.
INTERRELATIONSHIPS
How does the environment affect
the people who live nearby?
We use natural resources to meet our basic needs. This has led to an
overuse of natural resources, and they are being consumed faster than
they can be replaced.
In this unit, you will learn more about how we use natural resources, the
impact of that use, and communities around the world that are acting to
protect natural resources.
134
NEL
135
NEL
The Global Concern case studies take an
in-depth look at an issue related to the unit.
UNIT2
GLOBAL CONCERN
CHALLENGE
GLOBAL GOODS, LOCAL COSTS
LEATHER PROCESSING IN BANGLADESH
Bangladesh
N
Ga
Have you ever wondered where your leather boots, shoes, belt, or bag comes
from? Look at the label. Chances are that the leather goods were made
in Europe, North America, or Hong Kong, but the leather itself came from
Bangladesh. The government of Bangladesh has identified leather exporting
as a major source of economic development. There are even specific zones
within Dhaka, the capital city of Bangladesh, where the major employers are
tanneries, factories where animal skins are processed. Most of the tanneries
are in the district of Hazaribagh. More than 15 000 people, some as young
as 11 years old, work in Dhaka tanneries. In Bangladesh as a whole, about
4.7 million children work; many children go to Dhaka from rural Bangladesh,
where schooling is limited.
Work at the tanneries is very hazardous because of the toxic chemicals used
to soften the leather. Safety equipment (such as gloves, boots, and masks)
ng
INDIA
BANGLADESH
es
R iv
er
Dhaka
23.71°N, 90.40°E
Bay of Bengal
0
BURMA
(MYANMAR)
200 km
is scarce, so the workers use their bare hands
to apply the chemicals to the leather. Once
the leather is processed, the toxic waste is
dumped into the Buriganga River that runs
through the city. The water is so polluted that
scientists call it a dead zone: there is no life
in the water. However, there is no alternative
fresh water for the people who live near
the tanneries. It is not uncommon to see
women using the water to prepare food or
to wash clothes. People also use the water
for bathing. The tanneries are poisoning
the people who work at them, those who
live nearby, and even the people who live
hundreds of kilometres away, where the
polluted river water flows into farmland
and the Bay of Bengal.
Organizations such as Human Rights
Watch are lobbying the Bangladeshi
government to get the factory owners to
improve the environmental practices and
working conditions in these factories. One
researcher said it is difficult to explain how
polluted the environment is and how ill
the people are. The district of Hazaribagh
has been identified as one of the five most
polluted places on the planet. A report by
the World Health Organization states that
most tannery workers will die before they are
50 years old.
FIGURE U2.1 This waterway runs through the tannery
district in Dhaka, Bangladesh.
Geography 7 SB
EXPLORE THE ISSUE
0-17-659048-X
FN
CO
Pass
Approved
Not Approved
136
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00a_geo7_fm.indd 7
U02-F01-G07SB
Crowle Art Group
1. What does Figure U2.1 tell us about the
effect of the tanneries on Hazaribagh?
5th pass
2. How do your decisions about what
you wear and what you buy affect
the environment?
3. Look at U2.1. What questions do you
want to ask the children in the photo
or their families?
NEL
NEL
CREATE A
PERSONAL PLAN
OF ACTION
Throughout Unit 2, you will learn about different
kinds of natural resources. You will also learn
about how people use natural resources, and
about the impact of that use on the environment.
There are many individuals and groups that
would like to see resources used more sustainably,
that is, used in a way that does not completely
harm or deplete them. Everyone can make a
difference to the planet, including you. Maybe you
have never thought about what you can do to
protect the planet—here is your chance to start.
Even if you are already engaging in activities to
protect the natural environment, maybe there is
more you can do.
In the Unit 2 challenge, you will create
a personal plan of action and a persuasive
campaign for the sustainable use of a natural
resource. Your final product will include
• information about your selected natural
resource
• how the natural resource is removed from the
environment
• the environmental impact of removing and
using the natural resource
• the actions you can take to reduce the impact
and use of the resource
• alternatives to using the natural resource and
other solutions to the problem
This is an introduction to
the Unit Challenge, an
activity that you will work on
throughout the unit.
As you work through Unit 2, you will learn more
about natural resources and sustainability. Use
this information to develop your plan. At the
end of each chapter in Unit 2, you will have the
opportunity to review and add to your challenge.
137
USING THIS RESOURCE
vii
2014-04-16 1:25 PM
CHAPTER OPENER
Chapter openers introduce
the theme and content
covered in the chapter.
The main question that
you will explore in the
chapter
The skills and ideas that
you will cover in the
chapter
CHAPTER 3
CHANGING PATTERNS OF
NATURAL
VEGETATION
TURAL
AT EARTH’S NANG?
WHY CARE TH
GI
AN
CH
IS
VEGETATION
LEARNING GOALS
As you work through this chapter, you will
• identify patterns in the world’s natural vegetation
• describe how nature and humans change natural
vegetation patterns
• gain an awareness of the impact we have made on the
world’s natural vegetation
Grasslands and forests around the world are shrinking.
Deserts have always grown and shrunk over time due
to changes in climate and periods of drought. But
now, more of Earth’s surface is turning into desert. For
example, the grasslands on the edges of the Gobi Desert,
in China, are getting smaller every year. At the same
time, the Gobi Desert is growing by 3600 km2—about
two-thirds the area of Prince Edward Island—every year.
A major cause of growing deserts today is human activity.
We are cutting down trees and grasses to make fields
for crops and other human uses. This exposes the soil to
the Sun, which dries and cracks it, as shown here in the
Namib Desert in south-western Africa. The exposed soil
blows away. The ground becomes less fertile, and plants
struggle to grow. Also, the ground cannot absorb rainwater,
and there is less water in the region. With no vegetation,
humans and animals suffer from hunger. What other effects
can growing deserts have?
74
NEL
CHAPTER FEATURES
Questions from the point of view of each
geographic thinking concept. Each colour
represents a different thinking concept.
WATER IS A BASIC NEED
WHY ARE
Water is our most precious natural resource. It is a basic need for all living
organisms. As well, different water bodies, from oceans and rivers to
wetlands and lakes, are unique ecosystems for many plants and animals.
FLOW RESOURCES
IMPORTANT?
Figure references tell you
what the photo, graph, map,
diagram, or table is about.
These questions ask you
to think about a photo in
different ways and from your
own perspective.
75
NEL
As you read in Chapter 5, flow resources include water, air, and sunlight.
Running water (Figure 7.1), wind, and sunlight are called flow resources
because they flow or move. Flow resources are neither renewable nor
non-renewable.
Flow resources are extremely important to us and to all living things.
Without them, there would be no life on Earth. We drink water. We need air
to breathe. Plants use sunlight to grow and support other life. As well, these
resources supply us with energy when they are “on the move.” For example,
we use the energy created by water when it flows as rivers, ocean currents,
and tides. We use the energy created by air when it moves as wind, and we
use the Sun’s energy as it arrives through the atmosphere as sunlight. We
must use the energy created by flow resources when and where it occurs.
Because flow resources are so important, we need to understand more
about what they are and how we can use them wisely and sustainably.
WHERE WE FIND FRESH WATER
As you read in Chapter 4, about 97 percent of the water on Earth is salt
water and about 3 percent is fresh water. However, we only have access to
about 1 percent of Earth’s fresh water. We need fresh water to survive. Some
countries have more fresh water than others (Figure 7.2).
A small percentage of fresh water is found in rivers and lakes. Most fresh
water, however, is groundwater, which is water under Earth’s surface. It is
stored underground in natural rock formations called aquifers. An aquifer
is an underground layer of rock, such as sandstone, that can hold water in
the spaces between the grains of sediment. Water from rain or melted snow
drains into the ground, moving downward until it reaches, and fills, the
aquifer.
The aquifer acts as a reservoir. Aquifers can supply water to wells or
springs. They range in size from several square kilometres to thousands of
square kilometres. They are important for millions of farmers worldwide
who use them to irrigate their fields and water their livestock. As well, they
are an important source of drinking water for over 2.5 billion people.
flow resource a resource
that must be used up when
and where it is found or it
is lost
FIGURE 7.1 Waterfall in the
Mealy Mountains in Newfoundland
and Labrador
How do you
think the location of
water has influenced
where people live?
aquifer underground layer of
rock that can hold water
Freshwater Resources Worldwide
I wonder how moving
water can be turned
into energy?
150˚ W 120˚ W 90˚ W 60˚ W 30˚ W 0˚ 30˚ E 60˚ E
ARCTIC OCEAN
90˚ E 120˚ E 150˚ E
Arctic Circle
60˚N
60˚N
30˚ N
0˚
Tropic of Cancer
ATLANTIC
PACIFIC
OCEAN
OCEAN
30˚N
PACIFIC
Equator
0˚
OCEAN
Available Cubic Metres
per Person per Year
INDIAN
OCEAN
Tropic of Capricorn
30˚10
S 000 or more
30˚ S
N
4000–9999
1700–3999
0
1000–1699
500–1000 60˚ S
0–500
2000 km
60˚S
Antarctic Circle
no data
150˚ W 120˚ W 90˚ W 60˚ W 30˚ W
0˚
30˚ E 60˚ E
90˚ E 120˚ E 150˚ E
FIGURE 7.2 This map shows the amounts of water available per person
every year around the world by country.
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CHAPTER 7: Flow Resources
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197
Important words are highlighted and
defined directly on the page.
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Heroes in Action profiles young people from around the
world who have taken action to improve conditions for
people and the environment.
HEROES IN
ACTION
TAKING ACTION
NAOMI ESTAY CASANOVA AND
OMAYRA TORO SALAMANCA:
PROTECTING THE ANTARCTIC FROM OIL SPILLS
In 2011, Naomi Estay Casanova, 15, and
Omayra Toro Salamanca, 16, of Chile, in
South America, read a newsletter about
Antarctica. It described the problem
of pollution from oil spillage there. The
newsletter explained that the pollution
was worse than people thought. Toro says,
“We were worried about
this situation and were
basically looking for a
solution to it.”
The girls got in touch
with José Manuel PérezDonoso, a scientist at the
University of Chile, who was
studying the properties of
bacteria from Antarctica.
He permitted them to
use his lab to study more
than 100 different types
of bacteria. Estay and Toro hoped to find a
bacteria that could degrade or break down
oil. In the event of an oil spill in the Antarctic,
this bacteria could be used to make the oil
less toxic to the environment. Eventually
Toro and Estay were successful. They
discovered a strain of bacteria that could
degrade oil molecules even in extremely
low temperatures. They won the Antarctic
School Fair, which allowed them to travel to
Antarctica for one week.
While they were there,
they visited the bases of
different countries and
hiked on the glaciers, and
they also learned how to
take samples of bacteria
from snow.
By 2013, Estay and Toro
had identified 12 strains
of bacteria that could
break down oil at low
temperatures. With this
discovery, they won the 2013 Stockholm
Junior Water Prize.
“After winning the prize, my personal
mission is to share our experience with
other young people, to create interest
about how they must protect natural
resources like water,” said Toro. Estay
added, “We wanted to share our research
with the world so that everyone knows the
importance of the Antarctic continent ...
which is our biggest freshwater reserve.”
(Figure 4.29)
FIGURE 4.30 Volunteers pick up
trash along the shoreline southwest
of Manila on World Oceans Day
How can I help to reduce
water pollution?
“WE WANTED TO SHARE OUR
RESEARCH WITH THE WORLD
SO THAT EVERYONE KNOWS
THE IMPORTANCE OF THE
ANTARCTIC CONTINENT ...
WHICH IS OUR BIGGEST
FRESHWATER RESERVE.”
2.
1. How could you raise awareness of this
issue in your community?
FIGURE 4.29 Antarctica contains around 70% of the world’s fresh water.
2. What other types of action could you
take to protect the world’s fresh water?
UNIT 1: Physical Patterns in a Changing World
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GLOBAL CLIMATE FACTOR:
OCEAN CURRENTS
ocean current a flow of
water within an ocean
influenced by winds, gravity,
and the spinning of Earth on
its axis
CLIMATOLOGIST
Climatologists study climate. They study weather
patterns and the factors that affect them (Figure 2.17).
Climatologists use long-term weather data to identify
trends and understand their causes. They make
predictions about how the climate will change.
Dr. Chris Funk (Figure 2.18) is a geographer with
the United States Geological Survey. He specializes in
climatology and is studying climate change in Africa
and Central America. He examines data from satellite
images and monitoring stations in those regions in
order to better understand rainfall patterns. This will
help governments and other organizations predict
droughts and food shortages so they can deliver
food aid to the affected regions quickly.
Dr. Funk is developing computer models of
climate change. His models require a large amount
of climate data. This includes data on rainfall
patterns in East Africa and water temperatures in
the Pacific and Indian oceans. Geographers and
climatologists in Africa and Central America share
their data, which helps improve everyone’s ability to
make better predictions.
One of the most satisfying parts of Dr. Funk’s job
is helping vulnerable people. As he says, “We help
identify people in harm’s way.”
This will in turn help people
to respond promptly to the
challenges of climate change.
FIGURE 2.18 Dr. Chris Funk,
geographer and climatologist
MAKING CONNECTIONS
FIGURE 2.17 Climatologists use devices such as these to gather
weather data. These climatologists are on Ellesmere Island,
Canada.
62
UNIT 1: Physical Patterns in a Changing World
SPATIAL SIGNIFICANCE Where are most of the
ocean’s coral reefs? Locate them on a map.
How many are near Canadian coasts? Why
should Canadians care whether coral reefs
are damaged?
3.
GEOGRAPHIC PERSPECTIVE Which forms of ocean
pollution—garbage, toxic wastes, fertilizers, and
oil pollution—are connected to the way you live
your life and the products that you use? Make a
personal plan for reducing the chances that you
will contribute to ocean pollution.
CHAPTER 4: Patterns of Rivers and Oceans
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129
The Focus On features will
help you look more closely
at a geographic thinking
concept or inquiry skill and
practise using it.
FOCUS ON
Oceans make up about 70 percent of Earth’s surface. Within the oceans
are massive flows of water called ocean currents. Ninety percent of ocean
currents are cold deep-water currents. Cold currents begin in the polar
regions and bring cool water toward the equator. The remaining 10 percent
of ocean currents are warm surface currents. Warm currents start in the
tropics and bring warm water into cooler regions. These currents either
warm or cool the climates of land areas nearby.
The movement of cold and warm currents creates a global ocean
circulation system. This system has been called a conveyor belt because
the ocean waters travel around the world in a long, slow loop. It would take
about a thousand years for a single particle of water to make one complete
circuit of the global ocean circulation system.
GEOGRAPHY AT WORK
Use the Check-In questions
and activities to assess
your understanding. They
are labelled by geographic
thinking concept and
inquiry skill.
CHECK-IN
1. GATHER AND ORGANIZE Research different ways to
protect coral reefs from harm. Summarize your
findings using a graphic organizer.
A CALL TO ACTION
128
Government efforts to protect rivers and oceans can only work if citizens
support the efforts and take actions on their own. What can you do to help?
• Use the Internet to find out what rivers in your province or territory
might be diverted or dammed.
• Learn more about coral reefs and how you can help to keep them healthy.
Here are some simple things that you can do to reduce river and
ocean pollution:
• Reuse plastic bags and containers whenever possible.
• Refuse to buy products that come with too much plastic packaging.
• Reduce, reuse, and recycle all of your waste.
• Volunteer with an environmental group that is working to protect rivers
or oceans, such as the group shown in Figure 4.30.
• Support an organization that is working to clean up rivers and oceans.
• Write letters to elected officials to tell them that you want action to clean
up rivers and oceans.
1. What skills do climatologists need to have?
2. Name three things that interest you about climatology.
What else would you like to learn about this career?
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GATHER AND ORGANIZE
To investigate a research question, you must first
begin by gathering information. As you gather your
information, ask yourself these questions:
• Where can I find the data I need? What primary
and secondary sources can I use? What studies
apply to my research question?
• Is the data relevant to my inquiry question
or topic?
• Where does the data come from? To what
degree should I trust this source?
• What is the purpose or intent of each source?
• What other sources can I look at to understand
other perspectives on my topic?
• What is the point of view in each source?
• What other inquiry questions or topics could the
information be used to support?
• How will I record where I found the information?
ORGANIZING GEOGRAPHIC INFORMATION
Graphic organizers can help you record and make
sense of the evidence you collect. A t-chart can
be used to connect two sets of ideas, such as
similarities and differences, or facts and opinions.
A Venn diagram can be useful for comparing
characteristics, especially where there is some
overlap. A wheel-and-spoke diagram can show how
a number of ideas or facts are connected to one
main idea. What other graphic organizers are you
familiar with?
UNDERSTANDING HURRICANES
Consider this research question: Why do
hurricanes, such as Hurricane Sandy, mainly affect
only the southeastern part of North America?
To answer this question, you need to think about
the climate factors that influence the formation
of hurricanes. As you read the information below,
think about how you would organize it to help you
understand the research question.
Hot tropical air is critical to hurricane development.
As hot air rises quickly, colder air rushes in to the
lower-pressure area. Clouds build rapidly, and the
moving air swirls to create a low-pressure cyclone.
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FIGURE 2.19 The track of known North Atlantic (1851–2012)
and eastern North Pacific (1949–2012) tropical cyclones
Most hurricanes that begin near Africa are brought
westward across the Atlantic Ocean by trade winds.
These storms veer to the right (northward) in the
northern hemisphere (Figure 2.19). They meet the
dominant westerlies, which push them eastward
and northward.
As hurricanes pass over the warm Gulf Stream,
the surface air is heated, adding moisture. This
warm air rises, lowering air pressure in the eye of
the hurricane and adding wind speed.
When Atlantic hurricanes move over land
they meet the Appalachian Mountains and are
forced upward, cooling the air. The high relief
and orientation (southwest—northeast) block
the hurricanes from the interior and force them
eastward and northward.
TRY IT
1. Select an appropriate graphic organizer and
record the facts above to help you better
understand the research question. Use the
climate factors discussed in this section as a
guide. A sketch map may also be helpful.
2. Do you need to gather other information to
help answer the question? If so, where can you
find it?
CHAPTER 2: Changing Patterns of Climate
63
Geography at Work profiles
different careers related to geography.
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CHAPTER FEATURES (CONTINUED)
Activity pages appear in
every chapter to help you
to read, analyze, and create
different kinds of maps
and graphs.
ANALYZING AND CREATING
HDI in Asia
THEMATIC MAPS
A map, like a written document, is a communication tool. The features of
a map can tell a story and give information, just as paragraphs and words
can. Specifically, maps tell stories about places, interrelationships, and
patterns. They can show complex and detailed information at a glance. You
learned how to read thematic maps in Chapter 3. In this activity, you are
going to learn how to construct and analyze a thematic map.
One way of creating a thematic map is by constructing a graded
shaded map. That is, a map where colour is used to represent different
categories. These maps show global patterns and give the reader a picture
of a specific set of data. One type of thematic map is choropleth maps. A
choropleth map is a map that uses differences in shading and colouring to
illustrate the average values or quantities of something in an area.
Figure 5.13 shows some countries with a range of Human Development
Index (HDI). We can see patterns just by glancing at the map.
In the following activity, you will analyze a choropleth map showing HDI
categories. After, you will create your own thematic map comparing the life
expectancy, income, or literacy rate of selected countries.
45°N
60°N
75°N
STEP 3
STEP 4
The last step is to draw some conclusions and make
connections. Work with a partner to brainstorm the
characteristics of countries that fit into the different
HDI categories. Find images that demonstrate
these characteristics. Compare photos with
another group. Decide which photos best depict
the characteristics.
165°W
PAC I F I C
180°
OCEAN
GEORGIA
30°N
TURKEY
KAZAKHSTAN
CYPRUS
ARMENIA AZERBAIJAN
NORTH
JAPAN
LEBANON
MONGOLIA
KOREA
UZBEKISTAN
ISRAEL SYRIA
TURKMENISTAN
SOUTH
IRAQ
HDI
KYRGYZSTAN
JORDAN
KOREA
TAJIKISTAN
IRAN
very high
KUWAIT
AFGHANISTAN
CHINA
high
SAUDI
QATAR
ARABIA
medium
PAKISTAN
BHUTAN
U.A.E.
low
NEPAL
15°N
TAIWAN
OMAN
no data
YEMEN
BANGLADESH
BURMA LAOS
PHILIPPINES
INDIA
(MYANMAR)
THAILAND VIETNAM
0°
CAMBODIA
INDIAN
0°
BRUNEI
OCEAN
SRI
MALAYSIA
LANKA N
SINGAPORE
FIGURE 5.13 Thematic map of Asia
showing HDI by country
45°E
Look at the countries in the “very high” HDI
category first. What do you notice about their
locations? What do they have in common? Look at
factors such as
• where they are located
• whether they are located on waterways
• whether they are isolated or surrounded by
countries with a similar level of development
60°E
75°E
90°E
105°E
Choose a base map that shows national borders.
Ensure that it has space for a title, legend, and
compass rose or North pointer.
STEP 1
STEP 2
Choropleth maps are usually different shades of
one colour, for example, dark to lighter greens. You
will need a different shade for each. The darkest
should represent the highest category. Decide what
groupings of colour you are going to use.
STEP 5
STEP 3
STEP 4
Create a legend to explain the categories and
colour grading to the map reader. Add the scale to
the map according to the source of your base map.
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120°E
135°E
HOW TO CREATE A THEMATIC MAP
Repeat Steps 2 and 3 for the other three HDI
categories. How do the categories compare?
Look for similarities and differences.
UNIT 2: Our World’s Natural Resources: Use and Sustainability
15° S
INDONESIA
800 km
STEP 5
STEP 6
156
45°N
RUSSIA
0
STEP 2
60°N
15°E
STEP 1
Assess what you know about these countries. What
have you read about them before? Have you visited
any of these places? Do you have family members
who live there or who have lived there in the past?
75°N
0°
HOW TO ANALYZE A THEMATIC MAP
Examine Figure 5.13. What does the map tell you?
What patterns do you see on it?
North Pole
ARCTIC OCEAN
Select which category you want to represent in
your map: life expectancy, income, or literacy rate
and which region you would like to focus on. Use
the United Nations website to locate your data.
Record the data in a table. Decide how you are
going to group your data (for example, 60–65,
65–70, and so on for life expectancy).
Use an atlas or the Internet to locate the countries
on your map. Neatly print their names on the map
where possible. If the countries are too small, you
may have to number them and provide the list of
countries in the legend. Colour the countries based
on their HDI category.
Decide on a title and print it clearly at the top of
the map. Indicate direction with a north arrow or
compass rose. Write your name and data source
(including the year) at the bottom of the map.
CHAPTER 5: Our Needs and Wants and the Environment
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157
In every chapter, you will use Case Studies, including National Geographic
Case Studies, to explore different places around the world and look at how
people are responding to challenges.
TOURISTS
ANTARCTICA
HALF
MOON
ISLAND
N
THREATEN
FIGURE 5.6 Tourists come right up
to a colony of chinstrap penguins
on Half Moon Island off Antarctica.
The black line around the penguins’
white faces looks like a strap
holding on a black helmet.
Antarctica
Lemaire
Channel
SOUTHERN
OCEAN
0
AN
TA
69 RCT
.50 IC
°S PE
,6 N
5.0 IN
0° SUL
W A
300 km
A RUDE AWAKENING
BANG!.... In the middle of a still November night in 2007, the
cruise ship M/S Explorer was crunching through ice near
Antarctica when suddenly it struck an iceberg (Figure 5.5).
Water began pouring from toilets, alarms wailed, and terrified
passengers raced from their cabins.
All 154 people on board scrambled into lifeboats and
escaped from the ship. Near dawn, the shivering travellers
were pulled to safety by two cruise ships sailing nearby.
These tourists were incredibly lucky. Antarctica is a remote,
frozen wilderness with no cities, hospitals, or rescuers—just 45
scattered research stations. Fortunately, on that night, waters
were calm and assistance was just 64Geography
km away. 7 SB
FIGURE 5.5 This iceberg lies in
the Lemaire Channel, a top cruise
destination for tourists to Antarctica.
Those tourists are endangering the
continent’s habitat.
The M/S Explorer sank later that day, the first tourist ship to be lost in
these waters. Its sinking raised an important question: how should Antarctic
tourism be controlled?
THE GREAT WHITE CONTINENT
Antarctica is the coldest, windiest, and driest continent on Earth. It’s enormous,
too—one and a half times the size of the United States. A vast sheet of ice,
miles thick, covers 98 percent of the land and holds 70 percent of Earth’s fresh
water. Yet Antarctica is a desert. In fact, it’s one of the world’s largest deserts.
Antarctica gets only 20 cm of precipitation a year because its frigid air is too
cold to hold water vapour. Only plants such as lichens and moss, small insects
and worms, and breeding birds and seals are adapted to this icy land.
On the other hand, many species thrive in the mild climate of the Antarctic
Peninsula, which stretches about 1900 km toward South America. This
peninsula, a strip of land jutting out from the mainland, and nearby islands
support more species. The surrounding food-rich oceans teem with whales,
seals, penguins (Figure 5.6), and flying sea birds well-suited to the frigid
temperatures. Many of these species have layers of insulating fat, and oily
feathers waterproof the penguins. Most fish even have an antifreeze-like
substance in their bodies.
Antarctica might seem like an icy wasteland, but it helps control the global
climate and holds many keys to understanding climate change. It is also
Earth’s last great wilderness.
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CHAPTER 5: Our Needs and Wants and the Environment
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LOOKING BACK
You will have the opportunity to look back
at what you’ve learned at the end of each
chapter and at the end of each unit.
These questions and activities help to
apply your learning. Each question relates
to an inquiry skill or to a geographic
thinking concept.
LOOKING BACK: CHAPTER 2
APPLY YOUR LEARNING
ND
D WE RESPO
HOW SHOULATE CHANGE?
TO CLIM
INTERPRET AND ANALYZE In a small group, create a
concept map to show the ideas in this chapter.
2.
INTERRELATIONSHIPS “We cannot blame recent
global climate change on natural forces.” Discuss
this statement in a small group. Use specific
examples in your discussion. Present your
conclusions to the class.
3. PATTERNS AND TRENDS Here are three weather
facts from around the world:
i. Marble Bar, Australia, recorded daily
temperatures at or above 37.8 °C for 161 days in
a row (from October 30, 1923, to April 7, 1924).
ii. Argentia, Newfoundland, has over 200 foggy
days each year.
iii. The highest temperature ever recorded in
Antarctica is 14.6 °C.
Record the locations of these places on a blank
map. Use your knowledge of climate patterns to
annotate the map with explanations about why
these conditions occurred where they did.
4. PATTERNS AND TRENDS In a group of three, give
three examples of places in the world where
there is a connection between a landform and
climate. Use a map and a diagram to show the
effects of the landform on the climate.
LEARNING GOALS
As you worked through this chapter, you had opportunities to
• describe patterns in the climates of the world
• use climate graphs to understand characteristics of climates
• describe how some natural processes and human activities
change climate patterns
An activity that will help you
summarize what you have
learned in the chapter
1.
5. EVALUATE AND DRAW CONCLUSIONS What if there were
no mountains or other major landforms on the
surface of Earth? How would the global climate be
different? Individually or in your group, create a
painting, sculpture, or model to share your ideas.
As you learned in Chapter 2, climate is changing due to natural factors and
human actions. If we do not address climate change, we will continue to feel
the impact. Think back to the question that started the chapter: How should
we respond to climate change?
GEOGRAPHIC PERSPECTIVE Many people have
suggested that Canada’s climate has helped to
shape our culture. Create a cartoon or cartoon
strip that shows how climate influences life in
Canada. Before creating your cartoon, do some
research to see how this medium is used to
convey messages.
7.
COMMUNICATE Research one of the
following topics:
• extreme weather events around the world that
have occurred within the past 10 years
• climate change affecting Canada’s North
Create a blog, an infographic, or some other
method of communication to effectively
summarize what you have learned.
8. GATHER AND ORGANIZE Find climate information
for your community or a place nearby. Look for
data related to temperature, precipitation, and
important climate factors. Create a chart that will
allow you to organize the data and compare your
community with another location.
a) Use the data to construct a climate graph.
b) Analyze the climate graph, following the steps
in the Reading Climate Graphs feature on
page 55. Add that information to your chart.
c) Think of a place on another continent that
you would like to visit. Find climate data for
that place, and use it to draw a climate graph.
Use the information on your climate graph to
complete the chart.
UNIT1
Summarize Your Learning
CHALLENGE
What have you learned about climate patterns and climate change in this
chapter? Reflect on what you have read and discussed throughout Chapter 2.
Select one of the following tasks to help summarize your learning:
• Create a poster to draw attention to the issue of climate change. In your
poster, highlight something people can do to take action against climate
change. The poster should be informative: present information about
climate or a particular climate region, explain the factors that are causing
this change, and include data that shows the climate is changing.
• Write a story for a newspaper about climate change and its effects in a
particular climate region. Provide some information about the climate in
that region, evidence of climate change, and some solutions to address it.
72
6.
CHECK-IN
1. What do you know about the climate of your
selected community? What else do you need
to know? Think about how climate affects your
community. Review the Focus On: Gather and
Organize feature on page 63. Gather information
on the climate of your community, and organize
the information using a graphic organizer.
UNIT 1: Physical Patterns in a Changing World
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2. How will climate affect the response to your
natural disaster? How will it affect the recovery
from the disaster? Record this information to
include in your final product.
3. Review the Unit 1 Challenge on page 15 and
the questions you created in Chapter 1. Do you
need to make any changes to your questions?
What information do you still need? Make any
necessary changes to your research questions.
CHAPTER 2: Looking Back
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73
At the end of each chapter,
you will complete a step in
your Unit Challenge.
This spatial journal helps you to find the
location of each case study in the unit.
Instructions for how to complete your
Unit Challenge
LOOKING BACK: UNIT 2
OUR WORLD’S NATURAL
RESOURCES: USE AND
SUSTAINABILITY
WHY ARE NATURAL
ANT?
RESOURCES IMPORT
We have many natural resources on Earth. Some are renewable, some
are flow, and some are non-renewable. We use all of these resources to
meet our needs and wants. In many cases, we are misusing and overusing
our resources. Unsustainable use has resulted in many negative impacts
on the environment and on humans. How can we use our resources more
sustainably or more responsibly in the future?
PROTECTING NATURAL RESOURCES IN INDIA
Dehradun, Uttarakhand, India (30.32°N, 78.03°E)
UNIT2
CHALLENGE
LEATHER PROCESSING IN BANGLADESH
Dhaka, Bangladesh (23.71°N, 90.40°E)
Deforestation in Uttarakhand is rising due to an increase in
Bangladesh is the source of most leather for
120˚ W 90˚
W 60˚ Wfor30˚
W nearby
0˚ 30˚ E 60˚ Eleather
90˚ E products.
120˚ E 150˚Toxic
E
industries. But these forests are 150˚
an W
important
resource
the
chemicals used to process
ARCTIC OCEAN
communities. Protests like the Chipko movement have been successful
leather are poisoning the workers, the river, and
at stopping more deforestation.
those who live nearby. Organizations are pressuring
Arctic Circle
the government to get factory owners
to change
60˚ N
60˚ N
their practices.
30˚ N
Tropic of Cancer
Equator
0˚
ATLANTIC
PACIFIC
OCEAN
OCEAN
30˚ N
PACIFIC
0˚
OCEAN
INDIAN
OCEAN
Tropic of Capricorn
30˚ S
30˚ S
N
0
2000 km
CONFLICT MINERALS IN THE
60˚ S
DEMOCRATIC REPUBLIC OF
THE CONGO (DRC)
Kinshasa, DRC (4.33°S, 15.32°E)
ARGENTINA’S SUNNY FUTURE
60˚ S
Buenos Aires, Argentina
Antarctic Circle
(34.60°S, 58.38°W)
Fossil fuels produce about
150˚ W
90 percent of Argentina’s
energy. The leaders are aware
that the fuels they are relying on
are non-renewable. Argentina
is looking toward renewable
energy sources for the future,
including solar power.
250
120˚ W 90˚ W 60˚ W 30˚ W
0˚
30˚ E
60˚ E
90˚ E
120˚ E
TOURISTS THREATEN ANTARCTICA
Antarctic Peninsula, Antarctica (69.50°S, 65.00°W)
Tourism in Antarctica is on the rise, which is
increasing the environmental impacts. The
continent is not governed by any country. The UN
is working on conservation efforts.
UNIT 2: Our World’s Natural Resources: Use and Sustainability
150˚ E
The DRC is known for its
conflict minerals, which have
a large impact on humans and
the environment. Some people
are working toward raising
awareness to end the trade in
conflict minerals.
NEL
CREATE A PERSONAL PLAN OF ACTION
Now it is time to create your personal plan of action
and persuasive campaign. You will need to include
• your reason for selecting the product or process
• detailed information about your selected natural
resource (what it is, what it is used for, who it is
used by), including a map showing the location of
the natural resource
• how the natural resource is removed from the
environment and the environmental impact of
removing and using the natural resource
• the actions you can take to reduce the impact and
use of the resource
• alternatives to using the natural resource and other
solutions to the problem
• an explanation as to why these alternatives are
better for the environment
• inspiration for others to join you in your plan of
action
NEL
Your final product should include
• in-depth research questions
• research related to natural resources, natural
resource use, and sustainable or more responsible
alternatives
• a variety of credible sources (Make sure to
evaluate your sources. Use the information you
have collected to draw conclusions.)
• a well-organized final product, where each area of
information is addressed
Do you have all the information that you need?
Look at what you’ve assembled so far. Does
your information give you thorough answers?
What is missing? Where can you find the missing
information? What conclusions can you draw from
your evidence?
Your final product can take a form of your
choosing. Keep in mind that your final product
should inspire others to join in your cause. You might
want to create a website, a multimedia presentation,
or a report. Select a target audience and the most
appropriate format for them.
UNIT 2: Looking Back
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CHAPTER 3
CHANGING PATTERNS OF
NATURAL
VEGETATION
RAL
U
T
A
N
’S
H
T
R
EA
T
A
H
T
E
R
A
C
?
G
N
I
WHY
G
N
A
H
C
S
I
VEGETATION
LEARNING GOALS
As you work through this chapter, you will
• identify patterns in the world’s natural vegetation
• describe how nature and humans change natural
vegetation patterns
• gain an awareness of the impact we have made on the
world’s natural vegetation
Grasslands and forests around the world are shrinking.
Deserts have always grown and shrunk over time due
to changes in climate and periods of drought. But
now, more of Earth’s surface is turning into desert. For
example, the grasslands on the edges of the Gobi Desert,
in China, are getting smaller every year. At the same
time, the Gobi Desert is growing by 3600 km2­—about
two-thirds the area of Prince Edward Island—every year.
A major cause of growing deserts today is human activity.
We are cutting down trees and grasses to make fields
for crops and other human uses. This exposes the soil to
the Sun, which dries and cracks it, as shown here in the
Namib Desert in south-western Africa. The exposed soil
blows away. The ground becomes less fertile, and plants
struggle to grow. Also, the ground cannot absorb rainwater,
and there is less water in the region. With no vegetation,
humans and animals suffer from hunger. What other effects
can growing deserts have?
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03_geo7_ch3.indd 74
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WHY IS
VEGETATION
IMPORTANT?
Grasslands and forests around the world are shrinking. What happens to the
soil in these regions? How are the wildlife and the people who live in these
regions affected?
Your answers to these questions help to explain why Earth’s vegetation is
important. Vegetation affects the soil, interactions within the environment
known as ecosystems (Figure 3.1), and the climate of a region. It also affects
the people who live there, and whether or not they live well or struggle
to survive.
Changes in vegetation have both local and global effects. The more we
learn about vegetation, the better we will understand how and why we need
to protect it.
What animals might
live in grasslands but
not in deserts?
ecosystem interactions that
link living and non-living parts
of the environment
EARTH’S NATURAL VEGETATION REGIONS
Earth’s natural vegetation consists of the plants that grow freely without
help from people, as opposed to those planted by people. There are three
major natural vegetation regions around the world: forests, grasslands, and
deserts. Each region covers about one-third of Earth’s total land area. Where
the regions are located depends mostly on the climate, which includes
temperature and precipitation, and the type of soil.
natural vegetation plants
that are natural to an area
and grow freely there
FORESTS OF THE WORLD
Trees can grow from areas below sea level to places high in the mountains.
They can grow at different latitudes, from the equator and almost up to
the Arctic Circle. For example, boreal forests are in northern regions.
Tropical forests grow between the Tropic of Cancer (23.5°N latitude) and
the Tropic of Capricorn (23.5°S latitude), and subtropical forests are found
on the outer edges of these. Some species of trees need large quantities of
water to survive; others do not. Trees are either coniferous or deciduous.
Coniferous trees have needle-shaped leaves. Deciduous trees lose all their
leaves for part of the year. Broadleaf trees have broad, flat leaves. Some
are deciduous, such as maple and oak; others, such as mahogany, are
evergreen. Evergreen trees have some leaves all year round. They can be
both broadleaf or coniferous.
On Figure 3.2, you can locate the six main forest types: tropical broadleaf
forests, subtropical broadleaf forests, Mediterranean forests, broadleaf
deciduous forests, mixed forests, and needleleaf evergreen or boreal forests.
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UNIT 1: Physical Patterns in a Changing World
boreal of the North or
northern regions
tropical between the Tropic
of Cancer and the Tropic of
Capricorn
subtropical just north of
the Tropic of Cancer and
just south of the Tropic of
Capricorn
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GRASSLANDS OF THE WORLD
Grasses do not need as much precipitation as trees. They
can survive in drier regions. As well as grasses, grasslands
include species of wildflowers and other grass-like plants,
such as sedges and rushes. They are also home to many
animal species. There are two types of grasslands: tropical
grassland and mid-latitude grassland.
DESERTS OF THE WORLD
Deserts are extremely dry regions. A region is a desert if it
has low precipitation, about 250 mm per year or less. Or it
is a desert if it has a very high rate of evaporation compared
to the amount of rain it gets. Evaporation is the change of
a liquid to vapour or gas. There are three types of deserts:
semi-desert scrub, desert, and tundra and high-mountain
vegetation. Semi-desert scrub and deserts are usually hot.
The tundra and high-mountain vegetation regions, which
have low precipitation, are cold regions.
FIGURE 3.1 Grasslands’ ecosystems support high
numbers of grazing animals, such as giraffes
and elephants.
I wonder what other animal species live
in grasslands?
tundra vast Arctic region
without trees where the soil is
frozen year round
Global Natural Vegetation Regions
150˚ W 120˚ W 90˚ W 60˚ W 30˚ W
0˚ 30˚ E 60˚ E
ARCTIC OCEAN
90˚ E 120˚ E 150˚ E
Arctic Circle
60˚N
60˚N
30˚ N
Tropic of Cancer
PACIFIC
OCEAN
OCEAN
30˚N
PACIFIC
Equator
0˚
ATLANTIC
0˚
OCEAN
INDIAN
OCEAN
Tropic of Capricorn
30˚ S
30˚ S
N
0
60˚ S
FIGURE 3.2 This map shows
the natural vegetation regions
around the world.
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60˚S
Antarctic Circle
150˚ W 120˚ W 90˚ W 60˚ W 30˚ W
2000 km
Global Natural Vegetation Regions
0˚
30˚ E 60˚ E
90˚ E 120˚ E 150˚ E
tropical broadleaf forest
subtropical broadleaf forest
Mediterranean forest
broadleaf deciduous forest
mixed forest
needleleaf evergreen or
boreal forest
tropical grassland
mid-latitude grassland
semi-desert scrub
desert
tundra and highmountain vegetation
CHAPTER 3: Changing Patterns of Natural Vegetation
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2014-04-15 8:56 AM
TYPES OF FORESTS
B
FIGURE 3.3 There are six types of forests: (A) tropical broadleaf forest
(Thailand, Asia); (B) subtropical broadleaf forest (Mexico, North America);
(C) Mediterranean forest (Italy, Europe); (D) broadleaf deciduous forest
(Canada, North America); (E) mixed forest (Japan, Asia); and
(F) needleleaf evergreen or boreal forest (Finland, Europe).
A
C
A. Tropical broadleaf forest
B. Subtropical broadleaf forest
Climate
– large amounts of precipitation: more
than 2000 mm of rainfall per year
– rains every month of the year
– very hot all year; average
temperature above 24 °C
Climate
– large amounts of precipitation: as
much as 2000 mm of rainfall per year
– several dry months
– hot all year
Description
– greatest abundance and diversity of
plant and animal species
– most trees have broad or wide, flat
leaves
– trees do not lose their leaves
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03_geo7_ch3.indd 78
Description
– trees are deciduous and lose their
wide, flat leaves during the dry
season
– many species are adapted to use
the light that reaches the ground
during the dry season when the
treetops are bare
UNIT 1: Physical Patterns in a Changing World
C. Mediterranean forest
Climate
– less than 1000 mm of precipitation
per year
– hot, dry summers and cool, damp
winters
– distinct dry season
Description
– plant species have adapted to
survive summer drought conditions
– includes woodlands (mix of smaller
trees and shrubs) and shrublands
(mainly short, woody plants)
– tree species include olive and
cork trees
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D
E
F
D. Broadleaf deciduous forest
Climate
– from 600 to 1500 mm of
precipitation throughout the year
– four distinct seasons, including warm,
moist summers and mild winters
– average annual temperature
between 7 °C and 17 °C
Description
– tree species are mostly deciduous,
such as oak, maple, and beech
– leaves falling on the ground every
year form a thick, fertile soil
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E. Mixed forest
Climate
– from 600 to 1500 mm of
precipitation throughout the year
– warm, moist summers and mild to
cool winters
Description
– transition zone between coniferous
forests and broadleaf deciduous
forests
– mix of coniferous and deciduous
tree species
F. Needleleaf evergreen or boreal forest
Climate
– from 300 to 850 mm of
precipitation per year, much of
it as snow
– cold temperatures; short growing
season
Description
– few plant species because of harsh
conditions
– tree species are mostly coniferous
with narrow, needle-like leaves, such
as spruce and pine
– ground cover is slow-growing
lichen, mosses, and grasses that are
adapted to the cold
CHAPTER 3: Changing Patterns of Natural Vegetation
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TYPES OF GRASSLANDS
FIGURE 3.4 There are two types of grasslands: (A) tropical grassland (Tanzania, Africa);
and (B) mid-latitude grassland (Argentina, South America).
A
B
A. Tropical grassland
B. Mid-latitude grassland
Climate
– from 100 to 1200 mm of
precipitation per year
– most moisture arrives during a short
rainy season
Climate
– from 250 to 750 mm of precipitation
per year
– cold winters and warm summers
Description
– includes many species of tall
grasses, and some shrubs and trees
– supports large herds of grazing
animals such as elephants and
zebras
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UNIT 1: Physical Patterns in a Changing World
Description
– includes tall and short grasses, some
shrubs, and scattered trees, some of
which grow in river valleys
– growing seasons average 100 to
175 days
– plant species have adapted to the
scarce moisture by creating thick
root mats that prevent moisture
from soaking into the soil
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TYPES OF DESERTS
B
FIGURE 3.5 There are three types of deserts:
(A) semi-desert scrub (Bolivia, South America);
(B) desert (Morocco, Africa); and (C) tundra and highmountain vegetation (United States, North America).
A
C
A. Semi-desert scrub
Climate
– from 250 to 500 mm of
precipitation per year
– high rates of evaporation
Description
– transition zone between desert and
grassland
– includes a mix of vegetation types,
such as sagebrush and dwarf shrubs
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B. Desert
C. Tundra and high-mountain vegetation
Climate
– less than 250 mm of precipitation
per year
– high rates of evaporation
– very high daytime temperature and
low nighttime temperature
– average temperature for hot deserts
is 22 °C and for cool deserts is 10 °C
Climate
– from 150 to 250 mm of precipitation
per year
– average summer temperatures are
below 6 °C
– most moisture is locked up in ice
and snow
Description
– includes plants such as short
grasses, sagebrush, and cacti
– plants have very long roots to reach
for water deep below the surface
– plants may have no leaves, which
reduces evaporation
Description
– soil is frozen solid except for the
top few centimetres that thaw each
summer
– vegetation includes mosses, lichen,
grasses, and wildflowers
CHAPTER 3: Changing Patterns of Natural Vegetation
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BENEFITS OF VEGETATION
Plants benefit us and the planet in many ways. For example, they prevent
soil erosion and maintain the water cycle. They slow climate change by
removing carbon dioxide (CO2) from the air. Here are five other ways that
vegetation benefits us and the planet.
OXYGEN
During photosynthesis, plants use energy from the Sun to combine CO2
from the air with water. This creates carbohydrates and oxygen. Plants use
the carbohydrates for growth and reproduction. They release the oxygen
back into the atmosphere. Animals, including humans, breathe in oxygen.
They need oxygen to survive.
photosynthesis the process by
which plants convert sunlight
into energy for growth
NATURAL HABITATS
Natural vegetation provides animals with habitats. Habitats give animals food,
water, shelter, opportunities for mating, and some protection from predators.
RESOURCES
For thousands of years, people have used materials from plants, such as
trees, to build shelters, furniture, and modes of transportation. We have used
plant materials, such as bark, cotton, or vines, to make clothing, tools, and
weapons. We have used wood to keep us warm and to provide heat for cooking.
Thousands of medicines come from plants. At least three-quarters of the world’s
population uses plants or parts of plants for medicine.
Over the centuries, farmers domesticated, or adapted, some wild plants,
such as the ancestors of today’s wheat and corn. Over time, the plants
adapted and changed, becoming easier to grow. We eat food made from
grasses (grains) and trees (nuts), drink beverages (tea and coffee) made from
shrubs, and make clothes from plant fibres such as cotton. Plant materials
can be used to make various products, including car parts (Figure 3.6).
habitat the place where a
plant or an animal lives that
provides it with all it needs
to survive
domesticated wild animals
tamed, or wild plants
adapted, for use by humans
FIGURE 3.6 The exterior of this
hybrid concept car contains
seaweed (inset).
In what ways do I use
plant materials in my life?
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UNIT 1: Physical Patterns in a Changing World
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RECREATION
Around the world, natural environments are important places for
recreation and relaxation. People enjoy camping in forests, hiking or skiing
on mountain trails, and boating or swimming in rivers and lakes. These
connections have encouraged ecotourism, tourism with low environmental
impact, as more people choose vacations to enjoy nature in many places,
such as the tropical rainforests of Costa Rica. In addition, many countries
have developed national parks to preserve wilderness areas for people to
enjoy, as well as to protect land and wildlife. There are also many urban
parks around the world where city dwellers go to relax and reconnect with
the natural world.
ecotourism to enjoy
nature with low impact to
the environment, promote
conservation, and benefit
the local people
What might be
some characteristics of
Costa Rica’s vegetation
that encourages
ecotourism?
SPIRITUAL CONNECTION
Many people find spiritual value in the natural world. For example,
Indigenous peoples all around the world are strongly connected to the
land. The land holds a
key importance in their
belief systems. Australian
Aboriginals’ values are based
on a deep respect for the
land. They use plants for
medicine and for ceremonial
purposes. In North America,
many First Nations people
also use specific types
of vegetation, such as
sweetgrass, sage, and
cedar, for similar purposes
(Figure 3.7).
I wonder why sage is used in
this ceremony and not cedar?
FIGURE 3.7 Sage is burned
in this Muncee-Delaware
First Nations smudging
ceremony for spiritual cleansing.
CHECK-IN
1. PATTERNS AND TRENDS Create an organizer to
compare the characteristics of the tropical
broadleaf forest to two other vegetation types.
Suggest reasons why there are differences in the
characteristics.
2. INTERRELATIONSHIPS Why is natural vegetation
important? Write a short paragraph or create an
oral presentation to explain your ideas.
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3. INTERPRET AND ANALYZE Use the natural vegetation
regions tables (pages 78 to 81) to identify the type
of natural vegetation in your community. Discuss
with a classmate whether more of the vegetation
in your community is human-influenced or natural,
and identify some reasons why.
4. INTERRELATIONSHIPS With a partner, make a list
of ten items you use that come from vegetation.
Create a poster to demonstrate how your life
would change without them.
CHAPTER 3: Changing Patterns of Natural Vegetation
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HOW DO
NATURAL FACTORS
AND VEGETATION
INTERACT?
Natural factors such as moisture, temperature,
and soil affect vegetation. In turn, vegetation
affects these natural factors. They interact.
Why should you care about this? As you
read in Chapters 1 and 2, Earth is a place of
change. Its climate and landforms change over
time. Natural vegetation changes too. Earth’s
systems are interconnected. A change in one
system can lead to changes in the others.
When we learn about how plants grow,
how they interact with the environment
around them, and how they affect us
and the planet, we gain a better overall
understanding of Earth and our place on it.
First, let’s look at how three natural
factors affect vegetation. Two main factors
are moisture and temperature, which are
part of the climate system. The third main
factor is soil.
MOISTURE
Plants need moisture to survive (Figure 3.8). The moisture
in a region depends on the amount of precipitation and
evaporation that occurs there.
PRECIPITATION
The amount of precipitation, moisture that falls to the
ground, such as rain or snow, differs from region to region.
Plants adapt to the amount of precipitation in their region.
Grasses can survive with low amounts of precipitation. Trees
need more water than grasses do. This is why grasslands
are more common than forests in hotter, drier areas. This is
also why forests grow best where moisture is available year
round, especially during the growing season.
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UNIT 1: Physical Patterns in a Changing World
FIGURE 3.8 Fog (evaporation) surrounds
this mixed forest. The trees take in moisture
through their roots.
I wonder how much moisture a mixed
forest needs compared to a grassland?
How does
precipitation affect
plants?
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2014-04-15 8:57 AM
READING
THEMATIC MAPS
Annual Precipitation Rates in North America
180˚W
160˚W
140˚W 120˚W
80˚W 60˚ W 40˚ W
100˚W
20˚ W
ARCTIC
OCEAN
le
irc
cC
i
t
c
Ar
˚N
60
A thematic map shows one topic or theme
within a geographic area, such as the
Global Natural Vegetation Regions map on
page 77 (Figure 3.2). The topic or theme
is identified in the legend. Thematic maps
use symbols and colours to help users “see”
patterns and find important geographic
relationships. The purpose of these symbols
or colours is identified in the legend. Often
thematic maps include some location
information, such as lines of latitude
and longitude. On some maps, water
bodies and places may have name labels,
depending on the theme. Thematic maps
will also include a scale and north arrow.
Figure 3.9 is one example of a thematic
map. It uses colours to represent the
different values shown on the map.
Precipitation rates vary from place to
place. By using a thematic map to show
the annual rates of precipitation across
an area, we are able to quickly see any
patterns or interrelationships.
N
60˚N
PACIFIC
OCEAN
40
˚N
N
40˚
Precipitation
(mm)
0–100
100–200
200–400
ATLANTIC
400–600
OCEAN
600–800
800–1200
Tropic of Cancer
1200–1600
20˚N
1600–2000
2000–3000
3000–4000
4000–6250
FIGURE 3.9 This map shows total yearly
precipitation, measured in millimetres.
0
700 km
100˚W
60˚W
HOW TO READ A THEMATIC MAP
Review Figure 3.9. Read the title. What is the
theme or topic? What is the location? Explain the
meaning of the topic to another person.
Geography 7 SB
STEP 1
STEP 2
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STEP 4
Read the legend. Identify the colours on the map.
How does the legend show the colours? What units
of measurement are used in the legend?
Most precipitation maps use blue as a colour.
Can this be an exception to the rule?
Make connections. What other natural systems
might show similar patterns?
STEP 5
CHAPTER 3: Changing Patterns of Natural Vegetation
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EVAPORATION
Plants are affected by the amount of moisture that evaporates from the
ground. Places with high temperatures have high evaporation rates. The
moisture leaves the soil more quickly in these regions than in regions with
lower temperatures. Plants in hot regions will not grow as well as plants in
places with less extreme temperatures.
TEMPERATURE
Plants are affected by the amount of solar energy or heat in a region. During
photosynthesis they use sunlight for energy. Also, the amount of heat that
plants receive depends on their location and the temperatures there.
PHOTOSYNTHESIS
Plants use energy from the Sun during photosynthesis. The photosynthesis
of a plant increases as the temperature rises. Plants do not usually start
growing until the daytime temperature reaches 6 °C. Plants usually
grow well at temperatures of around 20 °C. At very high temperatures,
photosynthesis slows down, and plants do not grow as well.
LATITUDE AND ELEVATION
Temperatures are higher near the equator and lower near the poles. As a
result, vegetation changes as the latitude changes.
As you learned in Chapter 2, air is colder at higher elevations. This affects
the natural vegetation, such as trees, that grows on mountainsides. The
treeline is the transition zone where a forest ends because the climate has
become too cold or too dry (Figure 3.10).
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UNIT 1: Physical Patterns in a Changing World
treeline an area or region
beyond which trees do not
grow because of dry or cold
conditions
FIGURE 3.10 In this photo of
a mountain in Alberta, you
can see exactly where the
treeline begins.
What differences would
I notice if I were standing
at the treeline?
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2014-04-15 8:57 AM
Look at Figure 3.11. What types of trees can grow where it is colder? How
are they different from other types of trees? The answers give clues about
how trees adapt to colder temperatures.
Temperature and Precipitation Ranges of
Natural Vegetation Regions
FIGURE 3.11 This figure shows
how types of vegetation adapt
to ranges of temperature and
precipitation levels.
–15
tundra and highmountain vegetation
–10
needleleaf evergreen
or boreal forest
10
15
20
25
30
mixed
forest
mid-latitude
grassland
5
cold desert
0
hot desert
Decreasing temperature (°C)
–5
broadleaf
deciduous forest
tropical
grassland
semi-desert
scrub
500
subtropical
broadleaf
forest
Mediterranean
forest
tropical
broadleaf
forest
1000 1500 2000 2500 3000 3500 4000 4500
Increasing precipitation (mm)
SOIL
Soil is an anchor for a plant. As the plant grows, its roots grip the soil. Soil
plays a key role in the health of most plants. Plants need nutrients to grow,
and they absorb these from the soil. In agriculture, if the soil does not have
enough nutrients for crops to grow, farmers may use fertilizers, which add
nutrients to the soil.
HOW VEGETATION AND CLIMATE INTERACT
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You have read about the ways in which the climate, including moisture and
temperatures, and soil affect natural vegetation. Natural vegetation has an
effect on the climate, too. In fact, natural vegetation and the climate affect
C03-F02-G07SB
each other. Here are two examples:
Crowle Art Group
• It rains in a mid-latitude grassland. Plants take in the water through
their roots. They use some of it for photosynthesis to grow and reproduce.
4th pass
They return what they do not use to the air. As the plants continue to
grow larger, they use more and more of the moisture and return less
to the air. This makes the overall climate in that particular region drier
over time.
• Leaves absorb sunlight, which is energy from the Sun, to use in
photosynthesis. This cools the air. When the air is cool, less moisture is
evaporated, and more moisture is available for plants, which helps them
live and reproduce.
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HOW VEGETATION, CLIMATE, AND
SOIL INTERACT
Vegetation, climate (moisture and temperature), and soil interact with one
another, too. Here are three examples:
• Plants and animals decay on the surface of the ground and become
humus (Figure 3.12). Humus is full of nutrients. Rainfall carries the
nutrients down into the top layer of the soil. Here, they are available to
the roots of living plants. Warm temperatures encourage plant growth.
Eventually these plants die and decompose. As a result, warm, moist
places, such as a broadleaf deciduous forest vegetation region, generally
have excellent soils for plants.
humus decaying plant and
animal matter found in the
top layer of soil
FIGURE 3.12 This diagram
shows how plants,
precipitation, and soil interact.
Older plants die.
Dead plants decay to humus,
which contains nutrients.
Living plants use nutrients
from humus to grow.
Precipitation moves the humus into
the soil. The humus is further decomposed
by organisms such as earthworms.
• When rain washes away the top nutritious layer of the soil, the soil loses
fertility, making it more difficult for plants to grow. If there are plants
growing in the soil, however, they can help prevent this. The roots of the
plants anchor the soil. The plants’ leaves stop raindrops from hitting the
ground hard enough to wash away the soil particles.
• A growing amount of evidence suggests that the Sahara Desert was
created over time by interactions between the climate, the natural
vegetation, and the soil. Read the timeline, Figure 3.13, to find out more
about how grasslands changed to desert.
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Grasslands cover what is now the Sahara Desert. People
live in the area with grazing animals.
7000
BCE
FIGURE 3.13 This timeline describes how
the Sahara Desert, in the northern part of
Africa, may have been created by climate and
vegetation interactions. Note that BCE means
before the Common Era.
The climate becomes hotter and drier due to natural
causes. With less moisture available, grasses do not
grow well.
5000
BCE
As the grasses die, more soil is exposed to sunlight.
The soil dries and starts to crack.
A severe desert environment is created.
4000
BCE
CHECK-IN
1. INTERRELATIONSHIPS Create an ideas web
that shows some of the interactions between
vegetation, climate, and soil.
2. INTERRELATIONSHIPS In some parts of Canada,
such as in the mixed forest regions of Ontario,
the soil is deep and fertile. In other places, such
as the tundra regions, soil is thin and poor. What
factors help to create soils? What role does
natural vegetation play in creating soils? Create a
diagram or a chart to show your ideas.
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3. SPATIAL SIGNIFICANCE Use Figure 3.2 (page 77)
and a political map of the world to locate
a community in two of these types of
vegetation regions:
• mixed forest
• tundra and high-mountain vegetation
• tropical grassland
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HOW ARE WE
AFFECTING
NATURAL
VEGETATION?
At the beginning of this chapter, you read
how people are playing a part in changing
areas of grassland and forest into deserts.
People have also made huge changes to
other natural vegetation regions. In fact,
scientists estimate that humans have
changed more than half of Earth’s surface to
some extent.
CHANGING VEGETATION
PATTERNS
As you read in Chapter 2, human activities
are contributing to climate change. Changes
in climate are causing changes in vegetation
patterns around the world. For example,
rising temperatures are causing many plant
species to migrate. Some plants are growing
in places that used to be too cold for them,
such as closer to the poles and higher on
mountains (Figure 3.14). They can survive
in these locations now because average
temperatures there have increased. What
happens to the species that are already
there? They have more competition for their
living space and for the resources needed
to live. Some lose out and die. Others may
die off if they cannot adapt to warmer
temperatures.
FIGURE 3.14 Studies show that some plants on
Austrian mountaintops are being replaced by plants
that used to live lower down the mountain.
I wonder what other species are
affected by this change in plants?
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CREATING MORE DESERT
The change from fertile land into desert is called desertification.
Desertification can be caused by changes in climate. It can also be caused
by poor farming methods, such as grazing and overuse of the soil. About
1 billion people live in areas affected by desertification. Many of them can
no longer grow crops, and they face hunger if they remain in the area.
Desertification also changes plant and animal habitats. Species must adapt
or migrate out of the area, or they will die off.
desertification change from
fertile land into desert
REDUCING NATURAL VEGETATION
Starting thousands of years ago, people removed natural vegetation, such as
grasses and trees, to create flat, open areas for farmland. They domesticated
some species of plants for their crops. Today, about one-third of Earth’s land
surface is farmland instead of natural vegetation. That is larger than the area
of North America and South America combined.
LOSING FORESTS
In the last 5000 years, about 18 million km2 of Earth’s forests, an area about
the size of South America, has been lost. The removal of forests is called
deforestation. Forests have been cut down to create space for cities, roads,
and farmland. In the past, farmers cut down trees by hand and burned them,
which was known as slash-and-burn (Figure 3.15). Today, the
slash-and-burn method is widespread. Also, large machines remove trees
very rapidly. Forests are being lost at a rate where they cannot regrow in our
lifetime. These changes are dramatically changing the natural vegetation of
these ecosystems and the lives of the species that live in them.
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deforestation to clear a
forest from an area
FIGURE 3.15 Slash-and-burn in a
tropical rainforest in South America
What farming method would
I use in South America
and Canada?
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HEROES IN
ACTION
FELIX FINKBEINER: PLANT-FOR-THE-PLANET
In 2007, in Germany, a nine-year-old student
named Felix Finkbeiner (Figure 3.16) read
about Wangari Maathai. She was an activist
from Kenya whose goal was to plant
30 million trees across Africa. Why? To stop
soil erosion and capture greenhouse gases.
Inspired, Finkbeiner came up with his
own goal: to plant a million trees in every
country on the planet. This would fight
global climate change and improve the
world’s vegetation. He and his classmates
created an organization
called Plant-for-the-Planet.
They planted the first tree
outside their school in
March 2007.
In one year, Finkbeiner
led students in planting
50 000 trees in Germany.
In 2008, he was elected
to the United Nations
Environment Programme
FIGURE 3.16 Felix Finkbeiner
(UNEP) children’s board.
It is made up of young people from around
the world who are committed to improving
the environment. Finkbeiner spoke to
UNEP’s youth conference in South Korea
in 2009. He inspired other participants to
start tree-planting programs in their own
countries (Figure 3.17). In 2011, there were
activities in 131 countries. More than a million
trees had been planted. Many were planted
by children in countries already suffering
from the impacts of climate change.
To the members of Plantfor-the-Planet, the trees
that they plant are symbols
of climate justice. Not only
do they reduce the harmful
effects of climate change,
but they also show that every
child can make a difference
in the world.
In 2011, UNEP turned over
its “Billion Trees Program”
to Plant-for-the-Planet. This
gave the organization access to more
funds and to more people who could help
out. By 2014, Plant-for-the-Planet has
planted close to 13 billion trees across
193 countries. Now the organization’s goal
is to plant 1000 billion trees until 2020.
A CALL TO ACTION
1.With a partner, discuss why
Felix Finkbeiner chose trees as the
focus for his environmental actions.
2.In a small group, discuss, and agree on,
what you would choose as the focus
for your own environmental actions.
Take the first step toward making
this happen.
FIGURE 3.17 Planting a tree can help the planet in
many ways.
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UNIT 1: Physical Patterns in a Changing World
3.How would you organize a treeplanting campaign in your community?
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Traditionally,
why was it important
that people moved their
grazing animals from
place to place?
BURNING GRASSLANDS
For tens of thousands of years, people have lived on grasslands. They moved
from place to place, grazing their livestock where grass grew naturally.
Herders often set fire to grasslands to encourage new growth for their
animals to eat. Sheep and goats destroyed many native plants by pulling
out their roots. Over time, burning has altered entire ecosystems. Now,
grasslands are one of the most threatened habitats worldwide.
PRESERVING THROUGH ECOTOURISM
FIGURE 3.18 An experienced guide
assists birdwatchers in the
Costa Rican rainforest.
I wonder what impacts
ecotourism can have on
the environment?
While some people change or remove natural vegetation, others living in a
similar environment preserve the natural vegetation through ecotourism.
The goal of ecotourism is for tourists to learn about and explore the natural
environment without interfering with it. Costa Rica, with its protected and
undisturbed rainforests, is a well-known ecotourism destination (Figure 3.18).
Some countries with tropical grasslands, such as South Africa and Australia,
encourage ecotourism. Ecotourism creates jobs for the people who live there.
They might work as tour guides, or own or work in local restaurants or hotels.
CHECK-IN
1. PATTERNS AND TRENDS In which parts of the world
have people had the greatest impact on natural
vegetation patterns? In which parts of the world
have people had the least impact on natural
vegetation patterns? Explain your choices to a
partner and explain why such a pattern might exist.
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2. EVALUATE AND DRAW CONCLUSIONS List some ways
that people have adapted to live in tropical
grasslands. How have they responded to its
challenges and opportunities? Explain whether or
not their ways of life are sustainable.
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HOW DO CHANGING
VEGETATION
PATTERNS
AFFECT SPECIES?
In most cases, changes to vegetation regions have been made on purpose.
Often people have made these changes as a way to improve their own lives.
But sometimes the changes and effects have been unintentional. In some
cases, we do not yet know what the effects will be. In other cases, we know
that the changes are harmful to people, wildlife, and the local environment
(Figure 3.19). Some even harm the global environment, which means we are
all affected.
On the following pages are some examples of how changes we have made
to vegetation patterns affect plant and wildlife species specifically.
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UNIT 1: Physical Patterns in a Changing World
What is an example
of an unintended
change that I already
know about?
FIGURE 3.19 This part of forest in
the Yucatan Peninsula, in Mexico,
has been destroyed. The Northern
Tamandua lives there (inset).
I wonder what other animal
species lived here?
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LOSS OF BIODIVERSITY
The vegetation regions on Earth are made up of ecosystems. An ecosystem
is made up of the plants and animals in a location interacting with
their environment and depending on one another to survive. All the
different species of plants and animals in these ecosystems create Earth’s
biodiversity. Some of the countries with the highest biodiversity are Brazil,
Indonesia, Mexico, Ecuador, and Australia. Changes in natural vegetation
patterns are threatening this biodiversity.
It is important that we preserve Earth’s biodiversity. An ecosystem that
includes a great variety of animals and plants is better able to respond to
changing conditions. Imagine, for example, that one plant species becomes
extinct, or dies out. An animal that feeds on it must adapt by eating other
species of plants. Otherwise, it will also become extinct.
All living things benefit if there is greater diversity on Earth. Tragically,
many of Earth’s animal and plant species are extinct or endangered, close
to becoming extinct. Earth’s biodiversity is shrinking, and so is our ability to
survive as a living planet.
LOSS OF HABITAT
Forests, grasslands, and even deserts are home to plant and animal
species. Changes in natural vegetation patterns caused by factors such as
growing cities (Figure 3.20), the destruction of forests and grasslands, and
desertification are causing the loss of many animal habitats. Habitat loss,
or loss of where a species lives, is one of the leading causes of biodiversity
loss. It can result in smaller numbers of many species and even the
extinction of some species.
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biodiversity the variety of
life on Earth; “bio” means life,
and “diversity” means variety
extinct loss of all individuals
of a species
endangered at risk of
becoming extinct
habitat loss occurs when a
habitat no longer meets the
needs of the species it once
supported
FIGURE 3.20 A view of the city
of Athens, in Greece, from nearby
Ymittos mountain
I wonder how much natural
vegetation has been changed
so that people have a
“habitat” of their own?
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FOCUS ON
SPATIAL SIGNIFICANCE
Spatial significance relates specifically to where
places are located on the planet. Every location
has certain features or characteristics that make it
unique. The term that geographers use to describe
the specific characteristics of a place is site. Spatial
significance also looks at the importance of a place
and the things around it.
We determine the spatial significance of a place
by asking questions such as the following:
Where?
• What are the absolute and relative locations of
the place?
Why there?
• What physical conditions or characteristics make
this place important?
• What human conditions or characteristics make
this place important?
Why care?
• How does its location make the place important
to people? to animals? to plants?
on Madagascar evolved on their own. Today,
95 percent of the reptiles, 92 percent of the
mammals, and 89 percent of the plants on
Madagascar exist nowhere else on Earth. It is
considered one of the planet’s biodiversity hot spots.
The biodiversity of Madagascar is under threat
for several reasons:
• deforestation is taking place as a growing human
population clears the forests for fuel and for
farming
• valuable timber is being harvested illegally
because of the income it creates
• many species are being captured by wildlife
traders who sell the animals illegally to pet stores
and collectors
• climate change is altering the natural patterns on
the island
DEMOCRATIC REPUBLIC
OF THE
CONGO
TANZANIA
MALAWI
ANGOLA
WHAT CHARACTERISTICS MAKE A
PLACE SIGNIFICANT?
ZAMBIA
MOZAMBIQUE
A place might be significant for various reasons.
It might be significant because of its physical
characteristics, such as its landforms, climate, or
natural vegetation. It might be important because
of human activities, such as manufacturing.
Often the significance of a place comes from a
combination of these characteristics.
We can also think about spatial significance for
plants and animals. The places that have the greatest
spatial significance for plants and animals are those
that best meet their needs for food and shelter. These
places will have quite different characteristics than
places that people find significant.
MADAGASCAR
ATLANTIC
OCEAN
The island of Madagascar is located off
the east
coast of Africa (Figure 3.21). It was separated from
other land masses by tectonic plate movement about
160 million years ago. The plant and animal species
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UNIT 1: Physical Patterns in a Changing World
ZIMBABWE
NAMIBIA
MADAGASCAR
BOTSWANA
SOUTH
AFRICA
Antananarivo
18.93°S, 47.52°E
SWAZILAND
INDIAN
OCEAN
N
LESOTHO
0
500 km
FIGURE 3.21 Map of Madagascar
TRY IT
1.Where? Locate Madagascar on a world map.
What is its absolute location? What is its
relative location?
2. Why there? What are the unique characteristics
of Madagascar?
3. Why care? How is its location important to the
people, plants, and animals that live there?
Use the Internet and other sources of information
to develop your answers.
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LOSS OF SPECIES
Any large change in natural
vegetation patterns also
leads to the extinction
of plant and animal
species. Because of this, and
sometimes other factors such
as poaching, the illegal taking
or killing of wildlife, species
are now becoming extinct at
a faster rate than ever before.
Since 1970, many animal
species have become extinct.
This includes the West
African black rhinoceros, the
Dutch Alcon Blue butterfly,
and the Labrador duck. Many
plant species, including
Kingman’s prickly pear, have
also become extinct. There are an estimated 16 000 plant and animal species
currently on the edge of extinction, including the tiger (Figure 3.22). In the last
100 years, we have lost 97 percent of wild tigers. Studies predict that climate
change will cause more loss of species than habitat loss. One-quarter of all
plant and animal species on land may be threatened with extinction by 2050.
FIGURE 3.22 The tiger
is near extinction due to
habitat loss and poaching
I wonder how losing all
wild tigers would impact
the planet?
RISE IN NON-NATIVE PLANT SPECIES
Native species are plant or animal species that naturally live in a place.
Non-native species are species that have moved into, or been introduced
into, a new environment. Australia now has more non-native plant species
than native species.
Sometimes this change happens accidentally. Sometimes people have
brought in new plants on purpose. For example, in the 1930s, Australia
introduced the athel pine to provide shade and to help prevent soil erosion.
When non-native plant species are in a new environment, they compete
with the species already there for space and nutrients. Sometimes the new
species are fast-growing, produce many seeds, and are hardy. They can take
over the habitat of the native species, such as the athel pine has done. These
are known as invasive species. Invasive species can cause the native species
to become extinct.
native species species that
develop naturally in an area
non-native species species
that are not natural to an
environment but have moved,
or been introduced, into it
invasive species non-native
species that cause harm, for
example, to the environment
CHECK-IN
1. GEOGRAPHIC PERSPECTIVE Should Canadians be
concerned about global patterns of natural
vegetation loss? Debate the question with
a classmate.
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03_geo7_ch3.indd 97
2. INTERPRET AND ANALYZE Create a graphic
organizer to outline the causes of changes in
natural vegetation and the consequences arising
from the changes. Sum up your thinking in a
15-second soundbite.
CHAPTER 3: Changing Patterns of Natural Vegetation
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CASE STUDY
SAVING BRAZIL’S
ATLANTIC
FOREST
A unique rainforest lies along the east coast
of South America, mainly in Brazil. Known
as the Atlantic Forest, it is one of the top
five biodiversity hot spots on the planet.
This means it is a place with great biological
diversity but it is under high risk of destruction.
WHERE IS THE FOREST?
Brazil
N
BRAZIL
Brasilia
PARAGUAY
ATLANTIC
OCEAN
Rio de Janeiro
São Paulo
23.55°S, 46.63°W
URUGUAY
ARGENTINA
0
1600 km
The Atlantic Forest contains many
ecosystems. This gives the forest a great
diversity of animal and bird species, second
only to the much larger Amazon Rainforest.
The Atlantic Forest is home to an estimated
2200 species of wildlife. It has 200 bird
species that are found nowhere else in the
world. It also has 250 types of mammals,
such as the puma and the ocelot. Of the
26 primates found in the Atlantic Forest,
21 do not exist anywhere else in the world.
The Atlantic Forest is very narrow, squeezed
between the Atlantic Ocean on the east and
the Serra do Mar mountains on the west.
The forest extends up the east side of
the mountains to about 1800 metres. Above
Geography 7 SB
that, the climate is too cool for tropical plants
0-17-659048-X
to grow.
Far to the north-west, on the other sideFN
C03-F07-G07SB
of the mountains, is a completely differentCO
Crowle Art Group
rainforest, the Amazon Rainforest. The higher
elevations separate the two rainforests. Pass
5th pass
Each one has different species of plants and
Approved
animals.
The capital city label is the correct style.
Not Approved
WHY IS THE FOREST SPECIAL?
The Atlantic Forest is a tropical broadleaf
forest. It is amazingly diverse, with unique
vegetation and climate characteristics. It has
about 20 000 species of plants. About
40 percent of them are found nowhere else
on Earth.
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Comparison of Atlantic Forest Coverage
in 1900 and in 2012
BRAZIL
Brasilia
BOLIVIA
AT L A N T I C
FIGURE 3.25 An endangered golden lion tamarin
OCEAN
São Paulo
PARAGUAY
ARGENTINA
WHAT NOW?
Rio de Janeiro
N
Forest coverage in 1900
Forest coverage in 2012
URUGUAY
0
350 km
Urban areas in 2012
FIGURE 3.23 This map shows how the size of the Atlantic Forest
has changed over time.
WHAT IS DESTROYING THE FOREST?
Five hundred years ago, the Atlantic Forest
covered an area larger than the size of
Ontario. Today, less than 12 percent of the
original forest remains (Figure 3.23).
Over the years, people cut down much of
the Atlantic Forest to make room for grazing
livestock, growing crops, and commercial
logging. Also, trees were cleared to make
room for mining and drilling operations,
and for building roads and railways. Part of
the forest destruction can also be blamed
on human population growth. This small
area of Brazil is home to 70 percent of the
country’s population, and it includes Brazil’s
largest cities, Rio de Janeiro and São Paulo.
FIGURE 3.24 A patch of Atlantic Forest. Deforestation
and small patches of forest make it very difficult for
wildlife species to survive.
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The remaining forest has been reduced to small
patches of trees (Figure 3.24). Many of these
forest patches are damaged. It is very difficult
for wildlife species to survive and find suitable
habitats. Many species are endangered, such as
jaguars and golden lion tamarins (Figure 3.25).
The human population in the region continues
to grow, creating more air and water pollution.
However, there are efforts to save the forest.
Environmentalists are trying to protect the
forest patches that remain, as well as create
a corridor system to link them. This would
allow species to move safely from one forest
patch to another, enlarging their habitats.
Other actions include: buying farmland and
returning it to a more natural state; developing
other forms of economic activities; pressuring
governments to create protected parks.
EXPLORE THE ISSUE
1.Research to find out more about
efforts to preserve the Atlantic Forest
and its wildlife.
2.People have cut down much of the
Atlantic Forest. Research other ways
people in Brazil are responding to the
challenges and opportunities offered
by this forest.
CHAPTER 3: Changing Patterns of Natural Vegetation
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LOOKING BACK: CHAPTER 3
S
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WHY
O
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LEARNING GOALS
As you worked through this chapter, you had opportunities to
• identify patterns in the world’s natural vegetation
• describe how nature and humans change natural vegetation
patterns
• gain an awareness of the impact we have made on the world’s
natural vegetation
As you learned in Chapter 3, Earth’s natural vegetation is changing. Think
back to the question that started the chapter: Why care that Earth’s natural
vegetation is changing? Hopefully you now know many different ways to
answer this question.
Summarize Your Learning
Reflect on what you have read and discussed throughout Chapter 3. Then
select one of the following tasks to summarize your learning about natural
vegetation patterns:
• Write a short story about a character who is taking action to prevent some
type of harm to the environment, or to a species, caused by a change to a
natural vegetation region. Include facts to create a realistic scenario.
• Write a proposal to your principal suggesting that a large mural on the
theme of habitat preservation be placed on one of the hallway or cafeteria
walls. Your proposal should persuade your principal that the mural will
both teach your fellow students and inspire them to take action.
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APPLY YOUR LEARNING
1. INTERRELATIONSHIPS Think about all the different
types of natural vegetation around the world.
Which ones do you think would have the greatest
impact on people—both good and bad? How did
you decide? Choose two or three, and list some
of their impacts on people.
2. INTERRELATIONSHIPS What are some ways that
people cope with the challenges of living in a
particular type of natural vegetation region, such
as a semi-desert scrub or a mixed forest? Choose
one type and create an annotated photo
montage or annotated drawings describing the
region and ways that people cope with it.
3. INTERPRET AND ANALYZE Deforestation is viewed
as one of the major threats facing natural
vegetation, especially tropical forests. Find a
pair of “before” and “after” photos that show
the impacts of deforestation. Write a caption for
each photo. As always, remember that photos are
someone’s intellectual property, so make sure you
are allowed to use them and that you attribute
the owner in your work.
5. FORMULATE QUESTIONS What questions do you
have about human activities in the tundra
and high-mountain vegetation environments?
Research an answer to one of them.
6. COMMUNICATE The Chapter Big Question is “Why
care that Earth’s natural vegetation is changing?”
Create a blog, vlog, or podcast to answer the
question. Use details from this chapter.
7. SPATIAL SIGNIFICANCE A housing developer wants
to build new homes in a forested area near your
community. Using point-form notes, record the
spatial significance of the forest for different
groups in your community. Include
• town officials
•environmentalists
• construction workers
• people wanting to buy new homes
• any other group you think should be included
4. EVALUATE AND DRAW CONCLUSIONS Write a letter for
a politician to read in Parliament (this should take
no more than two minutes to read) that explains
the interactions between soils and natural
vegetation and then emphasize why we should
protect natural vegetation cover.
UNIT1
CHECK-IN
CHALLENGE
1.Review the Focus On: Spatial Significance on
page 96. What are the characteristics of your
selected community that make it important?
2. Review what you learned about natural vegetation
in Chapter 3. Research to see how vegetation
can be used to prevent or mitigate your natural
disaster. What are the pros and cons to including
this vegetation? Think about how the vegetation
might impact the recovery from the disaster. Use
a t-chart to help organize your thinking.
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3. Investigate your chosen community to see what
they are already doing to prevent or mitigate a
natural disaster.
4. Review the Unit Challenge on page 15 and the
information you have collected so far. Look over
your research questions. Do you need to make
any changes based on what you learned about
vegetation in Chapter 3?
CHAPTER 3: Looking Back
101
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CREDIT BLM 3.4: Courtesy of The
International Union for Conservation
of Nature, IUCN Red List version
2014.1: Table 5, Last Updated: 12
June 2014; BLM 5.3; Courtesy of
Fisheries and Oceans Canada,
Ecological Footprint Handout,
http://www.pac.dfo-mpo.gc.ca/
education/documents/empreinte-ecofootprint/ecofootprint_handout_e.
pdf; BLM 6.5: Source: Food and
Agriculture Organization of the
United Nations, 2012, Statistics and
Information Branch of the Fisheries
and Aquaculture Department,
FAO Yearbook 2012 Fishery and
Aquaculture Statistics resource,
http://www.fao.org/3/a-i3740t.pdf.
Reproduced with permission.
SOURCES BLM 1.5: Source: http://
earthquake.usgs.gov/ (as of May 9,
2014 at 11:21 a.m.); BLM 2.5:
Sources: www.climatemps.com,
www.worldweatheronline.com;
BLM 5.4: Source: Human Development
Index and its components, https://
data.undp.org/dataset/Table-1Human-Development-Index-and-itscomponents/wxub-qc5; BLM 7.5:
Source: Ambient (outdoor) air
pollution in cities database by country
and city. World Health Organization,
http://www.who.int/phe/health_
topics/outdoorair/databases/cities/en/
Table of CONTENTS
Teaching Geo7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . viii
Cross-Curricular Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . X
Key Principles of a Differentiated Classroom . . . . . . . . . . . . . . . . . . . . . . . . . . . . . X
Assessment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . XVI
Introduction: What Is Geography? . . . . . . . . . . . . . . . . . . . . . . . 1
Why Study Geography? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Case Study: The Kayapo of Brazil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Unit 1: Physical Patterns in a changing world . . . . . . . . . . . 11
Global Concerns: Global Disaster: Earthquake in the Indian Ocean . . . . . .
Unit 1 Challenge: Design a Natural Disaster Response Plan . . . . . . . . . . . . . .
Unit 1 Planning Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Unit 1 Curriculum Correlation Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13
14
16
26
CHAPTER 1: LANDFORM PATTERNS . . . . . . . . . . . . . . . . . . . . . . . . . . 31
What Are Landforms? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
How Are Landforms Created and Changed? . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
How Do We Respond to Challenges Caused by Earth’s Forces? . . . . . . . . . . .
Case Study: Eyjafjallajökull: Icelandic Hot Spot . . . . . . . . . . . . . . . . . . . . . . . . . .
Looking Back: Chapter 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
32
37
43
49
52
CHAPTER 2: CHANGING PATTERNS OF CLIMATE . . . . . . . . . . . . . . . . 55
Why Is Climate Important? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
National Geographic Case Study: Australia’s Water Woes . . . . . . . . . . . . . . . .
How Do We Describe Climate? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
What Factors Affect Climate? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
What Causes Climate Change? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Looking Back: Chapter 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
56
60
63
68
73
78
CHAPTER 3: CHANGING PATTERNS OF NATURAL VEGETATION . . . . . 83
Why Is Vegetation Important? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84
How Do Natural Factors and Vegetation Interact? . . . . . . . . . . . . . . . . . . . . . . . 88
How Are We Affecting Natural Vegetation? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93
How Do Changing Vegetation Patterns Affect Species? . . . . . . . . . . . . . . . . . . 97
Case Study: Saving Brazil’s Atlantic Forest . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
Looking Back: Chapter 3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104
CHAPTER 4: PATTERNS OF RIVERS AND OCEANS . . . . . . . . . . . . . . 107
Why Are Earth’s Water Systems Important? . . . . . . . . . . . . . . . . . . . . . . . . . . . .
What Are the Characteristics of Rivers and Oceans? . . . . . . . . . . . . . . . . . . . .
How Are We Changing Rivers and Oceans? . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
National Geographic Case Study: China’s Powerful Rivers . . . . . . . . . . . . . . .
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108
111
117
122
Table of Contents
iii
How Can We Protect Earth’s Rivers and Oceans? . . . . . . . . . . . . . . . . . . . . . . . 125
Looking Back: Chapter 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 129
LOOKING BACK: UNIT 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
Unit 1 BlackLine Masters
BLM U1.1 Unit 1 Challenge: Steps in a Natural Disaster Response Plan
BLM U1.2 Unit 1 Challenge: Evaluation Rubric
BLM U1.3 Unit 1 Challenge: Final Checklist
BLM U1.4 Unit 1 Challenge: Sharing My Plan
BLM U1.5 Unit 1 Challenge: My Selected Community and Natural
Disaster
BLM U1.6 Unit 1 Challenge: Progress Chart
Chapter 1
BLM 1.1 Describing Landforms
BLM 1.2 3-D Plate Tectonic Models
BLM 1.3 Anticipation Guide: What Challenges Are Caused by
Earth’s Forces?
BLM 1.4 The Richter Scale
BLM 1.5 Mapping Earthquakes
BLM 1.6 Chapter 1: Self-Assessment of Learning
Chapter 2
BLM 2.1 Making Connections about Climate Change
BLM 2.2 Analyzing Australia’s Climate Change Problem
BLM 2.3 Analyzing Climate Graphs
BLM 2.4 Climate Graph
BLM 2.5 Global Climate Statistics
BLM 2.6 Climate Factors
BLM 2.7 Anticipation Guide: What Are the Causes of Climate Change?
BLM 2.8 Summarizing Causes of Climate Change
BLM 2.9 Ways of Adapting to Climate Change
Chapter 3
BLM 3.1 Looking for Patterns in Natural Vegetation
BLM 3.2 What Three Main Factors Affect Our Natural Vegetation?
BLM 3.3 Anticipation Guide: How Do Changing Vegetation Patterns
Affect Species?
BLM 3.4 Mapping Countries with the Most Threatened Species
BLM 3.5 Atlantic Forest Music Video Plan
BLM 3.6 Checklist for Music Video
Chapter 4
BLM 4.1 Comparing Water Salinity
BLM 4.2 Parts of a River
BLM 4.3 Drawing a Cross-Section of the Bow River Valley
BLM 4.4 Researching the Great Pacific Garbage Patch
BLM 4.5 Comparing Two River Diversions
BLM 4.6 Water Systems Ideas Web
BLM 4.7 Taking Action against Water Pollution
iv
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Unit 1 Answer Key
UNIT 2: OUR WORLD’S NATURAL RESOURCES: USE AND
SUSTAINABILITY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135
Global Concern: Global Goods, Local Costs: Leather Processing
in Bangladesh . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Unit 2 Challenge: Create a Personal Plan of Action . . . . . . . . . . . . . . . . . . . . .
Unit 2 Planning Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Unit 2 Curriculum Correlation Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
137
139
140
152
CHAPTER 5: OUR NEEDS AND WANTS AND THE ENVIRONMENT . . . 157
How Do We Use Natural Resources? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
National Geographic Case Study: Tourists Threaten Antarctica . . . . . . . .
How Does Our Use of Natural Resources Vary? . . . . . . . . . . . . . . . . . . . . . . . .
How Do We Measure the Impact of Our Natural Resource Use? . . . . . . . .
How Are We Addressing Our Use of Natural Resources? . . . . . . . . . . . . . . . .
Looking Back: Chapter 5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
158
162
165
169
175
181
CHAPTER 6: RENEWABLE RESOURCES . . . . . . . . . . . . . . . . . . . . . . . 185
What Are Renewable Resources? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
How Do We Use and Misuse Soil? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Why Care about Fish? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
How Renewable Are Forests? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Case Study: Protecting Natural Resources in India . . . . . . . . . . . . . . . . . . . . .
Looking Back: Chapter 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
186
190
196
199
203
206
CHAPTER 7: FLOW RESOURCES . . . . . . . . . . . . . . . . . . . . . . . . . . . . 211
Why Are Flow Resources Important? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
What Are the Challenges Facing Flow Resources? . . . . . . . . . . . . . . . . . . . . . .
National Geographic Case Study: Argentina’s Sunny Future . . . . . . . . . . . . .
How Do We Use Flow Resources for Energy? . . . . . . . . . . . . . . . . . . . . . . . . . . .
Looking Back: Chapter 7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
212
217
222
225
229
CHAPTER 8: NON-RENEWABLE RESOURCES . . . . . . . . . . . . . . . . . . 233
Why Are Non-renewable Resources Important? . . . . . . . . . . . . . . . . . . . . . . .
How Do We Extract Fossil Fuels? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
How Do We Extract Minerals? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Case Study: Conflict Minerals in the Democratic Republic
of the Congo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
What Is the Future of Non-renewable Resources? . . . . . . . . . . . . . . . . . . . . . .
Looking Back: Chapter 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
234
240
244
249
252
256
LOOKING BACK: UNIT 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 259
Unit 2 Blackline Masters
BLM U2.1 Unit 2 Challenge: Personal Plan of Action Evaluation Rubric
BLM U2.2 Unit 2 Challenge: Progress Chart
BLM U2.3 Unit 2 Challenge: My Selected Natural Resource
BLM U2.4 Unit 2 Piece It Together: Questions and Answers
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BLM U2.5 Unit 2 Challenge: Final Checklist
BLM U2.6 Unit 2 Challenge: Sharing My Personal Plan of Action
Chapter 5
BLM 5.1 Antarctica: Causes, Effects, and Solutions Organizer
BLM 5.2 Comparing Resource Use
BLM 5.3 Determining Your Ecological Footprint
BLM 5.4 Analyzing a Thematic Map: Human Development Index
BLM 5.5 Sample 2012 HDI Data: North and Central America
BLM 5.6 HDI Data Recording Page
BLM 5.7 Anticipation Guide: What Are Our Attitudes Toward Using
Natural Resources?
Chapter 6
BLM 6.1 Uses for Renewable Resources
BLM 6.2 Evaluating Evidence: Deforestation in Kenya
BLM 6.3 Anticipation Guide: How Do We Use and Misuse Soil?
BLM 6.4 Circle Graph: Global Food Supply
BLM 6.5 Top 15 Fishing Countries of the World, 2012
BLM 6.6 How to Stop Overfishing
BLM 6.7 Jigsaw Activity: Changes in Forest Area
BLM 6.8 Environmental Impacts of Deforestation
BLM 6.9 Social Impacts of Deforestation
BLM 6.10 Actions to Protect Forests
Chapter 7
BLM 7.1 Anticipation Guide: Why Are Flow Resources Important?
BLM 7.2 Layers of the Atmosphere
BLM 7.3 Guam’s Water Conservation Ideas
BLM 7.4 Top 10 Cities for Air Pollution, 2010–2013
BLM 7.5 Most Polluted Cities Spatial Journal Checklist
BLM 7.6 Argentina’s Energy Plans
BLM 7.7 Comparing Water Power Generating Methods
Chapter 8
BLM 8.1 My Use of Non-renewable Resources
BLM 8.2 Anticipation Guide: How Are Fossil Fuels Extracted?
BLM 8.3 Comparing Oil and Gas Extraction Methods
BLM 8.4 Flow Chart for Processing Minerals
BLM 8.5 Conflict Minerals: Causes, Impacts, and Consequences
BLM 8.6 Using Non-renewable Resources Responsibly
BLM 8.7 Effects of Resource Development on Indigenous Peoples
Unit 2 Answer key
Generic BLMs
BLM 0.1 Understanding Interrelationships
BLM 0.2 Causes and Effects
BLM 0.3 Reviewing Sources for Credibility
BLM 0.4 Points of View
BLM 0.5 Sequencing
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BLM 0.6 The Geographic Inquiry Process
BLM 0.7 Inquiry Process Checklist
BLM 0.8 Formulating Questions to Guide Research
BLM 0.9 Political Outline Map of the World
BLM 0.10 Reading Thematic Maps
BLM 0.11 Thematic Map Checklist
BLM 0.12 Climate Graph Checklist
BLM 0.13 Cross-Section Map Checklist
BLM 0.14 Percentage Circle Graphs
BLM 0.15 Circle Graph Checklist
BLM 0.16 Writing a News Article
BLM 0.17 Ten Tips for Designing a Good Survey Questionnaire
BLM 0.18 Creating an Action Plan
BLM 0.19 Written Project Checklist
BLM 0.20 Exit Cards
BLM 0.21 Exit Card Stem List
BLM 0.22 3-2-1
BLM 0.23 Compare/Contrast Matrix
BLM 0.24 Frayer Model
BLM 0.25 Placemat
BLM 0.26 K-W-L Chart
BLM 0.27 Fishbone
BLM 0.28 Response Wheel
BLM 0.29 Venn Diagram
BLM 0.30 Unit Research Questions
BLM 0.31 Unit Research Notes
BLM 0.32 Tiered Activity Template
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Chapter 3
Changing Patterns of Natural Vegetation
Student Book pages 74–75
Launching the Chapter
Chapter Big Question
• Ask students: What is vegetation? (plants) What is natural vegetation?
(plants that are natural to an area and grow freely there)
• Point out the Chapter Big Question as well as the Unit Big Question.
Discuss with students how this chapter links to the Unit Big Question,
Why care about changes in Earth’s physical environment? (plants are
an important part of Earth’s physical environment; plants are affected
by physical elements and also causes changes). Ask them how the
Chapter 3 Big Question also connects to the Chapter 1 Big Question,
Why are landforms important? (landforms help to shape natural
vegetation) and the Chapter 2 Big Question, How should we respond to
climate change? (vegetation responds to changes in the climate).
• After students read the three learning goals for this chapter, ask: What
are the key words in the Learning Goals? Which of these learning goals
interests you most, and why?
• Use a K-W-L Chart to assess what students already know about the
topic of natural vegetation. Have students complete the first two
columns of BLM 0.26 K-W-L Chart indicating what they already Know
and what they Want to know. (At the end of the chapter, they will record
what they Learned.)
Why care that Earth’s natural
vegetation is changing?
Learning Goals
• identify patterns in the
world’s natural vegetation
• describe how nature and
humans change natural
vegetation patterns
• gain an awareness of the
impact we have made
on the world’s natural
vegetation
✓
Assessment
What Is Where? Why There? Why Care?
Highlight the where aspect of geography by pointing
out that the Namib Desert is located primarily along the
western edge of Namibia in southern Africa (24.75°S,
15.28°E). Rainfall in this desert rarely exceeds 200 mm
annually. Although this desert is located right on the
Atlantic coast, prevailing wind patterns mean that little
moisture finds its way inland (why there). Human use of
the land is minimal, with only a few herding groups across
the whole region (why care). Most of the species that do
exist in this inhospitable environment, such as the camel
thorn tree, the black-backed jackal, and the Namib desert
beetle, are found nowhere else in the world.
Have students discuss what they see in the chapter
opener photo on pages 74–75. Then display Figure 3.26,
an online version of the photo. Provide students with these
labels (numbers here provide the answers): (1) prevailing
wind direction; (2) sand dune; (3) sparse plants growing
in sand; (4) isolated trees; (5) dense grassland; (6) sparse
grasses; (7) dried cracked soil. Point out the foreground,
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middle ground, and background in the photo. Ask students
to describe what they see in each part of the photo,
matching the labels to the numbered lines. Have them
explain what possible factors created the conditions that
they see (wind, lack of rain), and suggest some implications
of these conditions. As they do so, they will make
connections between climate and vegetation.
Note that that the term desertification is defined on
Student Book page 91 and that the chapter opener photo
and narrative exemplify desertification. Desertification
refers to the changing conditions of formerly productive
land that causes it to become more desert-like. Where
appropriate while reading the chapter, have students
consider questions such as What natural causes make
deserts expand? What human actions create deserts?
How is this a good example of the geographic concept
of changing patterns? How is this a good example of the
geographic concept of interrelationships between humans
and natural environments?
Chapter 3: Changing Patterns of Natural Vegetation
83
Why Is
Vegetation Important?
Student Book pages 76–83
Geographic Thinking
Concepts
Interrelationships
Spatial Significance
Patterns and Trends
Inquiry Skills Focus
Interpret and Analyze
Related Materials
BLM 3.1 Looking for Patterns
in Natural Vegetation
BLM 0.22 3-2-1
LESSON SUMMARY
Expectations
A3.9
Criteria for Success
Students can
• identify the major natural vegetation regions and describe the role that climate and soil
has in shaping these regions
• describe the importance of vegetation to humans and the planet
Suggested Assessment Strategies
• Think-Pair-Share
• No Hands
• 3-2-1
Cross-Curricular Connections
• Grade 7 Math: Patterning and Algebra: represent linear growing patterns, using a
variety of tools and strategies
• Grade 7 Math: Data Management and Probability: make inferences and convincing
arguments that are based on the analysis of charts, tables, and graphs
Map, Globe, and Graphing Skills
• extracts information from and analyzes photographs of unfamiliar places and sites
Geography Background
Possible Misconceptions
There are various acceptable ways of categorizing natural
vegetation. The 11 vegetation types referred to in this chapter
are commonly used at this grade level. However, if students
are using other sources of information, they will find different
categories and names for the vegetation types. For example,
one source from the University of California has 37 different
zones across the world. Prompt students to consider why
categorization approaches vary; for example, approaches may
depend on the purpose and level of analysis. Some, for instance,
are designed for gardeners, who need to understand subtle
differences in growing conditions. There are no right or wrong
approaches, just ones for different purposes.
In Canada, there has been a tendency to describe
trees as deciduous (lose all their leaves for part
of the year; often have broad, flat leaves) or
coniferous (have needle-like leaves). This can be
confusing; some species, such as the tamarack
(also called larch), are coniferous and do lose their
needles. You will encourage better understanding
by referring to trees as either deciduous or
evergreen (the latter lose some leaves, but have
leaves all year round), and point out that many
coniferous trees in Canada (such as pine and fir)
are evergreen trees. In tropical areas, evergreens
include mangrove, teak, rosewood, and palm trees.
84
Unit 1: Physical Patterns in a Changing World
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TEACHING NOTES
Minds On
• Ask students: What is, or was, the natural vegetation of our own area?
(deciduous trees, evergreen trees, grasses, forests) Have them describe
examples of species or types of natural vegetation that they have seen in
the media or when travelling to other parts of the world (palm trees,
rainforests, scrub).
• Use a Think-Pair-Share to observe students’ conversations and check
their understanding of the importance of natural vegetation. Ask
students to think about the statement: The world is better off if natural
vegetation is left natural. Have them pair up to discuss their response.
Provide another prompt, such as We would all be better off without cities.
Have a whole class discussion in which students share their responses
around each statement. Check that students are considering all living
things as part of “the world,” not just humans.
ELL
Encourage ELLs to describe
the vegetation in their current
or past living communities
and to bring in photos to
share with the class.
✓
Assessment
Action
• Help students extend their thinking about the role of natural vegetation
in ecosystems by discussing the interrelationships question on Student
Book page 76. For example, after listing examples of animals that live
in grasslands but not in deserts, such as lions, giraffes, bison, and
kangaroos, they may note that the habitats of wildlife species change as
natural vegetation is altered.
• Students will also make connections between wildlife and vegetation
when they consider the photo question for Figure 3.1. From past
experience, they may be able to identify other grazing species such as
gazelles, or predators such as lions.
• After introducing the forests, grasslands, and deserts of the world, have
students identify the geographic distribution of the different natural
vegetation types on the world map in Figure 3.2, noting the vegetation
types found in our part of North America.
• Have students use online or classroom atlases to locate on Figure 3.2
the countries where each of the photos in Figures 3.3 to 3.5 were taken.
Introduce the natural vegetation region tables (types of forests, types of
grasslands, and types of deserts), shown on pages 78 to 81. Each type is
described, along with the climate conditions that surround it.
• Point out that the great diversity of vegetation makes it difficult to see
patterns in natural vegetation characteristics. Explain that using graphic
organizers can help us identify those patterns, for example, by making
comparisons and noting similarities and differences among the various
vegetation regions. Have students use BLM 3.1 Looking for Patterns in
Natural Vegetation to correlate variables (amount of vegetation and
latitude) along two general scales, creating four quadrants. Ask them to
write the names of the natural vegetation regions in the appropriate
quadrants or on the lines, using the information in the Student Book to
make their decisions. Then, have students describe patterns in natural
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INTERRELATIONSHIPS
DI
To Support
Students who live in large
urban areas may have never
experienced truly natural
vegetation. Supplement their
understanding of forests,
deserts, and grasslands by
showing additional photos,
such as Online Figures 3.27
to 3.32.
Chapter 3: Changing Patterns of Natural Vegetation
85
✓
Assessment
•
•
•
SPATIAL SIGNIFICANCE
•
weblink
•
vegetation around the world (all tropical forests are near the equator, the
tundra is far from the equator). Use a No Hands strategy with a whole class
discussion to assess students’ understanding of these connections.
Have students create a new graphic organizer with four quadrants and
the same two general scales they used in BLM 3.1 but identifying a
different set of variables (temperature and amount of plant diversity; and
location of plants and height of plants). Students can make the graphic
organizers individually in their notebooks, or in small or large groups with
electronic whiteboards. For a more hands-on approach, prepare labels
of the natural vegetation regions and have students add them to graphic
organizers enlarged as posters.
Have students read the definition of domesticated on page 82. Discuss
how domesticating plants has helped people, and brainstorm a list of
possible negative consequences.
Ask students to list the benefits of vegetation to people (providing food,
medicines, beverages, clothing, oxygen; cleaning water; protecting soil
from erosion; offering spiritual comfort). Once students have compared
their lists, have them discuss their conclusions.
The spatial significance question on Student Book page 83 invites
students to connect the natural vegetation in Costa Rica (tropical and
subtropical broadleaf forests) and human uses of it. Ecotourism uses
vegetation in ways that generally help to protect it from harmful humaninduced changes. Have students look at photos of Costa Rican forests
and point out the vegetation characteristics that they believe would
encourage ecotourism (unique wildlife and plants, beautiful landforms,
bodies of water).
In their answer to the photo question for Figure 3.7, students might
suggest that some vegetation grows in certain regions but not in others;
some vegetation is better for some uses than others—for example, in
certain ceremonies, the herbal properties of sage may be preferred, or
other aromatic plants, such as sweetgrass, may be preferable to plants
with a stronger scent, such as cedar.
Consolidation
✓
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Assessment
• To do a quick assessment of students’ understanding of natural
vegetation, use a 3–2–1 strategy. Students should note 3 things they
learned about patterns in natural vegetation, 2 things they learned about
the benefits of natural vegetation, and 1 thing they learned about why
natural vegetation is important.
Unit 1: Physical Patterns in a Changing World
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Check-In Sample Answers Student Book page 83
1. Patterns and Trends Graphic organizers
for this question could include comparison
charts or ideas webs. The characteristics
they could compare include type of
vegetation (forest/grassland/desert),
location, climate conditions, elevation, plant
characteristics, and so on. Reasons for
differences will vary but will mainly be made
up of climate and landform characteristics.
For example, if tropical broadleaf forests are
compared to deserts, reasons for differences
could include global wind patterns, the
direction of prevailing winds, and proximity
to large bodies of water. If tropical broadleaf
forests are compared to tundra and highmountain vegetation, reasons for differences
could include latitude and effects of high
elevations. (Knowledge and Understanding)
2. Interrelationships Student Book pages 82
and 83 identify the following as reasons
why natural vegetation is important for
humans: oxygen, natural habitats, resources,
recreation, and spiritual connection. Students
should give specific examples to explain how
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many of these benefits are important to us
and to all living things. (Communication)
3. Interpret and Analyze Answers will vary
by location of communities. Students
should distinguish generally natural areas
from places where the vegetation is largely
influenced by human activity. Areas differ
depending on use; for example, vegetation
is more likely to remain natural in a
protected park or an inaccessible wilderness
area than in a human settlement. Reasons
why the areas differ could range from
being a place where people live to being a
place inaccessible to people or to being a
protected park area. (Application)
4. Interrelationships Ask students to think
about the different aspects of their lives
as they make their lists of uses of plants
(food, clothing, housing, recreation, spiritual
connection). Their posters may show a local,
community, or global view of life without
the resources that come from plants.
Alternatively, students may choose to create
an infographic. (Thinking)
Chapter 3: Changing Patterns of Natural Vegetation
87
How Do
Natural Factors and
Vegetation Interact?
Student Book pages 84–89
Geographic Thinking
Concepts
Interrelationships
Spatial Significance
Chapter Feature
Reading Thematic Maps
Related Materials
BLM 3.2 What Three
Main Factors Affect Our
Natural Vegetation?
BLM 0.11 Thematic Map
Checklist
BLM 0.24 Frayer Model
BLM 0.23 Compare/Contrast
Matrix
Where on Earth?
• Sahara Desert
23.01°N, 11.61°E
LESSON SUMMARY
Expectations
A3.10, A3.11
Criteria for Success
Students can
• describe how moisture, temperature, and soil affect natural vegetation
• read and analyze a thematic map
• describe how different factors of the environment (natural vegetation, climate, and
soil) interact with one another in different regions of the world
Suggested Assessment Strategies
• Frayer Model
• Compare/Contrast Matrix
Cross-Curricular Connections
• Grade 7 Math: Data Management and Probability: collect data by conducting a
survey or an experiment to do with themselves, their environment, issues in their
school or community, or content from another subject and record observations or
measurements; read, interpret, and draw conclusions from primary data and from
secondary data presented in charts, tables, and graphs
• Grade 7 Math: Number Sense and Numeration: represent and order integers, using a
variety of tools
Map, Globe, and Graphing Skills
• extracts information from, analyzes, and creates increasingly complex thematic maps,
including physical
• extracts information from and analyzes photographs of unfamiliar places and sites
Geography Background
Possible Misconceptions
We can make some general statements about the relationship
between natural vegetation and soils. For example, we can say
that soil under needleleaf forests tends to be thin and acidic,
and soil under deciduous forests tends to be thick and fertile.
However, the interrelationships between natural vegetation and
soil are complex, and more detailed explanations are beyond
the scope of the Student Book.
Clarify for students that tropical broadleaf forests
are also known as rainforests. Students might think
that the massive trees in these forests indicate that
the soil there must be fertile. In fact, nutrients that
make it to the soil from decaying plant material
are quickly washed away by the precipitation,
which is typically heavy in these regions. Soils
under rainforests are notoriously infertile. The
soils in temperate rainforests, such as those found
on Canada’s West Coast, typically contain more
nutrients than tropical rainforests.
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Unit 1: Physical Patterns in a Changing World
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TEACHING NOTES
Minds On
• Ask students: What is the most important factor shaping the vegetation of
our area? Tell them to consider what they have already learned about
vegetation, such as factors that affect vegetation, and then think about what
those factors are like in their local area, what type of vegetation is in their
local area, and how local factors influence the plants. Point out that soil is
also a key factor.
Action
• Have students note the three headings in the Student Book, which name three key natural factors that affect natural vegetation—moisture,
temperature, and soil. Have students use information from pages 84, 86,
and 87 to record ideas and facts about how each factor helps to shape
natural vegetation on BLM 3.2 What Three Main Factors Affect Our
Natural Vegetation? (Students will complete BLM 3.2 as they work
through this section of the chapter.)
• Have students respond to the interrelationships question on Student
Book page 84. From past experience, they may be able to explain that
precipitation is essential for vegetation growth and that plant species
have adapted to the amount of moisture that is available to them.
• In their answers to the photo question for Figure 3.8, students should
mention that forests need more moisture than grasslands. Have them
support their responses using the geographic terms they have studied in
the chapter.
Reading Thematic Maps
Check student understanding
of the term shaping. Invite
students to consider factors
shaping the vegetation
in their current or past
living communities.
ELL
Partner ELLs with students
strong in English. Have each
pair focus on one factor
and then share what they
have learned as a whole
group. Have them complete
BLM 3.2 together and then
refer back to the text to
see if they have missed any
critical information.
INTERRELATIONSHIPS
Student Book page 85
• Refer to the chart below to familiarize yourself
with a variety of common thematic maps. Then
describe them to students and refer them to the
examples found in the Student Book.
Map Type
Description
Example
choropleth
shades of colour show differences in variables
Figure 2.11, Student Book pages 56-57
elevation
colours represent heights
Figure 1.6, Student Book page 23
flow
direction of movement indicated
Figure 2.15, Student Book page 61
isopleth
lines connect places of equal value
Figure 1.5, Student Book page 22
proportional symbols
size of symbol represents volume
Figure 1.12, Student Book page 29
• Consider adding these terms to a word wall or
creating a display of these types of maps.
• It is important that students develop a procedure
for reading maps. Review with them the steps
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ELL
on page 85. Then have students work in small
groups to answer the questions in the steps
about the map in Figure 3.9.
(continued)
Chapter 3: Changing Patterns of Natural Vegetation
89
Step 1: The theme is annual precipitation rates and
the location is North America.
Step 2: The 11 colours in the legend represent
precipitation amounts measured in
millimetres. Students should recognize that
each category represents a range of rainfall
and these ranges vary from 100 mm in the
category at the top of the legend (0–100)
to 2250 mm in the bottom category
(4000–6250).
Step 3: The pattern shows more precipitation on
the edges of the continent and less in the
interior and the northern parts.
Step 4: Climate systems, which students read
about in Chapter 2, might show similar
patterns. To make connections, students
can use what they learned about climate
factors, such as the effect of elevation and
proximity to large bodies of water.
Step 5: Students should use their understandings
about natural vegetation factors, particularly
the role of temperature and precipitation,
to draw their conclusions. Sample
response: North America has a wide
range of precipitation conditions, and
this could lead to a great diversity of
natural vegetation.
• Have students complete BLM 0.11 Thematic
Map Checklist. Ask them to locate these maps
in sources other than the Student Book, such
as on the Internet or in books, magazines, or
brochures.
• ASSESSMENT: To check student understanding,
use a Frayer Model. Distribute BLM 0.24
Frayer Model. Have students write the term
Thematic Maps in the centre. Tell them the four
categories are definition, some characteristics,
examples, and non-examples. An example can
include the map of global natural vegetation
regions in Figure 3.2, and a “non-example” can
include the topographic map of Lake Louise,
Alberta, in Figure 1.5.
• Ask students: What is a treeline? (an area beyond which trees do not
grow) Why do trees not grow above a certain elevation or a certain
latitude? Explain that there are lower temperatures at higher elevations.
With lower temperatures, less photosynthesis takes place, to the point
where there is not enough for adequate tree growth. Tell students
that often there is less precipitation at higher latitudes, such as in
tundra conditions. Point out that the graph in Figure 3.11 connects the
two variables of temperature and precipitation. Ask students: What
information is on the x axis? (increasing precipitation) On the y axis?
(decreasing temperatures) Explain to students that biologists have
discovered that the different types of vegetation grow only where the
conditions are right for them. So, for example, Mediterranean forests
grow where there is between 1400 and 2700 mm of rainfall annually and
temperatures are higher than about 22 °C. Have students use the graph
to identify the temperature and precipitation conditions in which the
natural vegetation in your area grows.
• Before reading about how vegetation and climate interact, on pages 87
and 88, have students list simple examples of ways that vegetation and
moisture or temperature might interact, using observations of plants and climate in your local area (when it rains, the grass grows; when it
starts to get cold and there is less daylight, the leaves begin to drop off
the trees).
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Unit 1: Physical Patterns in a Changing World
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• Have students apply the factors on BLM 3.2 (which they started earlier)
by working in small groups to compare the three factors and rank them
in importance for your location. For example, they might gather data
that describes the amount of precipitation in the local area and the
annual temperatures; they might consider the quality of soil to some
degree by considering the vegetation in the local area (gardens and
crops could mean soil is fertile; desert vegetation could mean soil is less fertile).
Assign one or several students the role of advocate of each of the
factors. They may organize the evidence for their factor and attempt
to convince the rest of the group that it is the most important one.
The group should then consider all the evidence and attempt to
reach an agreement about the rankings. Assist students by providing
information pages containing details about the moisture, heat, and soil
conditions for your local area. They can summarize their thinking in
the bottom chart on BLM 3.2. Note that there is no correct answer; the
conversations that take place using ideas about factors is the goal of this activity.
weblink
Consolidation
• Have students forecast how the following changes would likely affect the
natural vegetation in your area:
– the average temperature goes up by 3 degrees Celsius
– annual precipitation drops by 20 percent
– the soil dries out and winds blow it away
Students can share their forecasts in a variety of ways, such as by
making a comic strip, writing a story, making a model, or preparing a
photo essay.
• Ask students to locate the Sahara Desert on a world map (23.01°N,
11.61°E) and refer to Figure 3.2 to see its natural vegetation region.
Have them read the timeline in Figure 3.13 showing the changes in
the Sahara Desert. Give out copies of BLM 0.23 Compare/Contrast
Matrix. Have students work in pairs to examine each of the photos.
Have them make a list of characteristics of natural vegetation regions,
which might include vegetation conditions, soil conditions, and ability
to produce crops. Then tell them to compare and contrast the natural
vegetation region shown in the top (7000 BCE) photo to the natural
vegetation region shown in the bottom (3800 BCE) photo, recording
their ideas on BLM 0.23. To help them think about the changes they
see, ask: What vegetation factors have changed? How do the patterns
show interrelationships? Read their written work and listen to their
answers to assess their understanding of how natural factors and
vegetation interact.
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✓
Assessment
Chapter 3: Changing Patterns of Natural Vegetation
91
Check-In Sample Answers Student Book page 89
1. Interrelationships Ideas webs can vary
considerably, but check to see that students’
work includes interactions between vegetation
and soils (decaying plants add nutrients to
soil), vegetation and climate (trees will not
grow where it is too cold), and climate and
soils (rain can wash nutrients out of the soil).
(Knowledge and Understanding)
2. Interrelationships In their diagrams or
charts, students should include the following
factors that help to create soil:
• worms, insects, and other decomposers live
in the soil and affect its fertility
• inorganic material (eroded rock material) is
contained in the soil
• soil needs air to support decomposition of
the organic matter
92
Unit 1: Physical Patterns in a Changing World
They should include the following information
about the role natural vegetation plays in
creating soil:
• the amount of humus in the soil is directly
linked to the amount of vegetation in the
area (the more vegetation there is, the
more humus there is)
• roots of natural vegetation help to anchor
the soil and prevent erosion, so soil can
continue to increase in thickness and
develop greater fertility (Thinking)
3. Spatial Significance The places that students
choose will vary. Ensure that they are finding
places within two of the three natural
vegetation regions mentioned in the Student
Book. (Application)
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BLM 3.1
Name:_____________________________________ Date:_________________________
Looking for Patterns in Natural Vegetation
Print the names of vegetation types on the organizer in the appropriate
places. “Tropical broadleaf forest” and “tundra and high-mountain
vegetation” have been done for you. Use the information on Student Book
pages 76 to 81 to help you.
tropical broadleaf
forest
much vegetation
far from the equator
near the equator
little vegetation
tundra and
high-mountain
Describe three patterns in natural vegetation around the world.
1.Describe a pattern for deserts.
2. Describe a pattern for forests.
3. Describe a pattern for grasslands.
Blackline Master 3.1: Looking for Patterns in Natural Vegetation
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Blm 3.2
Name:_____________________________________ Date:_________________________
What Three Main Factors Affect Our Natural Vegetation?
1. Use information about natural vegetation on Student Book pages 84 to
89 to complete this t-chart.
Natural Vegetation Factor
How Each Factor Shapes Natural Vegetation
moisture (precipitation)
temperature (heat)
soil
2. Record information about each of the natural vegetation factors for our
local area.
Natural Vegetation Factor
Evidence for Our Local Area
moisture
temperature
soil
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Blackline Master 3.2: What Three Main Factors Affect Our Natural Vegetation?
Blm 0.11
Name:_____________________________________ Date:_________________________
Thematic Map Checklist
The map has …
Yes
No
Comments
• a title
• a legend that shows all the symbols used
• countries shaded neatly and correctly
using the data
• country names labelled correctly
• a north arrow or compass rose
• a scale
• evidence that care was taken to do a
good job
Assessment done by: Self_________ Peer_________ Teacher_________
Additional comments:
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Blackline Master 0.11: Thematic Map Checklist
Blm 0.22
Name:_____________________________________ Date:_________________________
3-2-1
3 things that I already know about this topic are …
•
•
•
2 questions about the topic that I would like to answer are …
•
•
1 other topic that I think connects to this topic is …
•
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Blackline Master 0.22: 3-2-1
Blm 0.23
Name:_____________________________________ Date:_________________________
Compare/Contrast Matrix
Title:
(Categories)
(Item 1)
Blackline Master 0.23: Compare/Contrast Matrix
(Item 2)
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Blm 0.24
Name:_____________________________________ Date:_________________________
Frayer Model
Use this graphic organizer to help you understand key words and concepts.
In the middle oval, place the key word or concept. Add a heading to each of
the boxes around the oval, and fill in the relevant details.
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Blackline Master 0.24: Frayer Model
NELSON GEO7 AND 8
DEVELOPED FOR THE 2013 ONTARIO GEOGRAPHY CURRICULUM
The Student Book is offered in a blended format and
features:
• 100% curriculum alignment including Inquiry, Geographical Thinking
Concepts, Citizenship, and Map and Globe Skills continuum built
into every chapter
• Multiple Case Studies—including 2 National Geographic Case
Studies in every unit!
CHAPTER 3
CHANGING PATTERNS OF
Grade 7 Trillium
Approved
NATURAL
VEGETATION
URAL
T EARTH’S NAT
WHY CARE THAN IS CHANGING?
VEGETATIO
LEARNING GOALS
As you work through this chapter, you will
• identify patterns in the world’s natural vegetation
• describe how nature and humans change natural
vegetation patterns
• gain an awareness of the impact we have made on the
world’s natural vegetation
Grasslands and forests around the world are shrinking.
Deserts have always grown and shrunk over time due
to changes in climate and periods of drought. But
now, more of Earth’s surface is turning into desert. For
example, the grasslands on the edges of the Gobi Desert,
in China, are getting smaller every year. At the same
time, the Gobi Desert is growing by 3600 km2—about
two-thirds the area of Prince Edward Island—every year.
A major cause of growing deserts today is human activity.
We are cutting down trees and grasses to make fields
for crops and other human uses. This exposes the soil to
the Sun, which dries and cracks it, as shown here in the
Namib Desert in south-western Africa. The exposed soil
blows away. The ground becomes less fertile, and plants
struggle to grow. Also, the ground cannot absorb rainwater,
and there is less water in the region. With no vegetation,
humans and animals suffer from hunger. What other effects
can growing deserts have?
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The Teacher’s Resource is offered in a blended
format and features:
• The Printed Teacher’s Resource including:
– Unit and Lesson Planning
– Blackline Masters
– Access to the Online Teaching Centre
• The Online Teaching Centre including:
– Projectable Student Book images
– Modifiable Blackline Masters
– Videos to launch each unit
– ESRI Canada GIS Links
– Tech Tools
View sample material at:
www.nelson.com/geo7and8
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