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11 - 20 of 43 results for: EARTHSYS

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 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 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 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

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

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

EARTHSYS 143H: Quantitative Methods for Marine Ecology and Conservation (BIO 143, BIO 243, CEE 164, CEE 264H, EARTHSYS 243H, OCEANS 143)

NOTE: This course will be taught in-person on main campus, in hybrid format with Zoom options. The goal of this course is to learn the foundations of ecological modeling with a specific (but not exclusive) focus on marine conservation and sustainable exploitation of renewable resources. Students will be introduced to a range of methods - from basic to advanced - to characterize population structure, conduct demographic analyses, estimate extinction risk, identify temporal trends and spatial patterns, quantify the effect of environmental determinants and anthropogenic pressures on the dynamics of marine populations, describe the potential for adaptation to climate change. This course will emphasize learning by doing, and will rely heavily on practical computer laboratories, in R and/or Phyton, based on data from our own research activities or peer reviewed publications. Students with a background knowledge of statistics, programming and calculus will be most welcome. Formally BIOHOPK 143H and 243H.
Terms: Win | Units: 4 | UG Reqs: WAY-AQR, WAY-FR

EARTHSYS 165: Sustainable Transportation: Policy and Planning in Practice (URBANST 165)

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 more »
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).
Terms: Win | Units: 4 | UG Reqs: GER:DB-SocSci, WAY-SI
Instructors: McAdam, T. (PI)

EARTHSYS 170: Where the Wild Things Are: The Ecology and Ethics of Conserving Megafauna (BIO 185, DLCL 170, EALC 170, GLOBAL 170)

Under conditions of global environmental change and mass extinction, how will humanity share the planet with wildlife? This course invites undergraduate students to consider this question under the guidance of two biologists and a literary scholar. We will engage with a range of interdisciplinary scholarship on how humans seek to study, understand, exploit, protect, and empathize with charismatic megafauna. We ask how regional differences in culture, political economy, and ecology shape conservation efforts.
Terms: Aut, Win | Units: 3-5 | UG Reqs: WAY-ER, WAY-SMA

EARTHSYS 177C: Environmental Journalism (COMM 177C, COMM 277C, EARTHSYS 277C)

Practical, collaborative, hands-on exploration of environmental journalism as an agent of change. Students learn how to identify and execute engaging and impactful stories about environmental science, policy, and justice through critique of environmental journalism pieces and extensive workshopping of each other's work. Emphasis on a just transition to climate adaptation and mitigation through elevating marginalized voices by using the tools and practices of journalism to spur positive change. Limited class size, preference to Environmental Communication and Journalism MA students. Prerequisite: EARTHSYS 191/291, COMM 104W, or consent of instructor. Admission by application only ( https://forms.gle/C84WQRqbTFtuEfM49). Email instructor Chloe Peterson-Nafziger with any questions; chloepn.biosphere@gmail.com. Meets Earth Systems WIM requirement. (Graduate students enroll in EARTHSYS 277C/ COMM 277C for 4 units; Undergraduates enroll in 177C for 5 units.)
Terms: Win | Units: 4-5
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