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This archived information is dated to the 2008-09 academic year only and may no longer be current.

For currently applicable policies and information, see the current Stanford Bulletin.

Undergraduate courses in Biology, Hopkins Marine Station

BIOHOPK 43. Plant Biology, Evolution, and Ecology

Introduction to biology in a marine context. Principles of plant biology: physiology, structure, diversity. Principles of evolution: macro and microevolution, population genetics. Ecology: the principles governing the distribution and abundance of organisms; population, community, and ecosystem ecology. Equivalent to BIO 43. Corequisite: BIOHOPK 44Y. GER: DB-NatSci

5 units, Spr (Denny, M; Palumbi, S; Watanabe, J)

BIOHOPK 44Y. Core Experimental Laboratory

Laboratory and field projects provide working familiarity with the concepts, organisms, and techniques of plant and evolutionary biology, and ecology. Emphasis is on hands-on experimentation in the marine environment, analysis of data, and written and oral presentation of the experiments. Equivalent to BIO 44Y. Corequisite: BIOHOPK 43. GER: DB-NatSci, WIM

5 units, Spr (Denny, M; Palumbi, S; Watanabe, J)

BIOHOPK 56H. History and Philosophy of Science

The nature of scientific inquiry, its logic, historical patterns, and sociology. Emphasis is on the unique aspects of the biological sciences.

2 units, Spr (Somero, G), alternate years, not given next year

BIOHOPK 161H. Invertebrate Zoology

(Same as BIOHOPK 261H.) (Graduate students register for 261H.) Survey of invertebrate diversity emphasizing form and function in a phylogenetic framework. Morphological diversity, life histories, physiology, and ecology of the major invertebrate groups, concentrating on local marine forms as examples. Current views on the phylogenetic relationships and evolution of the invertebrates. Lectures, lab, plus field trips. Prerequisite: Biology core or consent of instructor. GER: DB-NatSci

5 units, Win (Watanabe, J)

BIOHOPK 163H. Oceanic Biology

(Same as BIOHOPK 263H.) (Graduate students register for 263H.) How the physics and chemistry of the oceanic environment affect marine plants and animals. Topics: seawater and ocean circulation, separation of light and nutrients in the two-layered ocean, oceanic food webs and trophic interactions, oceanic environments, biogeography, and global change. Lectures, discussion, and field trips. Recommended: PHYSICS 21 or 51, CHEM 31, Biology core, or consent of instructor. GER: DB-NatSci

4 units, Win (Denny, M; Somero, G)

BIOHOPK 164H. Marine Botany

(Same as BIOHOPK 264H.) (Graduate students register for 264H.) Introduction to plants in the sea. Phytoplankton and oceanic productivity; macrophytes and nearshore ecology; marine angiosperms from taxonomical, physiological, and ecological perspectives. Lectures, lab. Prerequisite: Biology core or consent of instructor. GER: DB-NatSci

5 units, Win (Staff), alternate years, not given next year

BIOHOPK 166H. Molecular Ecology

(Same as BIOHOPK 266H.) (Graduate students register for 266H.) How modern technologies in gene sequencing, detection of nuclear nucleotide polymorphisms, and other approaches are used to gather data on genetic variation that allow measurement of population structure, infer demographic histories, inform conservation efforts, and advance understanding of the ecology of diverse types of organisms. GER: DB-NatSci

5 units, Win (Palumbi, S)

BIOHOPK 167H. Nerve, Muscle, and Synapse

(Same as BIOHOPK 267H.) (Graduate students register for 267H.) Fundamental aspects of membrane excitability, nerve conduction, synaptic transmission, and excitation-contraction coupling. Emphasis is on biophysical, molecular, and cellular level analyses of these processes in vertebrate and invertebrate systems. Labs on intra- and extracellular recording and patch clamp techniques. Lectures, discussions, and labs. Prerequisites: PHYSICS 23, 28, 43, or equivalent; CHEM 31, 135; calculus; or consent of instructor. GER: DB-NatSci

5 units, Spr (Gilly, W), not given next year

BIOHOPK 170H. Topics in Marine Biology

(Same as BIOHOPK 270H.) (Graduate students register for 270H.) A topic of current interest to marine science explored through primary literature. Prerequisite: Biology core or consent of instructor. May be repeated for credit.

1 unit, Win (Block, B; Thompson, S)

BIOHOPK 171H. Ecological and Evolutionary Physiology

(Same as BIOHOPK 271H.) (Graduate students register for 271H.) The interplay between environmental factors, such as temperature, light, nutrient supply, salinity, and oxygen availability, and adaptive change at the physiological level. Emphasis is on marine species and the roles played by physiological adaptations in establishing their distribution and performance. Prerequisite: Biology core or consent of instructor. GER: DB-NatSci

4 units, Win (Somero, G)

BIOHOPK 172H. Marine Ecology

(Same as BIOHOPK 272H.) (Graduate students register for 272H.) Focus is on quantitative approaches to questions in marine ecology and ecophysiology. Statistical methods, including multivariate statistical approaches and meta-analysis. Prerequisite: Biology core or consent of instructor. GER: DB-NatSci

5 units, Win (Micheli, F)

BIOHOPK 174H. Experimental Design and Probability

(Same as BIOHOPK 274H.) (Graduate students register for 274H.) Variability is an integral part of biology. Introduction to probability and its use in designing experiments to address biological problems. Focus is on analysis of variance, when and how to use it, why it works, and how to interpret the results. Design of complex, but practical, asymmetrical experiments and environmental impact studies, and regression and analysis of covariance. Computer-based data analysis. Prerequisite: Biology core or consent of instructor. GER: DB-NatSci, WIM

3 units, Spr (Watanabe, J)

BIOHOPK 175H. Problems in Marine Ecology and Ecophysiology

Field-based, emphasizing individual and small group research for advanced undergraduates. Students learn field and laboratory techniques to address ecological, ecophysiological, and biomechanical problems faced by marine organisms. Original research projects may be integrated with ongoing research programs in the Hopkins Marine Life refuge. Prerequisites: Biology core, consent of instructor. GER: DB-NatSci, WIM

3-10 units, Spr (Denny, M; Gilly, W)

BIOHOPK 178H. Polar Biology

(Same as BIOHOPK 278H.) Seminar. Adaptation to extreme environments by Arctic and Antarctic organisms, from microbes to diving mammals. The effects of global change on polar environments. Prerequisite: Biology core or consent of instructor.

2 units, Spr (Somero, G), alternate years, not given next year

BIOHOPK 182H. Stanford at Sea

(Same as BIOHOPK 323H, EESS 323, EARTHSYS 323.) (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. GER: DB-NatSci

16 units, Spr (Block, B; Dunbar, R; Micheli, F), alternate years, not given next year

BIOHOPK 185H. Ecology and Conservation of Kelp Forest Communities

(Same as BIOHOPK 285H.) Eight week course. Daily lectures, labs, and scuba dives focused on kelp forest communities. Physical environment, identification, and natural history of resident organisms; ecological processes that maintain biodiversity and community organization; field methods, data analysis, and research diving techniques. Field research component contributse to ongoing studies associated with Hopkins Marine Life Observatory. Training meets requirements for Stanford scientific diver certification. Prerequisites: BIO 42 and 43, or BIO 42 and BIOHOPK 43, or consent of instructor; and advanced scuba certification and scuba equipment.

12 units, Sum (Watanabe, J)

BIOHOPK 187H. Sensory Ecology

(Same as BIOHOPK 287H.) (Graduate students register for 287H.) Topics: the ways animals receive, filter, and process information gleaned from the environment, sensory receptor mechanisms, neural processing, specialization to life underwater, communication within and between species, importance of behavior to ecosystem structure and dynamics, impact of acoustic and light pollution on marine animals. Emphasis is on the current scientific literature.

2 units, Win (Thompson, S)

BIOHOPK 188H. Experimental Sensory Ecology

(Same as BIOHOPK 288H.) (Graduate students register for 288H.) Experimental methods and findings related to animal sensory capability in the context of marine environments. Focus is on current literature and hands-on experiments. Laboratory component explores sensory mechanisms using neurobiological methods and and methods of experimental animal behavior. BIOHOPK 187H/287H is not a prerequisite. WIM

3 units, Spr (Thompson, S)

BIOHOPK 198H. Directed Instruction or Reading

May be taken as a prelude to research and may also involve participation in a lab or research group seminar and/or library research. Credit for work arranged with out-of-department instructors restricted to Biology majors and requires department approval. May be repeated for credit.

1-15 units, Aut (Staff), Win (Staff), Spr (Staff), Sum (Staff)

BIOHOPK 199H. Undergraduate Research

Qualified undergraduates undertake individual work in the fields listed under 300H. Arrangements must be made by consultation or correspondence.

1-15 units, Aut (Staff), Win (Staff), Spr (Staff), Sum (Staff)

BIOHOPK 162H. Comparative Animal Physiology

(Same as BIOHOPK 262H.) (Graduate students register for 262H.) How animals work. Topics: physiology of respiration, circulation, energy metabolism, thermal regulation, osmotic regulation, muscle physiology, and locomotion. Evolutionary and ecological physiology. Lectures, lab, and field research. An option to combine the course work with a more intensive research focus, with more units, is available. Prerequisite: Biology core or consent of instructor. GER: DB-NatSci

5-8 units, given next year

BIOHOPK 173H. Marine Conservation Biology

(Same as BIOHOPK 273H.) (Graduate students register for 273H.) The science of preserving marine diversity. Goal is to introduce students to major conservation issues associated with marine ecosystems. Topics include decline of open ocean fisheries, salmon conservation, bycatch issues in fisheries, use of marine reserves, marine invasions, marine pollution, and global warming. Includes five lecturers from other universities who specialize in marine conservation.

1-3 units, alternate years, not given this year

BIOHOPK 184H. Holistic Biology: Monterey Bay and the Sea of Cortez

(Same as BIOHOPK 284H.) (Graduate students register for 284H.) For majors and non-majors. Complexity in natural systems from complementary points of view, including scientific, historical, philosophical, and literary. The work and writings of Ed Ricketts and John Steinbeck and historical and contemporary works concerning marine ecology and fisheries. Field work, laboratory studies with living invertebrates, and an individual research project. Course includes a component in Baja California, Mexico. Only 6 units may count towards the Biology major. GER: DB-NatSci

16 units, alternate years, not given this year

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