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31 - 40 of 108 results for: EARTHSYS ; Currently searching offered courses. You can also include unoffered courses

EARTHSYS 123A: Biosphere-Atmosphere Interactions (EARTHSYS 223, ESS 123, ESS 223)

How do ecosystems respond to climate change, and how can ecosystems affect climate? This course describes, quantitatively and qualitatively, the different feedback mechanisms between the land surface and climate at both local and global scales. We will also discuss how these processes can be modelled and measured across earth's diverse ecosystems, and how they affect prospects for nature-based climate solutions. Basic familiarity with programming is helpful.
Terms: Win | Units: 3-4

EARTHSYS 125: Shades of Green: Exploring and Expanding Environmental Justice in Practice (CSRE 125E, EARTHSYS 225, URBANST 125)

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
Terms: Spr | Units: 3-4 | UG Reqs: WAY-EDP

EARTHSYS 130B: Quest for an Inclusive Clean Energy Economy (CEE 130B, CEE 330B, EARTHSYS 330B)

Building bridges across the clean energy divide involves addressing barriers to participation. These barriers affect the pace of investment, especially for distributed energy solutions such as building energy upgrades, on-site solar, and transportation electrification. This course will explore innovative business models that are responsive to calls for equity and inclusion, and it will give special attention to California's ongoing clean energy finance rulemaking in the utility sector to open the clean energy economy for all.
Terms: Win | Units: 3-4 | UG Reqs: WAY-EDP

EARTHSYS 131: Pathways in Sustainability Careers

Interactive, seminar-style sessions expose students to diverse career pathways in sustainability. Professionals from a variety of careers discuss their work, their career development and decision-points in their career pathways, as well as life style aspects of their choices.
Terms: Win, Spr | Units: 1

EARTHSYS 133: Social Enterprise Workshop (URBANST 133)

Social Enterprise Workshop: A team based class to design solutions to social issues. In the class students will identify issues they are interested in, such as housing, food, the environment, or college access. They will join teams of like-minded students. Working under the guidance of an experienced social entrepreneur, together they will develop a solution to one part of their issue and write a business plan for that solution. The class will also feature guests who are leaders in the field of social entrepreneurship who will share their stories and help with the business plans. The business plan exercise can be used for both nonprofits and for-profits. Previous students have started successful organizations and raised significant funds based on the business plans developed in this class. There are no prerequisites, and students do not need to have an idea for a social enterprise to join the class. Enrollment limited to 20. May be repeated for credit.
Terms: Aut | Units: 4 | UG Reqs: WAY-SI | Repeatable for credit
Instructors: Scher, L. (PI)

EARTHSYS 134: Environmental Justice: Reflection

The EJ reflection class is intended to provide a supported learning space for students who are in the Earth Systems Program Environmental Justice Minor. We will review basic Environmental Justice (EJ) concepts, such as historical underpinnings of EJ problems and movements, principles of EJ guiding social movements and research practice, how to engage in one's own positionality relative to environmental justice, and best practices for EJ communication that centers voices. agency, and leadership of Black, Indigenous, Latinx, Asian and Asia Pacific Islander communities, and other groups historically made marginalized. Students in the minor will also share out project learnings to date, and support one another in refining EJ capstone and/or requirements for the Cardinal Service Notation. We will also host guest sessions to speak to student interests, possible to include trainings, professional development goals.
Terms: Spr | Units: 2

EARTHSYS 135: Challenging the Status Quo: Social Entrepreneurs, Democracy, Development and Environmental Justice (AFRICAST 142, AFRICAST 242, CSRE 142C, INTNLREL 142, URBANST 135)

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 entrep more »
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.
Terms: Spr | Units: 3-5 | UG Reqs: WAY-SI
Instructors: Janus, K. (PI)

EARTHSYS 137: Concepts and Analytic Skills for the Social Sector (URBANST 132)

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.
Terms: Win | Units: 4 | UG Reqs: GER:DB-SocSci, WAY-SI

EARTHSYS 139A: Designing Regenerative Societies (STS 139)

The world is changing in contradictory ways. Emerging technology, the evolving geopolitical economy, and ecological challenges present opportunities but also cascading risks. The pathway from our current destructive and extractive economy towards a more regenerative economy is unclear. There is a stark tension between gigascale opportunities such as AI, fusion energy, nanotech, quantum tech, space colonization, and biomanufacturing on the one hand, and degrowth necessities such as rethinking growth and using less resources on the other. This tension is steeped in political choices constrained by industrial power dynamics and conditioned by inequality. To what extent do visions and incentives align across industry, government, and social movements? What would the choice to scale or descale entail in each case - and are they mutually exclusive? The course introduces empirically driven systems thinking with in-depth modules on both emerging tech and degrowth, and scenario-based tech fores more »
The world is changing in contradictory ways. Emerging technology, the evolving geopolitical economy, and ecological challenges present opportunities but also cascading risks. The pathway from our current destructive and extractive economy towards a more regenerative economy is unclear. There is a stark tension between gigascale opportunities such as AI, fusion energy, nanotech, quantum tech, space colonization, and biomanufacturing on the one hand, and degrowth necessities such as rethinking growth and using less resources on the other. This tension is steeped in political choices constrained by industrial power dynamics and conditioned by inequality. To what extent do visions and incentives align across industry, government, and social movements? What would the choice to scale or descale entail in each case - and are they mutually exclusive? The course introduces empirically driven systems thinking with in-depth modules on both emerging tech and degrowth, and scenario-based tech foresight. We combine the tools of technology foresight, gaming, scenarios, speculative fiction, and worldbuilding, exploring and assessing utopian or dystopian trends, visions, and projects (e.g. the Eden project, biomanufacturing at scale, smart cities, the Metaverse, generation spaceships, space colonization, human longevity, mega-disruptive startups, global health governance, radical longtermism, and religious `heavens'). The goal of the course is to gain clarity on the innovation boundaries within which the next 50 years might develop. The course prepares students to become disruptors of governance principles, strategies, and leadership of corporations, philanthropies, economies, and civilizations.
Terms: Spr | Units: 3-4
Instructors: Undheim, T. (PI)

EARTHSYS 140: Data Science for Geoscience (EARTHSYS 240, ENERGY 240, EPS 140, EPS 240, ESS 239)

(Formerly GEOLSCI 140 and 240) Overview of some of the most important data science methods (statistics, machine learning & computer vision) relevant for geological sciences, as well as other fields in the Earth Sciences. Areas covered are: extreme value statistics for predicting rare events; compositional data analysis for geochemistry; multivariate analysis for designing data & computer experiments; probabilistic aggregation of evidence for spatial mapping; functional data analysis for multivariate environmental datasets, spatial regression and modeling spatial uncertainty with covariate information (geostatistics). Identification & learning of geo-objects with computer vision. Focus on practicality rather than theory. Matlab exercises on realistic data problems. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
Terms: Win | Units: 3
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