Introduction to Environmental Science Fall 2022 PDF

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This file is a presentation on Introduction to Environmental Science for Fall 2022. It covers topics including sustainability, human impact, and the environment. It includes information on ecological footprint comparisons and pollution case studies.

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Introducing Environmental Science and
1 Sustainability
Overview of Chapter 1
 Human Impacts on the Environment
 Population, Resources and the Environment
 Sustainability
 Environmental Science
 Addressing Environmental Problems

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Food as a Lens for
Environmental Study
 Chicken sandwich requires wheat, chicken,
other ingredients, energy to manufacture and
transport to table, energy to treat generated
wastes and packaging.
 Our choices matter and
affect the environment
 What do you think about
when you make your
food choices?
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 The Environment (Earth)
 Life has existed on
earth for 3.8 billion yrs.
 Earth well suited for life
 Water over ¾ of planet
 Habitable temperature,
moderate sunlight
 Atmosphere provides
oxygen and carbon
dioxide
 Soil with essential
minerals for plants
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© 2015 John Wiley & Sons, Inc. All rights reserved.
Human Impact on the Environment
 Satellite view of Earth at night

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Human Impacts on Environment-
Population
 Modern humans appeared ~300,000 years ago in Africa and quickly expanded
 Now, human population is ~8 billion (2022)
 Growing exponentially

 Estimates of ~ 10 billion
by 2050

 We are the most
significant agent of
environmental change
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https://worldpopulationreview.com/

 What is your country?
 What is its population in 2020?
 What is its area in km2?
 What is its density?
 Is its population growing?

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Population

 About 40% of people live
in extreme poverty
 Cannot meet basic needs
for food, clothing, shelter,
health 2.50 US dollars/day
 Difficult to meet
population needs without
exploiting earth’s
resources

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Gap Between Rich and Poor
 Countries differentiated based on wealth
 Highly Developed Countries (HDC)
 Complex industrialized bases, low population
growth, high per capita incomes
 Ex: US, Canada, Japan
 Less Developed Countries (LDC)
 Low level of industrialization, very high fertility rate,
high infant mortality rate, low per capita income
 Ex: Bangladesh, Mali, Ethiopia

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World Bank classification

Gross national income (GNI)
per capita in 2021
Low Income Economies $1,085 or less
Lower-Middle Income Economies between $1,086 and $4,255

Upper-Middle Income Economies between $4,256 and $13,205

High Income Economies $13,205 or more

1. Guess in which category your country is?

2. Check in the file provided on Moodle whether you are correct.

3. Did your country change category during the timeline provided by WB?
Improvement or regression? © 2015 John Wiley & Sons, Inc. All rights reserved.
Gap Between Rich and Poor
 Rising income disparity in many countries
 Large gap between wealthy and poor citizens
Differential access to electricity, cars, modern medicine
 Ex: China, India, Brazil, Mexico

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Population and Resource Use
 Essential resources for individual survival
are small
 Rapidly increasing population can quickly
overwhelm or deplete, especially locally
 Resource consumption can far outweigh
needs of survival
 Affluent nations use larger portions and can
exhaust resources globally

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What are natural resources?

 Natural resources are substances or
materials that people obtain from nature and
use to survive and thrive.

 Examples?

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Two types of natural resources

Natural resources

Renewable Nonrenewable
resources resources
Resources that Resources that
can be replaced cannot be replaced
within 100 years. within 100 years.

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Types of Natural Resources

Fertile soil

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 Consumption
 Consumption: Human use of materials and
energy
 People in HDCs are big consumers
 Unsustainable Consumption
 Occurs when the level of demand on a country’s
resources damages or depletes the resource enough
to reduce the quality of life for future generations
 Caused by overpopulation and/or overconsumption

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 Ecological Footprint
 The average amount of land, water and ocean
required to provide that person with all the
resources they consume
Earth’s Productive Land and Water 11.4 billion
hectares
Amount Each Person is Allotted (divide 1.8 hectares
Productive Land & Water by Human (1.62 in
Pop.) 2011)
(1.52 in
2017)
… in 2022?
Current Global Ecological Footprint of© 2015 John
2.7 Wileyhectares
& Sons, Inc. All rights reserved.
Ecological Footprint
 Humans have an ecological overshoot

2022: X1.75

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 Ecological Footprint Comparison

Populations: India France USA
1,38 millions 67,4 millions 329.5 millions

Taiwan
6.52

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World map of countries by
ecological footprint (2016)

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 What is the ecological footprint of your
country?

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Taiwan

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IPAT Model
 Measures 3 factors that affect environmental
impact (I)
Environmental Affluence: good consumption
Impact per person

I=P A T
Number Environmental effect of
of people technology
= Pollution / good consumption
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Story of stuff (2007)

 https://www.youtube.com/watch?v=9Gorqroigq
M
 Fill in the story of stuff worksheet

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Environmental Sustainability

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 Environmental Sustainability
 The ability to meet the current human need for
natural resources without compromising the needs of
future generations
 Requires understanding:
 The effects of our actions on
the earth
 That earth’s resources are not
infinite

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© 2015 John Wiley & Sons, Inc. All rights reserved.
 Tragedy of the Commons
 Garrett Hardin (1915–2003)
 Solving environmental problems is the result of
the struggle between:
 Short term welfare
 Long term environmental stability and societal welfare
 Common Pool Resources (CPR)
 Garrett used common pastureland in medieval
Europe to illustrate the struggle

 https://www.youtube.com/watch?v=CxC161GvMPc
‘markets vs. states’?
(i.e., private or government ownership)

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 Tragedy of the Commons

 Elinor Ostrom (1933–2012) (Nobel of Economics)
 Collective self-governance
 Common-pool resources can be
effectively managed collectively, without
government or private control.

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 Sustainable Development-
Systems Concept
 Economic development that meets the needs
of the present generation without
compromising future generations

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Millenium Goals- 2000 then 2015

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Environmental Science
 An interdisciplinary study of human
relationship with other organisms and the
earth
 Biology  Physics
 Ecology  Economics
 Geography  Sociology
 Chemistry  Demography
 Geology  Politics

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Earth System and
Environmental Science
 System
 A set of components
that interact and
function as a whole
 Global Earth Systems
 Climate, atmosphere,
land, coastal zones,
ocean
 Ecosystem
 A natural system consisting of a community of
organisms and its physical environment
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Earth Systems
 Most of earth’s systems are in dynamic equilibrium
or steady state
 Rate of change in one direction equals that in other

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 Feedbacks

 Negative feedback
 Change triggers a
response that
counteracts
(reverses) the
changed condition

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Feedbacks
 Positive feedback
 Change triggers a
response that intensifies
the changing condition
 Ex: polar and glacial ice
melt, color change
leading to more rapid
melting

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Scientific Method

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Controls and Variables in Experiment

 Variable
 A factor that influences a process
 The variable may be altered in an experiment to
determine its effect on the outcome
 Control
 The variable is not altered
 Allows for comparison between the tests of when
we alter the variable and when we do not alter the
variable

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Scientific knowledge and theory
 Theory: Integrated explanation supported by
large body of observations and experiments,
and evaluated by peer review

 Simplifies, clarifies, and predicts new
relationships within the natural world
 Absolute truth is not possible in science
 Knowledge evolves as new evidence is found

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Five Steps to Addressing An
Environmental Problem
 Five steps represent ideal Scientific
assessment, risk analysis, public education and
involvement, political action, long-term evaluation

 Reality is untidy

 Often, public pushes for a solution

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Assessing Environmental Problem
Case Study: Lake Washington
 Large, deep freshwater lake
 Suburban sprawl in 1940’s
 10 new sewage treatment
plants dumped treated
effluent, high in nutrients,
into lake
 Effect = excessive growth of
cyanobacteria
 Bacterial decomposition of
cyanobacteria depleted O2

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Assessing Environmental Problem
Case Study: Lake Washington
 Scientific Assessment
 Scientists from University of Washington studied
problem and collected data
 Study informed Washington Pollution Control
Commission (1955)
Commission concluded that effluents added nutrients,
particularly phosphorus
Nutrients caused growth of cyanobacteria

Cyanobacteria decomposed by bacteria depleting O
2

Low O2 reduced fish and small invertebrates
 If pollution stopped, lake would recover

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Assessing Environmental Problem
Case Study: Lake Washington
 Recovery Plan
 Many political hurdles in passing a plan
 Accepted bill was most ambitious and expensive
pollution control project in U.S. at the time
Treated sewage was diverted into trunk sewer that
ringed lake (starting in 1963)
Eventually discharged into Puget Sound, where it
would have less effect
By 1975, lake was healthy and water was clear
Today, work to reduce waste generation in view of
greater population around lake

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Assessing Environmental Problem
Case Study: Lake Washington
 Data shows
recovery plan
working

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ENVIRONEWS
 Green roofs or eco-roofs
 Vegetation and soil on impervious roofs that act
as a mini-ecosystem that:
Insulates buildings reducing energy costs
Filters out pollutants from rainwater
Reduces storm water runoff into sewers
Provides habitat for wildlife or food for humans

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