Results for CARDCOURSES::env

Is water a human right or an entitlement? Who controls the water, and who should control the water, in California? Private companies? Nonprofits? Local residents? Federal, state, or local governments? This course will explore these questions in the context of urban California more generally, the players and the politics to make sense of a complex problem with deep historical roots; one that defines the new century in California urban life. The required readings and discussions cover cities from Oakland to Los Angeles, providing a platform for students to explore important environmental issues, past and present, affecting California municipalities undergoing rapid population change. In addition, our research focus will be on the cities located on the Central Coast of California: agricultural Salinas, Watsonville, and Castroville and towns along the Salinas Valley; tourist based Monterey, Pebble Beach, Carmel, Pacific Grove; the bedroom community of Prunedale to the north, and former military towns, Marina and Seaside, as all of these ethnically, socioeconomically diverse communities engage in political struggles over precious, and ever scarcer water resources, contend with catastrophic events such as droughts and floods, and fight battles over rights to clean water, entitlement, environmental racism, and equity. Cardinal Course certified by the Haas Center.

Is water a human right or an entitlement? Who controls the water, and who should control the water, in California? Private companies? Nonprofits? Local residents? Federal, state, or local governments? This course will explore these questions in the context of urban California more generally, the players and the politics to make sense of a complex problem with deep historical roots; one that defines the new century in California urban life. The required readings and discussions cover cities from Oakland to Los Angeles, providing a platform for students to explore important environmental issues, past and present, affecting California municipalities undergoing rapid population change. In addition, our research focus will be on the cities located on the Central Coast of California: agricultural Salinas, Watsonville, and Castroville and towns along the Salinas Valley; tourist based Monterey, Pebble Beach, Carmel, Pacific Grove; the bedroom community of Prunedale to the north, and former military towns, Marina and Seaside, as all of these ethnically, socioeconomically diverse communities engage in political struggles over precious, and ever scarcer water resources, contend with catastrophic events such as droughts and floods, and fight battles over rights to clean water, entitlement, environmental racism, and equity. Cardinal Course certified by the Haas Center.

Introduction to the field of conservation photography and the strategic use of visual communication in addressing issues concerning the environment and conservation. Students will be introduced to basic digital photography, digital image processing, and the theory and application of photographic techniques. Case studies of conservation issues will be examined through photographs and multimedia platforms including images, video, and audio. Lectures, tutorials, demonstrations, and optional field trips will culminate in the production of individual and group projects. Cardinal Course certified by the Haas Center for Public Service.

Introduction to the field of conservation photography and the strategic use of visual communication in addressing issues concerning the environment and conservation. Students will be introduced to basic digital photography, digital image processing, and the theory and application of photographic techniques. Case studies of conservation issues will be examined through photographs and multimedia platforms including images, video, and audio. Lectures, tutorials, demonstrations, and optional field trips will culminate in the production of individual and group projects. Cardinal Course certified by the Haas Center for Public Service. This course is identical to Bio 7N, so students enrolled in the former should not take this course. Open to undergraduates and graduate students. Students must have access to a DSLR camera and lenses - we can accept up to 20 students who can share 10 course-provided cameras and lenses, by application. Application for camera use: https://forms.gle/1yAD3my8GoDseXw59.

California has set the ambitious goal of conserving 30% of its lands and waters by the year 2030. In this course, students will develop science-based recommendations to help policymakers reach this '30 by 30' goal. Through lectures, labs, and field trips, students will gain practical skills in ecology, protected area design in the face of climate change, and science communication. Students will apply these skills to analyze real-world data, formulate conservation recommendations, and communicate their findings in verbal and written testimony to policymakers. Prerequisites: BIO 81 or BIO/EARTHSYS 105 or BIO/EARTHSYS 111 or instructor approval.

As a society, we find ourselves surrounded by planetary-scale challenges ranging from lack of equitable access to health care to environmental degradation to dramatic loss of biodiversity. One common theme that runs across these challenges is the need to invent cost-effective solutions with the potential to scale. The COVID-19 pandemic provides yet another example of such a need. In this course, participants will learn principles of frugal science to design scalable solutions with a cost versus performance rubric and explore creative means to break the accessibility barrier. Using historic and current examples, we will emphasize the importance of first-principles science to tackle design challenges with everyday building blocks. Enrollment is open to all Stanford students from all schools/majors, who will team up with collaborators from across the globe to build concrete solutions to planetary-scale challenges. Come learn how to solve serious challenges with a little bit of play.

Addressing the systemic (Behavioral, Social, Environmental, Structural) drivers of health is a new frontier of entrepreneurship to improve global and public health at scale. In this hybrid seminar-based and experiential course, you will learn about challenges and opportunities for innovating in these areas. You will also design solutions and ventures aimed at tackling specific societal health problems. Our instructors and speakers are inspiring innovators and leaders in the fields of entrepreneurship and health. Cardinal Course certified by the Haas Center.

Come and tackle a problem in sustainability by participating in Stanford's Big Earth Hackathon challenge on wildland fires and finding an innovative solution to wildland fire prediction, mitigation, and/or equity and fairness. Students work in self-organized diverse teams of 1-4 students in weeks 1-8, with a final presentation of the work on Friday May 31. The teams will spend the first few weeks designing their specific team problem/scope/goals under one or more of the three primary areas of focus. Guidance in the design and solution processes will be provided by faculty, industry and/or community leaders. Workshops in data analysis, programming, GIS, and fundamental issues related to wildfires will be provided at the start of the quarter to give students tools and insights to define and tackle problems.

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Z and 218Z) Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered and may span both Winter and Spring quarters; students are welcome to participate in one or both quarters. Students are expected to interact professionally with government and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. Prerequisite: the Autumn (X) skills course or approval of instructors. For information about the projects and application process, visit http://bay.stanford.edu. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

Adaptation to climate change will not only require new infrastructure and policies, but it will also challenge our local, state and national governments to collaborate across jurisdictional lines in ways that include many different types of private and nonprofit organizations and individual actors. The course explores what it means for communities to be resilient and how they can reach that goal in an equitable and effective way. Using wildfires in California as a case study, the course assesses specific strategies, such as controlled burns and building codes, and a range of planning and policy measures that can be used to enhance climate resilience. In addition, it considers how climate change and development of forested exurban areas (among other factors) have influenced the size and severity of wildfires. The course also examines the obstacles communities face in selecting and implementing adaptation measures (e.g., resource constraints, incentives to develop in forested areas, inadequate policy enforcement, and weak inter-agency coordination). Officials from various Bay Area organizations contribute to aspects of the course; and students will present final papers to local government offcials. Limited enrollment. Students will be asked to prepare application essays on the first day of class. Course is intended for seniors and graduate students.

This course is a Cardinal Course certified by the Haas Center. Through a contemplative approach, this course cultivates students' capacity to take skillful action to address climate change. Effective engagement with the daunting complexity inherent in the climate crisis requires calm contemplative competence. The science of mindfulness, resilience, emotional intelligence, and compassion are explored in terms of their roles in supporting pro-environmental behaviors, policies, and programs for personal, public, and planetary health and well-being. Emerging research at the intersection of contemplation and climate science calls for individual insight and transformation to strengthen/restore/heal the human-earth relationship. Contemplative research indicates that the extension of mindful compassion beyond oneself can improve health at the public and planetary level, in addition to the individual level. Contemplative practices effective for promoting mental health in relation to eco-despair and eco-anxiety are addressed (including but not limited to nature-based centering, resilience-building mindfulness and loving kindness meditations, forest bathing, qigong, reflections on human-earth interconnectedness, and gratitude journaling.) Contemplative practices can prevent the burnout, avoidance, and disturbance of daily functioning that can arise from eco-anxiety. Moreover, research indicates contemplative practices can sustain altruistic behaviors that enhance mutual flourishing of people and the planet. Through study of contemplative neuroscience and behavioral science, students will develop/deepen their abilities for awareness, self-modulation, equanimity, self-transcendence, and compassion in caring for Earth. These skills will be discussed and applied to public health and climate change for effective behavioral action in a final class project. Modes of inquiry and class activities include contemplative, scientific, indigenous, artistic, verbal, visual, kinesthetic, sensory, emotional, spiritual, intellectual, social, and relational. Through diverse learning experiences, students will develop the empathy, discernment, and wisdom necessary for initiating and implementing solutions to the climate crisis. Course material equips students with knowledge from national and international leaders in the emerging field of contemplation, public health, and sustainability.

As the Flint, Michigan water situation began to attract attention and condemnation, Michigan State Representative, Sheldon Neeley, describing the troops on the ground and the Red Cross distributing water bottles, said that the Governor had "turned an American city into a Third World country [...] it's terrible what he's done [...] no fresh water. Then, at a Congressional hearing, the Chairman of the House Oversight & Government Reform Committee said, "This is the United States of America - this isn't supposed to happen here. We are not some Third World country."What is a "third world problem?" This introductory environmental anthropology course examines how such imaginaries materialize in development programmes and literature, and bespeak charged geopolitical and racial histories; and invites reflection on what futures for working in common they enable/constrain. We will examine how crises are imagined and constructed, and the governance regimes they give rise to. How does water - as natural resource, public good, human right, need, or commodity - determine the contours of such regimes? We will also study chronic, quieter environmental problems and the responses they (do not) generate. Working through a variety of writing genres - ethnographies, policy literature, and legal and corporate publicity material - will enable students to appreciate what anthropology can contribute to the conversation on environmental justice, and state and corporate bureaucracies and their mandates. The course draws on examples from a wide range of settings. The course is offered as an introduction to environmental anthropology and takes students through key themes - infrastructure, race, class, privatization, justice, violence - by focusing on water. It requires no background in anthropology.

Historically, discussions of race, ethnicity, culture, and equity in the environment have been shaped by a limited view of the environmental justice movement, often centered on urban environmental threats and separated from other types of environmental and climate advocacy. This course will seek to expand on these discussions by exploring topics such as access to outdoor spaces, definitions of wilderness, inclusion in environmental organizations, gender and the outdoors, the influence of colonialism on ways of knowing, food justice and ethics, and the future of climate change policy. The course will also involve a community partnership project. In small groups students will work with an environmental organization to problem-solve around issues of equity, representation, and access. We value a diversity of experiences and epistemologies and welcome undergraduates from all disciplines. Since this is a practical course, there will be a strong emphasis on participation and commitment to community partnerships. This course requires instructor approval, please submit an application by March 5th at midnight. Application available at https://forms.gle/2kRJFRyfwopWcBeT9

Building off the work of the Stanford Coalition for Planning an Equitable 2035 (SCoPE), the just transitions policy lab will address transportation justice, housing justice, and labor equity concerns that have been identified by neighboring communities to Stanford and our service workers as part of local land use planning and policy processes. Building on the success of earlier housing justice policy lab initiatives, this course will support ongoing policy engagement in local land use planning process, including housing and transportation justice issues. Key concepts addressed will include environmental justice (EJ) and just transitions frameworks, as well as building awareness of the Bay Area housing crisis. The course will culminate in class projects that will involve working with community partners to address information gaps on worker experiences and housing and transportation needs. Sessions will prioritize 1) foundational concepts in environmental justice 2) current issues in our community related to housing, transportation, and labor equity, 2) peer learning through collective engagement in readings and project planning, 4) community connections related to SCoPE initiatives that deepen existing relationships, and 5) policy analysis related to local land use planning processes. The teaching team will be accepting brief student applications for course participation prior to Winter quarter. To apply for this course, please fill out this google form: https://forms.gle/SjdgWwzNBGP2uQYA6 Due December 8 at 11:59pm. Cardinal Course certified by the Haas Center for Public Service.

Is water a human right or an entitlement? Who controls the water, and who should control the water, in California? Private companies? Nonprofits? Local residents? Federal, state, or local governments? This course will explore these questions in the context of urban California more generally, the players and the politics to make sense of a complex problem with deep historical roots; one that defines the new century in California urban life. The required readings and discussions cover cities from Oakland to Los Angeles, providing a platform for students to explore important environmental issues, past and present, affecting California municipalities undergoing rapid population change. In addition, our research focus will be on the cities located on the Central Coast of California: agricultural Salinas, Watsonville, and Castroville and towns along the Salinas Valley; tourist based Monterey, Pebble Beach, Carmel, Pacific Grove; the bedroom community of Prunedale to the north, and former military towns, Marina and Seaside, as all of these ethnically, socioeconomically diverse communities engage in political struggles over precious, and ever scarcer water resources, contend with catastrophic events such as droughts and floods, and fight battles over rights to clean water, entitlement, environmental racism, and equity. Cardinal Course certified by the Haas Center.

Taking a systems approach to health includes the deliberate upstream design of the places we live, learn, work, and play to support living in ways that keep people well - physically, emotionally, financially, and socially. No place at Stanford has more influence on campus health than the campus town center (roughly including Tresidder and White Plaza, the bookstore and post office, and Canfield Court and Meyer Green). In this high-stakes live course, students will explore upstream systems that influence health, health equity, and sustainability on campus. You will reimagine elements of Stanford?s town center to promote health by integrating concepts from public health, systems thinking, and design justice and using tools from product and policy design. Students will offer feedback and prototype new designs that will be presented for consideration to the town center project design team and advisors. This course is designed as an intensive one-week sprint.

California has set the ambitious goal of conserving 30% of its lands and waters by the year 2030. In this course, students will develop science-based recommendations to help policymakers reach this '30 by 30' goal. Through lectures, labs, and field trips, students will gain practical skills in ecology, protected area design in the face of climate change, and science communication. Students will apply these skills to analyze real-world data, formulate conservation recommendations, and communicate their findings in verbal and written testimony to policymakers. Prerequisites: BIO 81 or BIO/EARTHSYS 105 or BIO/EARTHSYS 111 or instructor approval.

California has committed itself to sustainable groundwater management, with passage of the Sustainable Groundwater Management Act in 2014, and safe drinking water access for all, with California's Human Right to Water Act in 2012. Yet, groundwater overdraft continues while over 1 million residents lack access to safe drinking water. Working with a water agency in the San Joaquin Valley, we will explore feedback loops between the two Acts and develop a plan for water management that meet the co-equal objectives of sustainable and equitable resource governance. We will work with "big" and "small" data, exploring the possibilities but also the limitations of using publicly available data for assessment and monitoring. The course will include guest speakers and interaction with public agencies and other key stakeholders.This is a Cardinal Course certified by the Haas Center.

Building off the work of the Stanford Coalition for Planning an Equitable 2035 (SCoPE), the just transitions policy lab will address transportation justice, housing justice, and labor equity concerns that have been identified by neighboring communities to Stanford and our service workers as part of local land use planning and policy processes. Building on the success of earlier housing justice policy lab initiatives, this course will support ongoing policy engagement in local land use planning process, including housing and transportation justice issues. Key concepts addressed will include environmental justice (EJ) and just transitions frameworks, as well as building awareness of the Bay Area housing crisis. The course will culminate in class projects that will involve working with community partners to address information gaps on worker experiences and housing and transportation needs. Sessions will prioritize 1) foundational concepts in environmental justice 2) current issues in our community related to housing, transportation, and labor equity, 2) peer learning through collective engagement in readings and project planning, 4) community connections related to SCoPE initiatives that deepen existing relationships, and 5) policy analysis related to local land use planning processes. The teaching team will be accepting brief student applications for course participation prior to Winter quarter. To apply for this course, please fill out this google form: https://forms.gle/SjdgWwzNBGP2uQYA6 Due December 8 at 11:59pm. Cardinal Course certified by the Haas Center for Public Service.

Historically, discussions of race, ethnicity, culture, and equity in the environment have been shaped by a limited view of the environmental justice movement, often centered on urban environmental threats and separated from other types of environmental and climate advocacy. This course will seek to expand on these discussions by exploring topics such as access to outdoor spaces, definitions of wilderness, inclusion in environmental organizations, gender and the outdoors, the influence of colonialism on ways of knowing, food justice and ethics, and the future of climate change policy. The course will also involve a community partnership project. In small groups students will work with an environmental organization to problem-solve around issues of equity, representation, and access. We value a diversity of experiences and epistemologies and welcome undergraduates from all disciplines. Since this is a practical course, there will be a strong emphasis on participation and commitment to community partnerships. This course requires instructor approval, please submit an application by March 5th at midnight. Application available at https://forms.gle/2kRJFRyfwopWcBeT9

How to develop and grow innovative nonprofit organizations and for-profit enterprises which have the primary goal of solving social and environmental problems. Topics include organizational mission, strategy, market/user analysis, communications, funding, recruitment and impact evaluation. Perspectives from the field of social entrepreneurship, design thinking and social change organizing. Opportunities and limits of using methods from the for-profit sector to meet social goals. Focus is on integrating theory with practical applications, including several case exercises and simulations. One-day practicum where students advise an actual social impact organization. Enrollment limited to 20.

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.

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

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.

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

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, diversity, equity, and inclusion while gaining land stewardship and small-scale food production skills at the Stanford Educational Farm. This is a 20-week (Winter and Spring quarters) Cardinal Course. Students will work with a community-based organization over both quarters to gain practical experience in the field. Students are required to enroll in and complete both Winter (EARTHSYS 181A, 2 units) and Spring (EARTHSYS 181B, 2 units) courses to receive credit for a total of 4 units. Space is limited and a brief application is required: https://stanforduniversity.qualtrics.com/jfe/form/SV_cJdl7V8aXE2AOUu

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, diversity, equity, and inclusion while gaining land stewardship and small-scale food production skills at the Stanford Educational Farm. This is a 20-week (Winter and Spring quarters) Cardinal Course. Students will work with a community-based organization over both quarters to gain practical experience in the field. Students are required to enroll in and complete both Winter (EARTHSYS 181A, 2 units) and Spring (EARTHSYS 181B, 2 units) courses to receive credit for a total of 4 units. Space is limited and a brief application is required.

An in-person, outdoor, project-based course in sustainable agricultural systems. Students will work individually or in small groups on projects at the Stanford Educational Farm. Potential projects this fall include building educational gardens, orchard establishment and management, and seedling propagation for plant donations for low-income families in partnership with Valley Verde in San Jose. Students are also encouraged to develop their own sustainable agriculture projects based on their interests. The class will meet in-person, outdoors at the Stanford Educational Farm. Students will be required to follow farm and University COVID-19 protocols. By application only. The Winter 2021 application can be found here (Deadline Dec. 28): https://stanforduniversity.qualtrics.com/jfe/form/SV_abKbQxC1Q2cCC2h

This is a project-based course that connects students to organizations that are using agroecological approaches to address food production and community food sovereignty challenges. Projects have been framed and will be mentored by Stanford Educational Farm community partners with the support of the course teaching team. Students will work in small groups on community-based projects, taking on individual roles within the larger collaboration. In addition, students in the course can work on the Stanford Educational Farm to satisfy part of the course time commitment. There is an application for the course that can be found here: https://stanforduniversity.qualtrics.com/jfe/form/SV_9uk8aL0rHzzWYZw

This course examines the rhetoric, history and key case studies of environmental justice while encouraging critical and collaborative thinking, reading and researching about diversity in environmental movements within the global community and at Stanford, including the ways race, class and gender have shaped environmental battles still being fought today. We center diverse voices by bringing leaders, particularly from marginalized communities on the frontlines to our classroom to communicate experiences, insights and best practices. Together we will develop and present original research projects which may serve a particular organizational or community need, such as racialized dispossession, toxic pollution and human health, or indigenous land and water rights, among many others. Cardinal Course certified by the Haas Center for Public Service. On Mondays, we will meet for discussion-based seminars and small group activities. On Wednesdays, Intro to EJ students will attend lectures presented by leading EJ scholars and advocates through the Environmental Justice Colloquium (EARTHSYS 194A).

This colloquium brings the voices and vision of leading Environmental Justice (EJ) advocates to the Stanford community, in order to educate, inspire, and transform our understanding of environmental science. Environmental Justice advances a positive vision for policies and actions that fight environmental racism. EJ approaches involve centering the voices and leadership of marginalized communities in 1) ensuring equitable access to environmental benefits, and 2) preventing or mitigating the disproportionate impacts of environmental harms for all communities, regardless of gender, class, race, ethnicity, or other social positions. This colloquium highlights the work of leading EJ thinkers and practitioners, speaking from frontline organizations on a wide range of topics. These topics include acting on toxic exposures and health disparities for community resilience, climate justice and youth action, Indigenous land and water rights, green cities and Afrofuturism, food justice and intersecting social movements, queer ecologies, and more. The colloquium will host a weekly speaker with course meetings held every Wednesday. Colloquium presentations will begin promptly at 12pm.

California has committed itself to sustainable groundwater management, with passage of the Sustainable Groundwater Management Act in 2014, and safe drinking water access for all, with California's Human Right to Water Act in 2012. Yet, groundwater overdraft continues while over 1 million residents lack access to safe drinking water. Working with a water agency in the San Joaquin Valley, we will explore feedback loops between the two Acts and develop a plan for water management that meet the co-equal objectives of sustainable and equitable resource governance. We will work with "big" and "small" data, exploring the possibilities but also the limitations of using publicly available data for assessment and monitoring. The course will include guest speakers and interaction with public agencies and other key stakeholders.This is a Cardinal Course certified by the Haas Center.

The Earth Systems Senior Capstone and Reflection, required of all seniors, provides students with opportunities to synthesize and reflect on their learning in the major. Students participate in guided career development and planning activities and initiate work on an independent or group capstone project related to an Earth Systems problem or question of interest. In addition, students learn and apply principles of effective oral communication through developing and giving a formal presentation on their internship. Students must also take EARTHSYS 210P, Earth Systems Capstone Project, in the quarter following the Senior Capstone and Reflection Course. Prerequisite: Completion of an approved Earth Systems internship (EARTHSYS 260). Cardinal Course certified by the Haas Center for Public Service.

The Earth Systems Senior Capstone and Reflection, required of all seniors, provides students with opportunities to synthesize and reflect on their learning in the major. Students participate in guided career development and planning activities and initiate work on an independent or group capstone project related to an Earth Systems problem or question of interest. In addition, students learn and apply principles of effective oral communication through developing and giving a formal presentation on their internship. Students must also take EARTHSYS 210P, Earth Systems Capstone Project, in the quarter following the Senior Capstone and Reflection Course. Prerequisite: Completion of an approved Earth Systems internship (EARTHSYS 260).https://earth.stanford.edu/esys/resources/program-forms-guides

Students work independently or in groups to complete their Senior Capstone Projects. They will participate in regular advising meetings with the instructor(s), and will give a final presentation on their projects at the end of the quarter in a special Earth Systems symposium. Prerequisite: EARTHSYS 210A or 210B.https://earth.stanford.edu/esys/resources/program-forms-guides

The challenges of addressing climate change and sustainability require urgency as well as innovative solutions. Startups operate with speed and urgency, 24/7. In recent years they have learned not only how to effectively innovate but also how to be extremely efficient with resources and time, using lean startup methods. Participants in this class develop the skills required of a mission driven entrepreneur by tackling a critical problem in climate and sustainability as part of a team of engineers, scientists, social scientists, MBAs, and law and policy experts. Teams will engage pressing climate and sustainability problems and learn how to apply lean startup principles ("business model canvas," "customer development," and "agile engineering") in developing solutions. Students will take a hands-on, experiential approach to explore options for solutions and needs for stakeholders. The process of exploring options will require participants to engage deeply and to learn how to work closely with policy makers, technologists, government officials, NGOs, foundations, companies, and others interested in solving these problems, while demanding that teams continually build iterative prototypes to test their understanding of the problem and solution hypotheses. For more information on problems and sponsors as they are added and to apply for the course, see https://h4cs.stanford.edu/. Applications required in November. Limited enrollment.https://earth.stanford.edu/esys/resources/program-forms-guides

Historically, discussions of race, ethnicity, culture, and equity in the environment have been shaped by a limited view of the environmental justice movement, often centered on urban environmental threats and separated from other types of environmental and climate advocacy. This course will seek to expand on these discussions by exploring topics such as access to outdoor spaces, definitions of wilderness, inclusion in environmental organizations, gender and the outdoors, the influence of colonialism on ways of knowing, food justice and ethics, and the future of climate change policy. The course will also involve a community partnership project. In small groups students will work with an environmental organization to problem-solve around issues of equity, representation, and access. We value a diversity of experiences and epistemologies and welcome undergraduates from all disciplines. Since this is a practical course, there will be a strong emphasis on participation and commitment to community partnerships. This course requires instructor approval, please submit an application by March 5th at midnight. Application available at https://forms.gle/2kRJFRyfwopWcBeT9

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

This is a project-based course that connects students to organizations that are using agroecological approaches to address food production and community food sovereignty challenges. Projects have been framed and will be mentored by Stanford Educational Farm community partners with the support of the course teaching team. Students will work in small groups on community-based projects, taking on individual roles within the larger collaboration. In addition, students in the course can work on the Stanford Educational Farm to satisfy part of the course time commitment. There is an application for the course that can be found here: https://stanforduniversity.qualtrics.com/jfe/form/SV_9uk8aL0rHzzWYZw

Required of and open only to Earth Systems co-terminal MS and MA students. This course has several elements, including, skill building through experiential learning and reflection and professional development. Students will either work in teams with a community partner in the Bay area on a predetermined project, or select a self- designed project with a partner anywhere in the world. The idea is to complete a well-defined, manageable, but important project to a high standard under significant time constraints. Our community partners have requested help with achieving their missions and seminar students will utilize their backgrounds in social/environmental problem solving to deliver a final product. Our partners have requested help with such efforts as grant and report writing, data analysis, curriculum development, symposium organizing, presentation research and preparation and communications to raise awareness about an environmental challenge. If you choose to design your own project, the instructor will help you to create this opportunity. Students will give oral presentations on their project progress throughout the quarter, culminating in a final presentation at a symposium with our partners. Students will also explore how best to communicate their interdisciplinary skills and goals through their resumes, CV's or cover letters, portfolios or linkedIn profiles in preparation for the next phase of their career. Guest speakers and in class workshops will complement these activities.Cardinal Course certified by the Haas Center.

The first of a two-quarter, project-based course sequence that address cultural, sociopolitical, organizational, technical, and ethical issues at the heart of implementing sustainable engineering projects in a developing world. Students work in interdisciplinary project teams to tackle real-world design challenges in partnership with social entrepreneurs, local communities, and/or NGOs. While students must have the skills and aptitude necessary to make meaningful contributions to technical product designs, the course is open to all backgrounds and majors. The first quarter focuses on cultural awareness, ethical implications, user requirements, conceptual design, feasibility analysis, and implementation planning. Admission is by application. Students should plan to enroll in ENERGY 177B/277B Engineering & Sustainable Development: Implementation following successful completion of this course. Designated a Cardinal Course by the Haas Center for Public Service. To satisfy a Ways requirement, students must register for an undergraduate course number (ENERGY 177A) and this course must be taken for at least 3 units.

The second of a two-quarter, project-based course sequence that address cultural, political, organizational, technical and business issues at the heart of implementing sustainable engineering projects in the developing world. Students work in interdisciplinary project teams to tackle real-world design challenges in partnership with social entrepreneurs and/or NGOs. This quarter focuses on implementation, evaluation, and deployment of the designs developed in the winter quarter. Designated a Cardinal Course by the Haas Center for Public Service.

Solving the global climate challenge will require the creation and successful scale-up of hundreds of new ventures. This project-based course provides a launchpad for the development and creation of transformational climate ventures and innovation models. Interdisciplinary teams will research, analyze, and develop detailed launch plans for high-impact opportunities in the context of the new climate venture development framework offered in this course. Throughout the quarter, teams will complete 70+ interviews with customers, sector experts, and other partners in the emerging climatetech ecosystem, with introductions facilitated by the teaching team's unique networks in this space. Please see the course website scv.stanford.edu for more information and alumni highlights. Project lead applications are due by December 11 through tinyurl.com/scvprojectlead. Students interested in joining a project team, please briefly indicate your interest in the course at tinyurl.com/scvgeneralinterest. Cardinal Course certified by the Haas Center for Public Service.

The first of a two-quarter, project-based course sequence that address cultural, sociopolitical, organizational, technical, and ethical issues at the heart of implementing sustainable engineering projects in a developing world. Students work in interdisciplinary project teams to tackle real-world design challenges in partnership with social entrepreneurs, local communities, and/or NGOs. While students must have the skills and aptitude necessary to make meaningful contributions to technical product designs, the course is open to all backgrounds and majors. The first quarter focuses on cultural awareness, ethical implications, user requirements, conceptual design, feasibility analysis, and implementation planning. Admission is by application. Students should plan to enroll in ENERGY 177B/277B Engineering & Sustainable Development: Implementation following successful completion of this course. Designated a Cardinal Course by the Haas Center for Public Service. To satisfy a Ways requirement, students must register for an undergraduate course number (ENERGY 177A) and this course must be taken for at least 3 units.

The second of a two-quarter, project-based course sequence that address cultural, political, organizational, technical and business issues at the heart of implementing sustainable engineering projects in the developing world. Students work in interdisciplinary project teams to tackle real-world design challenges in partnership with social entrepreneurs and/or NGOs. This quarter focuses on implementation, evaluation, and deployment of the designs developed in the winter quarter. Designated a Cardinal Course by the Haas Center for Public Service.

This course examines the rhetoric, history and key case studies of environmental justice while encouraging critical and collaborative thinking, reading and researching about diversity in environmental movements within the global community and at Stanford, including the ways race, class and gender have shaped environmental battles still being fought today. We center diverse voices by bringing leaders, particularly from marginalized communities on the frontlines to our classroom to communicate experiences, insights and best practices. Together we will develop and present original research projects which may serve a particular organizational or community need, such as racialized dispossession, toxic pollution and human health, or indigenous land and water rights, among many others. Cardinal Course certified by the Haas Center for Public Service. On Mondays, we will meet for discussion-based seminars and small group activities. On Wednesdays, Intro to EJ students will attend lectures presented by leading EJ scholars and advocates through the Environmental Justice Colloquium (EARTHSYS 194A).

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Z and 218Z) Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered and may span both Winter and Spring quarters; students are welcome to participate in one or both quarters. Students are expected to interact professionally with government and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. Prerequisite: the Autumn (X) skills course or approval of instructors. For information about the projects and application process, visit http://bay.stanford.edu. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Z and 218Z) Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered and may span both Winter and Spring quarters; students are welcome to participate in one or both quarters. Students are expected to interact professionally with government and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. Prerequisite: the Autumn (X) skills course or approval of instructors. For information about the projects and application process, visit http://bay.stanford.edu. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

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.

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

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

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

This course teaches students how to pursue social change through philanthropy with a focus on sustainable development. Students learn about the approaches, history, and key debates in philanthropy, and apply their knowledge by collaboratively making a substantial class contribution to one or more select nonprofit organizations. This class responds to the reality confronting all philanthropists: There are many ways in which we can change the world for the better, but our money and time is finite. How then can we best use our limited resources to accomplish change? And how will we know we've been successful? By the end of the course, students will understand the fundamentals of effective philanthropy, including how to define problems, develop a theory of change, evaluate outcomes, and reduce unintended harm. Students of all levels of familiarity with philanthropy are welcome to join and no discipline is privileged in the class.

California has committed itself to sustainable groundwater management, with passage of the Sustainable Groundwater Management Act in 2014, and safe drinking water access for all, with California's Human Right to Water Act in 2012. Yet, groundwater overdraft continues while over 1 million residents lack access to safe drinking water. Working with a water agency in the San Joaquin Valley, we will explore feedback loops between the two Acts and develop a plan for water management that meet the co-equal objectives of sustainable and equitable resource governance. We will work with "big" and "small" data, exploring the possibilities but also the limitations of using publicly available data for assessment and monitoring. The course will include guest speakers and interaction with public agencies and other key stakeholders.This is a Cardinal Course certified by the Haas Center.

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Z and 218Z) Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered and may span both Winter and Spring quarters; students are welcome to participate in one or both quarters. Students are expected to interact professionally with government and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. Prerequisite: the Autumn (X) skills course or approval of instructors. For information about the projects and application process, visit http://bay.stanford.edu. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

Introduction to geophysical methods that can be used for imaging and characterizing groundwater systems. Recurring periods of drought and flooding in California have led state and local water agencies to search for ways to capture flood water and use it to recharge (refill) the over-pumped groundwater systems. The course this year will be structured around analyzing a new geophysical data set to identify optimal locations for recharge. The data set: 26,000 kilometers of electromagnetic data, acquired with a helicopter-deployed system, which image the groundwater systems of the Valley to a depth of ~300 m. We will analyze these data to find optimal sites for recharge by mapping out the variation in sediment type and identifying pathways for flow. Pre-requisite: CME 100 or Math 51, or co-registration in either.

California has committed itself to sustainable groundwater management, with passage of the Sustainable Groundwater Management Act in 2014, and safe drinking water access for all, with California's Human Right to Water Act in 2012. Yet, groundwater overdraft continues while over 1 million residents lack access to safe drinking water. Working with a water agency in the San Joaquin Valley, we will explore feedback loops between the two Acts and develop a plan for water management that meet the co-equal objectives of sustainable and equitable resource governance. We will work with "big" and "small" data, exploring the possibilities but also the limitations of using publicly available data for assessment and monitoring. The course will include guest speakers and interaction with public agencies and other key stakeholders.This is a Cardinal Course certified by the Haas Center.

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Z and 218Z) Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered and may span both Winter and Spring quarters; students are welcome to participate in one or both quarters. Students are expected to interact professionally with government and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. Prerequisite: the Autumn (X) skills course or approval of instructors. For information about the projects and application process, visit http://bay.stanford.edu. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

Clients: California Native American Tribes, prescribed burn associations, federal legislative and executive branch decision makers. Wildfire has emerged as one of the most pressing biodiversity, air pollution and public health threats in the Western United States. Advancing land stewardship at sufficient scale to substantially improve the resilience of western forests to fire is critical to reducing wildfire risks and air pollution exposure for the tens of millions that live downwind. Communities are under threat as never before from catastrophic wildfire. Electric utilities face enormous challenges even as they strive to decarbonize their systems. In short, solving for wildfire resilience is an enormous technical and regulatory challenge. In this course, students will learn the basics of the wildfire policy debate in the west with a focus on California. Lectures will focus on both scientific and legal aspects of the challenge. In addition, students will work in groups on legal and regulatory analysis aimed at supporting better decision making on wildfire at the state and federal level. Students will work in partnership with postdocs and legal fellows on their group projects and may have the opportunity to present the results of their work to both clients and policymakers. The course is intended for students interested in multi-disciplinary approaches to public policy problems. No background in either the Clean Air Act, federal land management or wildfire policy is required. Students will engage in weekly lectures and discussions of wildfire science and policy, including student presentations and guest lectures by scientists, practitioners and policymakers. Students will also meet each week with Professors Sivas and Wara, and other members of the teaching team, in working sessions to discuss progress on team projects. Students may present the results of their research to California legislative and executive branch staff engaged in developing new approaches to wildfire policy. Elements used in grading: Attendance, Performance, Class Participation, Written Assignments, Final Paper. Students enrolled in Section 02 (with instructor consent) will be required to meet the Law School's R paper requirements. CONSENT APPLICATION: To apply for this course, students must complete and submit a Consent Application Form. In answering the application questions, "what skills do you bring to this class" and "what skills do you want to develop," students should also answer the following questions: What is your program of study at Stanford? What experiences and interests do you have relating to smoke or wildfire (including those that might relate to public health, community resilience, insurance, and tribal approaches to wildfire management)? Have you taken other wildfire related coursework? What interests you about policy in this field? What topics relating to smoke and wildfire would you like to learn (more) about? What type of work would you like to be involved in (e.g., drafting white papers/policy briefs, technical or scientific reports, etc.)? Do you have any specific technical skills (Machine learning based methods, GIS, legal research) that may be applicable to project based work? The Consent Application Form can be found at: SLS Registrar https://registrar.law.stanford.edu/. See Consent Application Form for additional instructions and submission deadline. We will be accepting applicants past the registrar's deadline. All interested applicants can register on the course offerings webpage or e-mail the course instructors if the deadline has passed. This course is cross-listed with the Doerr School of Sustainability (SUSTAIN 329).

Political, social, cultural, and racial polarization compromise the mission of higher education to promote intellectually rigorous, open, inclusive inquiry; to train a diverse student population to work productively across difference in a pluralistic society; to produce cutting edge research; and to train leaders capable of creating innovative solutions to major social problems. The policy lab will explore curricular and co-curricular interventions that have the potential to reduce the adverse effects of polarization. Lab members will gather research in social and cognitive psychology, history, conflict mediation, racial, gender and political subordination, deliberative democratic theory, and other fields to identify methods that can be adapted to higher education. Students will also gather and assess evidence of recent interventions and reforms at Stanford and other universities. Our goal is to develop and publish guidance for universities considering reforms that treat free speech and inclusion as mutually constitutive, rather than contrary, principles. Emphasis will be given to guidance showing how skills acquisition by all stakeholders can promote open discourse, meaningful inclusion, and support understanding alternative perspectives. Students will conduct research, meet with experts, design policy reforms, and develop content for a website that publishes the research, guidance, and reform models. The client for this policy lab is the Stanford President's office. Elements used in grading: Attendance, Class Participation, Written Assignments, Final Paper. CONSENT APPLICATION: To apply for this course, students must complete and submit a Consent Application Form available at https://registrar.law.stanford.edu/. See Consent Application Form for instructions and submission deadline.

The western United States is currently experiencing what may be the longest and most severe "megadrought" in modern U.S. history. Current U.S. drought data shows virtually all of the Southwest in severe, extreme, or extraordinary drought. Reservoirs on the Colorado River are reaching record lows, and many farmers throughout the West have had their deliveries cut dramatically or face potentially massive cutbacks. Media discussion of episodic, emergency "droughts" has been replaced by a recognition of the permanent "aridification" of the West under climate change. Resolving the West's growing water crisis will require far greater linkage of water management and land use. Land use drives water demand, while water availability constrains land use. While water and land use are integrally related in fact, water and land-use policies in practice are far from integrated. Developments are approved without reference to water availability, and water agencies often have to scramble to find and fund new projects to augment or conserve water. New land developments or more intensive farming can lead to increased groundwater pumping that can cause neighboring residents' wells to run dry. In other cases, a failure to link water and land use can lead to abrupt building bans and/or emergency rationing. To meet the needs of a more water constrained future under climate change, a more integrated approach to water management and land use is warranted. While John Wesley Powell once recommended close integration of water and land use, western states have historically ignored the imperative. In the past decade or so, some states have ventured more fully into the connection between land use and water. Some states, for example, have enacted "Show Me the Water" statutes that require land developments above a certain size to demonstrate that they have 50 to 100 years' worth of water available before permits can be issued. In other places, states require land use authorities to consider water issues in developing their plans (or issuing well permits), either though consulting with their overlapping water agencies, or through developing a water "element" to their plans. This sensible approach is far from universal. We know very little, however, about how well these various approaches have worked. Working with the Babbitt Center for Land and Water at the Lincoln Land Institute (the leader in this field) and other experts in the West, students will review and assess whether the policies that have been enacted have made a difference in practice and will develop recommendations for how water and land use can be better integrated going forward. The class will provide students with the opportunity to survey the western landscape of integrated water and land use policies, identify best practices and glaring gaps, and develop suggestions for the future. The Lab will be led by Professor Buzz Thompson and Landreth Visiting Fellow Felicia Marcus of the Stanford Woods Institute for the Environment, who will meet with students weekly. Experts from across the West will also join the group throughout the fall quarter to discuss their experience and insights. Students will prepare a report for the Babbitt Center and also have an opportunity to present their results to key state and local decision makers and informers. Elements used in grading: Attendance, Performance, Class Participation, Written Assignments, Final Paper. CONSENT APPLICATION: To access the consent application for this course, go to link SLS Registrar https://registrar.law.stanford.edu/ and then click SUNetID Login in the top right corner of the page. See application for deadline and instructions. Cross-listed with the Doerr School of Sustainability (SUSTAIN 328).

Clients: Asian Pacific Environmental Network (APEN), Communities for a Better Environment (CBE) as well as legislative and California Public Utility Commission (CPUC) decision makers. California is a leader in establishing aggressive targets to reduce greenhouse gas (GHG) emissions and increase zero-carbon energy generation. To meet its ambitious goals, California must implement a just energy transition that is founded in equity and that actively promotes environmental justice. This policy lab will work to address two pressing issues at the forefront of a zero-carbon energy transition: the ability of utilities to equitably, efficiently, and safely transition natural gas infrastructure and scale up electrification, and the ongoing reform of California¿s Low Carbon Fuel Standard (LCFS). Utilities have an obligation to provide essential services to all residents in their service territory, and this currently includes both natural gas and electric service in most areas. The original intention was to ensure equitable access to all consumers, but this obligation can now pose a barrier to electrifying homes, neighborhoods, and the state in an efficient and just manner. Legislators, utilities, and other stakeholders are cautious about widespread decommissioning of natural gas infrastructure until there is a legal architecture in place to ensure that equitable, reliable, and sufficient service is maintained to all customers. We are recognized leaders in the legal and regulatory issues associated with the obligation to serve in California and this policy lab will work to develop solutions in concert with EJ groups and state legislators. The LCFS is one of the key measures intended by California to drive innovation in reducing GHG emissions. This program was implemented in 2011 with the goal of stimulating a cellulosic biofuel industry and has been significantly amended over the past decade. Over the next year, the California Air Resources Board (ARB) will undertake a major revision of the program with large implications for biofuels, food crops, refineries and CAFOs. We have been asked by multiple environmental justice groups for assistance in developing EJ-centered technical and legal analysis to support their engagement in this process including development of and modeling of an "EJ scenario" to compare with alternatives developed by ARB. We will conduct our work from the perspective of and informed by the needs of our clients, APEN and CBE, environmental justice organizations that are actively involved in resilience and decarbonization policy. In this course, students will learn the basics of building electrification and low carbon fuel standards as well as engage in work related to these policies that is directly tied to policy outcomes. Lectures will focus on technical, economic and legal aspects of the challenge. In addition, students will work in groups on legal and technical analysis aimed at supporting better decision making in energy policy proposals in California. Students will work in partnership with postdocs and legal fellows on their group projects and may have the opportunity to present the results of their work to both APEN, CBE, legislators, and CPUC staff. The course is intended for students interested in multi-disciplinary approaches to public policy problems. No background in either energy law or energy modeling is required. Students will engage in weekly lecture and discussion of energy resilience and decarbonization science and policy, including student presentations and guest lectures by scientists, practitioners and policymakers who are true subject matter experts engaged in the policy processes student teams will be working on. Students will also meet outside of class once per week with the teaching team in working sessions to discuss progress on team projects. Elements used in grading: Attendance, Performance, Class Participation, Written Assignments, Final Paper. Students enrolled in Section 02 (with instructor consent) will be required to write an individual research paper meeting the Law School's R paper requirements. CONSENT APPLICATION: To access the consent application for this course, go to link SLS Registrar https://registrar.law.stanford.edu/ and then click SUNetID Login in the top right corner of the page. We accept applications up to the add deadline for the quarter. This course is cross-listed with Environment and Resources (ENVRES TBA).

Globally, more than 1 billion people rely on seafood, yet this source of vital nutrition is chronically neglected in discussions about the future of food systems. In 2021, the UN Food Systems Summit brought international attention to the potential of "blue foods," thanks in part to insights and evidence provided by the Stanford-led Blue Food Assessment. Now, the Indonesian Ministry of National Development Planning has asked Stanford to help them build blue foods into Indonesia's national development strategy. Indonesia is the 4th most populous country, home to 278 million people and the most marine biodiversity on the planet. Over the next 18 months, we will work with the Ministry, Indonesian researchers, and NGO partners to develop a Blue Food Assessment for Indonesia that can help policymakers realize the potential of blue foods to meet pressing food system priorities -- improving nutrition, food security, and livelihoods, both nationally and in rural communities. This Blue Foods Action Lab is the first of a series to help Indonesia implement a far-reaching national program that could transform its food system and could be used as a model for other countries. For Spring quarter the role of the students will be to evaluate successful programs implemented by other nations in the areas that align with client interests and build from the student progress on topics from the winter quarter (i.e., aquaculture, small scale fisheries, blue food tech and justice and inclusion). A report will be produced and shared with the Indonesian Ministry and our NGO partner. The practicum seeks graduate and well-qualified undergraduate students in such programs as earth systems, computer science, public policy, international policy, business, law, sociology, and marine biology. Policy client: Indonesian Ministry of National Development Planning. Graduate and professional students from law, environmental science and policy, marine sciences, food systems, and public policy are invited to apply. R credit (Section 02) is possible only by consent of the instructor. After the term begins, students accepted into the course can transfer from section (01) into section (02), which meets the R requirement, with consent of the instructor. Elements used in grading: Attendance, Performance, Class Participation, Written Assignments, Final Paper. CONSENT APPLICATION: An application is required for acceptance into the course available at https://forms.gle/WzXQDpt9Wa6hy7j87 Application deadline: March 13, 2024. Cross-listed with Doerr School of Sustainability (SUSTAIN 121/221).

First course of two-quarter capstone sequence. Working in project teams, design and develop an engineering system addressing a real-world problem in theme area of pressing societal need. Learn and utilize industry development process: first quarter focuses on establishing requirements and narrowing to top concept. Second quarter emphasizes implementation and testing. Learn and apply professional communication skills, assess ethics. Students must also enroll in ME170b; completion of 170b required to earn grade in 170a. Course sequence fulfills ME WIM requirement. Course open to Biomechanics students for Capstone credit. Co- or Prerequisites: ENGR15, ME80, ME104, ME131 (ME only), ME123 (ME Only). (Cardinal Course certified by the Haas Center).

Second course of two-quarter capstone sequence. Working in project teams, design and develop an engineering system addressing a real-world problem in theme area of pressing societal need. Learn and utilize industry development process: first quarter focuses on establishing requirements and narrowing to top concept. Second quarter emphasizes implementation and testing. Learn and apply professional communication skills, assess ethics. Students must have completed ME170a; completion of 170b required to earn grade in 170a. Course sequence fulfills ME WIM requirement. Course open to Biomechanics students for Capstone credit. Co- or Prerequisites: ENGR15, ME80, ME104, ME131 (ME only), ME123 (ME only). (Cardinal Course certified by the Haas Center).

Design for Extreme Affordability (fondly called Extreme) is a two-quarter course offered by the d.school through the School of Engineering and the Graduate School of Business. This multidisciplinary project-based experience creates an enabling environment in which students learn to design products and services that will change the lives of the world's poorest citizens. Students work directly with course partners on real world problems, the culmination of which is actual implementation and real impact. Topics include design thinking, product and service design, rapid prototype engineering and testing, business modelling, social entrepreneurship, team dynamics, impact measurement, operations planning and ethics. Possibility to travel overseas during spring break. Previous projects include d.light, Driptech, Earthenable, Embrace, the Lotus Pump, MiracleBrace, Noora Health and Sanku. Periodic design reviews; Final course presentation and expo; industry and adviser interaction. Limited enrollment via application. Must sign up for ME206A and ME206B. See extreme.stanford.edu

Addressing the systemic (Behavioral, Social, Environmental, Structural) drivers of health is a new frontier of entrepreneurship to improve global and public health at scale. In this hybrid seminar-based and experiential course, you will learn about challenges and opportunities for innovating in these areas. You will also design solutions and ventures aimed at tackling specific societal health problems. Our instructors and speakers are inspiring innovators and leaders in the fields of entrepreneurship and health. Cardinal Course certified by the Haas Center.

Traditional climate change courses introduce students to a wide array of scientifically and emotionally challenging subjects without acknowledging the significant distress that climate learners often experience from studiously bearing witness to ecological degradation, and the social injustices this deepens. Students enrolled in the proposed course will study a rapidly growing body of scholarship and activism related to emotive and existential responses to climate change. They will explore the psychosocial complexities that the Anthropocene proposes through key texts, films, and guest lectures that draw on climate psychology, philosophy, art, literature and history. A key outcome of this course is identifying pedagogical tools that can be implemented to foster wellbeing within the climate science community and its adjacent fields. Through self reflection, journaling, and group work, students will develop new self-care skills and collective mental health 'protection and promotion' strategies. A primary goal of the course is to understand how trauma-informed learning modules can support the scientific objectives of graduate students. Final projects will include the development of evidence-based instructional and mentoring recommendations for students studying any aspect of climate science. The course is designed to engage students in participatory scholarship; assessment of the effectiveness of various learning modules on student wellbeing and motivation towards their research will be conducted using pre-post style surveys and qualitative interview methods. (Cardinal Course certified by the Haas Center)

This course will allow students interested in working with the Muwekma Ohlone Tribe to engage in Community Based Participatory Research (CBPR) through (CEL) Community Engaged Learning. This CARDINAL COURSE draws from the knowledge and support provided by The HAAS Center. Previous Muwekma collaborations and ongoing projects are found here on the HAAS Center Website: (https://stanford.maps.arcgis.com/apps/dashboards/820e700616fe472fa2ca5d5c7df58580). Students will be designing, tending and maintaining a native plants garden in the area surrounding the dish. Students will learn about the local environmental history of the Bay Area, the biotic community and plants used by California native people in the by designing a demonstration and educational garden at our worksite. The course will emphasize protocols and specific methods in Indigenous spaces. Cultural heritage and archaeological surveys and mapping may be a a part of this course, depending upon the needs of the Muwekma community. Other projects may include educational projects for k-12 students, in as well as field trips to archaeological sites in ancestral spaces within the territory of Muwekma Ohlone. Other projects to be determined by local tribal members. The Course will emphasize protocols and specific methods of collaboration with Native communities and in Indigenous spacesAttendance Policy: Attendance at all class meetings is required. This course meets weekly.

Interdisciplinary seminar emphasizing two major areas of study: biological sciences (ecology) and culture (the human dimensions of conservation and use of natural resources based on indigenous traditional knowledge). Challenges and opportunities of interacting with researchers and students from other cultures; analysis of the ways in which academic institutions and rural, indigenous institutions are, jointly, undertaking the challenge of sustainably managing biological resources. Location: Mexico City and Oaxaca, Mexico.

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Z and 218Z) Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered and may span both Winter and Spring quarters; students are welcome to participate in one or both quarters. Students are expected to interact professionally with government and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. Prerequisite: the Autumn (X) skills course or approval of instructors. For information about the projects and application process, visit http://bay.stanford.edu. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

Adaptation to climate change will not only require new infrastructure and policies, but it will also challenge our local, state and national governments to collaborate across jurisdictional lines in ways that include many different types of private and nonprofit organizations and individual actors. The course explores what it means for communities to be resilient and how they can reach that goal in an equitable and effective way. Using wildfires in California as a case study, the course assesses specific strategies, such as controlled burns and building codes, and a range of planning and policy measures that can be used to enhance climate resilience. In addition, it considers how climate change and development of forested exurban areas (among other factors) have influenced the size and severity of wildfires. The course also examines the obstacles communities face in selecting and implementing adaptation measures (e.g., resource constraints, incentives to develop in forested areas, inadequate policy enforcement, and weak inter-agency coordination). Officials from various Bay Area organizations contribute to aspects of the course; and students will present final papers to local government offcials. Limited enrollment. Students will be asked to prepare application essays on the first day of class. Course is intended for seniors and graduate students.

This course teaches students how to pursue social change through philanthropy with a focus on sustainable development. Students learn about the approaches, history, and key debates in philanthropy, and apply their knowledge by collaboratively making a substantial class contribution to one or more select nonprofit organizations. This class responds to the reality confronting all philanthropists: There are many ways in which we can change the world for the better, but our money and time is finite. How then can we best use our limited resources to accomplish change? And how will we know we've been successful? By the end of the course, students will understand the fundamentals of effective philanthropy, including how to define problems, develop a theory of change, evaluate outcomes, and reduce unintended harm. Students of all levels of familiarity with philanthropy are welcome to join and no discipline is privileged in the class.

This course teaches students how to pursue social change through philanthropy with a focus on sustainable development. Students learn about the approaches, history, and key debates in philanthropy, and apply their knowledge by collaboratively making a substantial class contribution to one or more select nonprofit organizations. This class responds to the reality confronting all philanthropists: There are many ways in which we can change the world for the better, but our money and time is finite. How then can we best use our limited resources to accomplish change? And how will we know we've been successful? By the end of the course, students will understand the fundamentals of effective philanthropy, including how to define problems, develop a theory of change, evaluate outcomes, and reduce unintended harm. Students of all levels of familiarity with philanthropy are welcome to join and no discipline is privileged in the class.

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Z and 218Z) Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered and may span both Winter and Spring quarters; students are welcome to participate in one or both quarters. Students are expected to interact professionally with government and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. Prerequisite: the Autumn (X) skills course or approval of instructors. For information about the projects and application process, visit http://bay.stanford.edu. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Y and 218Y) The complex urban problems affecting quality of life in the Bay Area, from housing affordability and transportation congestion to economic vitality and social justice, are already perceived by many to be intractable, and will likely be exacerbated by climate change and other emerging environmental and technological forces. Reforming urban systems to improve the equity, resilience and sustainability of communities will require new collaborative methods of assessment, goal setting, and problem solving across governments, markets, and communities. It will also require academic institutions to develop new models of co-production of knowledge across research, education, and practice. This XYZ course series is designed to immerse students in co-production for social change. The course sequence covers scientific research and ethical reasoning, skillsets in data-driven and qualitative analysis, and practical experience working with local partners on urban challenges that can empower students to drive responsible systems change in their future careers. The Autumn (X) and Winter (Y) courses are focused on basic and advanced skills, respectively, and completion is a prerequisite for participation in the Spring (Z) practicum quarter, which engages teams in real-world projects with Bay Area local governments or community groups. X and Y are composed of four weekly pedagogical components: (A) lectures; (B) writing prompts linked with small group discussion; (C) lab and self-guided tutorials on the R programming language; and (D) R data analysis assignments. Open to undergraduate and graduate students in any major. For more information, visit http://bay.stanford.edu/education. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

(Formerly GEOLSCI 118Z and 218Z) Students are placed in small interdisciplinary teams (engineers and non-engineers, undergraduate and graduate level) to work on complex design, engineering, and policy problems presented by external partners in a real urban setting. Multiple projects are offered and may span both Winter and Spring quarters; students are welcome to participate in one or both quarters. Students are expected to interact professionally with government and community stakeholders, conduct independent team work outside of class sessions, and submit deliverables over a series of milestones. Prerequisite: the Autumn (X) skills course or approval of instructors. For information about the projects and application process, visit http://bay.stanford.edu. Cardinal Course certified by the Haas Center. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).

Adaptation to climate change will not only require new infrastructure and policies, but it will also challenge our local, state and national governments to collaborate across jurisdictional lines in ways that include many different types of private and nonprofit organizations and individual actors. The course explores what it means for communities to be resilient and how they can reach that goal in an equitable and effective way. Using wildfires in California as a case study, the course assesses specific strategies, such as controlled burns and building codes, and a range of planning and policy measures that can be used to enhance climate resilience. In addition, it considers how climate change and development of forested exurban areas (among other factors) have influenced the size and severity of wildfires. The course also examines the obstacles communities face in selecting and implementing adaptation measures (e.g., resource constraints, incentives to develop in forested areas, inadequate policy enforcement, and weak inter-agency coordination). Officials from various Bay Area organizations contribute to aspects of the course; and students will present final papers to local government offcials. Limited enrollment. Students will be asked to prepare application essays on the first day of class. Course is intended for seniors and graduate students.

How can you contribute to efforts to foster a healthy and equitable food system? In this project-based course, you will be matched with a Bay Area community partner working on sustainability or food justice. You will develop public-facing communications to support their mission. Multiple genres are possible: you might create a podcast, a policy brief, video explainer, or a social media campaign. During this process, you will develop a range of writing and oral communication skills. You will practice project management, collaborative group work, and expressing yourself through new genres. Cardinal Course certified by the Haas Center. For a full course description visit https://pwrcourses.stanford.edu/advancedpwr/pwr91hk This course does not fulfill the Write 1 or the Write 2 writing requirement.

This course explores how certain religions--Judaism, Christianity, Islam, Buddhism and Hinduism--have addressed the ecological crisis, and how they might be drawn upon to address climate change in the future. Preserving the distinctiveness of each religious tradition, this seminar examines: the issue of religion as the cause of the environmental crisis; the resources for ecological responses within each tradition; the emergence of new religious ecologies and ecological theologies; the contribution of world religions to environmental ethics; and the degree to which the environmental crisis has functioned--and will function--as the basis of inter-faith collaboration. We will work to develop a shared vocabulary in environmental humanities, and special attention will be given to the contribution of religion to animal studies, ecofeminism, religion and the science of ecology, and the interplay between faith, scholarship and activism. But this class will be more: students will learn by engaging in social action. As our readings are put into practice through community campaigns that address real-world problems, my hope is that your knowledge of these sources will be deepened -- and challenged -- by what you learn in your social action campaigns, and that you will develop a more critical and thoughtful understanding of public issues and community change through action and reflection. Thus, this course is an action-oriented, solutions-based, course on community activism and an exercise in civic democracy. Cardinal Course certified by the Haas Center.

At the intersection of sustainability science and practice, the course provides master's students in the Sustainability Science and Practice (SUST) Program with an opportunity to apply and internalize the knowledge, mindsets, and skills learned in the program while leading change and advancing sustainability. Students identify and plan their own 80-hour practicum opportunities with sustainability-focused organizations, during which they collaborate on projects while applying foundational SUST learnings. Additionally, each student analyzes the sustainability challenge their organization is dedicated to addressing, examines their organization's ability to address the challenge, recommends how the organization can improve its ability to address the challenge in a transformative way, and reflects on their own experience and growth as a sustainability leader. Each student completes the course with a paper and presentation that share the student's analysis, recommendations, and self-reflections with the SUST community. Ultimately, the practicum is designed to develop each student's identity and capacity as a transformative leader through practice.

Service learning through the Geokids program. Eight weeks of supervised teaching to early elementary students about Earth sciences. Hands-on teaching strategies for science standards-based instruction. Cardinal Course certified by the Haas Center for Public Service

Disaster resilience embodies two concepts: adaptation and recovery. As climate change exacerbates the occurrence and intensity of environmental disasters, innovators and decision makers must collaborate to help vulnerable communities and the build environment adapt to and recover from shocks and stresses in a sustainable way without compromising long-term development. This course is tailored to solution-oriented students who are comfortable focusing on wicked problems, and care about the complexity of sustainable and equitable innovation. The course intends to teach students how to lead the design and implementation of products and services that will help real people who are experiencing disaster, with an emphasis on those facing disproportionate effects due to historical contexts. This course is only open to undergraduate students.

Globally, more than 1 billion people rely on seafood, yet this source of vital nutrition is chronically neglected in discussions about the future of food systems. In 2021, the UN Food Systems Summit brought international attention to the potential of "blue foods," thanks in part to insights and evidence provided by the Stanford-led Blue Food Assessment. Now, the Indonesian Ministry of National Development Planning has asked Stanford to help them build blue foods into Indonesia's national development strategy. Indonesia is the 4th most populous country, home to 278 million people and the most marine biodiversity on the planet. Over the next 18 months, we will work with the Ministry, Indonesian researchers, and NGO partners to develop a Blue Food Assessment for Indonesia that can help policymakers realize the potential of blue foods to meet pressing food system priorities -- improving nutrition, food security, and livelihoods, both nationally and in rural communities. This Blue Foods Action Lab is the first of a series to help Indonesia implement a far-reaching national program that could transform its food system and could be used as a model for other countries. For Spring quarter the role of the students will be to evaluate successful programs implemented by other nations in the areas that align with client interests and build from the student progress on topics from the winter quarter (i.e., aquaculture, small scale fisheries, blue food tech and justice and inclusion). A report will be produced and shared with the Indonesian Ministry and our NGO partner. The practicum seeks graduate and well-qualified undergraduate students in such programs as earth systems, computer science, public policy, international policy, business, law, sociology, and marine biology. Policy client: Indonesian Ministry of National Development Planning. Graduate and professional students from law, environmental science and policy, marine sciences, food systems, and public policy are invited to apply. Elements used in grading: Attendance, Performance, Class Participation, Written Assignments, Final Paper. An application is required for acceptance into the course available at https://forms.gle/WzXQDpt9Wa6hy7j87 Application deadline: March 13, 2024. Cross-listed with Stanford Law School (LAW 809K).

Taking a systems approach to health includes the deliberate upstream design of the places we live, learn, work, and play to support living in ways that keep people well - physically, emotionally, financially, and socially. No place at Stanford has more influence on campus health than the campus town center (roughly including Tresidder and White Plaza, the bookstore and post office, and Canfield Court and Meyer Green). In this high-stakes live course, students will explore upstream systems that influence health, health equity, and sustainability on campus. You will reimagine elements of Stanford?s town center to promote health by integrating concepts from public health, systems thinking, and design justice and using tools from product and policy design. Students will offer feedback and prototype new designs that will be presented for consideration to the town center project design team and advisors. This course is designed as an intensive one-week sprint.

The Executive Order for Tackling the Climate Crisis (14008) establishes a procedural policy, Justice 40, that applies principles of recognition and distributive equity to hundreds of federal policies and programs. With many different expressions, decision-makers in companies, communities, research institutions, and every level of policy-making are integrating strategies that are rapidly expanding the landscape of opportunity - and helping to level the playing field for investment at the same time. Participants in this interdisciplinary policy lab course will have an opportunity to collaborate in a fast paced and highly applied learning environment focused on a specific challenge to policy implementation. Similar to clinics with community-engaged learning, the specific context for engagement with external partners to the policy lab will change each quarter. See the syllabus for this course on Syllabus.Stanford.Edu to preview the focus each quarter.

Even where policy leaders are striving to center equity in rapid energy transitions, the pathways to clean energy economies are often described by techno-economic models that have limited ability to assess the distributional implications of different scenarios. This course focuses on methods to translate high-level, spatially coarse research findings into actionable policy and technology investment decisions at the local scale. Through lab exercises to develop GIS skills, participants will collaborate with a public service partner to select a study area, identify a spatial dataset representing renewable energy candidate project areas, use site suitability analysis, perform statistical summaries of the dataset, and visualize portfolios of future renewable energy resources that could inform stakeholder engagement on decarbonization pathways that center equity. Pre-requisite: Instructor permission: see syllabus on syllabus.stanford.edu/

Globally, more than 1 billion people rely on seafood, yet this source of vital nutrition is chronically neglected in discussions about the future of food systems. In 2021, the UN Food Systems Summit brought international attention to the potential of "blue foods," thanks in part to insights and evidence provided by the Stanford-led Blue Food Assessment. Now, the Indonesian Ministry of National Development Planning has asked Stanford to help them build blue foods into Indonesia's national development strategy. Indonesia is the 4th most populous country, home to 278 million people and the most marine biodiversity on the planet. Over the next 18 months, we will work with the Ministry, Indonesian researchers, and NGO partners to develop a Blue Food Assessment for Indonesia that can help policymakers realize the potential of blue foods to meet pressing food system priorities -- improving nutrition, food security, and livelihoods, both nationally and in rural communities. This Blue Foods Action Lab is the first of a series to help Indonesia implement a far-reaching national program that could transform its food system and could be used as a model for other countries. For Spring quarter the role of the students will be to evaluate successful programs implemented by other nations in the areas that align with client interests and build from the student progress on topics from the winter quarter (i.e., aquaculture, small scale fisheries, blue food tech and justice and inclusion). A report will be produced and shared with the Indonesian Ministry and our NGO partner. The practicum seeks graduate and well-qualified undergraduate students in such programs as earth systems, computer science, public policy, international policy, business, law, sociology, and marine biology. Policy client: Indonesian Ministry of National Development Planning. Graduate and professional students from law, environmental science and policy, marine sciences, food systems, and public policy are invited to apply. Elements used in grading: Attendance, Performance, Class Participation, Written Assignments, Final Paper. An application is required for acceptance into the course available at https://forms.gle/WzXQDpt9Wa6hy7j87 Application deadline: March 13, 2024. Cross-listed with Stanford Law School (LAW 809K).

This course teaches students how to pursue social change through philanthropy with a focus on sustainable development. Students learn about the approaches, history, and key debates in philanthropy, and apply their knowledge by collaboratively making a substantial class contribution to one or more select nonprofit organizations. This class responds to the reality confronting all philanthropists: There are many ways in which we can change the world for the better, but our money and time is finite. How then can we best use our limited resources to accomplish change? And how will we know we've been successful? By the end of the course, students will understand the fundamentals of effective philanthropy, including how to define problems, develop a theory of change, evaluate outcomes, and reduce unintended harm. Students of all levels of familiarity with philanthropy are welcome to join and no discipline is privileged in the class.

Traditional climate change courses introduce students to a wide array of scientifically and emotionally challenging subjects without acknowledging the significant distress that climate learners often experience from studiously bearing witness to ecological degradation, and the social injustices this deepens. Students enrolled in the proposed course will study a rapidly growing body of scholarship and activism related to emotive and existential responses to climate change. They will explore the psychosocial complexities that the Anthropocene proposes through key texts, films, and guest lectures that draw on climate psychology, philosophy, art, literature and history. A key outcome of this course is identifying pedagogical tools that can be implemented to foster wellbeing within the climate science community and its adjacent fields. Through self reflection, journaling, and group work, students will develop new self-care skills and collective mental health 'protection and promotion' strategies. A primary goal of the course is to understand how trauma-informed learning modules can support the scientific objectives of graduate students. Final projects will include the development of evidence-based instructional and mentoring recommendations for students studying any aspect of climate science. The course is designed to engage students in participatory scholarship; assessment of the effectiveness of various learning modules on student wellbeing and motivation towards their research will be conducted using pre-post style surveys and qualitative interview methods. (Cardinal Course certified by the Haas Center)

Adaptation to climate change will not only require new infrastructure and policies, but it will also challenge our local, state and national governments to collaborate across jurisdictional lines in ways that include many different types of private and nonprofit organizations and individual actors. The course explores what it means for communities to be resilient and how they can reach that goal in an equitable and effective way. Using wildfires in California as a case study, the course assesses specific strategies, such as controlled burns and building codes, and a range of planning and policy measures that can be used to enhance climate resilience. In addition, it considers how climate change and development of forested exurban areas (among other factors) have influenced the size and severity of wildfires. The course also examines the obstacles communities face in selecting and implementing adaptation measures (e.g., resource constraints, incentives to develop in forested areas, inadequate policy enforcement, and weak inter-agency coordination). Officials from various Bay Area organizations contribute to aspects of the course; and students will present final papers to local government offcials. Limited enrollment. Students will be asked to prepare application essays on the first day of class. Course is intended for seniors and graduate students.

The purpose of this course is to give First Years and Sophomores a better understanding of the importance and relevance of local government, as well as the knowledge, resources, confidence, and experience to explore careers in public service. It is based on last year¿s PubPol 21/22SI. It will include a broad-based introduction to local government with guest speakers and case studies. Students will also work with local community partners to provide policy recommendations for real world projects (last year they included civic infrastructure in Stockton, electric vehicle infrastructure in Pacifica, and environmental justice and sustainability in Mountain View). An example of a project deliverable from last year¿s course, the white paper developed for the City of Pacifica, can be found here. Dan Rich, Lecturer and former city manager, will be the Principal Instructor for the course, supported by three students involved in last year¿s class.

Historically, discussions of race, ethnicity, culture, and equity in the environment have been shaped by a limited view of the environmental justice movement, often centered on urban environmental threats and separated from other types of environmental and climate advocacy. This course will seek to expand on these discussions by exploring topics such as access to outdoor spaces, definitions of wilderness, inclusion in environmental organizations, gender and the outdoors, the influence of colonialism on ways of knowing, food justice and ethics, and the future of climate change policy. The course will also involve a community partnership project. In small groups students will work with an environmental organization to problem-solve around issues of equity, representation, and access. We value a diversity of experiences and epistemologies and welcome undergraduates from all disciplines. Since this is a practical course, there will be a strong emphasis on participation and commitment to community partnerships. This course requires instructor approval, please submit an application by March 5th at midnight. Application available at https://forms.gle/2kRJFRyfwopWcBeT9

How to develop and grow innovative nonprofit organizations and for-profit enterprises which have the primary goal of solving social and environmental problems. Topics include organizational mission, strategy, market/user analysis, communications, funding, recruitment and impact evaluation. Perspectives from the field of social entrepreneurship, design thinking and social change organizing. Opportunities and limits of using methods from the for-profit sector to meet social goals. Focus is on integrating theory with practical applications, including several case exercises and simulations. One-day practicum where students advise an actual social impact organization. Enrollment limited to 20.

This community-engaged learning class is part of a broader collaboration between the Program on Social Entrepreneurship at the Haas Center for Public Service, Distinguished Visitors Program and the Doerr School of Sustainability, using practice to better inform theory about how innovation can help address society's biggest challenges with a particular focus on environmental justice, sustainability and climate resilience for frontline and marginalized communities who have or will experience environmental harms. Working with the instructor and the 2024 Distinguished Visitors ? Angela McKee-Brown, founder and CEO of Project Reflect; Jason Su, executive director of the Guadalupe River Park Conservancy; Cecilia Taylor, founder, executive director, and CEO of Belle Haven Action; and Violet Wulf-Saena, founder and executive director of Climate Resilient Communities ? students will use case studies of successful and failed social change strategies to explore relationships between social entrepreneurship, race, systemic inequities, democracy and justice. This course interrogates approaches like design theory, measuring impact, fundraising, leadership, storytelling, and policy advocacy with the Distinguished Visitors providing practical examples from their work on how this theory plays out in practice. This is a community-engaged learning class in which students will learn by working on projects that support the social entrepreneurs' efforts to promote social change. Students should register for either 3 OR 5 units only. Students enrolled in the full 5 units will have a service-learning component along with the course. Students enrolled for 3 units will not complete the service-learning component. Limited enrollment. Attendance at the first class is mandatory in order to participate in service learning. Graduate and undergraduate students may enroll.

Neighborhoods in the Bay Area and around the world are undergoing a transformation known as gentrification. Middle- and upper-income people are moving into what were once low-income areas, and housing costs are on the rise. Tensions between newcomers and old timers, who are often separated by race, ethnicity, or sexual orientation, can erupt; high rents may force long-time residents to leave. In this class we will move beyond simplistic media depictions to explore the complex history, nature, causes and consequences of this process. Students will learn through readings, films, class discussions, and engagement with a local community organization. (Cardinal Course certified by the Haas Center)

Building off the work of the Stanford Coalition for Planning an Equitable 2035 (SCoPE), the just transitions policy lab will address transportation justice, housing justice, and labor equity concerns that have been identified by neighboring communities to Stanford and our service workers as part of local land use planning and policy processes. Building on the success of earlier housing justice policy lab initiatives, this course will support ongoing policy engagement in local land use planning process, including housing and transportation justice issues. Key concepts addressed will include environmental justice (EJ) and just transitions frameworks, as well as building awareness of the Bay Area housing crisis. The course will culminate in class projects that will involve working with community partners to address information gaps on worker experiences and housing and transportation needs. Sessions will prioritize 1) foundational concepts in environmental justice 2) current issues in our community related to housing, transportation, and labor equity, 2) peer learning through collective engagement in readings and project planning, 4) community connections related to SCoPE initiatives that deepen existing relationships, and 5) policy analysis related to local land use planning processes. The teaching team will be accepting brief student applications for course participation prior to Winter quarter. To apply for this course, please fill out this google form: https://forms.gle/SjdgWwzNBGP2uQYA6 Due December 8 at 11:59pm. Cardinal Course certified by the Haas Center for Public Service.

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

The transportation network is an essential, if often invisible, part of communities. Only when traffic piles up, the subway shuts down, or the sidewalk is closed do we notice the services and infrastructure that are critical to everyday movement. Beyond the everyday effects, transportation planning decisions also have long term consequences for the environment (transportation is the leading source of greenhouse gas emissions in the United States); the economy (transportation is the fourth largest household expenditure after healthcare, housing, and food); and community wellbeing (traffic collisions are the leading cause of death for young people in the United States). This course will interrogate the role of transportation in fostering sustainable communities paying particular attention to how policy and planning decisions contribute to or hinder equitable access, economic vibrancy, environmental protection. Through a combination of lectures, field work, guest speakers, and real-world client projects, this course will provide an introduction to the field of transportation policy and planning. Student will learn about and get hands-on practice with topics such as bicycle and pedestrian design, safety analysis, traffic operations and modeling software, transit planning, and emerging trends such as autonomous vehicles, micromobility, and congestion pricing. (Cardinal Course certified by the Haas Center).

Is water a human right or an entitlement? Who controls the water, and who should control the water, in California? Private companies? Nonprofits? Local residents? Federal, state, or local governments? This course will explore these questions in the context of urban California more generally, the players and the politics to make sense of a complex problem with deep historical roots; one that defines the new century in California urban life. The required readings and discussions cover cities from Oakland to Los Angeles, providing a platform for students to explore important environmental issues, past and present, affecting California municipalities undergoing rapid population change. In addition, our research focus will be on the cities located on the Central Coast of California: agricultural Salinas, Watsonville, and Castroville and towns along the Salinas Valley; tourist based Monterey, Pebble Beach, Carmel, Pacific Grove; the bedroom community of Prunedale to the north, and former military towns, Marina and Seaside, as all of these ethnically, socioeconomically diverse communities engage in political struggles over precious, and ever scarcer water resources, contend with catastrophic events such as droughts and floods, and fight battles over rights to clean water, entitlement, environmental racism, and equity. Cardinal Course certified by the Haas Center.

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, diversity, equity, and inclusion while gaining land stewardship and small-scale food production skills at the Stanford Educational Farm. This is a 20-week (Winter and Spring quarters) Cardinal Course. Students will work with a community-based organization over both quarters to gain practical experience in the field. Students are required to enroll in and complete both Winter (EARTHSYS 181A, 2 units) and Spring (EARTHSYS 181B, 2 units) courses to receive credit for a total of 4 units. Space is limited and a brief application is required.

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