Lecture: 4 hrs. per week
The course will employ a variety of instructional methods to accomplish its objectives, including some of the following: lectures, small group discussions, visual presentations – powerpoint slides and videos, individual and team projects, field trip assignments and practical in-class exercises.
1) Introduction to the Course
- Natural and human-induced change
- Historical perspectives of human impacts on the environment through the lens of geography and social science
- Sustainable Development and Sustainable Development Goals
- Valuing Natural Resources, Natural Capital
- Terms - carrying capacity, externalities, Traditional Ecological Knowledge
2) Natural Systems
- Spheres: Atmosphere, Cryosphere, Lithosphere, Hydrosphere, Biosphere
- Introduction to Nutrient cycles and Food webs
- Biomes, terrestrial and aquatic ecosystems, succession, natural disturbances, habitats
3) Population Growth and Consumption
- Growth of the human population through time
- Demographic variables: birth and death rates, fertility rates, density, population distribution, age-sex pyramids
- Demographic Transition Theory
- Political, social and economic factors
- Ecological footprint - resource consumption patterns
4) Biodiversity
- Types of biodiversity - genetic, species, ecosystem
- Natural and human induced factors of biodiversity loss
- Species at Risk - classification systems
- Fragmentation, connectivity, landscape ecology, restoration
- Protected areas
5) Global Climate Change
- Natural and human factors of climate change
- Greenhouse Effect
- Effects of climate change on natural and human systems (temperature, sea level rise, precipitation changes, etc.)
- Global, national and local responses to climate change - UN, IPCC, etc.
- Management policies and economic tools
- Adaptation strategies and examples
6) Impacts on Oceans, Fisheries and Coastal Ecosystems
- Productivity in marine and coastal ecosystems
- Human impacts on oceans and coastal ecosystems
- Overharvesting of fisheries and consequences on societies
- Changing social behaviour
7) Impacts on Freshwater Ecosystems
- Productivity in lakes and watercourses
- Watersheds
- Riparian zones
- Protecting salmon
- Human impacts on freshwater ecosystems - pollution, land use changes, etc.
- Restoration and enhancement efforts
8) Impacts on Forest Ecosystems
- Causes and rates of deforestation
- Effects of deforestation on natural systems and social systems
- Global and local examples and case studies
9) Impacts of Urbanization
- Impacts of urban development on natural systems - terrestrial, aquatic, air, noise
- Liquid and solid waste management
- Transportation
- Urban sprawl
10) Impacts of Energy and Mining
- Patterns of global energy use - fossil fuels, hydroelectric, nuclear, biofuels, solar and wind
- Impacts of energy use and mining on natural systems
- Strategies to reduce energy consumption
- Renewables
11) Agro-ecosystems and impacts of Agriculture
- Soils and soil erosion
- Types of agriculture and impacts on natural systems
- Green revolution and consequences
- Sustainable agriculture challenges
At the conclusion of the course, the successful student will be able to:
- Analyze human impacts on various aspects of the natural world (e.g., population growth and resource consumption, sustainable development, climate change, water resources, deforestation, water pollution, oceans, overfishing, biodiversity and species at risk, urbanization, transportation, energy use, agriculture, etc.).
- Describe some of the important natural systems that make up the larger world system.
- Describe and explain both the historical aspects of human intervention and the recent acceleration of rates of environmental change including ideological, social, economic and technological characteristics.
- Describe and explain approaches and solutions to address environmental issues on a global, regional and local level.
- Demonstrate understanding of the relationship between environmental philosophies and attitudes on the one hand and actions on the other, including theories and practices of sustainability and the role of the U.N. Sustainable Development Goals.
Assessment will be based on course objectives and will be carried out in accordance with the Douglas College Evaluation Policy. The instructor will provide a written course outline with specific criteria during the first week of classes.
An example of a possible evaluation scheme would be:
In-class exercises | 10% |
Field assignments | 15% |
Exams | 50% |
Term Project | 20% |
Participation | 5% |
Total | 100% |
Textbooks and Materials to be Purchased by Students:
Texts will be updated periodically. Typical examples are:
Deardon, Philip, Bruce Mitchell, and Erin O'Connell (2020). Environmental Change & Challenge: A Canadian Perspective. Sixth Edition. Oxford University Press. Ontario, Canada.
Middleton, Nick. (2018). The Global Casino - An Introduction to Environmental Issues. Sixth Edition. Routledge Publishers.