• Catalog
• Class Schedule
• Directory

2009 - 2010 Catalog

Biologists work on a broad spectrum of questions related to living organisms and life processes. They investigate the physical and chemical bases of life, the structure and function of organisms and their parts, the interaction between organisms and their environments, and the evolution of organisms. The biology major not only offers a thorough introduction to the principal areas of biology, but it also gives students the freedom to specialize.

The bachelor’s degree in biology prepares students for employment in diverse fields related to the life sciences. It is also excellent training for graduate and professional programs leading to degrees in such areas as agriculture, dentistry, environmental science, forestry, medical technology, medicine, optometry, veterinary medicine, and wildlife biology.

Because upper division courses in biology build on prerequisites, students should seek advising as soon as they consider majoring in biology. Early advising is especially important for those planning to go on to graduate or professional schools. Contact the department for an advisor assignment.

Degrees

BA or BS in Biology: Biological Sciences Option
BA or BS in Biology: Biomedical Science Option
BA or BS in Biology: Cell/Molecular Option
BA or BS in Biology: Field Biology Option
Master in Interdisciplinary Studies

Minor

Biology

Requirements for the Major

1. Fulfill baccalaureate degree requirements.
   
2. Maintain a minimum 2.0 GPA for all coursework in biology.
   
3. Complete biology exit exam.
   
4. Complete the biology core (36–38 credits):
   

   Principles of Biology (BI 211, 212, 213)	12
   Plant Physiology (BI 331) or Comparative Animal Physiology (BI 314)	4
   Introductory Ecology (BI 340)	4
   Genetics (BI 341)	4
   Cell Biology (BI 342)	4
   Evolution (BI 446)	4
   Capstone	4–6

5. Complete requirements for an option area in Biological Sciences, Biomedical Science, Cell/Molecular, or Field Biology. The following courses may not be used as upper division biology electives: BI 330, 380–389, 401–405, 409, 489, 490, 491, or 492. A maximum of 3 credits from BI 407 and BI 408 may be applied to this requirement. Only 1 credit may be from BI 407. In addition, 4 credits of biochemistry may be applied to this requirement.
   

Suggested First-Year Program

University Seminar (USEM 101, 102, 103)	12
BI 211, 212, 213	12
CH 201, 204; 202, 205; 203, 206	15
Other approved courses	6

Capstone

The capstone is a project in which students integrate skills and information learned in the major. Students plan a project, write a project proposal, conduct research or complete an internship, write a final report, and make an oral presentation to faculty and peers. Options for meeting the capstone requirement include:

1. Complete BI 489 (1 credit) and BI 490, 491, or 492 (3 credits).
   
2. Complete BI 489. With approval, work individually with a faculty mentor and complete 2 credits of BI 402 or 409 and 1 credit of BI 404.
   
3. Complete BI 489. If admitted to the department honors program, work individually with a faculty mentor and complete 3 credits of BI 402 or 409 and 2 credits of BI 404.
   

Biological Sciences Option

The biological sciences option is designed to provide biology majors with a strong science foundation (physical, chemical, and biological) with upper division elective courses that reflect their career path choices. This option is intended for majors interested in pursuing graduate studies in a biological discipline (such as botany, zoology, or ecology), in science education, or careers in biological sciences.

Biology

1. Complete:
   

   Developmental Biology (BI 343)

   4

2. Complete a minimum of five upper division biology electives, with a total of at least 19 credits (refer to #5 under Requirements for the Major).
   

Chemistry

1. Complete the general chemistry sequence with labs:
   

   (CH 201, 204; 202, 205; 203, 206)

   15

2. Complete the organic chemistry sequence with labs:
   

   (CH 331, 337; 332, 338)

   11

   or

   (CH 334, 337; 335, 340; 336, 341)

   16

Mathematics

Complete:

Elementary Statistics (MTH 243)	4
Calculus I (MTH 251)	4
Calculus II (MTH 252) or Applied Inferential Statistics (MTH 244)	4

Physical Science

Complete physical science sequence with labs (general physics or geology):

General Physics (PH 201, 224; 202, 225; 203, 226)

15

or

(PH 221, 224; 222, 225; 223, 226)

18

or

(G 101, 102, 103)

12

Biomedical Science Option

The biomedical science option is intended for majors going on to professional schools (such as medical, dental, and optometry) or seeking employment in the biomedical field.

Biology

1. Complete:
   

   Developmental Biology (BI 343)

   4

2. Complete five courses from the following list:
   

   Microbiology (BI 351, 353)	6
   Advanced Human Anatomy and Physiology I (BI 361)	4
   Advanced Human Anatomy and Physiology II (BI 362)	4
   Advanced Human Anatomy and Physiology III (BI 363)	4
   Advanced Animal Physiology (BI 414)	4
   Molecular Biology (BI 425)	4
   Immunology (BI 456)	4
   Biochemistry (CH 350 or 451)	3–4

Chemistry

1. Complete the general chemistry sequence with labs:
   

   (CH 201, 204; 202, 205; 203, 206)

   15

2. Complete the organic chemistry sequence with labs:
   

   (CH 331, 337; 332, 338)

   11

   or

   (CH 334, 337; 335, 340; 336, 341)

   16

Mathematics

Complete:

Elementary Statistics (MTH 243)	4
Calculus I (MTH 251)	4

Physical Science

Complete the general physics sequence with labs:

General Physics (PH 201, 224; 202, 225; 203, 226)

15

or

(PH 221, 224; 222, 225; 223, 226)

18

Cell/Molecular Option

The cell/molecular option is intended for students seeking careers in industry or preparation for graduate education in areas related to biotechnology, molecular biology, microbiology, and cell biology.

Biology

1. Complete:
   

   Developmental Biology (BI 343)

   4

2. Complete three courses from:
   

   Microbiology (BI 351, 353)	6
   Advanced Human Anatomy and Physiology (BI 361) or Advanced Animal Physiology (BI 414)	4
   Molecular Biology (BI 425 )	4
   Plant Form and Function (BI 434)	4
   Origins and Diversity of Protists and Fungi (BI 436)	4
   Immunology (BI 456)	4
   Scanning Electron Microscopy (BI 485)	4
   Biochemistry (CH 350 or 451)	3–4

3. Complete at least an additional 4 credits from approved upper division biology electives (refer to #5 under Requirements for the Major).
   

Chemistry

1. Complete the general chemistry sequence with labs:
   

   (CH 201, 204; 202, 205; 203, 206)

   15

2. Complete the organic chemistry sequence with labs:
   

   (CH 331, 337; 332, 338)

   11

   or

   (CH 334, 337; 335, 340; 336, 341)

   16

Mathematics

Complete:

Elementary Statistics (MTH 243)	4
Calculus I (MTH 251)	4
Calculus II (MTH 252) or Applied Inferential Statistics (MTH 244)	4

Physical Science

Complete physical science sequence with labs (general physics or geology):

General Physics (PH 201, 224; 202, 225; 203, 226)

15

or

(PH 221, 224; 222, 225; 223, 226)

18

or

(G 101, 102, 103)

12

Field Biology Option

The field biology option is designed for biology majors interested in employment opportunities with local, state and federal natural resource agencies by providing relevant preparation in field and technical courses. This option also serves biology students interested in pursuing graduate work in natural resources.

Biology

1. Complete:
   

   Conservation Biology (BI 438)

   3

2. Complete one course from:
   

   Vertebrate Natural History (BI 317)	4
   Invertebrate Natural History (BI 318)	4
   Plant Systematics (BI 433)	4
   Vascular Plant Identification and Field Botany (BI 444 )	3

3. Complete one course from:
   

   Forest Ecology and Management (BI 386)	3
   Conservation of Natural Resources (BI 388)	4

4. Complete at least five of the following upper division electives:
   

   Vertebrate Natural History (BI 317) (if not used to fulfill requirement #2 above)	4
   Invertebrate Natural History (BI 318) (if not used to fulfill requirement #2 above)	4
   Mammology (BI 415)	4
   Biological Illustration (BI 430)	3
   Origins and Diversity of Land Plants (BI 432)	4
   Plant Systematics (BI 433) (if not used to fulfill requirement #2 above)	4
   Plant Form and Function (BI 434)	4
   Origins and Diversity of Protists and Fungi (BI 436)	4
   Bryology (BI 442)	4
   Vascular Plant Identification and Field Botany (BI 444) (if not used to fulfill requirement #2 above)	3
   Fish and Fisheries (BI 450)	4
   Plant Ecology (BI 454)	4
   Entomology (BI 466)	4
   Herpetology (BI 470)	4
   Ornithology (BI 471)	4
   Aquatic Ecology (BI 475)	4
   Animal Behavior (BI 480)	4
   Organic Chemistry (CH 331, 337; or 334, 337)	5–6
   Other BI 300- and 400-level courses may be substituted with Biology Department Chair approval.

Chemistry

Complete the general chemistry sequence with labs:

(CH 201, 204; 202, 205; 203, 206)

15

Mathematics

Complete:

Elementary Statistics (MTH 243)	4
Applied Inferential Statistics (MTH 244)	4
Precalculus II (MTH 112) or SOU MTH 112 placement level	0–4

Physical Science

Complete physical science sequence with labs (general physics or geology):

General Physics (PH 201, 224; 202, 225; 203, 226)

15

or

(G 101, 102, 103)

12

Geography

1. Complete:
   

   Maps, Cartography, and Geospatial Technology (ES 349)

   4

2. Complete one course from:
   

   Introduction to Geographic Information Systems (ES 451)	4
   Introduction to Remote Sensing (ES 453)	4
   Introduction to Global Positioning Systems (ES 457)	4

Biology Honors Program

Juniors and seniors who wish to graduate with honors in biology must petition the Biology Department for admission to the honors program. Honors students conduct independent research with a biology faculty mentor, prepare a written report in the accepted editorial style, and make an oral presentation of the project. Honors graduates must have a minimum 3.25 GPA in all biology courses taken for the major and a minimum overall 3.00 GPA. Completion of the honors program satisfies the Senior Capstone requirement. The transcripts and diplomas of students completing the honors program indicate that their degrees were awarded with departmental honors.

1. Successfully petition the Biology Department for admission to the program. Forms are available in the Science Hall Office.
   
2. Complete an honors research project (BI 489 and a minimum of 3 credits of BI 402 or 409) with a minimum grade of B.
   
3. Complete a written report and make an oral presentation of the research project (2 credits of BI 404) with a minimum grade of B.
   
4. Complete the bachelor’s degree in biology with a minimum GPA of 3.25 in all biology courses taken for the major and 3.00 overall GPA.
   

Minor

The minor is designed for non-biology majors who wish to emphasize biology by completing at least 27 credits from the following:

Principles of Biology:

Molecules, Cells, and Genes (BI 211)	4
Evolution and Diversity (BI 212)	4
Function and Ecology of Organisms (BI 213)	4
Select a minimum of 4 courses with a total of at least 15 credits from any regularly scheduled 300- or 400-level biology course that counts toward the biology major	15

Students must have a minimum 2.0 GPA in biology courses for the minor.

Certificate in Botany

The Certificate in Botany serves undergraduate, graduate, and postbaccalaureate students wishing to work in the plant sciences. The program prepares students for careers as botanists at state and federal agencies, environmental consulting firms, and nongovernmental conservation organizations. It also offers a solid foundation for students planning graduate work in botany. Students wishing to pursue the Certificate in Botany should meet with the certificate advisor early in their program. See the Certificates section.

Graduate Programs

The department offers a master of science degree in environmental education. The department also participates in the master of interdisciplinary studies. See the Graduate Studies section for information on these programs.

Master of Science in Environmental Education

This program serves students seeking careers that require a scientific understanding of the natural world, awareness of the environmental problems affecting present and future generations, and the skills needed to become effective educators. The MS in Environmental Education program is designed to help students acquire scientific knowledge and professional skills in preparation for careers devoted to formal and informal science education, sustainable resource use, protection of biodiversity, and preservation of wildlands. Graduates find jobs as teachers in school and field settings, as interpretive naturalists in museums, nature centers and parks, and as environmental advocates working with governmental and nongovernmental organizations to educate the public. For complete information on the program, see the Master in Environmental Education section of this catalog or the Environmental Education website at www.sou.edu/ee.

Preprofessional Programs

Students planning a career in a medical field such as dentistry, medicine, optometry, pharmacy, or any other professional area should consult the appropriate advisor as soon as possible after deciding on one of these careers. The Science Hall secretary maintains a current advisor list. Students in premedical technology and pre-veterinary medicine can plan their work to satisfy general degree requirements at SOU either in a four-year program or in cooperation with a professional school. See the Preprofessional Programs section for more information on these programs.

Teacher Licensing

Students who would like to teach biology at the middle school or high school level in Oregon public schools must complete the prerequisite courses to qualify for the Master of Arts in Teaching (MAT) program at SOU. It is not necessary to complete all prerequisites before applying to the program, but the prerequisites must be completed before a student begins the program. Interested students should consult the Science Hall secretary for an advisor and the School of Education regarding admission requirements for the MAT program.

Students must prepare in advance to increase their chances of acceptance into this competitive program. Applicants are required to gain experience working with children in public schools through practica, internships, and volunteer service before applying to the program.

Biology Courses

See Course Prerequisites Policy

Lower Division Courses

BI 101 General Biology: Cells

4 credits

Intended for non-biology majors. Examines the organization of cells, including their composition and structure, energy-trapping and use, information storage, and cell division. Three lectures and one 2-hour laboratory. Approved for University Studies (Explorations). Corequisite: BI 101L.

BI 102 General Biology: Organisms

4 credits

Intended for non-biology majors. Addresses the organization and function of multicellular organisms, with an emphasis on humans. Three lectures and one 2-hour laboratory. Approved for University Studies (Explorations). Prerequisite: BI 101. Corequisite: BI 102L.

BI 103 General Biology: Populations

4 credits

Intended for non-biology majors. Covers the organization of populations, including Mendelian inheritance, adaptation to the environment, evolution, population growth, communities, ecosystems, and pollution. Three lectures and one 2-hour laboratory. Approved for University Studies (Explorations). Prerequisite: BI 101. Corequisite: BI 103L.

BI 199 Special Studies

Credits to be arranged

BI 209 Practicum

Credits to be arranged

BI 210 Topics in Biology

1 to 4 credits

Intended for non-biology majors. Topics on contemporary society and current biology issues are chosen on the basis of their relevance to other disciplines. Lecture, discussion, and/or laboratory as deemed suitable for the topic. May not be used to meet biology major requirements. Credit determined by topic.

BI 211 Principles of Biology: Molecules, Cells, and Genes

4 credits

Introductory course intended for biology and other science majors. Covers biological molecules, cell structure and function, and genetics. Three lectures and one 3-hour laboratory. Approved for University Studies (Explorations). Corequisite: BI 211L.

BI 212 Principles of Biology: Evolution and Diversity

4 credits

Introductory course intended for biology and other science majors. Explores the mechanisms and results of evolution, including a survey of organism diversity. Three lectures and one 3-hour laboratory. Approved for University Studies (Explorations). Prerequisite: BI 211. Corequisite: BI 212L.

BI 213 Principles of Biology: Function and Ecology of Organisms

4 credits

Introductory course intended for biology and other science majors. Covers organismal function and interactions among organisms, as well as interactions between organisms and their environments. Three lectures and one 3-hour laboratory. Approved for University Studies (Explorations). Prerequisites: BI 211, 212. Corequisite: BI 213L.

BI 214 Elementary Microbiology

4 credits

Intended for students interested in careers in chiropractic medicine, dental hygiene, medical technology, nursing, occupational therapy, and physical therapy. Studies the general characteristics of microorganisms that cause disease and the factors involved in host resistance to disease. Includes principles of disease causation and diagnosis, epidemiology, and prevention and treatment of infectious diseases. Two 75-minute lectures and two 80-minute laboratories. Corequisite: BI 214L.

BI 231 Human Anatomy and Physiology I

4 credits

Introduces human structure and function, with a study of skeletal and muscular systems. Two 75-minute lectures, a 1-hour pre-lab, and one 2-hour laboratory. Prerequisite: One year of a biological science. Corequisite: BI 231L.

BI 232 Human Anatomy and Physiology II

4 credits

Continues study of the systems of the human body and their structure and function, including nervous, circulatory, and respiratory systems. Two 75-minute lectures, a 1-hour pre-lab, and one 2-hour laboratory. Prerequisite: BI 231. Corequisite: BI 232L.

BI 233 Human Anatomy and Physiology III

4 credits

Continues study of the systems of the human body and their structure and function, including digestive, urogenital, and endocrine systems. Two 75-minute lectures, a 1-hour pre-lab, and one 2-hour laboratory. Prerequisites: BI 231 and 232. Corequisite: BI 233L.

BI 250 Nursing Genetics

3 credits

Provides a foundation for nurses to understand genetics as it relates to human variation. Topics include transmission genetics; population genetics; the structure and function of genes; genetics of sex, behavior, immunity, and cancer; diseases linked to single gene mutations; genetic technologies; genetic screening testing; and bioethics.

Upper Division Courses

BI 314 Comparative Animal Physiology

4 credits

Comparative study of respiration, circulation, digestion, energetics, and thermoregulation. Emphasizes general physiological principles and uses physical and mathematical approaches applicable to all animals. Three lectures and one 3-hour laboratory. Prerequisites: BI 211, 212, 213 and one year of general chemistry. Corequisite: BI 314L.

BI 317 Vertebrate Natural History

4 credits

Examines the systematics, distribution, behavior, dormancy, population movements, population dynamics, and ecology of vertebrates. Laboratory emphasizes field studies and identification. Two lectures and two 3-hour laboratories. Prerequisites: BI 211, 212, 213. Corequisite: BI 317L.

BI 318 Invertebrate Natural History

4 credits

Introduces invertebrates, with an emphasis on the natural history, structure, classification, and ecological importance of major phyla—including sponges, sea anemones, marine and terrestrial worms, echinoderms, molluscs, and arthropods. Required overnight coast field trip. Two lectures and two 3-hour laboratories. Prerequisites: BI 211, 212, 213. Corequisite: BI 318L.

BI 330 Topics in Biology

1 to 4 credits

Intended for non-biology majors. Topics on contemporary society and current biology issues are chosen on the basis of their relevance to other disciplines. Lecture, discussion, and/or laboratory as deemed suitable for the topic. May not be used to meet biology major requirements, except in Biology Biomedical Science option. Credit determined by topic. Prerequisite: Upper division standing. Additional prerequisites and corequisites determined by topic.

BI 331 Plant Physiology

4 credits

Examines the metabolic activities of plants. Three lectures and one 3-hour laboratory. Prerequisites: BI 211, 212, 213; CH 201, 202, 203. Corequisite: BI 331L.

BI 340 Introductory Ecology

4 credits

Covers the interactions of organisms with their environments and each other, as well as population dynamics, biological communities, and ecosystem functions. Three lectures and one 3-hour laboratory. Prerequisites: BI 211, 212, 213, or ES 101, 102, 103. Corequisite: BI 340L. (Cross-listed with ES 340.)

BI 341 Genetics

4 credits

Includes classical and modern molecular analysis of the structure, function, and evolution of genes and genomes at the molecular, cellular, organismal, and population levels. Three lectures and one 3-hour laboratory. Prerequisite: BI 211, 212, 213; CH 201, 202, 203. Corequisite: BI 341L.

BI 342 Cell Biology

4 credits

Examines cell and molecular biology with an emphasis on experimental cell biology. Three lectures and one 3-hour laboratory. Prerequisite: BI 341. Corequisite: BI 342L.

BI 343 Developmental Biology

4 credits

Covers descriptions and mechanisms of development in animals, plants, and protists. Includes differentiation, intercellular relations, regulatory substances, morphogenetic movements, and genetic regulation. Three lectures and one 3-hour laboratory. Prerequisites: BI 341 and 342. Corequisite: BI 343L.

BI 351 Microbiology

3 credits

Covers principles of microbiology and surveys microorganisms, including bacteria, fungi, protists, and viruses. Emphasizes organisms that significantly influence human health and the environment. Three lectures. Approved for University Studies (Integration). Prerequisites: One year of biology and two terms of chemistry. Corequisite: BI 353.

BI 353 Microbiology Laboratory

3 credits

Includes an introduction to standard microbiology techniques, quantitative lab science, experimental design, and data analysis. One 1-hour lecture and two 2-hour laboratories. Corequisite: BI 351.

BI 361 Advanced Human Anatomy and Physiology I

4 credits

Covers nervous, endocrine, and immune systems. Laboratory sections include identification of anatomical structures and analysis of physiological measures. Includes 3 hours of lecture and one 3-hour laboratory. Prerequisites: BI 211, 212, 213.

BI 362 Advanced Human Anatomy and Physiology II

4 credits

Covers cardiovascular function and cellular metabolism. Laboratory sections include identification of anatomical structures and analysis of physiological measures. Includes 3 hours of lecture and one 3-hour laboratory. Prerequisite: BI 361.

BI 363 Advanced Human Anatomy and Physiology III

4 credits

Covers homeostatic regulation of bodily fluids, electrolytes, and acid-base balance. Laboratory sections include identification of anatomical structures and analysis of physiological measures. Includes 3 hours of lecture and one 3-hour laboratory. Prerequisite: BI 362.

BI 381 The New Sciences of Complexity

4 credits

Introduces an array of topics currently becoming unified in the new interdisciplinary field of complex systems. Explores how a holistic systems approach and common analytical tools may be applied to such diverse areas as ecology, economics, genetics, physics, and social science to yield insights not obtained through a reductionist scientific approach. Topics include chaos, emergent properties, fractals, scaling, self-organization, feedback, and networks. The computer-based laboratory emphasizes emergent behavior of agent-based modeling simulations and visualization of other complex phenomena. Three lectures and one 3-hour laboratory. Does not fulfill biology major or minor requirements. Approved for University Studies (Synthesis/Integration). Prerequisite: Completion of all lower division University Studies requirements. Corequisite: BI 381L.

BI 382 Biology and Society

3 credits

Examines timely biological issues and their implications for human society. Students participate in and lead discussions on controversial topics such as genetic engineering, the biological basis of sexual orientation and race, biodiversity and threatened habitats, and biological warfare. Two 75-minute meetings per week and a community-based learning component. Does not fulfill biology major or minor requirements. Approved for University Studies (Synthesis/Integration). Prerequisite: Completion of all lower division University Studies requirements.

BI 385 Women in Science

3 credits

Explores the past and current factors influencing women’s scientific career choices and the success of women in various scientific disciplines. Examines the lives and contributions of notable and contemporary women in science from a variety of backgrounds and disciplines. Addresses the culture of science and the role of gender in scientific inquiry. Includes small group discussions focused on assigned readings and guest-speaker presentations from women scientists in academia, government, and industry. Two 75-minute meetings. Does not fulfill biology major or minor requirements. Approved for University Studies (Synthesis/Integration). Prerequisite: Completion of all lower division University Studies requirements.

BI 386 Forest Ecology and Management

3 credits

Introduces the principles of forestry, including the biology of forest ecosystems and the management of these landscapes for societal benefits. Topics include biodiversity, logging practices, fire suppression, sustainable forest management, forest economics, ecological principles, and biogeochemical cycles. Two 75-minute meetings and two weekend field trips. Does not fulfill biology major or minor requirements. Approved for University Studies (Integration). Prerequisites: Completion of all lower division University Studies requirements.

BI 388 Conservation of Natural Resources

4 credits

Explores the history, principles, and practices of natural resource use and abuse, particularly in the United States. Emphasizes understanding of scientific and ecological principles and economics as the basis of sustainable human development. Two 2-hour lectures and one field trip. Does not fulfill major or minor requirements. Approved for University Studies (Synthesis/Integration). Prerequisites: BI 101 and 102; or BI 101 and 103; or BI 211, 212; and completion of all lower division University Studies requirements.

BI 399 Special Studies

Credits to be arranged

BI 401/501 Research

Credits to be arranged

BI 402 Capstone Research

Credits to be arranged

BI 403/503 Thesis

Credits to be arranged

BI 404 Capstone Thesis

Credits to be arranged

BI 405/505 Reading and Conference

Credits to be arranged

BI 407/507 Seminar

Credits to be arranged

BI 408/508 Workshop

Credits to be arranged (maximum 6 undergraduate credits and 9 graduate credits)

BI 409/509 Practicum

Credits to be arranged (1 to 9 credits)

BI 411/511 Special Topics

Credits to be arranged

BI 413/513 Physiological Ecology of Animals

4 credits

Studies physiological adaptations from an ecological and evolutionary perspective. Covers patterns of resource allocation, optimality theory, and functional responses to environmental variation. Three lectures and one 3-hour laboratory. Prerequisite: BI 314 or 340. Corequisite: BI 413L/513L.

BI 414/514 Advanced Animal Physiology

4 credits

Continues Comparative Animal Physiology (BI 314). Topics include water balance and nerve, muscle, and endocrine functions. Emphasizes a comparative approach. Three lectures and one 3-hour laboratory. Prerequisite: BI 314. Corequisite: BI 414L/514L.

BI 415/515 Mammalogy

4 credits

Covers the ecology, behavior, adaptations, and identification of mammals. Three lectures, one 3-hour laboratory, and required weekend field trips. Prerequisite: BI 317. Corequisite: BI 415L/515L.

BI 425/525 Molecular Biology

4 credits

Surveys current topics in modern molecular biology and biotechnology, including gene expression and regulation, protein interaction, genomics, and signal transduction. Emphasizes laboratory experience and the application of techniques to selected experimental problems. Includes PCR-based techniques, cloning and sequencing of genes, mutation characterization, and interpretation of sequence data using bioinformatics databases and tools. Two lectures and two 3-hour laboratories. Prerequisites: BI 341; CH 332 or 335. Corequisite: BI 425L/525L.

BI 430/530 Biological Illustration

3 credits

Provides all-level sketching instruction and develops observational skills needed to produce accurate pencil and pen/ink drawings. Includes hands-on training in museum and field-sketching procedures, as well as the use of hand lenses and microscopes. Provides an introduction to computer graphics. Explores and expands career capabilities and options in biology and environmental education. Includes preparation of artwork for actual publication. Two lectures and one 3-hour laboratory. Approved for University Studies (Integration). Prerequisite: One year of biological science. Corequisite: BI 430L/530L.

BI 432/532 Origins and Diversity of Land Plants

4 credits

Studies the origins of terrestrial flora and the major adaptive radiations of both living and extinct embryophytes, ferns, seed plants, and flowering plants. Emphasizes observing and interpreting plant structure and life histories in the field. Includes advanced treatment of modern plant classifications as influenced by phylogenetic analysis of paleontological and molecular evidence. Students read scientific literature addressing current problems in plant phylogenetic systematics. Two 4-hour lecture/laboratory/field sessions and weekend field trips. Prerequisites: BI 211, 212, 213.

BI 433/533 Plant Systematics

4 credits

Includes the principles of plant classification, common plant families, and the collection and identification of Oregon plants. Two lectures and two 3-hour laboratories. Some Saturday field trips required. Prerequisites: BI 211, 212, 213.

BI 434/534 Plant Form and Function

4 credits

Examines the functional characteristics of vascular plants through the study of anatomy, morphology, and physiological ecology. Investigates the anatomical characteristics and physiological mechanisms that impact plant performance and survival, as well as adaptations to resource and environmental variation. Two 4-hour lecture/laboratory sessions. Prerequisites: BI 211, 212, 213.

BI 436/536 Origins and Diversity of Protists and Fungi

4 credits

Surveys morphology, lifecycles, microbial ecology, and evolutionary history in the diverse assemblage of organisms classified as algae and fungi. Focuses on symbiotic associations involving cyanobacteria, protists, and fungi, with an emphasis on lichens. Uses current scientific literature to explore both theoretical questions and practical applications of knowledge about these organisms to environmental problems, pathogens, and management of natural resources. Three lectures, one 3-hour laboratory, and weekend field trips. Prerequisites: BI 211, 212, 213. Corequisite: BI 436L/536L.

BI 438/538 Conservation Biology

3 credits

Covers ecological, evolutionary, and genetic principles relevant to the conservation of biological diversity. Includes habitat fragmentation, preserve design, the effects of disturbance on communities, introduced species, ecological restoration, and policy making in conservation. Two 75-minute lectures. Prerequisite: BI 340.

BI 442/542 Bryology

4 credits

Examines the morphology, life histories, systematics, ecology, floristics, and biogeography of mosses, liverworts, and hornworts. Emphasizes methods of field study, survey and collection protocols, training in microtechnique and microscopy needed for laboratory procedures, and use of technical literature for identification. Two 4-hour lecture/laboratory sessions and weekend field trips. Prerequisites: BI 211, 212, 213.

BI 444/544 Vascular Plant Identification and Field Botany

3 credits

Covers identification of local flora using technical keys and descriptions in a field setting. Emphasizes the recognition of common families, genera, and species of flowering plants, ferns, and conifers. Offered during Summer Session only. Two lectures, two 90-minute laboratory sessions, and four Saturday field trips. Prerequisites: BI 211, 212, 213. Corequisite: BI 444L/544L.

BI 446/546 Evolution

4 credits

Uses patterns and processes of evolutionary change as determined by mutation, selection, drift, and other mechanisms to explore the unifying principles of the biological sciences. Basic models of population genetics, phylogenetics, and systematics are used to build a conceptual framework for the study of living systems. Two 75-minute lectures and one 1-hour recitation. Prerequisite: BI 341. Corequisite: BI 446R/546R.

BI 450/550 Fish and Fisheries

4 credits

Analyzes the distribution, life histories, and ecology of freshwater fishes, as well as the methods used in the study and management of fish populations. Covers current issues in fisheries management. Three lectures and one 3-hour laboratory. Weekend field trips required. Prerequisite: BI 340. Corequisite: BI 450L/550L.

BI 454/554 Plant Ecology

4 credits

Examines the structure, methods of analysis, environmental relations, and dynamics of vegetation. Three hours of lecture and one 3-hour laboratory. Prerequisite: BI 340. Corequisite: BI 454L/554L.

BI 456/556 Immunology

4 credits

Studies the cellular and humoral mechanisms vertebrates use to defend themselves against infection. Emphasizes human immunology. Three lectures and one 3-hour laboratory. Prerequisites: BI 211, 212, 213. Corequisite: BI 456L/556L.

BI 466/566 Entomology

4 credits

Introduces the morphology, physiology, behavior, ecology, and classification of insects. Includes local field trips to explore and collect insects in a variety of habitats. Two lectures and two 3-hour laboratories. Prerequisites: BI 211, 212, 213.

BI 470/570 Herpetology

4 credits

Explores the ecology, behavior, adaptations, and identification of reptiles and amphibians. Two lectures and one 5-hour laboratory. Weekend field trips required. Prerequisite: BI 317. Corequisite: BI 470L/570L.

BI 471/571 Ornithology

4 credits

Examines the diversity, origins of flight, structural and physiological adaptations, reproduction, migration, and other aspects of avian behavior and ecology. Includes fieldwork in visual and auditory recognition of birds and the study of their habits. Two lectures, one 4-hour laboratory, and field trips (including some on weekends). Prerequisite: BI 317. Corequisite: BI 471L/571L.

BI 475/575 Aquatic Ecology

4 credits

Explores the physical, chemical, and biological properties of freshwater environments. Emphasizes field sampling, laboratory analyses, and identification of major taxonomic and functional groups of aquatic organisms. Three lectures and one 3-hour laboratory. Weekend field trips required. Prerequisite: BI 340. Corequisite: BI 475L/575L.

BI 480/580 Animal Behavior

4 credits

Covers classical and current concepts and controversies regarding animal behavior, including individual and social behavioral patterns of vertebrates and invertebrates. Three lectures and one 3-hour laboratory. BI 317 recommended. Prerequisites: BI 211, 212, 213. Corequisite: BI 480L/580L.

BI 485/585 Scanning Electron Microscopy

4 credits

Explores the theory and practice of scanning electron microscopy, with emphasis on the preparation of biological materials. Two lectures and two 3-hour laboratories. Prerequisites: BI 211, 212, 213 and an additional year of upper division biological science. Corequisite: BI 485L/585L.

BI 489 Senior Research Seminar

1 credit

Planning seminar for senior research, to be taken spring term before the year of capstone completion. Students discuss options to complete senior research and evelop a plan and an annotated bibliography. Required for graduation. Prerequisites: Junior standing in biology or instructor consent.

BI 490 Senior Research in Organismal Biology

3 credits

Topics may vary with instructor. Focuses on scientific inquiry related to organismal biology. Students conduct an independent literature review and an experimental or observational investigation, write a scientific report, and deliver an oral presentation to faculty and peers. This course satisfies the biology capstone requirement. Prerequisites: Senior standing, MTH 243, and BI 314 or 331.

BI 491 Senior Research in Cell and Molecular Biology

3 credits

Topics may vary with instructor. Focuses on scientific inquiry related to cell or molecular biology. Students conduct an independent literature review and an experimental or observational investigation, write a scientific report, and deliver an oral presentation to faculty and peers. Satisfies the biology capstone requirement. Prerequisites: Senior standing, MTH 243, and BI 341.

BI 492 Senior Research in Ecology and Evolutionary Biology

3 credits

Topics may vary with instructor. Focuses on scientific inquiry related to ecology or evolution. Students conduct an independent literature review and an experimental or observational investigation, write a scientific report, and deliver an oral presentation to faculty and peers. Satisfies the biology capstone requirement. Prerequisites: Senior standing, MTH 243, and BI 340.

1250 Siskiyou Blvd
Ashland, OR 97520
(541) 552-6341