Introduces the principles and basic facts of the natural environment. Topics include earth materials, land forms, weather and climate, vegetation and soils, and the processes of environmental change and their implications to economic and human systems.

Practical concepts and problem solving in environmental sciences through demonstrations, hands-on activities, structured discussions, and problem sets beyond those of traditional lectures or discussion groups. Emphasizes experience and critical thinking in the four core areas: geology, hydrology, atmospheric sciences, and ecology.

Explores the impact of people on the environment in the past and present with projections for the future. Addresses the phenomena and effects of food and energy production and industrial processes, including such topics as lead pollution, acid rain, the greenhouse effect, and the disposal of radioactive waste. Demonstrates how the environment works in the absence of humans and discusses how human use of resources perturbs the environment.

An overview of the atmospheric sciences primarily for non-science majors. Topics include weather forecasting, the greenhouse effect and global warming, ozone depletion, El Niño, air pollution, atmospheric optical effects, global climate, and the impacts of weather on human health. Three lectures per week. No science/math background is required.

Studies the natural history of the Earth's hydrosphere, including its origin, evolution, and importance in Earth processes. Introduces the hydrological cycle and the role of water in a variety of Earth processes. Discusses human influences on the hydrosphere and current topics in hydrological science and water resources, such as contamination and resource allocation, emphasizing the scientific basis for past, present, and future decisions.

Analyzes the principles that govern the world's oceans and their integration into an understanding of the major marine environments. Topics include marine pollution, global climate, and marine policy.

Studies ecological science relevant to sustaining populations, species, ecosystems, and the global biosphere. Includes discussion of genetic inbreeding, critical population size, community structure and organization, maintenance of critical ecosystem function, and global biogeochemistry. Case studies from around the world demonstrate links between human-driven environmental change and the health of the biosphere, at all levels, from the organism to the planet.

Studies the composition, structure, and internal processes of earth; the classification, origin, and distribution of earth materials; earth's interior; and the interpretation of geological data for the solution of problems of the natural environment. Recommended: At least one semester of college chemistry with lab such as CHEM 1410, 1420.

Field and laboratory experimentation into the nature of earth materials and processes, especially as applied to use and human problems. Corequisite: EVSC 2800.

Studies the geologic framework and biophysical processes of the coastal zone, and the role of the major river systems in modifying the coastal environment. Emphasizes human modifications, including case studies along the Atlantic, Gulf, and Pacific coasts.