Transcript Day 1
Welcome to Environmental
Geography!
(Photo by P. Regoniel
in Picable).
GEOG 101 (Section 01) – Day 1
Getting Oriented
My name is Don Alexander. My office is across the street
at Building 359, Room 215. My local is 2261, and my office
hours are 11:30 to 12:30 on Tuesdays and Thursdays.
How many of you are at VIU for the first time? If so, if you
need a hand figuring anything out, just let me know.
The textbook for this course is available in the bookstore.
There may be used copies of the previous edition at the
bookstore or at the student union store. It’s Environment:
The Science Behind the Stories (Canadian edition) by Jay
Withgott, Scott Brennan, and Barbara Murck (Toronto:
Pearson Canada, 2013) [see www.pearsoned.ca/highered/
myenvironmentplace/index.html for student support materials]. It's a
good book, with lots of illustrations, case studies, and
Canadian examples. Please note that we will be skipping
Chapters 4 & 5.
Course Focus
This course will provide an introduction to the Earth’s
biophysical processes and systems at a variety of
scales, and will examine the impact of human
population and land use activities.
Topics include population, agriculture, biodiversity,
forestry, ocean and freshwater systems, climate
change and air pollution, energy, air pollution and
climate change, resource consumption and waste,
environmental ethics/ policy, and sustainable land use
practices. Successful solutions for sustainability will
also be highlighted along with social change strategies
for implementing them.
Course Objectives
By the end of the course, you will
understand better how local, regional and global
ecosystems affect one other;
have a stronger appreciation of the impacts of human
populations and activities on nature and the role
played by economic, social, and political institutions;
understand better what is happening in different
sectors, such as forestry and agriculture;
learn more about how sustainable management
concepts and strategies are being applied to address
the pressing environmental issues of our age, and how
you can play a crucial role in building a more
sustainable world.
Getting Oriented
The course will be a mix of lectures, discussion,
occasional guest speakers, videos, assignments,
and possible in-class debates.
Also: read the course outline carefully.... We will
go over some of it today.
If you suffer from a disability of any kind, you
need to register with Disability Services (in
Building 200) and let me know as soon as
possible
Regarding extreme weather and campus
closures, what’s on the web site is the final
authority, so use that as your guide.
Getting Oriented
The focus of the course is the global ecological crisis [see
http://energyskeptic.com/2011/9-planetery-boundaries/] and what we can do
to address it, including what is already being done in a
number of sectors. If you have specific interests, let me
know and I will try to accommodate them if at all
possible.
What are some key environmental issues facing our
planet? What is causing them and how are they
impacting on people and other species?
I would also like to take advantage of whatever
knowledge or previous life experience you have that is
relevant. What can you offer?
“Arctic Ice Decline Much Worse Than Expected…”
(summer 2012 news story)
Getting Oriented
In addition to the final exam and a mid-term quiz, there
will be two major assignments. For these, you will
choose from the four following options:
a life-cycle analysis of an everyday product,
a media analysis of a controversial environmental
issue, a research and writing project on the ecological
and social values associated with West Linley Valley or
a look at the Colliery Dam Park controversy, an
the development of an environmental education unit to
present in a local elementary or secondary school.
You may also be asked to answer questions about
videos shown, and to participate in a debate on a key
environmental topic. [more instructions soon!]
Getting Oriented
EVALUATION
1. Attendance and Participation in in-class work- 10%
2. Mid-term quiz- 15%
3. Life-cycle Analysis or Research & Writing Project- 25%
(see outline for proposal and final due dates)
4. Media analysis or Elementary/ High School
Educational Outreach Exercise- 25%
6. Final Exam- 25% (TBA)
________________________
100%
[more on the assignments soon]
You can also boost your participation marks by
bringing relevant resources to my and the class'
attention.
Ground Rules
No late assignments unless there is some health or family
emergency.
No plagiarism – all assignments must be original. If you
have any questions about what that means, we can talk
about it.
CRITICAL THINKING IS ENCOURAGED!
For referencing use the parenthetical forms of APA or
University of Chicago (The Writing Centre has handouts or
see http://libguides.viu.ca/citing).
If at all possible, print double-sided or on scrap paper.
If you're going to miss a class, please let me know.
When you do miss, it's your responsibility to keep up with
the readings, and see what was covered in lecture by
viewing the lecture notes on my web site:
http://web.viu.ca/alexander2 under “Courses.”
No abuse of laptops or phones in class (i.e. surfing or
Facebook).
Chapter 1 will help you understand:
The meaning of the term
environment
The importance of natural
resources and ecosystems
That environmental science
and environmental
geography are
interdisciplinary
The scientific method and
how science operates
Some pressures facing the
global environment
Sustainability and
sustainable development
1-10
Our Island, Earth -- Overview
All the things around us with which we interact:
Biotic (living things)
Abiotic (nonliving things)
Continents, oceans, clouds, icecaps
Our built environment
Animals, plants, forests, soils, etc.
Structures, human-created living centres
Social relationships and institutions
1-11
Humans…
•
•
are altering the natural systems we need for
- resources, health, life-span, wealth, mobility, & leisure
Impacts:
- natural systems have been degraded
- long-term threat to health and survival of ourselves, other
species and ecosystems
•
Environmental science and environmental geography
study:
- how the natural world works
- how the environment affects humans and vice versa
•
Environmental geography gives special emphasis to how
things interrelate in space – for instance, the relationship
between pollution and climate change and health impacts on
humans or ecosystems, or the spread of exotic species and
how they impact on indigenous species.
1-12
Natural resources: vital to human survival
FIGURE 1.1
•
•
Renewable resources:
- Perpetually available: sunlight, wind, wave energy
- Those that renew themselves over longer periods: timber, water, soil
- can be overharvested
Nonrenewable resources: finite supply; can be depleted
- Oil, coal, minerals
1-13
Global human population growth
•
More than 7 billion humans
•
Why so many humans?
-
Agricultural revolution
-
-
Stable food supplies
Industrial revolution
-
Urbanized society
powered by fossil
fuels
-
Sanitation and
medicines (decline in
death rate)
FIGURE 1.2
1-14
weighing
the issues
The “Tragedy of the Commons”
by Garrett Hardin
Unregulated exploitation of open access
resources leads to resource depletion -examples?
•
Resource users are tempted to increase use
until the resource is gone
•
•
Solution?
•
•
•
Private ownership?
Voluntary organization to enforce
responsible use?
Governmental regulations?
1-15
The “ecological footprint”
concept
developed by Mathis Wackernagel
& William Rees
The environmental impact of an individual or population
Amount of biologically productive land + water
required to provide raw materials a population
consumes and absorb the waste produced
Overshoot: humans have surpassed the Earth’s
capacity (the date when humans are said to have
overshot the Earth's carrying capacity is said to fall
earlier and earlier each year and now occurs August
22nd).
We are using 40% more of the planet’s resources than
are available on a sustainable basis from all the land!
1-16
Environmental science
… can help us avoid mistakes made in the past.
The lesson of Easter Island: people annihilated their
culture by destroying their environment. Can we act
more wisely to conserve our planet, or will we drive a
bitumen-filled SUV straight into a cement wall?
1-17
weighing
the issues
•
Environmental science/ geography
are interdisciplinary
What experts would you need for:
The construction of a new
hydroelectric dam
Environmental review for the
Northern Gateway pipeline
The proposed draining of a
wetland to build a new
subdivision
A proposal to permit bear
hunting in a national park
The management of a large oil
spill offshore from a coastal
ecosystem
FIGURE 1.3
1-18
What is an “environmental problem”?
The perception of what
constitutes a problem varies
between individuals and
societies
e.g. DDT, a pesticide
In developing countries:
welcome because it kills
malaria-carrying mosquitoes
In developed countries: not
welcome, due to health risks
FIGURE 1.4
1-19
Environmental science is not
environmentalism
Environmental science
The pursuit of knowledge about the natural
world
Scientists try to remain objective (though
sources of funding can influence questions
studied and conclusions arrived at)
Environmentalism
A social movement dedicated to protecting the
natural world, though some environmental
scientists (e.g. David Suzuki, Andrew Weaver)
become environmentalists because they feel the
'facts' demand that we take action as a society
and as a species.
1-20
The nature of science
Science:
A systematic process for learning about the world and
testing our understanding of it
A dynamic process of observation, testing, and
discovery
The accumulated body of knowledge that results from
this process
Science is essential for
Sorting out fact from fiction
Developing solutions to the problems we face
Current controversy over federal government cancelling
evidence-based science projects/ centres and muzzling
scientists. This has led to recent protests (“Death of Evidence”
in Ottawa) and to editorials in the prestigious science journal,
Nature [http://www.nature.com/nature/journal/v487/n7407/full/487271b.html]
1-21
Science: Critically examining evidence
Scientists design tests: are ideas supported
by evidence?
Explanations must:
Be testable
Resist repeated attempts to disprove it
Eventually ‘consensus’ results, as with humaninduced climate change.
Accepted ideas can be applied in policy and
management decisions (e.g. prescribed
burning)
1-22
The scientific method
A technique for testing
ideas with observations
Assumptions:
The universe works
according to
unchanging natural
laws
Events arise from
causes, and cause
other events
We use our senses
and reason to
understand nature’s
laws
FIGURE 1.7
1-23
The scientific method
A scientist makes an
observation and asks
questions of some
phenomenon
The scientist formulates a
hypothesis, a statement that
attempts to explain the scientific
question.
The hypothesis is used to
generate predictions, which
are specific statements that can
be directly and unequivocally
tested.
The test results either support
or reject the hypothesis
FIGURE 1.7
1-24
There are different ways to test hypotheses
Manipulative experiments yield
the strongest evidence
• Can show causation
• Not always possible to use
Natural or correlational tests
show real-world complexity
•
Cannot show causation
FIGURE 1.8
1-25
The scientific process is part of a larger process
The scientific process
includes peer review,
publication, and debate
A consistently
supported hypothesis
becomes a theory, a
well-tested and widely
accepted explanation
With enough data, a
paradigm shift – a
change in the dominant
view – can occur
(examples?)
FIGURE 1.9
1-26
Sustainability and the future of our world
Human population growth exacerbates all
environmental problems
The growth rate has slowed, but we still add
more than 200,000 people to the planet each
day
Our consumption of resources has risen even
faster than our population growth.
Life has become more pleasant for us so far
However, rising consumption amplifies the
demands we make on our environment.
1-27
Ecological footprints are not all equal
The ecological footprints
of countries vary greatly
Canada uses far more
than its equal share of
the world’s resources
Developing countries
have much smaller
footprints than
developed countries
FIGURE 1.10
1-28
We face challenges in agriculture
Expanded food production led to increased
population and consumption
It’s one of humanity’s greatest achievements,
but at an enormous environmental cost
Nearly half of the planet’s land surface is
used for agriculture that depends heavily
on
chemical fertilizers
pesticides, and produces
erosion
changed natural systems
1-29
We also face challenges in pollution
•
Waste products and artificial chemicals used in farms, industries, and
households
Each year, millions of people die from pollution…
1-30
We face challenges in climate
Scientists have firmly concluded that humans are
changing the composition of the atmosphere
The Earth’s surface is warming
catastrophic decline in Artic sea ice
melting glaciers
rising sea levels
impacted wildlife and crops
increasingly destructive weather
Since the Industrial Revolution, atmospheric carbon
dioxide concentrations have risen by 38%, to the highest
level in 650,000 years
1-31
We face challenges in biodiversity
•
Human actions have driven many species extinct, and biodiversity
is declining dramatically
•
We are at the onset of a mass extinction event
FIGURE 1.12
Biodiversity loss may be our biggest environmental problem;
once a species is extinct, it is gone forever
1-32
The Millennium Ecosystem Assessment
The most comprehensive scientific assessment of
the condition of the world’s ecological systems,
carried out by the UN
Major findings:
humans have drastically altered ecosystems
these changes have contributed to human wellbeing and economic development, but at a cost
environmental degradation could get much worse
degradation can be reversed, but it requires a lot of
work (and leadership, which is in short supply)
1-33
Our energy choices will affect our future
The lives we live today are due to fossil fuels
machines
chemicals
transportation
products (e.g. plastics)
Fossil fuels are a one-time bonanza; supplies will
certainly decline
We have used up ½ of the world’s oil supplies;
how will we handle this imminent fossil fuel
shortage?
1-34
Sustainable solutions exist
We must develop solutions that protect both our quality
of life and the environment. Components include:
organic agriculture
new technology
reduce pollution
conservation
recycling
renewable energy
sources
FIGURE 1.13
1-35
Are things getting better or worse?
Many people think environmental conditions are better
Cornucopians: Human ingenuity will solve any
problem
Some think things are much worse in the world
Cassandras: predict doom and disaster
How can you decide who is correct?
Are the impacts limited to humans, or are other
organisms or systems involved?
Are the proponents thinking in the long or short term?
Are they considering all costs and benefits?
1-36
Sustainability: a goal for the future
How can humans live within the planet’s means?
Humans cannot exist without functioning natural
systems
Sustainability
Leaves future generations with a rich and full Earth
Conserves the Earth’s natural resources [leaves
‘natural capital’ intact]
Maintains fully functioning ecological systems
Sustainable development: the use of resources to
satisfy current needs without compromising future
availability of resources (ambivalent meaning??)
1-37
Conclusion
Environmental science helps us understand our
relationship with the environment and informs our
attempts to solve and prevent problems.
Identifying a problem is the first step in solving it
(e.g. scientific understanding of climate change)
Solving environmental problems can move us
towards health, longevity, peace and prosperity
Environmental science and geography can help us
find balanced solutions to environmental problems.
1-38
QUESTION: Review
The term “environment” includes
a)
b)
c)
d)
Animals and plants
Oceans and rivers
Soil and atmosphere
All of the above are included in this term
1-39
Will we develop in a sustainable way?
The triple bottom line: sustainable
solutions that meet
environmental goals
economic goals
social goals
Requires that humans apply knowledge
from the sciences to
limit environmental impacts
maintain functioning ecological systems
1-40
QUESTION: Review
Which of the following is correct about the term
“environmentalism”?
a)
b)
c)
d)
It is very science-oriented
It is a social movement to protect the environment
It usually does not include advocacy for the
environment
It involves scientists trying to solve environmental
problems
1-41
QUESTION: Review
Adding various amounts of fertilizer to
plants in a laboratory is a _____ type of
experiment
a)
b)
c)
d)
Correlative
Natural
Manipulative
Rare
1-42
QUESTION: Review
What is the
a)
b)
c)
d)
definition of “sustainable development”?
Using resources to benefit future generations,
even if it means lower availability now
Letting future generations figure out their own
problems
Using resources to satisfy current needs
without compromising future availability
Letting each country decide what is its best
interest
1-43
QUESTION: Weighing the Issues
Which do you think is the best way to protect
commonly owned resources (i.e., air, water,
fisheries)?
a)
b)
c)
d)
Sell the resource to a private entity
Voluntary organizations to enforce responsible
use
Governmental regulations
Do nothing and see what happens
1-44
QUESTION: Weighing the Issues
Do you think the rest of the world can have an
ecological footprint as large as the footprint of the
Canada?
a)
b)
c)
d)
Yes, because we will find new technologies
and resources
Yes, because the footprint of Canada is not
really that large
Definitely not; the world does not have that
many resources
It does not matter; it’s not that important
1-45
QUESTION: Interpreting Graphs and Data
According to this graph, what has happened to the
population over the last 500 years?
a) It has grown
exponentially
b) It has grown
linearly
c) It has
decreased
d) It has slowed
down recently
1-46
QUESTION: Interpreting Graphs and Data
What happens if test
results reject a
hypothesis?
a)
b)
c)
d)
a) The scientist formulates
a new hypothesis
b) It shows the test failed
c) The hypothesis was
supported
d) The predictions may not
have been correct
1-47