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51 - 60 of 333 results for: all courses

BIO 149: The Neurobiology of Sleep (BIO 249, HUMBIO 161, PSYC 149, PSYC 261)

The neurochemistry and neurophysiology of changes in brain activity and conscious awareness are associated with changes in the sleep/wake state. Behavioral and neurobiological phenomena include sleep regulation, sleep homeostasis, circadian rhythms, sleep disorders, sleep function, and the molecular biology of sleep. Preference to seniors and graduate students.
Terms: Win | Units: 4 | UG Reqs: GER: DB-NatSci, WAY-SMA

BIO 150: Human Behavioral Biology (HUMBIO 160)

Multidisciplinary. How to approach complex normal and abnormal behaviors through biology. How to integrate disciplines including sociobiology, ethology, neuroscience, and endocrinology to examine behaviors such as aggression, sexual behavior, language use, and mental illness.
Terms: Spr | Units: 5 | UG Reqs: GER: DB-NatSci, WAY-SMA
Instructors: Sapolsky, R. (PI)

BIO 155: Cell and Developmental Biology of Plants (BIO 255)

In this course we will learn how plants are built at different organizational scales from the cell, tissue, organ and organ system level. We will also learn about the experimental methods used to study plants at these different organizational levels and how to interpret and evaluate experiments that use such methods. Finally, advances in genetic engineering will be discussed as a means of manipulating the form and function of plants for sustainable agriculture. Broadly relevant skills that will be cultivated in the course include: evaluating primarily literature, identifying gaps in knowledge, formulating research questions and designing new experimental strategies. Prerequisites: BIO 80 series or equivalent.
Last offered: Autumn 2022 | UG Reqs: WAY-SMA

BIO 158: Developmental Neurobiology (BIO 258)

For advanced undergraduates and coterminal students. The principles of nervous system development from the molecular control of patterning, cell-cell interactions, and trophic factors to the level of neural systems and the role of experience in influencing brain structure and function. Topics: neural induction and patterning cell lineage, neurogenesis, neuronal migration, axonal pathfinding, synapse elimination, the role of activity, critical periods, and the development of behavior. Prerequisites: BIO 82, 83, 84, 86.
Last offered: Autumn 2022 | UG Reqs: GER: DB-NatSci, WAY-SMA

BIO 161: Organismal Biology Lab

This laboratory is a genuine research experience course where students contribute to original research in a field of organismal biology. The course consists of two modules: In the first module, students will perform a drug screen for novel compounds that influence animal behavior by altering nervous system function. In the second module, students will explore how the microbiome of animals is important for health and social interactions. Students work collaboratively to collect and analyze data and communicate their findings through oral and written formats.
Terms: Aut | Units: 4 | UG Reqs: WAY-SMA

BIO 169: The Sixth Extinction (and the Other Five) (BIO 237, EARTHSYS 127A, EARTHSYS 227A, EPS 137, EPS 237)

(Formerly GEOLSCI 137 and 237) Are we living through Earth's sixth major mass extinction event? The course will address the causes and consequences of extinction. It will review current understanding of background and mass extinction in the fossil record, including aclose examination of three major mass extinction events. It will assess the intensity, selectivity, and trends in the current biodiversity crisis and assess the options and prospects for approaches to mitigating and, ultimately, recovering from this sixth extinction. Change of Department Name: Earth and Planetary Science (Formerly Geologic Sciences).
Last offered: Spring 2023 | UG Reqs: WAY-SMA | Repeatable 3 times (up to 9 units total)

BIO 173H: Marine Conservation Biology (BIO 273H, OCEANS 173, OCEANS 173H, OCEANS 273H)

Class can be taken in person or via Zoom. Introduction to the key concepts of ecology and policy relevant to marine conservation issues at the population to ecosystems level. Focus on the origin and maintenance of biodiversity and conservation applications from both the biology and policy perspectives (for example, endangered species, captive breeding, reserve design, habitat fragmentation, ecosystem restoration/rehabilitation). Also includes emerging approaches such as ecosystem-based management, ocean planning, and coupled social-ecological systems. The course will include lectures, readings and discussions of primary literature, and attendance at seminars with visiting scholars. Prerequisite: introductory biology; suggested: a policy and/or introductory ecology course. Students who want to enroll only in the seminar and discussion course (2 units) should register for OCEANS/BIO 173HA. (Graduate students register for BIO/ OCEANS 273H.) For information on how to spend spring quarter i more »
Class can be taken in person or via Zoom. Introduction to the key concepts of ecology and policy relevant to marine conservation issues at the population to ecosystems level. Focus on the origin and maintenance of biodiversity and conservation applications from both the biology and policy perspectives (for example, endangered species, captive breeding, reserve design, habitat fragmentation, ecosystem restoration/rehabilitation). Also includes emerging approaches such as ecosystem-based management, ocean planning, and coupled social-ecological systems. The course will include lectures, readings and discussions of primary literature, and attendance at seminars with visiting scholars. Prerequisite: introductory biology; suggested: a policy and/or introductory ecology course. Students who want to enroll only in the seminar and discussion course (2 units) should register for OCEANS/BIO 173HA. (Graduate students register for BIO/ OCEANS 273H.) For information on how to spend spring quarter in residence: https://hopkinsmarinestation.stanford.edu/undergraduate-studies/spring-courses-23-24 (Individual course registration also permitted.) Depending on enrollment numbers, a weekly shuttle to Hopkins or mileage reimbursements for qualifying carpools will be provided; terms and conditions apply.
Terms: Spr | Units: 3 | UG Reqs: WAY-SMA | Repeatable for credit (up to 99 units total)

BIO 182H: Stanford at Sea (BIO 323H, EARTHSYS 323, ESS 323, OCEANS 182H, OCEANS 323H)

(Graduate students register for 323H.) Five weeks of marine science including oceanography, marine physiology, policy, maritime studies, conservation, and nautical science at Hopkins Marine Station, followed by five weeks at sea aboard a sailing research vessel in the Pacific Ocean. Shore component comprised of three multidisciplinary courses meeting daily and continuing aboard ship. Students develop an independent research project plan while ashore, and carry out the research at sea. In collaboration with the Sea Education Association of Woods Hole, MA. Only 6 units may count towards the Biology major.
Terms: Spr | Units: 16 | UG Reqs: GER: DB-NatSci, WAY-SMA

BIO 183: Theoretical Population Genetics (BIO 283)

Models in population genetics and evolution. Selection, random drift, gene linkage, migration, and inbreeding, and their influence on the evolution of gene frequencies and chromosome structure. Models are related to DNA sequence evolution. Prerequisites: calculus and linear algebra, or consent of instructor.
Last offered: Winter 2022 | UG Reqs: WAY-AQR, WAY-SMA

BIO 185: Where the Wild Things Are: The Ecology and Ethics of Conserving Megafauna (DLCL 170, EALC 170, EARTHSYS 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: Win | Units: 3 | UG Reqs: WAY-ER, WAY-SMA
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