An interdisciplinary introduction to oceanography focusing on biological, chemical, geological, and physical processes. Covers topics such as origins and structure of planet Earth and its oceans, co-evolution of Earth and life, plate tectonics, liquid water and the hydrologic and hydrothermal cycles, salinity and elemental cycles, ocean circulation, primary production and nutrient cycles, plankton and nekton, life on the sea floor, near shore and estuarine communities, future environmental problems our oceans face. Students may also enroll in and receive credit for
EART 1.
Instructor
Christopher Edwards, Carl Lamborg
General Education Code
SI
Quarter offered
Winter, Spring, Summer
The ecology of plants and animals in oceans and coastal areas. Consideration of life in various marine habitats, including the open ocean, rocky shores, estuaries, and the sea. Includes field trips. High school biology and chemistry courses are recommended prior to taking this course.
Instructor
Marilou Sison-Mangus, Jonathan Zehr
General Education Code
SI
Quarter offered
Fall, Winter, Spring, Summer
Interdisciplinary scientific perspective on Earth system, focusing on human impacts on global environment. Introduces concepts of Earth system science and explores topics such as global warming, ozone depletion, pollution, deforestation, and future climate change. Prerequisite(s): high school chemistry course recommended.
Instructor
Phoebe Lam, Jerome Fiechter, Pratigya Polissar
General Education Code
PE-E
Quarter offered
Fall, Winter, Spring, Summer
Quantitative introduction to climate comprising five modules: atmosphere-ocean circulation, atmospheric teleconnections, El-Nino Southern Oscillation, the Pacific Decadal Oscillation, and global warming. Hands-on statistical methods are applied to real-world observations to develop a quantitative understanding of climate.
Instructor
Christopher Edwards, Andrew Moore, Claudie Beaulieu
General Education Code
SR
Quarter offered
Fall, Winter, Summer
Cross-listed Courses
Introduces fluid motion influenced by rotation. Topics include the Coriolis force, geostrophic flow, potential vorticity, the shallow water model, quasigeostrophic approximation, planetary waves, Ekman theory, thermal wind, models of the large-scale oceanic and atmospheric circulation, and equatorial dynamics. Taught in conjunction with EART 272. Students cannot receive credit for this course and EART 272.
Cross Listed Courses
OCEA 172
Instructor
Christopher Edwards
Introduces fluid motion influenced by rotation. Topics include the Coriolis force, geostrophic flow, potential vorticity, the shallow water model, quasigeostrophic approximation, planetary waves, Ekman theory, thermal wind, models of the large-scale oceanic and atmospheric circulation, and equatorial dynamics. Students cannot receive credit for this course and EART 172.
Cross Listed Courses
OCEA 272
Instructor
Christopher Edwards