In this course, students explore how unmanned aerial systems or 'drones' are being used in various research areas with a focus on environmental research. In addition, students investigate ethical, legal, privacy, and policy issues raised by drone technology. Students will get an opportunity to work in teams to discuss the various uses of drone technology.

Introduces oceanography together with a survey of marine resources and the scientific bases for their management. Prerequisite: One year college-level science.

An ecosystem course which treats the ecology of forests and consequences of forest processes in natural and managed systems. The class emphasizes the "pattern and process" concept that is the central theme in modern vegetation sciences at increasing scales: from form and function of leaves and other parts of trees through population, community and landscape ecology to the role of forests in the global climate and carbon-cycling. Pre-requisites: EVSC 3200, 3400, or 3500 recommended.

A graduate/undergraduate seminar on current topics in coastal ecology.

A comprehensive treatment of global environmental factors affecting coastal marine systems, including climate change, sea-level rise, alterations in freshwater and sediment transport, disturbance and habitat loss, overfishing, alien species, and eutrophication. Includes case studies providing real-world examples, and detailed reviews of the evidence of changes and possible solutions.

Introduces the study of soils as a natural system. Topics include the fundamentals of soil chemistry, hydrology, and biology with respect to genesis, classification and utilization. Prerequisite: EVSC 2800 and 3200; one year college chemistry or instructor permission.

This course will focus on lakes, rivers, streams, and reservoirs as ecosystems. The goal of the course is to provide an understanding through lectures and discussions of the main physical, chemical, and biological processes that determine similarities and differences among inland waters. Major human impacts on inland waters will also be considered. Prerequisite: EVSC 3200 with D- and 1 semester of chemistry or instructor permission.

This is course will introduce undergraduate students to issues in air pollution environmental justice and climate equity from an environmental sciences perspective. Students will consider atmospheric processes and chemical transformations on human scales to identify, describe, and discuss how racism and injustice manifest in the atmosphere.

This course will introduce students to the numerical, statistical, and computational methods used to model variability and change in Earth's climate system. The course will provide a conceptual understanding of the physical principles underlying successful Earth system models and teach students mathematical and computational techniques necessary to interpret and analyze model output for a variety of environmental sciences applications.

This seminar course will review the atmospheric and oceanic processes responsible for large-scale variability and change in Earth's climate system through readings and discussions of recent peer-reviewed scientific publications.