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71 - 80 of 109 results for: EARTHSYS

EARTHSYS 241: Remote Sensing of the Oceans (EARTHSYS 141, EESS 141, EESS 241, GEOPHYS 141)

How to observe and interpret physical and biological changes in the oceans using satellite technologies. Topics: principles of satellite remote sensing, classes of satellite remote sensors, converting radiometric data into biological and physical quantities, sensor calibration and validation, interpreting large-scale oceanographic features.
Terms: Win | Units: 3-4
Instructors: Arrigo, K. (PI)

EARTHSYS 242: Remote Sensing of Land (EARTHSYS 142, EESS 162, EESS 262)

The use of satellite remote sensing to monitor land use and land cover, with emphasis on terrestrial changes. Topics include pre-processing data, biophysical properties of vegetation observable by satellite, accuracy assessment of maps derived from remote sensing, and methodologies to detect changes such as urbanization, deforestation, vegetation health, and wildfires.
Terms: Win | Units: 4

EARTHSYS 246A: Atmosphere, Ocean, and Climate Dynamics: The Atmospheric Circulation (EARTHSYS 146A, EESS 146A, EESS 246A, GEOPHYS 146A, GEOPHYS 246A)

Introduction to the physics governing the circulation of the atmosphere and ocean and their control on climate with emphasis on the atmospheric circulation. Topics include the global energy balance, the greenhouse effect, the vertical and meridional structure of the atmosphere, dry and moist convection, the equations of motion for the atmosphere and ocean, including the effects of rotation, and the poleward transport of heat by the large-scale atmospheric circulation and storm systems. Prerequisites: MATH 51 or CME100 and PHYSICS 41.
Terms: Win | Units: 3
Instructors: Thomas, L. (PI)

EARTHSYS 246B: Atmosphere, Ocean, and Climate Dynamics: the Ocean Circulation (EARTHSYS 146B, EESS 146B, EESS 246B, GEOPHYS 146B, GEOPHYS 246B)

Introduction to the physics governing the circulation of the atmosphere and ocean and their control on climate with emphasis on the large-scale ocean circulation. This course will give an overview of the structure and dynamics of the major ocean current systems that contribute to the meridional overturning circulation, the transport of heat, salt, and biogeochemical tracers, and the regulation of climate. Topics include the tropical ocean circulation, the wind-driven gyres and western boundary currents, the thermohaline circulation, the Antarctic Circumpolar Current, water mass formation, atmosphere-ocean coupling, and climate variability. Prerequisites: EESS 146A or EESS 246A, or CEE 164 or CEE 262D, or consent of instructor.
Terms: Spr | Units: 3
Instructors: Thomas, L. (PI)

EARTHSYS 250: Directed Research

Independent research related to student's primary track, carried out after the junior year, during the summer, and/or during the senior year. Student develops own project with faculty supervision. 10-15 page thesis. May be repeated for credit.
Terms: Aut, Win, Spr, Sum | Units: 1-9 | Repeatable for credit
Instructors: Ardoin, N. (PI) ; Arrigo, K. (PI) ; Asner, G. (PI) ; Block, B. (PI) ; Boggs, C. (PI) ; Boucher, A. (PI) ; Caldwell, M. (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) ; Gardner, C. (PI) ; Gerritsen, M. (PI) ; Gilly, W. (PI) ; Gordon, D. (PI) ; Gorelick, S. (PI) ; Goulder, L. (PI) ; Hadly, E. (PI) ; Hayden, T. (PI) ; Hilley, G. (PI) ; Ingle, J. (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) ; Litvak, L. (PI) ; Lobell, D. (PI) ; Long, S. (PI) ; Lynham, J. (PI) ; Masters, G. (PI) ; Matson, P. (PI) ; Micheli, F. (PI) ; Milroy, J. (PI) ; Monismith, S. (PI) ; Mooney, H. (PI) ; Naylor, R. (PI) ; Orr, F. (PI) ; Palumbi, S. (PI) ; Payne, J. (PI) ; Peay, K. (PI) ; Rajaratnam, B. (PI) ; Root, T. (PI) ; Schipper, L. (PI) ; Schneider, S. (PI) ; Schoolnik, G. (PI) ; Seto, K. (PI) ; Somero, G. (PI) ; Sweeney, J. (PI) ; Switzer, P. (PI) ; Tabazadeh, A. (PI) ; Thomas, L. (PI) ; Thompson, B. (PI) ; Victor, D. (PI) ; Vitousek, P. (PI) ; Walbot, V. (PI) ; Watanabe, J. (PI) ; Weyant, J. (PI) ; Wiederkehr, S. (PI) ; Woodward, J. (PI) ; Zoback, M. (PI)

EARTHSYS 251: Biological Oceanography (EARTHSYS 151, EESS 151, EESS 251)

Terms: Spr | Units: 3-4
Instructors: Arrigo, K. (PI)

EARTHSYS 252: Marine Chemistry (EARTHSYS 152, EESS 152, EESS 252)

Introduction to the interdisciplinary knowledge and skills required to critically evaluate problems in marine chemistry and related disciplines. Physical, chemical, and biological processes that determine the chemical composition of seawater. Air-sea gas exchange, carbonate chemistry, and chemical equilibria, nutrient and trace element cycling, particle reactivity, sediment chemistry, and diagenesis. Examination of chemical tracers of mixing and circulation and feedbacks of ocean processes on atmospheric chemistry and climate. Designed to be taken concurrently with Biological Oceanography (EESS/ EARTHSYS 151/251)
Terms: Spr | Units: 3-4

EARTHSYS 256: Soil and Water Chemistry (EARTHSYS 156, EESS 156, EESS 256)

(Graduate students register for 256.) Practical and quantitative treatment of soil processes affecting chemical reactivity, transformation, retention, and bioavailability. Principles of primary areas of soil chemistry: inorganic and organic soil components, complex equilibria in soil solutions, and adsorption phenomena at the solid-water interface. Processes and remediation of acid, saline, and wetland soils. Recommended: soil science and introductory chemistry and microbiology.
Terms: Win | Units: 1-4
Instructors: Ying, S. (PI)

EARTHSYS 258: Geomicrobiology (EARTHSYS 158, EESS 158, EESS 258)

How microorganisms shape the geochemistry of the Earth's crust including oceans, lakes, estuaries, subsurface environments, sediments, soils, mineral deposits, and rocks. Topics include mineral formation and dissolution; biogeochemical cycling of elements (carbon, nitrogen, sulfur, and metals); geochemical and mineralogical controls on microbial activity, diversity, and evolution; life in extreme environments; and the application of new techniques to geomicrobial systems. Recommended: introductory chemistry and microbiology such as CEE 274A.
Last offered: Winter 2013

EARTHSYS 260: Internship

Supervised field, lab, or private sector project. May consist of directed research under the supervision of a Stanford faculty member, participation in one of several off campus Stanford programs, or an approved non-Stanford program relevant to the student's Earth Systems studies. Required of and restricted to declared Earth Systems majors. Includes 15-page technical summary research paper that is subject to iterative revision. (WIM)
Terms: Aut, Win, Spr, Sum | Units: 1-9 | Repeatable for credit
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