1. Introduction to Environmental Science

2. What is environmental science? The study of how humans and other species interact with one another and the nonliving environment. How the parts of nature and human societies operate and interact - a study of connections and interactions A physical and social science that integrates information from a wide range of disciplines: –biology –chemistry –physics –geology –geography –resource technology and engineering –resource conservation and management –demography, economics, politics, sociology, psychology and ethics

3. Current Environmental Problems 1.Population growth 2.Deforestation 3.Global warming 4.Ozone loss 5.Resource depletion: –mineral –energy –soil –agricultural land –water 6.Biodiversity 7.Pollution

4. Sustainability Sustainability is the ability to maintain a given state for a specified period of time sustainable systems function and survive over a specified time environmentally sustainable societies manage their economies, population and resource use within the system's (earth's) ability to absorb insults, replenish resources, and sustain life forms

5. 16 15 14 13 12 11 Billions of people ? ? ? 10 9 8 7 6 5 4 3 2 1 0 2-5 million years 8000600040002000 2100 Hunting and gathering Black Death–the Plague Time Industrial revolution Agricultural revolution B.C.A.D.

6. Current growth rate: exponential growth at a rate of 1.25% Rule of 70: 70/ rate of growth =doubling time

7. Number of Humans ? Continued growth Population stabilization ? Population crash ? (10,000 years) (100,000 years) (1 million years) Tool-making revolution Agricultural revolution Industrial & information revolutions Time

8. Who can explain the difference between exponential and linear growth? Exponential: a quantity increases at a constant rate per unit of time (such as our current rate of 1.25% per year) Linear : growth by the same amount over equal time periods

9. World Population reached 1 billion in 1804 2 billion in 1927 (123 years later) 3 billion in 1960 (33 years later) 4 billion in 1974 (14 years later) 5 billion in 1987 (13 years later) 6 billion in 1999 (12 years later) World Population May Reach 7 billion in 2013 (14 years later) 8 billion in 2028 (15 years later) 9 billion in 2054 (26 years later)

10. Human disturbance Tropic of Capricorn Equator Predominantly natural Partially disturbed Human dominated Antarctic Circle Tropic of Cancer Arctic Circle Arctic Circle

12. Economic Growth GNP: gross national product - market value of all goods and services for either domestic or export produced in that year per capita GNP (pcGNP) - divide GNP by total population of the country  Increase capacity to produce goods and services for people's final use  Usually involves increasing flow (throughput) of energy and natural resources Measured

13. Economic Development The improvement of living standards by economic growth

14. Developing / Developed Countries Developed countries: defined as highly industrialized with pcGNP > $10,00 –20% of the world's population –85% of wealth and income –use 88% of natural resources –generate 75% of the world's waste Developing countries: rural, agricultural countries with low pcGNP –more than 1 billion people try to live on less than $1 day –more children increases family's "workforce" –local populations outstrip available resources

15. GNP per capita, 1998 Low income (Under $1,000) Middle income ($1,000–$10,000) High income (Above $10,000)

16. World total Developing countries Developed countries Population (billions) 12 11 10 9 8 7 6 5 4 3 2 1 1950 2000 2050 2100 Year

17. Perpetual resources: on a human time scale, is renewed continuously * solar energy, winds, tides, flowing water

18. Renewable resources: On a human time scale, can be replenished fairly rapidly *fresh air, water, soil, plants & animals

19. Nonrenewable resources: on a human time scale, is not replaced; present in a fixed quantity in earth’s crust *coal, oil, natural gas, metals such as iron & copper, minerals such as phosphates & clay

20. Environmental Worldview Planetary management *humans are the most important species *resources will not run out b/c we can develop & find new ones *potential for economic growth is unlimited *success depends on our management

21. Stewardship *we are the most important species, but that carries an ethical responsibility *resources probably won’t run out, but should be used wisely *environmentally beneficial forms of development should be encouraged *our success depends on how well we manage our resources

22. Environmental wisdom *nature exists for all species *earth’s resources are limited, should not be wasted, and are not all ours *earth-sustaining forms of economic growth should be encouraged *our success depends on our actins & behaving in a sustainable manner

23. 1. Is current society in developed countries sustainable? Developing countries? 2. Is sustainability a reasonable or desirable goal?

24. Traditional decision making Environmental SocialEconomic

25. Decision making in a sustainable society Social Economic Environmental Sustainable Solutions