The principles of oceanography with views on real world applications, especially to the teaching of this class at the high school as well. Prerequisite: At least one year of college-level chemisty or physics or instructor permission..

Explores advanced Geographic Information Systems concepts through use of Arc/Info, Erdas Imagine, and other GIS software in individual and group projects. Topics include data management, raster modeling, image manipulation, and 3-D visualization. Prerequisite: An introductory GIS course.

Analyzes the principles governing atmospheric processes occurring at small temporal and spatial scales near the Earth's surface, including energy, mass, and momentum transfer. Includes features of the atmospheric environment affecting plants and feedback mechanisms between plants and their local microclimates, trace gas exchange between the terrestrial biosphere and the atmosphere, energy budgets, evapotranspiration, and motions near the surface. Prerequisite: EVSC 3300 or instructor permission.

This seminar treats topics in the physical processes that shape landscapes. Topics will rotate with each semester, and will initially focus on the Appalachian Mountains and Chesapeake Bay as natural laboratories for studying interrelationships between mountain building, erosion, climate, and sea-level. Lectures & discussions of scientific literature will introduce geologic context, physics and chemistry relevant to particular geomorphic processes.

The purpose of this weekly course is to serve as a peer-cohort building introduction to the environmental sciences graduate program and to the university. Students will gain professional development experience, clarity on expectations, and practical information such as resources and graduate milestone expectations to help them acclimate to life as a graduate student and make the most of the experience.

A weekly, one-hour seminar series for majors, other interested undergraduates, and the University community dealing with environmental processes, research, issues, careers, and graduate study.

This class will explore methods in the analysis and provision of water resources systems, building on principles of hydrologic science, global change, and equity. Our understanding of water as an integral component of human society and environment is rapidly changing with climate and land use change, and the increasing recognition of current and past inequity in water access, and exposure to hazard. Prerequisite: EVSC 3600.

This lecture course focuses on the occurrence and distribution of chemical elements and the processes influencing that distribution among the various reservoirs of the Earth-surface environment, including rocks, soil, water, and air. Prerequisite: CHEM 1410 or CHEM 1420 (one semester of college-level chemistry) and EVSC 2800 (one semester of college-level geology)

Provides credit for doing work in pursuit of the undergraduate thesis option for majors in Environmental Science

This course will equip students with some of the most commonly used deep learning architectures. We will explore feed-forward networks, convolutional neural networks, UNETs, encoders-decoders, generative adversarial networks and transformers. We will also analyze tools of explainable AI. Focused on environmental applications, students will apply these techniques to real-world data, solving problems in prediction, pattern recognition, and data-driven insights. Solid background in probability, statistics, and in coding (preferably Python) is recommended for enrollment in this course.