2019-2020 2020-2021 2021-2022 2022-2023 2023-2024
Browse
by subject...
    Schedule
view...
 

1 - 10 of 43 results for: EARTHSYS

EARTHSYS 36N: Life at the Extremes: From the Deep Sea to Deep Space

Preference to freshmen. Microbial life is diverse and resilient on Earth; could it survive elsewhere in our solar system? This seminar will investigate the diversity of microbial life on earth, with an emphasis on extremophiles, and consider the potential for microbial life to exist and persist in extraterrestrial locales. Topics include microbial phylogenetic and physiological diversity, biochemical adaptations of extremophiles, ecology of extreme habitats, and apparent requirements and limits of life. Format includes lectures, discussions, lab-based activities and local field trips. Basics of microbiology, biochemistry, and astrobiology.
Terms: Win | Units: 3 | UG Reqs: WAY-SMA
Instructors: Dekas, A. (PI)

EARTHSYS 46: Introduction to Research in Ecology and Evolutionary Biology (BIO 46)

The goal of this course is to develop an understanding of how to conduct biological research, using topics in Ecology as practical examples. This includes the complete scientific process: assessing background literature, generating testable hypotheses, learning techniques for data collection, analyzing data using appropriate statistical methods and writing and sharing results. Students, working in teams, develop novel research hypotheses and execute the necessary experiments and measurements to test these hypotheses. In addition, students will learn how to manipulate, visualize, and analyze data in the statistical programming language R. The capstone of the course is a research paper in the style of a peer-reviewed journal article, as well as a group presentation designed for a general audience that communicates research findings. The Tuesday lecture session will generally meet for only about 60-70 minutes. IMPORTANT NOTE: Students who require BIO 46 to satisfy the WIM requirement for the Biology major MUST take this course for a letter grade. Please contact Elisa Mora (elisahm@stanford.edu) for logistical and enrollment questions.
Terms: Win | Units: 4 | UG Reqs: WAY-SMA

EARTHSYS 100A: Introduction to Data Science for Geoscience (EPS 6)

(Formerly GEOLSCI 6) This course provides an overview of the most relevant areas of data science to address geoscientific challenges and questions as they pertain to the environment, earth resources & hazards. The focus lies on the methods that treat common characters of geoscientific data: multivariate, multi-scale, compositional, geospatial and space-time. In addition, the course will treat those statistical method that allow a quantification of the human dimension by looking at quantifying impact on humans (e.g. hazards, contamination) and how humans impact the environment (e.g. contamination, land use). The course focuses on developing skills that are not covered in traditional statistics and machine learning courses. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
Terms: Win | Units: 3 | UG Reqs: WAY-AQR | Repeatable 3 times (up to 9 units total)

EARTHSYS 101: Energy and the Environment (ENERGY 101)

Energy use in modern society and the consequences of current and future energy use patterns. Case studies illustrate resource estimation, engineering analysis of energy systems, and options for managing carbon emissions. Focus is on energy definitions, use patterns, resource estimation, pollution.
Terms: Win | Units: 3 | UG Reqs: GER:DB-EngrAppSci, WAY-AQR, WAY-SMA

EARTHSYS 101C: Science for Conservation Policy: Meeting California's Pledge to Protect 30% by 2030 (BIO 101)

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.
Terms: Win | Units: 4 | UG Reqs: WAY-AQR

EARTHSYS 105A: Ecology and Natural History of Jasper Ridge Biological Preserve (BIO 105A)

The Ecology and Natural History of the Jasper Ridge Biological Preserve is an upper-division course that aims to help students learn ecology and natural history using a 'living laboratory,' the Jasper Ridge Biological Preserve. The course's central goal is that, as a community of learning, we examine 'via introductory discussions, followed by hands-on experiences in the field' the scientific basis of ecological research, archaeology, edaphology, geology, species interactions, land management, and multidisciplinary environmental education. The first 10 sessions that compose the academic program are led by the instructors, faculty (world-experts on the themes of each session), and JRBP staff. In addition, this 20-week class (winter and spring quarters) trains students to become JRBP Docents that will join the Jasper Ridge education affiliates community. Completion of both Winter ( BIO 105A) and Spring ( BIO 105B) sequence training program is required to join the Ecology and Natural History of Jasper Ridge Biological Preserve course.
Terms: Win | Units: 4

EARTHSYS 110: Introduction to the Foundations of Contemporary Geophysics (GEOPHYS 110, GEOPHYS 215)

Introduction to the foundations of contemporary geophysics. Lectures link important topics in contemporary Geophysics ("What we study") to methods used to make progress on these topics ("How we study"). Topics range from plate tectonics to natural hazards; ice sheets to sustainability. For each topic, we focus is on how the interpretation of geophysical measurements (e.g., gravity, seismology, heat flow, electromagnetism and remote sensing) provides fundamental insight into the behavior of the Earth. The course will includes a required all-day Saturday field exercise Feb 02/10 (rain-date: 02/17). Prerequisite: CME 100 or MATH 51, or co-registration in either.
Terms: Win | Units: 3 | UG Reqs: GER: DB-NatSci, WAY-AQR, WAY-SMA

EARTHSYS 111: Biology and Global Change (BIO 117, EARTHSYS 217, ESS 111)

The biological causes and consequences of anthropogenic and natural changes in the atmosphere, oceans, and terrestrial and freshwater ecosystems. Topics: glacial cycles and marine circulation, greenhouse gases and climate change, tropical deforestation and species extinctions, and human population growth and resource use. Prerequisite: Biology or Human Biology core or BIO 81 or graduate standing.
Terms: Win | Units: 4 | UG Reqs: GER: DB-NatSci, WAY-SMA

EARTHSYS 119: Just Transitions Policy Lab (CSRE 155, URBANST 155)

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 more »
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.
Terms: Win | Units: 4

EARTHSYS 120: Environmental Justice in California (EARTHSYS 220)

Although California is considered a National policy leader in environmental justice, communities across the state struggle for basic environmental rights. Through lectures, readings, and field trips, this course will analyze this contradiction by examining the development of environmental justice movements and environmental justice policy in California. The course will explore how California's political, social, and economic histories inform environmental justice struggles. We will study specific and intersecting challenges facing African American, Indigenous, Latinx, and AAPI communities. This course will include an introduction to theories, such as de-growth and Municipalism, applied in strategies for environmental justice; as well as, analyses of topics ranging from agricultural labor, incarceration, extractive industries, and environmental justice in Silicon Valley.
Terms: Win | Units: 3
Filter Results:
term offered
updating results...
teaching presence
updating results...
number of units
updating results...
time offered
updating results...
days
updating results...
UG Requirements (GERs)
updating results...
component
updating results...
career
updating results...
© Stanford University | Terms of Use | Copyright Complaints