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21 - 30 of 52 results for: EARTHSYS ; Currently searching spring courses. You can expand your search to include all quarters

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

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, Spr | Units: 3-4 | UG Reqs: GER: DB-NatSci, WAY-AQR

EARTHSYS 149: Wild Writing (EARTHSYS 249)

What is the wild? What is our relationship to nature, and why does this relationship matter? We will interrogate these questions through the work of influential, diverse, primarily American environmental writers who have given voice to many ways of knowing the wonder, fragility, complexity, and power of the natural world and have inspired readers to act on behalf of social-environmental causes. This course centers the work of diverse voices, including Indigenous, Black, and Chicana writers, enabling us to consider some of the many ways that people have understood and experienced nature throughout history and the relevance of these manifold ways of knowing to our conceptualizations of nature today. Students will develop their responses to the question of what is the wild and why it matters through a series of synchronous and asynchronous in-the-field writing exercises that integrate personal narrative and environmental scholarship, culminating in a ~3000-word narrative nonfiction essay. more »
What is the wild? What is our relationship to nature, and why does this relationship matter? We will interrogate these questions through the work of influential, diverse, primarily American environmental writers who have given voice to many ways of knowing the wonder, fragility, complexity, and power of the natural world and have inspired readers to act on behalf of social-environmental causes. This course centers the work of diverse voices, including Indigenous, Black, and Chicana writers, enabling us to consider some of the many ways that people have understood and experienced nature throughout history and the relevance of these manifold ways of knowing to our conceptualizations of nature today. Students will develop their responses to the question of what is the wild and why it matters through a series of synchronous and asynchronous in-the-field writing exercises that integrate personal narrative and environmental scholarship, culminating in a ~3000-word narrative nonfiction essay. This course will provide students with knowledge, tools, experience, and skills that will empower them to become more persuasive environmental storytellers and advocates.If you are interested in signing up for the course, complete this pre-registration form: https://stanforduniversity.qualtrics.com/jfe/form/SV_9XqZeZs036WIvop
Terms: Spr | Units: 3 | UG Reqs: WAY-CE

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

Required for Earth Systems students in the oceans track. Interdisciplinary look at how oceanic environments control the form and function of marine life. Topics include distributions of planktonic production and abundance, nutrient cycling, the role of ocean biology in the climate system, expected effects of climate changes on ocean biology. Local weekend field trips.
Terms: Spr | Units: 3-4 | UG Reqs: WAY-SMA
Instructors: Arrigo, K. (PI)

EARTHSYS 153: Solving Social Problems with Data (COMM 140X, DATASCI 154, ECON 163, MS&E 134, POLISCI 154, PUBLPOL 155, SOC 127)

Introduces students to the interdisciplinary intersection of data science and the social sciences through an in-depth examination of contemporary social problems. Provides a foundational skill set for solving social problems with data including quantitative analysis, modeling approaches from the social sciences and engineering, and coding skills for working directly with big data. Students will also consider the ethical dimensions of working with data and learn strategies for translating quantitative results into actionable policies and recommendations. Lectures will introduce students to the methods of data science and social science and apply these frameworks to critical 21st century challenges, including education & inequality, political polarization, and health equity & algorithmic design in the fall quarter, and social media, climate change, and school choice & segregation in the spring quarter. In-class exercises and problem sets will provide students with the opportunity to use more »
Introduces students to the interdisciplinary intersection of data science and the social sciences through an in-depth examination of contemporary social problems. Provides a foundational skill set for solving social problems with data including quantitative analysis, modeling approaches from the social sciences and engineering, and coding skills for working directly with big data. Students will also consider the ethical dimensions of working with data and learn strategies for translating quantitative results into actionable policies and recommendations. Lectures will introduce students to the methods of data science and social science and apply these frameworks to critical 21st century challenges, including education & inequality, political polarization, and health equity & algorithmic design in the fall quarter, and social media, climate change, and school choice & segregation in the spring quarter. In-class exercises and problem sets will provide students with the opportunity to use real-world datasets to discover meaningful insights for policymakers and communities. This course is the required gateway course for the new major in Data Science & Social Systems. Preference given to Data Science & Social Systems B.A. majors and prospective majors. Course material and presentation will be at an introductory level. Enrollment and participation in one discussion section is required. Sign up for the discussion section will occur on Canvas at the start of the quarter. Prerequisites: CS106A (required), DATASCI 112 (recommended as pre or corequisite). Limited enrollment. Please complete the interest form here: https://forms.gle/8ui9RPgzxjGxJ9k29. A permission code will be given to admitted students to register for the class.
Terms: Aut, Spr | Units: 5 | UG Reqs: WAY-AQR, WAY-SI

EARTHSYS 155: Science of Soils (ESS 155)

Physical, chemical, and biological processes within soil systems. Emphasis is on factors governing nutrient availability, plant growth and production, land-resource management, and pollution within soils. How to classify soils and assess nutrient cycling and contaminant fate. Recommended: introductory chemistry and biology.
Terms: Spr | Units: 4-5 | UG Reqs: WAY-SMA, GER: DB-NatSci
Instructors: Fendorf, S. (PI)

EARTHSYS 156: The Future of Global Systemic Risk (SOC 128, STS 156)

The global risk environment is changing. Seemingly distinct large-scale risks affect what we now realize are mutually interdependent human, socio-technical, and ecological systems. As a result, consequences are more catastrophic, and costs are set to accelerate. How do we determine the top risks of this decade to prioritize actions, and how are both risks and actions likely to evolve and interact? This course investigates the data, methods, and insights mobilized by key actors such as corporations, governments, and academics to assess systemic risk, create future scenarios, and generate predictions. What are the track records of recognized systemic risk assessment and modeling toolkits? Going forward, how can we get better at risk prevention and mitigation? This year, the course will focus on combined risks from the environmental, health, and emerging tech domains. The key objective is to quickly learn relevant vocabularies (risk, tech, and futurist) by engaging with both traditional a more »
The global risk environment is changing. Seemingly distinct large-scale risks affect what we now realize are mutually interdependent human, socio-technical, and ecological systems. As a result, consequences are more catastrophic, and costs are set to accelerate. How do we determine the top risks of this decade to prioritize actions, and how are both risks and actions likely to evolve and interact? This course investigates the data, methods, and insights mobilized by key actors such as corporations, governments, and academics to assess systemic risk, create future scenarios, and generate predictions. What are the track records of recognized systemic risk assessment and modeling toolkits? Going forward, how can we get better at risk prevention and mitigation? This year, the course will focus on combined risks from the environmental, health, and emerging tech domains. The key objective is to quickly learn relevant vocabularies (risk, tech, and futurist) by engaging with both traditional and emerging assessment methods, in order to discover how to shape positive societal outcomes in the next decade and beyond. The course prepares students for key roles in the assessment, management, and prediction of risks, technologies, markets, industries, infrastructures, and futures. People with these skills can affect the governance principles, strategies, and leadership of corporations, philanthropies, states, economies, and entire societies.
Terms: Spr | Units: 3-4
Instructors: Undheim, T. (PI)

EARTHSYS 160: Sustainable Cities (URBANST 164)

Community-engaged learning course that exposes students to sustainability concepts and urban planning as a tool for determining sustainable outcomes in the Bay Area. The focus will be on land use and transportation planning to housing and employment patterns, mobility, public health, and social equity. Topics will include government initiatives to counteract urban sprawl and promote smart growth and livability, political realities of organizing and building coalitions around sustainability goals, and increasing opportunities for low-income and communities of color to achieve sustainability outcomes. Students will participate in remote team-based projects in collaboration with Bay Area community partners. Prerequisites: Consent of the instructor. (Cardinal Course certified by the Haas Center.) Apply here: https://docs.google.com/forms/d/e/1FAIpQLSfhY1w5A_PCjmKdMcGNaZ6Hic24T2zvgF7CfcGrL2tWCWnQGg/viewform
Terms: Spr | Units: 4-5 | UG Reqs: WAY-SI, WAY-EDP
Instructors: Kos, R. (PI)

EARTHSYS 166: Building Alliances for Water Justice: Case Studies from California

What is water (in)justice? How have frontline communities come together to reveal inequities in water access and flows, advance meaningful reform, and build and sustain alliances? How do we center equity and repair in the face of drought and climate change? How do we learn to be good allies for water equity? This class will provide a nuanced examination of water injustice and justice by examining historical foundations, inequities in governance and distribution, and pathways toward restoration, repair, and water rights reform for justice. We will anchor our learning in three California-based modules where Indigenous and frontline communities have built powerful alliances for water equity and reform: 1) access to safe drinking water as a human right, 2) protecting in-stream flows and tribal beneficial uses of water in the face of large-scale water exports and diversions, and 3) dam removal for ecological and cultural restoration. Each module will include issue framing and readings from more »
What is water (in)justice? How have frontline communities come together to reveal inequities in water access and flows, advance meaningful reform, and build and sustain alliances? How do we center equity and repair in the face of drought and climate change? How do we learn to be good allies for water equity? This class will provide a nuanced examination of water injustice and justice by examining historical foundations, inequities in governance and distribution, and pathways toward restoration, repair, and water rights reform for justice. We will anchor our learning in three California-based modules where Indigenous and frontline communities have built powerful alliances for water equity and reform: 1) access to safe drinking water as a human right, 2) protecting in-stream flows and tribal beneficial uses of water in the face of large-scale water exports and diversions, and 3) dam removal for ecological and cultural restoration. Each module will include issue framing and readings from a multidisciplinary instructor team working from an allied perspective, a panel conversation with frontline community leaders for Indigenous rights and environmental justice, and student-led readings and discussions. By grounding our learning in dialogue with frontline community leaders who are reshaping the legal, political, and eco-cultural landscapes for water justice in California, we seek to question dominant frameworks of "community vulnerability," learn from the lived experience of individuals and organizations building meaningful alliances for justice, and begin to anticipate a wide array of legal, policy, organizing, and institution building strategies for reform.
Terms: Spr | Units: 1-3

EARTHSYS 168: Land Use: Planning for Sustainable Cities (AMSTUD 163, PUBLPOL 163, URBANST 163)

Through case studies with a focus on the San Francisco Bay Area, guest speakers, selective readings and interactive assignments, this survey course seeks to demystify the concept of land use for the non-city planner. This introductory course will review the history and trends of land use policies, as well as address a number of current themes to demonstrate the power and importance of land use. Students will explore how urban areas function, how stakeholders influence land use choices, and how land use decisions contribute to positive and negative outcomes. By exploring the contemporary history of land use in the United States, students will learn how land use has been used as a tool for discriminatory practices and NIMBYism. Students will also learn about current land use planning efforts that seek to make cities more sustainable, resilient and equitable to address issues like gentrification, affordable housing, and sea level rise.
Terms: Spr | Units: 3 | UG Reqs: GER:DB-SocSci, WAY-SI

EARTHSYS 181: Urban Agroecology (EARTHSYS 281, ESS 181, ESS 281, URBANST 181)

Urban agriculture takes many forms in cities around the world and provides significant amounts of food and other resources and benefits for urban communities. This Earth Systems practicum explores the application of agroecological principles to the design and stewardship of urban farms and gardens. Students will explore social and ecological dimensions of urban agriculture including issues of environmental justice while gaining land stewardship and small-scale food production skills at the Stanford Educational Farm and in the community. Course application link: https://stanforduniversity.qualtrics.com/jfe/form/SV_d0fFbVV7Gk7UDr0
Terms: Spr | Units: 3
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