BIOE - Biology Ecology and Evolutionary

Surveys the production of indoor crops and landscape plants to gain a working knowledge of how light, temperature, water, fertilizers, and soilless media interact in a controlled environment. Also covers pest management and propagation. Lectures and demonstrations are combined with activities in the UCSC Greenhouses and at the UCSC Arboretum to give students direct experience with horticulture practices and principles in controlled environments. The approach is to develop practical skills and familiarity with agricultural technology while mastering basic principles in plant biology. Emphasis is placed on indoor growth systems.

How can we better understand how humans have affected Earth and its inhabitants? Explores how DNA shed by organisms into the environment can be collected and used to study Earth's biodiversity, with applications in medicine, anthropology, agriculture, and conservation.

Topics in morphology, physiology, development, genetics, and endocrinology selected to exemplify current issues and perspectives in organismic biology.

Introduction to ecology and evolution covering principles of evolution at the molecular, organismal, and population levels. Evolutionary topics include genetic and phenotypic variation, natural selection, adaptation, speciation, and macroevolution. Also covers behavioral, population, and community ecology including applied ecological issues.

Prerequisite for course 161/L, Kelp Forest Ecology, and all research diving performed under the auspices of UCSC or other academic institutions. Course work includes lectures and scuba diving. Topics include subtidal sampling techniques, navigation, low visibility diving, search and recovery, rescues, small boat use, oxygen administration for divers, technical blue water deep diving, physics, and physiology. Apply online at http://www2.ucsc.edu/sci-diving. Students are billed a course materials fee that covers costs for equipment use, materials, and transportation. Prerequisite(s): skill level equal to Advanced Scuba Diver Certification, pass scuba physical, provide own scuba gear, be certified in CPR and First Aid; and interview: pass swim test and scuba skills test.

Probability and statistics underlie much of our everyday experience and, as such, there is a fundamental need for an understanding of the use, and misuse, of statistics. This course is taught through case studies based in biology, politics, economics, crime, education, disease, conservation, and other fields of interest. For example, does a change in crime rate really affect your probability of being a victim of a crime? The goal is to provide all students with sufficient understanding probability and statistics to determine if everyday and often sensationalistic reporting of statistical results is meaningful.

A field-based course with overnight and day trips to regionally diverse areas throughout Central California. Field trips and lectures familiarize students with a wide variety of topics in the ecological, conservation, and environmental science as well as natural-resource management. Enrollment is by instructor permission. Students are billed a materials fee.

Lectures and field trips familiarize students with the flora and fauna of the UCSC Natural Reserves. Field trips focus on surveying and identifying vertebrates and plants at each UCSC Natural Reserve (Fort Ord, Campus Reserve, Big Creek, Younger Lagoon, and Ano Nuevo).

Taught as a series of seminars, course provides a survey of marine sciences and the role of scientific research in understanding and conserving the world's oceans. Topics include: marine biology, ecology, conservation, coastal geology, and climate change. This series is intended to prepare students to interpret research and inform the public by leading tours at the Seymour Marine Discovery Center at the Long Marine Lab. Enrollment is by application and interview.

Individual, directed study for undergraduates. Students submit petition to sponsoring agency.

Focuses on physiological, behavioral, and population ecology, and on linking ecological processes to evolution. It includes basic principles, experimental approaches, concepts of modeling, and applications to ecological problems.

Paradigms and designs in marine ecology. A review of the paradigms that have shaped our understanding of marine ecology; analysis and discussion of experiments with these paradigms. Students cannot receive credit for this course and BIOE 208.

An examination of the history and mechanisms of evolutionary change. Topics include molecular evolution, natural and sexual selection, adaptation, speciation, biogeography, and macroevolution.

Introduction to the evolution, ecology, behavior, and natural history of birds, using exemplary case histories to illustrate key concepts in evolution, ecology, and behavior.

Field trips introduce students to field identification skills and field investigation of census, foraging behavior, migration, social behavior, and communication. Examination of specimens in the laboratory will be used to highlight the diversity and taxonomy of birds. Students are billed a materials fee. Some field trips may require students to provide their own transportation.

Lectures introduce students to evolution, development, physiology, behavior, ecology, and life history of reptiles and amphibians. The materials integrate with conceptual and theoretical issues of ecology, evolution, physiology, and behavior.

Field trips introduce students to natural history, censusing techniques, physiological ecology, and behavioral analysis of reptiles and amphibians. Laboratories introduce students to techniques for analyzing behavior and physiology. Field studies culminate with a group project in a natural setting. Some field trips may be held on weekends due to weather considerations. Some field trips may require students to provide their own transportation, some transportation will be provided by UCSC. Students are billed a materials fee.

An examination of the taxonomy and evolution of flowering plants. Special topics include phylogenetics and cladistics, plant species concepts, and modern methods of systematic research.

Weekly laboratory concerned primarily with California flora and plant families. Several field trips. Students are billed a materials fee.

Introduces plant biology as it affects human society. Topics include the origins of agriculture, the morphology and chemistry of food plants, the material uses of plant products, the biology of medicinal plants, and plant diversity and bioprospecting.

An introduction to the biology of marine algae, fungi, and angiosperms with regard to form and function. Major boreal, temperate, and tropical marine plant communities. Lecture format.

One laboratory weekly and several field trips. Focuses on marine algae, fungi, and angiosperms.

An examination of invertebrates and their habitats. Lecture format.

An examination of invertebrates and their habitats. Weekly laboratories or field trips. Students are billed a materials fee.

Introduces the biology of mammals, including their classification, evolution, behavior, reproductive strategies, and general ecology. Examines the diagnostic traits of mammals; provides a survey of the living orders along with their diagnostic features, physiological and behavioral specializations, and adaptations.

Focuses on the identification of mammals and their specific traits. Exercises provide hands-on experience at identifying mammal orders, families, and species. Field trip provides students with field techniques in mammalogy.

A survey of the diversity, structure, and functioning of California's ecosystems through time and the ways they have influenced and responded to human activities and stewardship. Topics include: ecosystem drivers such as climate, soils, and land-use history; human and ecological prehistory; comparative marine, freshwater, and terrestrial ecosystem dynamics; and managed ecosystems such as range, fisheries, and agriculture.

An introduction to the biology of jawless, cartilaginous, and bony fishes--their classification, evolution, form, physiology, and ecology.

One laboratory session a week and several field trips to study the biology of fish. Students are billed a materials fee.

Lectures combined on fieldwork with large marine vertebrates in the laboratory and lectures with large marine vertebrates in the field (Monterey Bay, Ano Nuevo). Fieldwork familiarizes students with research methods, study design, and statistical approaches for research on large marine vertebrates (seals, birds, fish, and sharks). Research includes: animal tracking; physiology; behavior; foraging ecology; and energetics. Prerequisite(s): BIOL 20A and BIOE 20B and BIOE 20C, and satisfaction of the Entry Level Writing and Composition requirements.

A survey of cetaceans, pinnipeds, sirenians, and sea otters, including natural history, systematics, physiology, behavior, anatomy, and conservation.

Covers the basics of marine mammal taxonomy, anatomy, and field methods with an emphasis on local field identification and understanding of local species. Will include field trips to Long Marine Lab, Ano Nuevo, and Monterey Bay. Students are billed a materials fee.

Principles and concepts underlying the function of tissues and organ systems in animals with emphasis on vertebrate systems. Students cannot receive credit for this course and BIOL 130.

Experiments conducted with primary focus on quantitative physiological principles of organ systems and intact organisms. Students cannot receive credit for this course and BIOL 130L.

An advanced-level course concerning physiological and biochemical processes associated with human performance. Emphasis is on the integration of organ systems for exercise. Topics include metabolism and fuel utilization, cardiovascular and respiratory dynamics during activity, and the effects of training. Requires a good understanding of basic physiological function and anatomy.

An introduction to basic measurement techniques used in assessing the physiological response of humans to exercise. Sessions cover oxygen consumption, respiratory rate, and heart rate monitoring during aerobic and anaerobic activity. Students are billed a materials fee.

Course focuses on vertebrate form and function: an integration of physiology and biomechanics. Topics include: the physiology and biomechanics underlying vertebrate locomotion; vertebrate feeding; and the morphological changes associated with different locomotion and feeding strategies through evolutionary time.

Course focuses on the gross dissections all major clades of vertebrates: development, form, and diversity of organ systems and basic principles of evolution; vertebrate classification; and functional morphology, with emphasis on feeding and locomotion. Anatomical dissections integrated with the associated lecture material focusing on biomechanics, form, and function. Students are billed for a materials fee.

Cellular and organismal functions important in the life of green plants.

Weekly laboratory concerning the cellular and organismal functions of green plants.

Explores how an organism's physiology interacts with its environment including molecular to whole organism-level processes. How do animals thrive in the most diverse regions of Earth and why are some more vulnerable to change than others?

This combination lecture/laboratory course explores the use of molecular (DNA and/or protein) data in ecological and conservation research. Topics covered include data collection; marker choice; estimating genetic diversity and population structure; the inference of mating systems; and environmental genomics.

This combination lecture/laboratory course explores the use of molecular (DNA and/or protein) data in ecological and conservation research. Topics covered include data collection; marker choice; estimating genetic diversity and population structure; the inference of mating systems; and environmental genomics.

Introduces students to how mathematical models can be used to ask and answer evolutionary and ecological questions. Methods covered include optimality theory, population genetics, population dynamic models, game theory, and dynamic state-variable models. Students learn to develop their own mathematical models and to use models to make predictions. Statistical methods for combining theory and data are not covered. Class focuses on learning by doing, using in-class activities, weekly problem sets and an independent project. Students cannot receive credit for this course and BIOE 238. Prerequisite(s): BIOE 107, BIOE 109 and by permission of the instructor. (Formerly BIOE 148B, Quantitative Methods in Ecology and Evolution.)

Teaches students how to build mathematical models and fit them to data to answer questions in ecology and evolution. Includes learning to write code in the R programming language to simulate models and perform statistical analyses. Topics include population and evolutionary dynamics, species interactions, and behavior. Students cannot receive credit for this course and BIOE 239. Prerequisite(s): BIOE 107, BIOE 109, and permission of instructor. (Formerly offered as BIOE 148A Quantitative Ecology.)

An introduction to social and reproductive behavior. Emphasis on studies of vertebrates in their natural habitat. Ideas concerning the evolution of social behavior, mating systems, and individual reproductive strategies. Case histories of well-studied animals that illustrate key principles in courtship and mating, parental behavior, and food-getting behavior.

A field-based course introducing students to concepts and methods for studying behavioral ecology in nature. Students will conduct observations and field experiments on various local model organisms including elephant seals, hummingbirds, sparrows, lizards, ants, bees, frogs, and salamanders. Students are billed a materials fee.

Online laboratory course with a remote (not in-person), virtual field component.Students learn about the scientific study of animal behavior from an ecological and evolutionary perspective through lectures, behavior videos, assignments, field observations, digital labs and final research project. The general goal, however, is to develop the ability to observe the natural world, design research, collect and interpret data, and communicate ideas.

An exploration of the ecology of plant form, function, distribution, abundance, and diversity. Topics include plant adaptations to environmental conditions, life history variation, competition, reproductive ecology, herbivory, and patterns of diversity. Lecture with discussions of original papers and independent field project. Students cannot receive credit for this course and BIOE 245.

Hands-on exploration of the concepts and techniques of plant ecology. A combination of lab, greenhouse, and field-based exercises (irrespective of weather conditions). Statistical analysis and scientific writing. One required weekend field trip. Students cannot receive credit for this course and BIOE 245L. Students are billed a materials fee.

Develops the major themes of community biology: structure, trophic dynamics, succession, complex interactions among species, herbivory, evolution and coevolution. Uses case histories of well-studied marine and terrestrial systems. Students cannot receive credit for this course and BIOE 247.

Focuses on the ecological and evolutionary processes that drive the transmission of pathogens between hosts; the impact of disease on host populations; and what causes the emergence of an infectious disease. Includes theoretical framework, description of field techniques, and discussion of wildlife and human diseases including malaria, West Nile virus, Lyme disease, HIV, avian influenza (bird flu), Chikungunya, tuberculosis, chytridiomycosis, and Ebola.

Lectures and laboratory computer exercises designed to familiarize students with research methods, study design, statistical approaches, and analysis tools for ecological research. Students cannot receive credit for this course and ENVS 104A.

Field-oriented course in the study of animal ecology and behavior. Combines overview of methodologies and approaches to field research with practical field studies. Students are billed a materials fee.

An intensive, on-site learning experience in terrestrial field ecology and conservation, using the University of California Natural Reserves and other natural areas. Students study advance concepts in ecology, conservation, and field methods for four weeks, then experience total immersion in field research at the UC Natural Reserves and other natural areas. Lectures, field experiments, writing assignments, and computer exercises familiarize students with research methods, study design, statistical approaches, and analytical tools for ecological research. Students complete and communicate the results of short field projects in ecology, learn the natural history of the flora and fauna of California, and plan and execute a significant, independent field-research study at the end of the quarter. Enrollment is by application. Prerequisite(s): BIOL 20A, BIOE 20B, BIOE 20C or ENVS 23, ENVS 24, ENVS 100; and STAT 7 & STAT 7L (formerly AMS 7 & AMS 7L). Concurrent enrollment in BIOE 151B-C-D or ENVS 109B-C-D is required. Satisfies the senior exit requirement for biological sciences majors and satisfies the senior exit requirement for environmental studies majors by prior approval. Students cannot receive credit for this course and BIOE 150, BIOE 150L, ENVS 104A or ENVS 196A.

Field-oriented course in ecological research. Combines overview of methodologies and approaches to field research with practical field studies. Students complete field projects in ecology and also learn the natural history of the flora and fauna of California. Students are billed a materials fee. Enrollment is by application. Prerequisite(s): BIOL 20A, BIOE 20B, BIOE 20C or ENVS 23, ENVS 24, ENVS 100; and STAT 7 & STAT 7L (formerly AMS 7 & AMS 7L); satisfaction of the Entry Level Writing and Composition requirements. Concurrent enrollment in BIOE 151A-C-D or ENVS 109A-C-D is required. Satisfies the senior exit requirement for biological sciences majors and satisfies the senior exit requirement for environmental studies majors by prior approval. Students cannot receive credit for this course and BIOE 150, BIOE 150L, ENVS 104A or ENVS 196A.

From lectures and discussion of terrestrial community and ecosystem ecology, students work individually or in small groups to present an idea for a project, review relevant literature, develop a research question/hypothesis, design and perform an experiment, collect and analyze data, and write a report. The instructor evaluates the feasibility of each student's project before it begins. Enrollment is by application. Prerequisite(s): BIOL 20A, BIOE 20B, BIOE 20C or ENVS 23, ENVS 24, ENVS 100; and STAT 7 & STAT 7L (formerly AMS 7 & AMS 7L). Concurrent enrollment in BIOE 151A-B-D or ENVS 109A-B-D is required. Satisfies the senior exit requirement for biological sciences majors and satisfies the senior exit requirement for environmental studies majors by prior approval. Students cannot receive credit for this course and BIOE 150, BIOE 150L, ENVS 104A or ENVS 196A.

Focuses on current issues in environmental and conservation biology and the emerging field methods used to address them. From field-oriented lectures about current issues in environmental and conservation biology, students pursue research project as individuals and small groups to develop hands-on experience with field skills in conservation research and resource management. Enrollment is by application. Prerequisite(s): BIOL 20A, BIOE 20B, BIOE 20C or ENVS 23, ENVS 24, ENVS 100; and STAT 7 & STAT 7L (formerly AMS 7 & AMS 7L). Concurrent enrollment in BIOE 151A-B-C or ENVS 109A-B-C required. Satisfies the senior exit requirement for biological sciences majors and satisfies the senior exit requirement for environmental studies majors by prior approval. Students cannot receive credit for this course and BIOE 150, BIOE 150L, ENVS 104A or ENVS 196A.

Field-intensive course comprised of weekly classes in preparation for the field component. Focuses on issues relevant to the ecology of arctic regions including arctic ecology, arctic geology and paleontology, and arctic environmental change. Students are charged a materials fee. Enrollment is by permission of the instructor. Prerequisite(s): BIOL 20A, and BIOE 20B and BIOE 20C; and concurrent enrollment BIOE 153B and BIOE 153C.

Field-intensive course focusing on issues relevant to the ecology of the arctic regions. Explores the changing arctic environment through lectures and hands-on research during an 18-day camping trip transecting the subarctic boreal forest to the high Arctic. Enrollment is by permission of the instructor. Prerequisite(s): BIOL 20A, and BIOE 20B and BIOE 20C; and concurrent enrollment BIOE 153A and BIOE 153C.

Writing-intensive course focusing on developing skills in scientific communication with an emphasis on communicating issues relevant to the ecology of arctic regions. Communication products are developed during an 18-day camping trip in the Arctic. Enrollment is by permission of the instructor. Prerequisite(s): BIOL 20A, and BIOE 20B and BIOE 20C; and satisfaction of the Entry Level Writing and Composition requirements; and concurrent enrollment BIOE 153A and BIOE 153B.

Provides an overview of the physical, chemical, and biological processes that characterize inland waters such as lakes, streams, rivers, and wetlands. Also addresses relationships between humans and freshwater, and discusses these challenges in conservation.

Field and laboratory study of the ecology of freshwater systems including lakes, streams, and estuaries. Students gain experience sampling and identifying freshwater organisms, designing and analyzing ecological experiments, and writing scientific reports. Students are billed a materials fee.

Supervised individual research projects in experimental marine biology. Students carry out a complete research project, including (1) the formation of hypotheses; (2) the design and implementation of experiments; (3) collection, analysis, and interpretation of data; and (4) write-up of an oral presentation. Students are billed a materials fee.

Total immersion in marine ecology for very motivated students. Students develop a research project during first five weeks on campus and then spend five weeks of immersion in directed research without distraction in isolated locations off campus (past locations include the Gulf of California in Mexico and Moorea in French Polynesia). Not available through University Extension. No other courses may be taken during this quarter. Students must sign a contract agreeing to standards of behavior outlined in the UCSC Rule Book and by the instructors. Students are billed a materials, transportation (not airfare), and room and board fee. Paradigms and designs in marine ecology. A review of the paradigms that have shaped our understanding of marine ecology and analysis and discussion of experiments with these paradigms. Students carry out a complete research project, including the formation of hypotheses; the design and implementation of experiments; the collection, analysis, and interpretation of data; and the write-up and oral presentation of results. Admission by interview during previous winter quarter. BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159D are equivalent to BIOE 127, BIOE 127L, BIOE 108, and BIOE 158L for major requirements. Prerequisite(s): satisfaction of the Entry Level Writing and Composition requirements; BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159D must be taken concurrently.

An introduction to the biology of jawless, cartilaginous, and bony fishes—their classification, evolution, form, physiology, and ecology. Admission by interview during previous winter quarter. BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159D are equivalent to BIOE 127, BIOE 127L, BIOE 108, and BIOE 158L for major requirements. BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159D must be taken concurrently.

Students learn quantitative methods for field experiments and surveys. Emphasis will be on marine environments, but there will also be exposure to terrestrial systems. This is the lecture component to BIOE 159D. No text is required for this course; instead, readings from the current literature will be assigned. Students are evaluated on written independent field project proposals and class participation. Admission by interview during previous winter quarter. BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159D are equivalent to BIOE 127, BIOE 127L, BIOE 108, and BIOE 158L for major requirements. BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159D must be taken concurrently.

This is laboratory portion of BIOE 159C. Students carry out independent field projects under the supervision of course instructors. All work is done during the 5-6 week off-campus portion of BIOE 159. Students are evaluated on field techniques, the final write-up of their independent field projects, and class participation. Admission by interview during previous winter quarter. BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159D are equivalent to BIOE 127, BIOE 127L, BIOE 108, and BIOE 158L for major requirements. BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159D must be taken concurrently.

Study of animal behavior from an ecological and evolutionary perspective, using lectures, exercises, discussion, and research experience in the field. Emphasis on marine environments with exposure to extraterrestrial systems and laboratory studies. Focus on how scientists study animal behavior and what has been learned about evolution and ecology and ecology of animal behavior. Admission by interview during previous winter quarter. BIOE 159E is equivalent to BIOE 140 for major requirements. BIOE 159A, BIOE 159B, BIOE 159C, and BIOE 159E must be taken concurrently.

Engages students in the evolving discipline of global change biology, which examines the relationships between organisms and their environment. Includes discussion of changes in the climate system and other human disturbances, as well as the effects of these changes on biology, from shifts in organismal performance to species distributions and the timing of biological events. Includes discussion and analysis of different lines of evidence for understanding biological responses to global change, including paleoecology, observations, experiments and modeling. Last, this course also focuses on topics in climate literacy and science communication. Admission by interview during previous winter quarter. BIOE 159A, BIOE 159C, BIOE 159D, and BIOE 159F must be taken concurrently.

Study of organization of kelp forests as models for examining biological communities. The physical and biotic factors responsible for community organization of kelp forests are explored using original literature and data collected in BIOE 161L. Class meets one full morning each week. Prerequisite(s): by interview only; BIOL 20A, BIOE 20B, and BIOE 20C are required. Students must pass the University Research Diving Certification (contact the diving safety officer, Institute of Marine Sciences, for further information). Enrollment is restricted to seniors. BIOE 161L must be taken concurrently; BIOE 107, BIOE 120 & BIOE 120L, BIOE 122 & BIOE 122L are recommended.

Fieldwork using SCUBA to quantitatively and qualitatively examine the abundance and distribution of organisms in kelp forests, with additional laboratory work. Culminates with a directed individual research project. Class meets one full morning each week. Students are billed a materials fee. Admission by interview. Prerequisite(s): BIOL 20A, BIOE 20B, and BIOE 20C; satisfaction of the Entry Level Writing and Composition requirements; BIOE 161 must be taken concurrently; BIOE 107, 120/L, 122/L are recommended. Students must pass the University Research Diving Certification (contact the Diving Safety Officer, Institute of Marine Sciences, for further information).

Integrated treatment of coral reefs, sea grasses, and mangroves emphasizing interactions and processes through time. Major topics: biological and geological history, biogeography, evolution and ecology of dominant organisms, biodiversity, community and ecosystem ecology, geology, biogeochemistry, global change, human impacts.

An interdisciplinary laboratory exploration of the anatomy, morphology, adaptations, diversity, evolution, and ecology of corals, mangroves, and seagrasses and of their physical, chemical, and geological environments.

Initially undertakes an in-depth comparison of the biology and conservation of marine versus terrestrial ecosystems. With this foundation, course examines marine biodiversity loss resulting from overexploitation, habitat loss, species introduction, and pollution, with particular emphasis on the resulting trophic cascades, biodiversity losses, and climate change. Students cannot receive credit for this course and ENVS 120.

Writing-intensive course focusing on developing skills in scientific communication, with an emphasis on communicating issues relevant to ecologists and evolutionary biologists. Presents the norms and standards of scientific communication spanning multiple genres Students cannot receive credit for this course and BIOE 271.

Basic population genetics and selected topics will be covered, including genetics of speciation, tempo and mode of evolution, genetics of social behavior, natural selection in human populations, and the impact of molecular studies on evolutionary theory. Students cannot receive credit for this course and BIOE 272.

Provides undergraduate students with exposure to research in the laboratory of an Ecology and Evolutionary Biology (EEB) faculty member, affiliate, or adjunct. Students are not expected to do independent research but rather to assist in laboratory or field research projects under the supervision of the faculty mentor or appointed researcher. Prerequisite(s): Undergraduate research contract on file with the department. If supervised by different faculty or researchers, may be repeated for credit.

Designed to ensure that students are intellectually engaged in the planning or implementation of a supervised or independent research project, achieve a fundamental understanding of implementing the scientific method, and develop their scientific writing and and presentation skills. Prerequisite(s): concurrent enrollment in BIOE 183W and an Undergraduate Research Contract on file with the department.

Working in coordination with an Ecology and Evolutionary Biology (EEB) faculty member, affiliate or adjunct, students develop and write a formal research proposal or report and give a presentation on their research project. Includes weekly class meetings focused on the philosophy of science, basic statistics, library searches, inputting data, creating graphs, and preparing results for publication, posters, and talks.

Continued undergraduate research on a project sponsored by an Ecology and Evolutionary Biology (EEB) faculty member, affiliate, or adjunct. Students are graded on the quality of their research and meeting the terms of their undergraduate research contract. Prerequisites: course 183W and an undergraduate research contract on file with the department.

Continued undergraduate research on a project sponsored by an Ecology and Evolutionary Biology (EEB) faculty member, affiliate, or adjunct. Students are graded on the quality of their research and meeting the terms of their undergraduate research contract. Prerequisites: course 183W and an undergraduate research contract on file with the department.

An individually supervised course, with emphasis on independent research. Students required to submit a senior thesis. Enrollment is restricted to majors in biology, ecology and evolution, marine biology, plant sciences, and the combined major with environmental studies. Students submit petition to sponsoring agency.

Provides for two credits of independent field study (a) by means other than the usual supervision in person, or (b) when the student is doing all or most of the coursework off campus. Students submit petition to sponsoring agency.

Reading, discussion, written reports, and laboratory research on selected biological topics, using facilities normally available on campus. Students submit petition to sponsoring agency.

Two-credit Tutorial. Reading, discussion, written reports, and laboratory research on selected biological topics, using facilities normally available on campus. Students submit petition to sponsoring agency.

Exposes graduate students to teaching skills, understanding the scientific method, searching and organizing literature, grant proposal and scientific writing, data management and presentation, and scientific speaking. Students are evaluated on their participation and the quality of a written research proposal.

Consists of lectures focusing on pivotal topics in ecology and evolution. Relevant background material is developed followed by a critical analysis of readings from the primary literature. Designed to give graduate (and advanced undergraduate) students direct contact with the major areas of research that are currently at the forefront of organismal biology.

Introduction to high-level analysis and discussion of published research papers in theoretical or applied ecology and evolutionary biology. Course consists of weekly meetings with extensive independent work outside of class. Course is required for all first-year graduate students and forms part of the graduate core curriculum. (Formerly offered as BIOE 293, Readings in Ecology and Evolution.)

Paradigms and designs in marine ecology. A review of the paradigms that have shaped our understanding of marine ecology; analysis and discussion of experiments with these paradigms. Students cannot receive credit for this course and BIOE 108.

Intensive exploration of an advanced topic in theoretical or applied evolutionary biology, ecology, physiology, behavior, or conservation biology. Course consists of weekly meetings with extensive independent work outside of class, resulting in mastery of an area of innovation in the field, or in a comprehensive familiarity with an important body of work. Independent work generally culminates in independent or group projects and products. Course is targeted at students who already have reached a professional level of expertise in their field and advanced master's students. (Formerly offered as BIOE 295, Advanced Ecology and Evolutionary Biology Seminar.)

Introduces students to how mathematical models can be used to ask and answer evolutionary and ecological questions. Methods covered include optimality theory, population genetics, population dynamic models, game theory, and dynamic state-variable models. Students learn to develop their own mathematical models and to use models to make predictions. Statistical methods for combining theory and data are not covered. This class focuses on learning by doing, using in class activities, weekly problem sets and an independent project. Students cannot receive credit for this course and BIOE 138. Enrollment is restricted to graduate students. Enrollment is by permission of the instructor. (Formerly offered as BIOE 248B, Quantitative Methods in Ecology and Evolution.)

Teaches students how to build mathematical models and fit them to data to answer questions in ecology and evolution. Includes learning to write code in the R programming language to simulate models and perform statistical analyses. Topics include: population and evolutionary dynamics; species interactions; and behavior. Students cannot receive credit for this course and BIOE 139. (Formerly BIOE 248A, Quantitative Ecology.)

An exploration of the ecology of plant form, function, distribution, abundance, and diversity. Topics include plant adaptations to environmental conditions, life history variation, competition, reproductive ecology, herbivory, and patterns of diversity. Lecture with discussions of original papers and independent field project. Students cannot receive credit for this course and BIOE 145.

Hands-on exploration of the concepts and techniques of plant ecology. A combination of lab, greenhouse, and field-based exercises (irrespective of weather conditions), statistical analysis, and scientific writing. One required weekend field trip. Students cannot receive credit for this course and BIOE 145L.

Develops the major themes of community ecology: structure, trophic dynamics, succession, complex interactions among species, herbivory, evolution, and coevolution. Uses case histories of well-studied marine and terrestrial systems. Students cannot receive credit for this course and BIOE 147.

Supervised individual research projects in experimental marine biology. Students carry out a complete research project, including (1) the formation of hypotheses, (2) the design and implementation of experiments, (3) collection, analysis, and interpretation of data, and (4) the write-up of an oral presentation. Prerequisite(s): BIOE 208; and interview to assess ability to carry out field project.

Skills-based course in effective leadership and communication, including stakeholder engagement, facilitation, conflict resolution, team building, and introduction to project management. Communication training includes identifying audiences and objectives (public, philanthropy, policymakers, managers, scientist practitioners) and leveraging non-traditional communication platforms. Enrollment is by application and restricted to graduate students.

Writing-intensive course focusing on developing skills in scientific communication, with an emphasis on communicating issues relevant to ecologists and evolutionary biologists. This courses presents the norms and standards of scientific communication spanning multiple genres. Students cannot receive credit for this course and BIOE 171.

Basic population genetics and selected topics are covered including genetics of speciation, tempo and mode of evolution, genetics of social behavior, natural selection in human populations, and the impact of molecular studies on evolutionary theory. Students cannot receive credit for this course and BIOL 172.

Analysis of the ways in which ongoing evolution and coevolution shape the ecological structure and dynamics of populations, species, and species interactions across geographic landscapes.

Seminar focusing on concepts in basic and applied ecology. Structure rotates quarterly between graduate student research and readings of journal articles and textbooks.

A discussion of current research and literature review on the subject of molecular evolution. Primary focus on recent results on molecular phylogenetics and molecular population genetics.

An intensive seminar focusing on the interaction between physiological constraint and life history options and solutions employed by animals. Topics vary from comparative physiology to ecological theory. Participants are required to present results of their own research or review papers of interest.

Focuses on fundamental concepts in global-change ecology, with emphasis on coastal and marine ecosystems and issues of sustainability. The seminar is devoted to reading and evaluating current and classic literature and discussing graduate student research.

Current topics in freshwater ecology, eco-evolutionary dynamics, fisheries, and fish ecology.

Intensive research and discussions on plant-animal interactions. All students undertake a research project and meet weekly with the faculty sponsor to monitor progress. The group meets weekly to discuss experimental design and analysis, specific problems related to the students' research, relevant research papers, or manuscripts that the group members are writing. Each student gives a formal presentation of research plans or progress each quarter.

Discussion of current topics, research, and methods in sexual selection and social behavior focusing on theoretical and empirical research and links between evolution and ecology. Students present and discuss their research, read and discuss current and classic literature, or read and discuss methods used in the field.

Intensive seminar on selected topics in marine physiology. Students present results from their own research and discuss recent advances from the literature.

Selected topics in population biology and disease ecology. Students present results from their own research and discuss recent advances from the literature.

Intensive seminar on selected topics in plant evolution. Students present results from their own research and discuss recent advances from the literature.

An intensive seminar on selected topics in behavioral and evolutionary ecology. Students are expected to discuss the current literature and present literature reviews, research proposals, and preliminary results from their ongoing research.

Seminar on the ecology of marine vertebrates. Topics vary from the factors that explain the distribution of marine predators to island biogeography and the ecosystem effects of introduced vertebrates on islands.

Intensive seminar focusing on fundamental and evolutionary concepts in plant-water relations. Students present results from their own research and discuss recent advances from the literature.

An intensive seminar on selected topics in plant ecology and population biology. Students present results from their own research and discuss recent advances from the literature.

An intensive seminar on selected topics in molecular evolutionary genetics. Students are required to present results from their own research projects, present a critical review paper at least once during the quarter, and submit a written research proposal.

An intensive seminar series focusing on fundamental concepts in marine ecology. Emphasis changes quarter to quarter. At least one quarter per year is devoted to discussion of graduate student research. Other quarters involve reading and evaluating current and classic literature on marine ecology and evolutionary biology.

Topics in population genetics and genomics, focusing on work involving paleontological and archaeological material. Students present weekly written and oral reports of their research projects. Once each term, students critique a recent publication.

The genetics and ecological structure of species interactions, and the role of coevolution between species in shaping biodiversity.

An intensive study about concepts, theory, and techniques for graduate students conducting research on the ecology, genetics, evolution, systematics, or biodiversity of marine invertebrates.

A discussion of current topics and methods in behavioral ecology and life history evolution.

A weekly seminar discussion on current research and techniques in mammalian exercise and environmental physiology. Areas covered include locomotor physiology, exercise testing and cardiovascular monitoring, and biomechanics. Oral presentation of ongoing research or current literature required from each student.

Weekly seminar course centering on reading and discussion of selected publications along with peer review of research plans, grant proposals, manuscripts, lectures, and conference presentations. The overarching goal is to support the development and progress of graduate students in the Ecology and Evolutionary Biology Department whose thesis work and interests align with the course topic (reviewing innovative approaches in marine mammal science, coupling physiological with ecological concepts using integrative tools, identifying ecological and evolutionary context of large marine vertebrate research).

Selected readings and guest speakers in conservation, climate science and the ecology of environmental change coupled with peer review of participants' research proposals, grant proposals, manuscripts and scientific presentations.

Focuses on problems and designs in ecology and population biology. Topics include experimental design; exploratory data analysis; hands-on statistics; and graphical theory. Structured around a statistical analysis and graphics program to teach students to design surveys and experiments and analyze data. Previous work in statistics strongly recommended.

Lab will focuses on hands-on statistical problem solving, graphical presentations and experimental design issues.

Selected topics of current interest to ecologists and evolutionary biologists presented by weekly guest speakers.

Independent study for graduate students who have not yet settled on a research area for their thesis. Students submit petition to sponsoring agency.

Independent study for graduatestudents who have not yet settled on a research area for their thesis. Students submit petition to sponsoring agency.

Independent study for graduate students who have not yet settled on a research area for their thesis. Students submit petition to sponsoring agency.

Students submit petition to sponsoring agency.

Students submit petition to sponsoring agency.

Students submit petition to sponsoring agency.