Call Number | 13284 |
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Day & Time Location |
R 6:10pm-8:00pm To be announced |
Points | 3 |
Grading Mode | Standard |
Approvals Required | None |
Instructor | James L Davis |
Type | LECTURE |
Method of Instruction | In-Person |
Course Description | This course provides an overview of the science related to observing and understanding sea-level rise, which has a profound impact on the sustainability of coastal cities and ecosystems. In modern research, sea-level rise is viewed as a complex response of the Earth “system of systems” to climate change. Measuring ongoing sea-level change is challenging due to the great natural variability of sea level on short time scales caused by tides, weather, and ocean currents. Interpreting measurements so that one can assess (and mitigate against) potential economic and societal impacts of sea-level rise is crucial but can be complicated, since so many Earth-system processes play a role. Some of these processes are related and others are unrelated to climate change; some of the latter are natural and others are of anthropogenic origin. Students enrolled in this course will through lectures and class discussions address topics related to the underlying observational basis for sea-level rise. Given the complexity of sea level rise, it is important for those in technical positions to understand the systems level interactions that not only lead to rising waters but also the consequences that these changes inflict on other parts of our environment. What we hear most commonly is that sea level rise will affect hundreds of millions of people living in coastal areas and make those populations susceptible to flooding. But in addition to this community effect, sea level rise also have dramatic effects on coastal habitats, leading to issue such as erosion, soil contamination, and wetland flooding, just to name a few. This course will introduce and prepare students to develop a more comprehensive and holistic approach to sea level rise. By training students to observe, measure, interpret, and begin to predict how sea level rise affects populations and communities differently, students will be in strong positions to address, mitigate, and adapt to the challenges more effectively using evidence-based approaches. |
Web Site | Vergil |
Department | Sustainability Science |
Enrollment | 10 students (20 max) as of 12:06PM Tuesday, December 3, 2024 |
Subject | Sustainability Science |
Number | PS5030 |
Section | 001 |
Division | School of Professional Studies |
Open To | Professional Studies |
Note | STEM PROGRAM - INSTRUCTOR PERMISSION REQUIRED. Graduate Stud |
Section key | 20251SUSC5030K001 |