Download Ch. 1 Introduction to Environmental Science

Chapter 1
Understanding the Environment
 Chapter 1, Section 1
What is an environment?
 Class discussion:
 What do you think of when you hear the word
environment?
 Did anyone think of the environment in their own
backyard?
What is the environment?
 The environment is not only the landscape and
animals that you can see, it is also how they interact
Environmental Science
 Definition:
 The study of how humans interact with the
environment
 Involves the following interactions between human
and the environment:
 How humans use natural resources
 How human beings relate to the nonliving
environment
 How human actions alter the environment
 (All of the above)
Environmental Science
 What is studied in environmental science?
 Interactions between living organisms and their
nonliving environment
 Impact of humans on the environment
 Interaction between organisms
 (All of the above)
The Goals of Environmental
Science
 To understand and solve environmental problems
 Do this in two ways:
 Study how humans use natural resources
 Study how our actions alter the environment
Environmental Science Studies
Many Fields of Science
 Ecology – The study of how living things interact with
each other and with their nonliving environment
Fields Continued
 Biology – the study of living organisms
 Zoology – the study of animals
 Botany – the study of plants
 Microbiology – the study of microorganisms
 Ecology - the study of the home
Fields Continued
 Earth Science – the study of the Earth’s nonliving
systems and the planet as a whole
 Geology – the study of the Earth’s surface, interior
processes, and history
 Paleontology – the study of fossils and ancient life
 Climatology – the study of the Earth’s atmosphere and
climate
 Hydrology – the study of the Earth’s water resources
Fields Continued
 Physics – the study of matter and energy
 Engineering – the science by which matter and energy
are made useful to humans in structures, machines,
and products
Fields Continued
 Chemistry – the study of chemicals and their
interactions
 Biochemistry – the study of the chemistry of living
things
 Geochemistry – a branch of geology, is the study of the
chemistry of materials such as rocks, soil, and waste
Fields Continued
 Social Science – the study of human population
 Geography – the study of the relationships between
human populations and Earth’s features
 Anthropology – the study of the interactions of the
biological, cultural, geographical, and historical
aspects of humankind
 Sociology – the study of human population dynamics
and statistics
 NOT linguistics and physics (d)
Scientists as Citizens, Citizens as
Scientists
 Environmental Science starts with the non-scientists
 What would you do if you came across a creature that
looked like this?
Our Environment Through Time
 Humans changed environment over time through:
 Hunting
 Agriculture
 When they settled
Hunter-Gatherers
 For most of history, people were hunter gatherers
 They obtained food through:
 Collecting plants
 Hunting wild animals
 Scavenging their remains
 Humans lived in tribes, using fires to maintain the
prairie
 They would migrate as groups throughout the year to
where resources were bountiful
 Would you be willing to move every month to obtain
food?
Early Environmental Problems
 Native American tribes and Aborigines would burn
down forests and grasslands to drive out animals such
as Buffalo
 They would carry plants with them where they
traveled – invasive exotic species
Endangered Species
 Led to extinction of mammals such as:
 Giant bison
 Mastodons
 Cave Bears
 Saber-Toothed Cats
 Would trap in pits and then kill them
The Agricultural Revolution
 Agriculture – the practice of growing, breeding, an
caring for plants and animals that are used for food,
clothing, housing, transportation, and other purposes.
 It happened 10,000 years ago
 It had such an impact on humans that it became a
revolution
 Plants and animals were domesticated, human
populations grew
 One area of land could now support up to 500 times
the amount of people that could be supported by
hunting and gathering
 Communities began to grow
 Population growth in the 20th century led to
 Resource depletion
 Habitat destruction
 Pollution
 (all of the above)
 This agriculture changed the foods that we eat today
 We eat descendents of the plants first found by
hunters and gatherers
 Over time, they picked desired traits in plants and
began to only harvest those desired traits
 As environments were replaced by agriculture, they
were destroyed
 Slash-and-burn – cut down and burn old
environments to plant crops – currently ocurring in
rainforest
Industrial Revolution
 Occurred in the middle of the 1700’s
 Involved a shift from energy resources such as animal
muscle and running water to fossil fuels
 Allowed for machinery to take over in mass producing
goods and agriculture
 People began to travel more and move to cities
 Society shifted to fossil fuels
 When most of today’s environmental problems began
answer C
Improving Quality of Life
 Brought us things such as the light bulb and mass
agriculture
 Also brought us pollution and habitat loss
 Included the start of artificial substances in place of
raw animal and plant products
 Plastics, artificial pesticides and fertilizers, etc.
 These products made our life easier, but what about
the rest of the environment?
Spaceship Earth
 Earth is a closed system
 It is like a spaceship travelling through space that
cannot dispose of waste or take on new supplies
 Problems occur on different scales:
 Local
 Regional
 Global
Population Growth: A Local
Pressure
 Our population is growing faster than our resources
can support
 The Agricultural and Industrial Revolutions gave us
power to grow much faster than before
 Are we growing to fast?
What are the main environmental
problems?
 Resource Depletion
 Pollution
 Loss of Biodiversity
Resource Depletion
 Natural Resource – Any natural material that is used
by humans
 Either renewable or nonrenewable
 Renewable resources can be replaced quickly by
natural processes
 Nonrenewable resources - natural material formed at a
slower rate than it is depleted
 Resource Depletion - rate of resource use depletes
resources and creates pollution and wastes
Depleted Resource
 When a large fraction of the resource has been used up
Pollution
 Pollution – an undesired change in air, water, or soil
 Two types of pollutions
 Biodegradable – pollutants that can be broken down
by natural processes
 Nondegradable – those that can’t – plastics, mercury,
lead, etc.
Loss of Biodiversity
 Biodiversity – the number of variety of species that live
in an area
 Extinction – a natural process
 Mass Extinction – several extinctions happening at the
same time
 The loss of the worlds biodiversity is a concern
because:
 Humans depend on other organisms for food and
oxygen
The Environment and Society
 Chapter 1, Section 2
The Tragedy of the Commons
 Garrett Hardin – 1968
 Describes conflicts associated with sharing resources
 Commons are patches of grassland
 If everyone lets too many sheep on the grasslands, they
will destroy the environment
 If people divide the commons and maintain the sheep
population, the environment will survive
 We need to do the same with our environment
The Law of Supply and Demand
 The law of supply and demand describes:
 Reduced demand resulting from lack of available
resources
Market Equilibrium
 Market Equilibrium - Listing both the merits and
expenses involved in implementing a particular
environmental solution
Economics and the Environment
 Supply and Demand – the greater the demand for a
limited supply of something, the more that thing is
worth
 Cost and Benefits – This balances the cost of the action
against the benefits one expects from it (is an
environmental action worth it?)
 Risk Assessment – A tool that helps us create costeffective ways to protect our health and the
environment
Developed and Developing
Countries
 Developed Countries – characterized by high personal
wealth, and high levels of consumption
 Typically have a larger ecological footprint
 Developing Countries – characterized by high
population growth rate, extreme poverty
Population and Consumption
 Local Population Pressures
 Consumption Trends
 Ecological Footprints
Local Population Pressures
 Often, populations increase in developing nations
 It increases faster than resources can be provided
 Of the 4.5 billion people in developing countries,
fewer than half have access to enough food, safe
drinking water, and proper sanitation
Consumption Trends
 Population control, pollution depletion, and resource
abundance has improved in the wealthier part of the
world
 This is only done by hogging the resources from
developing countries that need them as well
Ecological Footprint
 An ecological footprint shows the productive area of
Earth needed to support one person in a particular
country
Environmental Science in Context
 Environmental problems are large
 Simple answers are rare
Critical thinking and the
Environment
 Environmental Information is often construed by
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political pull or for sales
How to approach it:
1. Be prepared to listen to many viewpoints
Understand their reasoning before reacting to their
ideas
If you want your opinion to be heard, you must also be
willing to listen to others
2. Investigate the source of any information you
encounter
A Sustainable World
 The key goal of environmental science is to achieve
sustainability
 Sustainability – the condition in which human needs
are met in such a way that a human population can
survive indefinitely
 This goal requires everyone’s participation
 The 21st Century is a critical time in finding
sustainability
 What will you do to make a change?