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11 - 20 of 155 results for: BIO

BIO 10SC: Natural History, Marine Biology, and Research

Monterey Bay is home to the nation¿s largest marine sanctuary and also home to Stanford's Hopkins Marine Station. This course, based at Hopkins, explores the spectacular biology of Monterey Bay and the artistic and political history of the region. We will conduct investigations across all of these contexts toward an inclusive understanding of ¿place¿, ultimately to lead us to explore our own lives in relation to the natural world, historical and cultural milieu, and the direction of our individual life path.n The location at the entry point to the Big Sur Coast of California provides a unique outdoor laboratory in which to study the biology of the bay and the adjacent coastal lands. It is also an area with a deep cultural, literary and artistic history. We will meet marine biologists, experts in the literary history of Cannery Row and the writings of John Steinbeck, local artists and photographers, experts in the neuroscience of creativity, as well as people who are very much involved in the forces and fluxes that steer modern culture. This rich and immersive approach provides students a rare opportunity to reflect on their relationships to nature, culture, and their own individual goals.nThe course emphasizes interactions and discussions. We will be together all of the time, either at our base at the Belden House in Pacific Grove, hiking and camping in Big Sur¿s pristine Big Creek Reserve on the rocky coast, and traveling to the Tassajara Mountain Zen Center in the Ventana wilderness for several days. This is not an ordinary academic experience, instead it is an adventure of a personal, intellectual, spiritual and physical kind. We welcome people with wide interests; artists, poets, writers, engineers, scientists and musicians. Mostly we invite people with an open mind and a sense of adventure. nStudents are expected to have read the several books provided as introductory material before the course begins, and each is also expected to become our local expert in an area such as plant identification, bird identification, poetry, weather prediction, photography, history, ethnography, etc. The course requires an individual research project of your choice on a topic related to the general theme. Final reports will be presented at the last meeting of the group and may involve any medium, including written, oral, and performance media.n Note: This course will be held at the Hopkins Marine Station in the Monterey region, and housing will be provided nearby. Transportation from campus to the housing site will be provided once students arrive to campus on Monday, September 4 (Labor Day). Transportation to campus from the Belden House in Pacific Grove will be provided on Saturday, September 23.
Terms: Sum | Units: 2
Instructors: Thompson, S. (PI)

BIO 12N: Sensory Ecology of Marine Animals

Animals living in the oceans experience a highly varied range of environmental stimuli. An aquatic lifestyle requires an equally rich range of sensory adaptations, including some that are totally foreign to us. In this course we will examine sensory system in marine animals from both an environmental and behavioral perspective and from the point of view of neuroscience and information systems engineering.
Terms: Aut | Units: 3 | UG Reqs: WAY-SMA
Instructors: Thompson, S. (PI)

BIO 16: Conservation Storytelling: Pre-course for BOSP South Africa

Limited to students admitted to the BOSP South Africa overseas seminar. Through 4 workshop meetings, students will develop and pitch story ideas, form teams in which a writer and a photographer agree to collaborate on a story, and conduct background research prior to departing for South Africa.
Last offered: Spring 2016

BIO 24N: Visions of Paradise: Garden Design

Through literature readings and field trips to local gardens learn the principles and esthetics of classic garden designs: Italian Renaissance, botanical teaching, Japanese, English cottage, and others. Design a personal vision of paradise with details of species, visual and scent impact, water features, and hardscape. Open your eyes to a new appreciation of the world of plants and learn some physiology and genetics that explains the specific properties of individual species.
Terms: Spr | Units: 3
Instructors: Walbot, V. (PI)

BIO 25Q: The Molecular Basis of Genetic Disease

Preference to sophomores. Focus is on two genetic diseases resulting from the production of protein molecules that are unable to fold into their native conformations, called conformational diseases: cystic fibrosis and amyotrophic lateral sclerosis or Lou Gehrig's disease. Hypotheses and controversies surrounding the molecular basis of these disorders, and implications for novel therapeutics. Readings from research literature.
Last offered: Spring 2016 | UG Reqs: GER: DB-NatSci, WAY-SMA

BIO 26N: Maintenance of the Genome

Preference to freshmen. The precious blueprint for life is entrusted to the genomic DNA molecules in all living cells. Multiple strategies have evolved to prevent the deleterious consequences from endogenous DNA alterations and damage from radiation or genotoxic chemicals in the environment. In this seminar you will learn about the remarkable systems that scan cellular DNA for alterations and make repairs to ensure genomic stability. Deficiencies in DNA repair have been implicated in many hereditary diseases involving developmental defects, premature aging, and/or predisposition to cancer. An understanding of DNA repair mechanisms is important for advances in the fields of cancer biology, neurobiology, and gerontology. Background readings, introductory lectures, student presentations, short term paper.
Terms: Win | Units: 3 | UG Reqs: GER: DB-NatSci, WAY-SMA
Instructors: Hanawalt, P. (PI)

BIO 26S: Maintenance of the Genome

The precious blueprint for life is entrusted to genome maintenance proteins found in all living cells. This seminar introduces the remarkable systems that scan cellular DNA for alterations and make repairs to ensure genomic stability. We further explore how deficiencies in these systems can lead to developmental defects, premature aging, and predisposition to cancer. Course includes background reading from primary articles, introductory lectures, student presentations, and a short term paper. Prerequisites: High school Biology. Preference to Stanford students.
Terms: Sum | Units: 3
Instructors: Schwartz, E. (PI)

BIO 30: Ecology for Everyone (EARTHSYS 30)

Everything is connected, but how? Ecology is the science of interactions and the changes they generate. This project-based course links individual behavior, population growth, species interactions, and ecosystem function. Introduction to measurement, observation, experimental design and hypothesis testing in field projects, mostly done in groups. The goal is to learn to think analytically about everyday ecological processes involving bacteria, fungi, plants, animals and humans. The course uses basic statistics to analyze data; there are no math prerequisites except arithmetic. Open to everyone, including those who may be headed for more advanced courses in ecology and environmental science.
Terms: Spr | Units: 4 | UG Reqs: WAY-SMA, GER: DB-NatSci

BIO 32Q: Neuroethology: The Neural Control of Behavior (HUMBIO 91Q)

Preference to sophomores. Animal behavior offers insights about evolutionary adaptations and this seminar will discuss the origins of the study of animal behavior and its development to the present. How does the nervous system control behavior and how is it changed by behavior? We will analyze and discuss original research papers about the neural basis of behavior. The use and misuse of parallels between animal and human behavior. Possible field trip to observe animals in their natural habitat.
Terms: Win | Units: 3 | UG Reqs: GER: DB-NatSci, WAY-SMA
Instructors: Fernald, R. (PI)

BIO 33N: Conservation Science and Practice

Preference to freshmen. This course will explore the potential for harmonizing people and nature, for achieving improved outcomes in the well-being of both as a result of conservation investments and interventions. We will consider biophysical, economic, social, and psychological perspectives, examining an array of conservation goals, from protecting endangered species to securing ecosystem services (such as flood control and climate stability) to alleviating poverty and improving mental well-being. We will also study the design and implementation of real conservation and human development efforts worldwide, among the many farmers, ranchers, fishing people, and others managing Earth's lands and waters. Highlights include a field trip to Jasper Ridge Biological Preserve, Stanford¿s very own nature reserve, and guest visits of some impressive conservation leaders internationally.
Terms: Spr | Units: 3 | UG Reqs: WAY-SMA, GER: DB-NatSci
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