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31 - 36 of 36 results for: EARTHSYS ; Currently searching autumn courses. You can expand your search to include all quarters

EARTHSYS 294: Environmental Communication Capstone

The Earth Systems Master of Arts, Environmental Communication capstone project provides students with an opportunity to complete an ambitious independent project demonstrating mastery of an area of environmental communication. Capstone projects are most often applied communication projects such as writing, photography, or video projects; expressive or artistic works; or student-initiated courses, workshops, or curriculum materials. Projects focused on academic scholarship or communication theory research may also be considered. Restricted to students enrolled in the Earth Systems Master of Arts, Environmental Communication Program.
Terms: Aut, Win, Spr, Sum | Units: 1-5 | Repeatable for credit
Instructors: Hayden, T. (PI)

EARTHSYS 295: Environmental Communication Seminar

Weekly seminar for students enrolled in the Earth Systems Master of Arts, Environmental Communication Program, to be taken twice for credit during degree progress. Includes discussion of and reflection on current topics in environmental communication, skills and professional development workshop sessions, and mentoring and peer support for MA capstone projects.
Terms: Aut, Spr | Units: 1 | Repeatable 2 times (up to 2 units total)
Instructors: Hayden, T. (PI)

EARTHSYS 297: Directed Individual Study in Earth Systems

Under supervision of an Earth Systems faculty member on a subject of mutual interest.
Terms: Aut, Win, Spr, Sum | Units: 1-9 | Repeatable for credit
Instructors: Anderson, M. (PI) ; Archie, P. (PI) ; Ardoin, N. (PI) ; Arrigo, K. (PI) ; Asner, G. (PI) ; Banerjee, B. (PI) ; Barry, M. (PI) ; Block, B. (PI) ; Boggs, C. (PI) ; Boucher, A. (PI) ; Cain, B. (PI) ; Caldeira, K. (PI) ; Caldwell, M. (PI) ; Carlisle, L. (PI) ; Casciotti, K. (PI) ; Chamberlain, P. (PI) ; Curran, L. (PI) ; Daily, G. (PI) ; Davis, J. (PI) ; Denny, M. (PI) ; Diffenbaugh, N. (PI) ; Dirzo, R. (PI) ; Dunbar, R. (PI) ; Durham, W. (PI) ; Egger, A. (PI) ; Ernst, W. (PI) ; Falcon, W. (PI) ; Fendorf, S. (PI) ; Field, C. (PI) ; Francis, C. (PI) ; Frank, Z. (PI) ; Freyberg, D. (PI) ; Fukami, T. (PI) ; Gardner, C. (PI) ; Gerritsen, M. (PI) ; Gilly, W. (PI) ; Gordon, D. (PI) ; Gorelick, S. (PI) ; Goulder, L. (PI) ; Hadly, E. (PI) ; Hawk, S. (PI) ; Hayden, T. (PI) ; Hecker, S. (PI) ; Hilley, G. (PI) ; Hoagland, S. (PI) ; Ihme, M. (PI) ; Ingle, J. (PI) ; Jackson, R. (PI) ; Jacobson, M. (PI) ; Jamieson, A. (PI) ; Jones, J. (PI) ; Kennedy, D. (PI) ; Kennedy, D. (PI) ; Kennedy, J. (PI) ; Knight, R. (PI) ; Koseff, J. (PI) ; Kovscek, A. (PI) ; Lambin, E. (PI) ; Lawrence, K. (PI) ; Leape, J. (PI) ; Litvak, L. (PI) ; Lobell, D. (PI) ; Long, S. (PI) ; Lutomski, P. (PI) ; Lynham, J. (PI) ; Lyons, E. (PI) ; Masters, G. (PI) ; Matson, P. (PI) ; Micheli, F. (PI) ; Monismith, S. (PI) ; Mooney, H. (PI) ; Mormann, F. (PI) ; Naylor, R. (PI) ; Nelson, J. (PI) ; Nevle, R. (PI) ; Novy-Hildesley, J. (PI) ; Orr, F. (PI) ; Ortolano, L. (PI) ; Osborne, M. (PI) ; Palumbi, S. (PI) ; Payne, J. (PI) ; Phillips, K. (PI) ; Polk, E. (PI) ; Rajaratnam, B. (PI) ; Root, T. (PI) ; Rothe, M. (PI) ; Saltzman, J. (PI) ; Schneider, S. (PI) ; Schoolnik, G. (PI) ; Seto, K. (PI) ; Shiv, B. (PI) ; Siegel, R. (PI) ; Simon, G. (PI) ; Somero, G. (PI) ; Sweeney, J. (PI) ; Switzer, P. (PI) ; Tabazadeh, A. (PI) ; Thomas, L. (PI) ; Thompson, B. (PI) ; Truebe, S. (PI) ; Victor, D. (PI) ; Vitousek, P. (PI) ; Walbot, V. (PI) ; Watanabe, J. (PI) ; Weyant, J. (PI) ; Wiederkehr, S. (PI) ; Wight, G. (PI) ; Wolak, F. (PI) ; Woodward, J. (PI) ; Zoback, M. (PI)

EARTHSYS 299: M.S. Thesis

Terms: Aut, Win, Spr, Sum | Units: 1-9 | Repeatable for credit

EARTHSYS 308: Carbon Dioxide and Methane Removal, Utilization, and Sequestration (ENERGY 308, ENVRES 295, ESS 308, ME 308)

This is a seminar on carbon dioxide and methane removal, utilization, and sequestration options, and their role in decarbonizing the global energy system. This course will cover topics including the global carbon balance, utilizing atmospheric carbon in engineered solutions, recycling and sequestering fossil-based carbon, and enhancing natural carbon sinks. The multidisciplinary lectures and discussions will cover elements of technology, economics, policy and social acceptance, and will be led by a series of guest lecturers. Short group project on carbon solutions.
Terms: Aut | Units: 1

EARTHSYS 801: TGR Project

Terms: Aut, Win, Spr, Sum | Units: 0 | Repeatable for credit
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