8/18/2023 0 Comments Dr. earman enviromental geologyArmstrong, W.H., Polashenski, D.*, Truffer, M., Horne, G., Hanson, J.B., Hawley, R.L., Hengst, A.M.*, Vowels, L.*, Menounos, B., and Van Wychen, W.GES 4210 - Senior Seminar (Geology Capstone).GES 3140 - Quantifying Environmental Change.GES 2752 - Environmental Science Field Methods.GES 2750 - Preparation for Careers in the Earth and Environmental Sciences.GES 1104 - Water: Mountains to Sea (labs).GES 1102 - Introduction to Historical Geology (labs).GES 1101 - Introduction to Physical Geology (labs).Dr Armstrong's research and teaching support the Department's Quantitive Geoscience, Environmental Geology, and Earth System Science tracks. Glacier basal motion is an important process to study because it dominates the motion of many glaciers, will influence how glaciers change in a warming world, and is the means by which the shape our spectacular alpine landscapes. Dr Armstrong's recent work has focused on the process of sliding at the bottom of glaciers, its sensitivity to meltwater production, and how it changes over daily to multi-decadal time scales. Dr Armstrong is broadly interested in investigating earth surface dynamics, including the behavior of glaciers and rivers, using satellite remote sensing, field study, and numerical modeling. Sediment Budgets and Sediment Delivery Ratios in River Sys.Dr Armstrong joined the Department in Fall 2017 after completing his PhD at the University of Colorado at Boulder. Secondary Forests in Tropical Environments Rivers, Restoration of Physical Integrity of Rivers and Their Cultural Values: Assessing Cultural Water. Nitrogen Cycle, Human Manipulation of the Global Murray-Darling Basin Plan: Case Study in Market-Based Appr. Landscape Architecture and Environmental Planning Land Use, Land Cover and Land Management Change Lakes: A Guide to the Scientific Literature Key Figures: North American Environmental Scientist Activi. Integrated Assessment Models (IAMs) for Climate Change Industrial Contamination, Case Studies in Human Impact on Historical Fluvial Sediment Dynamics in Eu. Historical Land Uses and Their Changes in the European Alp. In practice, many individuals engaged in these fields consider themselves to be both environmental and engineering geologists.Īgroforestry: The North American PerspectiveĪrsenic Contamination in South and Southeast AsiaĬase Studies in Groundwater Contaminant Fate and TransportĬlimate Change and Conflict in Northern AfricaĮconomic Valuation Methods for Non-market Goods or Service.Įconomics of International Environmental AgreementsĮuropean Union and Environmental Policy, The Engineering geologists assess potential geological hazards such as hillslope instability, erosion, and flooding, which creates overlap with environmental geology. Engineering geologists apply geological knowledge to engineering in order to ensure that geological factors are recognized and accounted for when designing, siting, and constructing infrastructure such as roads and buildings. Some of the components of environmental geology overlap with engineering geology. The first textbook of environmental geology was published in 1982 by an American author, and courses in the subject are now widely taught in universities within the United States and throughout the world. Environmental geology has largely developed as a subdiscipline within geology since the 1970s, although research related to natural hazards, in particular, dates to the founding of geology as a discipline during the 18th century. The final component relates to managing disposal of wastes such as radioactive materials or excess nutrients and investigates contaminant dispersal through erosion and deposition. A third component involves managing energy sources such as coal and oil to mitigate hazards and enhance sustainability. The second primary component of environmental geology involves managing use of natural resources such as minerals, soil, and water. The first involves identifying and managing natural hazards, including earthquakes, floods, hillslope instability, soil erosion, subsidence, volcanoes, and wildfires. Environmental geology commonly focuses on four primary components. Environmental geology involves application of geological knowledge to the investigation of processes occurring at or near Earth’s surface in order to mitigate natural hazards and minimize environmental degradation.
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