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.

Studies the processes that regulate the cycling of carbon, nitrogen, sulfur, and phosphorus within and between oceans, continents, and atmosphere. Prerequisite: One semester of college chemistry and one or two of the EVSC core classes.

Provides a firm knowledge of experimental design, hypothesis testing, and the use of statistical methods of data analysis. Prerequisite: MATH 1110, STAT 1120, or equivalent; corequisite: EVSC 5031.

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 principles of measurements, instrumentation for measuring atmospheric parameters, and methods of observing and calculating atmospheric variables. Corequisite: EVSC 3300.

Analyzes the patterns and processes in terrestrial ecosystems. Topic include macro- and micro-meteorological factors such as producer, consumer, and decomposer processes; hydrologic and biogeochemical pathways; and changes through space and time. Three lecture and four field or laboratory hours. Prerequisite: EVSC 3200 or equivalent, and instructor permission.

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.

Studies the principles that govern the distribution and abundance of the elements in the Earth's lithosphere, hydrosphere, biosphere, and atmosphere. Prerequisite: EVSC 2800 encouraged but not required.

Introduction to the physics and techniques of remote sensing. Prerequisite: at least one year of college-level chemistry or physics, or instructor permission.

Remote sensing is a technique to obtain data about an object without physical contact with it. It is a powerful tool for extracting quantitative information about Earth's surface and subsurface. As an upper-level class in remote sensing, in this seminar, we will focus on advanced remote sensing techniques at different spatial scales that help to gain information about the biosphere, atmosphere, and hydrosphere.