BIOHOPK 14: Bio-logging and Bio-telemetry
Bio-logging is a rapidly growing discipline that includes diverse fields such as consumer electronics, medicine, and marine biology. The use of animal-attached digital tags is a powerful approach to study the movement and ecology of individuals over a wide range of temporal and spatial scales. This course is an introduction to bio-logging methods and analysis. Using whales as a model system, students will learn how use multi-sensor tags to study behavioral biomechanics.
Terms: Spr
| Units: 3
| UG Reqs: WAY-SMA, WAY-AQR
Instructors:
Goldbogen, J. (PI)
;
Gough, W. (TA)
BIOHOPK 47: Introduction to Research in Ecology and Ecological Physiology
This course is a field-based inquiry into rocky intertidal shores that introducesnstudents to ecology and environmental physiology and the research methods used to study them. Students will learn how to detect patterns quantitatively in nature through appropriate sampling methods & statistical analysis. Following exploration of appropriate background material in class and through exploration of the scientific literature, students will learn how to formulate testable hypotheses regarding the underlying causes of the patterns they discern. A variety of different aspects of ecology and physiology will be investigated cooperatively by the students during the quarter, culminating in development of an individual final paper in the form of a research proposal based on data collected during the course. The course will provide a broad conceptual introduction to the underlying biological principles that influence adaptation to the planet¿s dynamic habitats, as well as inquiry-based experience in how to explore and understand complex systems in nature. nThis course fulfills the same laboratory requirement as
BIO 47. Satisfies WIM in Biology.
Terms: Spr
| Units: 5
| UG Reqs: WAY-SMA, GER: DB-NatSci
BIOHOPK 81: Introduction to Ecology
The course is designed to provide background on key concepts in ecology, familiarize students with key ecological processes and ecosystems, and the methods used in ecological studies. The course will further build students¿ skills in critical scientific thinking, reading the literature, and scientific communication. A major goal of the course is to train students to ask questions in ecology, and to design, conduct and report studies addressing these questions. Thus, emphasis is also placed, in additional to general ecological concepts, on field observations, experimental design, and the analysis, interpretation and presentation of ecological data (through computer laboratories, written assignments and presentations). Written assignments, presentations and discussions are designed to provide experience in organizing and presenting information and to expose students to multiple perspectives on ecological processes and their applications.nThis course fulfills the same requirement as
BIO 81.
Terms: Spr
| Units: 4
BIOHOPK 84: Physiology
This course will examine basic physiological systems of vertebrate and invertebrate animals, including nerve and muscle, heart and circulation, kidney and osmoregulation, metabolism, and thermoregulation. nThis course fulfills the same requirement as
BIO 84.
Terms: Spr
| Units: 4
Instructors:
Block, B. (PI)
;
Denny, M. (PI)
;
Gilly, W. (PI)
;
Goldbogen, J. (PI)
;
Thompson, S. (PI)
BIOHOPK 85: Evolution
Principles of micro- and macro-evolution from molecular genetics to the development of biological diversity. Adaptation, divergence and natural selection in the past and in contemporary ecological settings. Evolution of humans and human-caused evolution. Emphasis on major body plans in the sea and ocean examples of major evolutionary processes.nThis course fulfills the same requirements as
BIO 85.
Terms: Spr
| Units: 4
BIOHOPK 173H: Marine Conservation Biology (BIOHOPK 273H)
(Graduate students register for 273H.). 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.
Terms: Spr
| Units: 4
| Repeatable
for credit
(up to 99 units total)
Instructors:
Crowder, L. (PI)
;
Grewelle, R. (TA)
BIOHOPK 173HA: Marine Conservation Biology - Seminar and Discussion Only (BIOHOPK 273HA)
(Graduate students register for 273HA.). 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.nStudents should enroll in this course if they are only joining the seminar and discussion. Students who will engage in the full course should enroll in
BIOHOPK 173H/273H.
Terms: Spr
| Units: 1-2
Instructors:
Crowder, L. (PI)
;
Grewelle, R. (TA)
BIOHOPK 174H: Experimental Design and Probability (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.
Terms: Win, Spr
| Units: 3
| UG Reqs: GER: DB-NatSci, GER:DB-Math, WAY-FR, WAY-AQR
Instructors:
Watanabe, J. (PI)
;
Jones, I. (TA)
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. (Staff)
Terms: Aut, Win, Spr, Sum
| Units: 1-15
| Repeatable
for credit
Instructors:
Block, B. (PI)
;
Crowder, L. (PI)
;
De Leo, G. (PI)
...
more instructors for BIOHOPK 198H »
Instructors:
Block, B. (PI)
;
Crowder, L. (PI)
;
De Leo, G. (PI)
;
Denny, M. (PI)
;
Gilly, W. (PI)
;
Goldbogen, J. (PI)
;
Lowe, C. (PI)
;
Micheli, F. (PI)
;
Palumbi, S. (PI)
;
Thompson, S. (PI)
;
Watanabe, J. (PI)
BIOHOPK 199H: Undergraduate Research
Qualified undergraduates undertake individual work in the fields listed under 300H. Arrangements must be made by consultation or correspondence.
Terms: Aut, Win, Spr, Sum
| Units: 1-15
| Repeatable
for credit
Instructors:
Block, B. (PI)
;
Crowder, L. (PI)
;
De Leo, G. (PI)
...
more instructors for BIOHOPK 199H »
Instructors:
Block, B. (PI)
;
Crowder, L. (PI)
;
De Leo, G. (PI)
;
Denny, M. (PI)
;
Gilly, W. (PI)
;
Goldbogen, J. (PI)
;
Lowe, C. (PI)
;
Micheli, F. (PI)
;
Palumbi, S. (PI)
;
Thompson, S. (PI)
;
Watanabe, J. (PI)
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