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1 - 10 of 18 results for: ESS

ESS 14N: Sustainable Adaptation

How do we adapt to the rapid global environmental changes that are happening around us? How do we do so in a way that is sustainable, enhancing human and environmental wellbeing, now and in the future? In this course, we will explore these questions through an interdisciplinary lens, drawing from the social sciences, engineering, and public health. We will focus on people¿s responses to a range of impacts related to global environmental change from sea level rise to extreme weather events. Example responses include changes in fishing practices, taking protective action during wildfires or hurricanes, and migrating to a new location. Often, we will draw case studies from frontline communities, those who experience the "first and worst" of global environmental changes. Through readings, film, and field trips, we will ask what adaptation to global environmental change is, what does it mean to be sustainable, and how can it be sustained.
Terms: Aut | Units: 3

ESS 16N: Island Ecology

Preference to freshmen. How ecologists think about the world. Focus is on the Hawaiian Islands: origin, geology, climate, evolution and ecology of flora and fauna, and ecosystems. The reasons for the concentration of threatened and endangered species in Hawaii, the scientific basis for their protection and recovery. How knowledge of island ecosystems can contribute to ecology and conservation biology on continents.
Terms: Aut | Units: 3 | UG Reqs: GER: DB-NatSci
Instructors: Vitousek, P. (PI)

ESS 38N: The Worst Journey in the World: The Science, Literature, and History of Polar Exploration (EARTHSYS 38N, EPS 38N)

(Formerly GEOLSCI 38N) This course examines the motivations and experiences of polar explorers under the harshest conditions on Earth, as well as the chronicles of their explorations and hardships, dating to the 1500s for the Arctic and the 1700s for the Antarctic. Materials include The Worst Journey in the World by Aspley Cherry-Garrard who in 1911 participated in a midwinter Antarctic sledging trip to recover emperor penguin eggs. Optional field trip into the high Sierra in March. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
Terms: Aut | Units: 3 | UG Reqs: GER: DB-NatSci

ESS 112: Human Society and Environmental Change (EARTHSYS 112, EARTHSYS 212, HISTORY 103D)

Interdisciplinary approaches to understanding human-environment interactions with a focus on economics, policy, culture, history, and the role of the state. Prerequisite: ECON 1.
Terms: Aut | Units: 4 | UG Reqs: WAY-SI

ESS 148: Introduction to Physical Oceanography (CEE 162D, CEE 262D, EARTHSYS 164)

An introduction to what causes the motions in the oceans. Topics include: the physical environment of the ocean; properties of sea water; atmosphere-ocean interactions; conservation of heat, salt, mass, and momentum, geostrophic flows, wind-driven circulation patterns; the Gulf Stream; equatorial dynamics and El Nino; and tides. By the end of the course, students will have physical intuition for why ocean currents look the way they do and a basic mathematical framework for quantifying the motions. Prerequisite: PHYSICS 41
Terms: Aut | Units: 3 | UG Reqs: GER: DB-NatSci

ESS 164: Fundamentals of Geographic Information Science (GIS) (EARTHSYS 144)

Everything is somewhere, and that somewhere matters." The rapid growth and maturity of spatial data technologies over the past decade represent a paradigm shift in the applied use of location data from high-level overviews of administrative interests, to highly personalized location-based services that place the individual at the center of the map, at all times. The use of spatial data and related technology continues to grow in fields ranging from environmental sciences to epidemiology to market prediction. This course will present an overview of current approaches to the use of spatial data and its creation, capture, management, analysis and presentation, in a research context. Topics will include modeling of geographic objects and associated data, modeling of geographic space and the conceptual foundations of "spatial thinking," field data collection, basic spatial statistical analysis, remote sensing & the use of satellite-based imagery, "Big Data" and machine learning approaches t more »
Everything is somewhere, and that somewhere matters." The rapid growth and maturity of spatial data technologies over the past decade represent a paradigm shift in the applied use of location data from high-level overviews of administrative interests, to highly personalized location-based services that place the individual at the center of the map, at all times. The use of spatial data and related technology continues to grow in fields ranging from environmental sciences to epidemiology to market prediction. This course will present an overview of current approaches to the use of spatial data and its creation, capture, management, analysis and presentation, in a research context. Topics will include modeling of geographic objects and associated data, modeling of geographic space and the conceptual foundations of "spatial thinking," field data collection, basic spatial statistical analysis, remote sensing & the use of satellite-based imagery, "Big Data" and machine learning approaches to spatial data, and cartographic design and presentation including the use of web-based "Storymap" platforms. The course will consist of weekly lectures, guest speakers, computer lab assignments, midterm and final exams, as well as an individual final project requirement. This course must be taken for a minimum of 3 units and a letter grade to be eligible for Ways credit.
Terms: Aut | Units: 3-4 | UG Reqs: GER: DB-NatSci, WAY-AQR

ESS 204: Effective Scientific Presentation and Public Speaking (EPS 306, GEOPHYS 205)

The ability to present your research in a compelling, concise, and engaging manner will enhance your professional career. I will work to convince you that the best way to capture an audience and leave a lasting impression is to tell a story, do a demo, or pick a fight.___The goal of a talk is not to show people how much work you did, how capable and dedicated you are, or how much you know. We don't care about any of those things. Instead, we want to learn something new and important, something that changes our perspective and influences our research. We want to be inspired, shocked, or moved. ___ So, in the opening minutes of a talk, you must plant your flag and make your case. You are forecasting the arc of your story, rather than introducing your topic. If, for example, your very first three words are, "I will argue" you're on a good path. In these crucial opening minutes, you've either hooked them or lost them. ___ The course is taught as a series of stand-and-deliver exercises with more »
The ability to present your research in a compelling, concise, and engaging manner will enhance your professional career. I will work to convince you that the best way to capture an audience and leave a lasting impression is to tell a story, do a demo, or pick a fight.___The goal of a talk is not to show people how much work you did, how capable and dedicated you are, or how much you know. We don't care about any of those things. Instead, we want to learn something new and important, something that changes our perspective and influences our research. We want to be inspired, shocked, or moved. ___ So, in the opening minutes of a talk, you must plant your flag and make your case. You are forecasting the arc of your story, rather than introducing your topic. If, for example, your very first three words are, "I will argue" you're on a good path. In these crucial opening minutes, you've either hooked them or lost them. ___ The course is taught as a series of stand-and-deliver exercises with feedback from the other students and revision on the fly. You'll do exercises on talk openers and closers, physical demos, conference talks, job interviews, press interviews, and funding pitches. We also tackle scientific graphics, focusing on builder slides and posters. Special guests will enrich the course, including a graphic designer, Adobe Illustrator mavens, headhunters, entrepreneurs, and TV reporters?.This is a 'flipped' class, so there are no lectures. Instead, students receive Class Notes before each week's classes, and a Postscript Letter afterwards. Grades are completely optional: 70% in-class exercises, 30% final presentation, such as your upcoming conference presentation. ___ It's important to take this course when you have research to present. My pledge is that everyone will come away a more skilled and confident speaker than they were before. ___ Anonymous 2022 Course Evaluation Comments: "Truly the best course that I have taken in my life. There is simply an incredible amount of wisdom to be gained from this course. To no exaggeration, your life will be changed, and you will forever see presentations differently after this experience of a lifetime. It's also accessible to undergrads as long as you have a research project." ___ "By far, the best class I've taken at Stanford. Will change your entire perspective on presenting research." ___ "This is by far the best and most helpful course I have taken in all 5 years at Stanford. This course is really a must for anyone and has given me a huge confidence boost for public speaking in all scenarios. Ross is a fantastic instructor and makes the class a welcoming and collaborative environment." ___ "Ross is an engaging teacher with years of experience doing public speaking in academic, government, and business settings. This class is well worth the time that it takes to prepare the short talk exercises. Highly recommend this class for anyone looking to improve their speaking skills."
Terms: Aut | Units: 2
Instructors: Stein, R. (PI)

ESS 205: Fundamentals of Geobiology (EARTHSYS 205A, EPS 205)

(Former GEOLSCI 205) Lecture and discussion covering key topics in the history of life on Earth, as well as basic principles that apply to life in the universe. Co-evolution of Earth and life; critical intervals of environmental and biological change; geomicrobiology; paleobiology; global biogeochemical cycles; scaling of geobiological processes in space and time. Change of Department Name: Earth & Planetary Sciences (Formerly Geological Science)
Terms: Aut | Units: 3

ESS 220: Physical Hydrogeology (CEE 260A)

(Formerly GES 230.) Theory of underground water occurrence and flow, analysis of field data and aquifer tests, geologic groundwater environments, solution of field problems, and groundwater modeling. Introduction to groundwater contaminant transport and unsaturated flow. Lab. Prerequisite: elementary calculus.
Terms: Aut | Units: 4

ESS 227: Decision Science for Environmental Threats (EARTHSYS 227)

Decision science is the study of how people make decisions. It aims to describe these processes in ways that will help people make better or more well-informed decisions. It is an interdisciplinary field that draws upon psychology, economics, political science, and management, among other disciplines. It is being used in a number of domain areas and for a variety of applications, including managing freshwater resources, designing decision support tools to aid in coastal adaptation to sea-level rise, and creating "nudges" to enhance energy efficiency behaviors. This course covers behavioral theories of probabilistic inference, intuitive prediction, preference, and decision making. Topics include heuristics and biases, risk perceptions and attitudes, strategies for combining different sources of information and dealing with conflicting objectives, and the roles of group and emotional processes in decision making. This course will introduce students to foundational theories of decision science, and will involve applying these theories to understand decisions about environmental threats.
Terms: Aut | Units: 3-5
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