Course description
Students entering Bishop's University from outside Quebec must enroll in the 4 year (120 credits) program, which includes the following U0 academic year. Students entering from the Quebec Cegep system do not take the U0 year and instead should start their 90 credits program with the Biology Core courses.
The lists of classes below do not include co-requisite labs. For a student to complete the requirements of their program they must complete both the course and its associated co-requisite lab.
U0 Courses for all Non-Quebec B.A. Biology Students.
Total Credits 30
Courses for non-Quebec students registered in a B.A. Biology program.
BIO191 Introductory Biology
ELA116 Effective Writing (or other ENG)
HUM Humanities (CLA, ENG, HIS, REL, PHI or Lib.Arts)
7 Free Options
Biology Core: required by all Biology BA students:
Total Credits 15
BIO110 Introductory Cellular and Molecular Biology
BIO115 Diversity of Life 1
BIO116 Diversity of Life 2
BIO118 Genetics
PHY101 Statistical Methods
BA "Health Science" Concentration
All students in this program must take the following 2 courses.
Total Credits 6.
BIO226 Animal Physiology 1
BIO228 Animal Physiology 2
Students must also take 6 or more courses from the following list.
Total Credits 18.
BIO133 Human Anatomy
BIO212 Evolution
BIO252 Bioethics
BIO279 Neuropsychology
BIO280 Psychopharmachology
BIO352 Microbiology
BIO328 Advanced Physiology
BIO349 Medical and Veterinary Entomology
EXS127 Intro to Exercise Physiology
BCH191 Nutrition
PBI227 Psychology of Nutrition
PBI275 Health Psychology 1
PBI276 Health Psychology 2
PBI128 Physiological Basis of Behavior 1
PSY101 Introduction to Psychology
Free Options: Students must also choose 17 lecture courses from any division. Total Credits 51
BA "Environmental Biology" Concentration
All students in this program must take the following 2 courses.
Total 6 credits.
BIO117 General Ecology
BIO212 Evolution
Students must also take 6 or more courses from the following list, a minimum of 4 of which must be from Biology: Total Credits 18.
BIO221 Biogeography
BIO230 Freshwater Biology
BIO248 Invertebrate Zoology
BIO257 Vascular Plants Systematics
BIO270 Vertebrate Zoology
BIO349 Medical and Veterinary Entomology
BIO352 Microbiology
BIO358 Animal Behavior
BIO367 Ichthyology
BCH338 Environmental Biochemistry and Toxicology
ESG127: Introduction to Physical Geography
ESG226 Oceans I
ESG227 Oceans II
ESG250 Geomorphology
ESG251 Soils and Vegetation
ESG265 The Atmosphere and Weather
ESG269 The Earths Crust
ESG361 Glacial Environments
Free Options: Students must also choose 17 lecture courses from any division. Total Credits 51
Biology Minor
The Biology minor consists of eight introductory courses in different specializations in biology, five of which are prescribed, and three are open. It is intended to allow students with a major in another field to obtain a perspective on modern biology.
BIO110 Introductory Cellular and Molecular Biology
BIO115 Diversity of Life 1
BIO116 Diversity of Life 2
BIO117 General Ecology
BIO118 Genetics
Students must also complete three other Biology courses totalling 9 lecture credits.
TOTAL 24 credits
Note: Only lecture credits are indicated. Any associated laboratories will increase the number of required credits.
COURSES:
PLEASE NOTE: The following list of courses represents those courses which are normally offered by the Department of Biological Sciences. However, some courses alternate and thus are only available every second year. The schedule of such courses is indicated below the course description. Some courses that are not required in Biology programs are not offered on a regular basis. Such courses are indicated with an asterisk (*).
Biology 107 Birds and Behaviour 4-6-6
This course represents an examination of the biology of birds, with emphasis on their behaviour, including singing, territoriality, mate choice, parental care, flocking and migration,. Research results on these topics will be used to illustrate fundamental principles of ecology and evolution. Course format will be a mixture of lectures, student led seminars, laboratory work and field trips. No previous scientific education or knowledge of birds is assumed.
Note: This course cannot be taken for credit by students in Biology or Biochemistry.
Professor Yezerinac
Biology 110a Introductory Cellular and Molecular Biology 3-3-0
The structure, organization, and molecular genetics of cells; the structure and function of cell organelles; genetic replication and expression; gene mutation; regulation of the cell cycle.
Prerequisite: BIO 191, collegial Biology, or equivalent
Professor Yezerinac
Biology 113a Field Biology I (only offered in the spring semester) 4-5-30
An intensive, three-week long course in which participants study a wide range of habitats to gain familiarity with plants and animals in the field and to learn methods of field study. Physical aspects of the environment relating to the biota are studied, as well as the plants and animals and their interactions with one another and their environment. Living organisms are brought to the laboratory for further study. Instruction is given five full days per week during a three-week period. Areas of instruction: Mosses and Lichens; Terrestrial Mammals; Insects.
Prerequisite: collegial Biology or equivalent
Offered in odd-numbered years.
Staff
Biology 114a Field Biology II (only offered in the spring semester) 4-5-30
A course similar to Biology 113a, except that other topics are covered: Forest Ecology, Aquatic Invertebrates; Animal Behavior.
Prerequisite: collegial Biology or equivalent
Offered in even-numbered years
Staff
Biology 115a Diversity of Life I 3-3-0
This course offers a thorough exploration of one branch of the tree of life, that occupied by multicellular animals. The course complements Diversity of Life II, a winter-term course with a focus on prokaryotic and non-animal eukaryotic life. The material in both courses is organized according to a modern phylogenetic framework. In this course students will learn about phylogenetic hypotheses and evidence, and they will study how classifications are created, tested, and, where necessary, rejected. Focusing on animals, we will discuss many of the morphological and physiological adaptations that have arisen. The evolutionary implications of some features, such as bilateral symmetry and the notochord, will be discussed more thoroughly. Recent advances as well as current contentious issues in animal classification will also be examined.
Prerequisite: collegial Biology or equivalent; Co-requisite: Biology Lab 115a
Professor Savage
Biology Lab 115a Diversity of Life I Laboratory 1-0-3
The classification, identification, morphology and biology of the animals considered in Biology 115a.
Prerequisite: collegial Biology or equivalent; Co-requisite: Biology 115a
Professor Yezerinac
Biology 116b Diversity of Life II 3-3-0
Like its companion course Biology 115a, this course explores the tree of life, but from a less animal-centric view. We study the prokaryotes at the root of the tree, responsible for more than half of the earth's biomass. Next, we examine the branch that contains all fungi (and lichens). The various protists and those algae that are not related to green plants form other branches, which we will also explore. Finally, we study in more detail the largest group of eukaryotes by biomass, the green plants. The material in this course (and in Biology 115a) is organized according to a modern phylogenetic framework. The focus will be on diversity, function and ecological importance. In the case of the green plants, we look at the reasons for the tremendous ecological success of this form of life. We examine photosynthesis, transport, reproduction and life cycles, and evolution, empathizing ecological relevance.
Prerequisite: Biology 115a; Co-requisite: Biology Lab 116b
Professor van Hulst
Biology Lab 116b Diversity of Life II Laboratory 1-0-3
A series of experiments and exercises to complement Biology 116b.
Prerequisite: Biology 115a; Co-requisite: Biology 116b
Professor Yezerinac
Biology 117a General Ecology 3-3-0
An introduction to modern ecology: environmental patterns, patterns in the distribution of plants and animals, evolution and adaptation, ecosystem function, plant and animal populations, species interactions, community organization, applied ecology.
Prerequisite: collegial biology or equivalent; Co-requisite: Biology Lab 117a
Professor van Hulst
Biology Lab 117a General Ecology Laboratory 1-0-3
Experiments and exercises in General Ecology.
Prerequisite: collegial biology or equivalent; Co-requisite: Biology 117a
Professor King
Biology 118b Genetics 3-3-0
An introduction to the study of biologically inherited traits from three perspectives. (I) Mendelian Genetics: the rules of genetic transmission and heredity. (ii) Molecular Genetics: the biochemical and chromosomal basis of heredity. (iii) Population & Evolutionary Genetics: the variation in genes amongst individuals and populations, heritability, and changes in genes over time.
Prerequisite: Biology 110a; Co-requisite: Biology Lab 118b
Professor Yezerinac
Biology Lab 118b Genetics Laboratory 1-0-3
Experiments in genetics designed to complement topics discussed in Biology 118b.
Prerequisite: Biology 110a: Co-requisite: Biology 118b
Professor Yezerinac
Biology 125 Environmental Health: Ecosystem Function and Public Health 3-3-0
This course examines environmental challenges and their effects on human and animal health. Environmental hazards to human health occur at many scales, from the local to the global, and include such challenges as pollution, climate change, land degradation, impaired agricultural systems, and changes to hydrology and fresh water supplies. Although this course will touch upon all of these topics, particular consideration will be given to fresh water resources in Canada, the many threats these resources face, and the serious implications for human health posed by these threats
Prerequisites: BIO 115
Biology 131* The Human Body in Health and Disease 3-3-0
An introduction to human anatomy and physiology. This course will employ problem based learning, virtual experiments, and traditional lectures to explain the relationship between the structure of the human body and its functions. These concepts will then be applied to the study of representative human diseases. This course is designed for students with minimal biology backgrounds, including arts students, teachers, coaches, and home-care workers. Students will acquire a working knowledge of human biology and the ability to communicate this knowledge to others.
Prerequisites: Secondary school Biology and/or Chemistry recommended.
Note: This course cannot be taken for credit by students in Biology or Biochemistry.
Professor Hull
Biology 133 Human anatomy 3-3-0
The anatomy of all of the major body systems will be discussed in the context of human health and disease. This course is designed for students interested in the biomedical sciences or health education. Students will develop their understanding of human anatomy and will acquire the ability to communicate scientific concepts to their patients or students.
Prerequisite or Corequisite: BIO 191 or collegial Biology.
Corequisite: BIL 133. This course cannot be taken for credit by anyone who already has credit for BIO131 or BIO132.
Note: This course replaces Biology 132, Human Body in Health and Disease for Biology/ Biochemistry students in U0 or U1.
Professor Hull
Biology Lab 133 Anatomy Lab 1-0-3
This course will give students a solid grounding in vertebrate anatomy through dissections and preserved material. Dissection material will include either in part or whole, several mammalian species including sheep, cat, cow, and pig. Material will focus on the recognition and development of the major organs and systems such as the skeletal, muscle, nervous, reproductive, excretory, and digestive systems. Although general mammalian structure will be examined, the relevance of these structures to human anatomy will represent the major focus of the course.
Prerequisite or Corequisite: BIO 191 or collegial Biology.
Corequisite: BIO 133.
Professor Richardson
Biology 138b The Genetics Revolution 3-3-0
This course is designed for non-science majors to examine the impact of recent genetic discoveries on medicine, agriculture and industry. It will begin with a brief introduction to the genetic organization of all living organisms, the structures of animal, plant and bacterial cells, and the molecular technologies used to alter the genomes of theses organisms for scientific and industrial purposes. The use of these technologies in the biotech industry to develop new drugs, diagnostic tests, alter agriculturally important plant species, and enhance forensic identification will be explored. As well, the potential benefits and possible problems associated with theses technologies to human society as well as ethical questions arising about the use of these new techniques will be discussed.
This course cannot be taken for credit by students enrolled in programs in Biochemistry, Biology or Chemistry.
Staff
Biology 155a Organic Chemistry for Biologists 3-3-0
An introduction to the chemistry of organic molecules with emphasis on compounds and reactions prevalent in living organisms. Will include an introduction to proteins, lipids, carbohydrates, and nucleic acids.
Prerequisite: Chemistry 191a, 192b, 081a, and 082b; Corequisite: Biology Lab 155a
Not offered in 2006-2007; students should instead register in CHE105a/185a
Professor Stroeher
Biology Lab 155a Organic Chemistry for Biologists Lab 1-0-3
Extraction, purification, and analysis of different classes of organic molecules. Introduction to different separation techniques including column chromatography, thin layer chromatography, and polyacrylamide gel electrophoresis.
Prerequisite: Chemistry 191a, 192b, 081a, and 082b; Corequisite: Biology 155a
Not offered in 2006-2007; students should instead register in CHE105a/185a
Professor Stroeher
Biology 191a Introductory Biology 3-3-0
Scientific method, chemistry of life, cell structure, cell metabolism, respiration, photosynthesis, transport systems, origin of life, evolution, genetics, reproduction, taxonomy, diversity of life (including microorganisms, fungi, plants and animals), ecosystems. BIO 191a is designed for students wishing to major in biology or biochemistry at Bishop's but who lack the appropriate collegial biology course. This course may also be taken for credit by non-biology students as part of their regular program. This course cannot be taken for credit by B.Sc. students who are enrolled in a 3-year program, nor can it be taken for credit by anyone who already has credit for Biology 193, Biology 199 or PBI191.
Co-requisite; Biology Lab 191a
Professor Richardson
Biology Lab 191a Introductory Biology Laboratory 1-0-3
Experiments and exercises in Introductory Biology. This laboratory course cannot be taken for credit by anyone who already has credit for Bil193 or Bil199.
Co-requisite: Biology 191a
Professor Yezerinac
Biology 193b Introductory Biology for Education Students 3-3-0
BIO193b has essentially the same course content as BIO191a but is designed for education students to provide them with the necessary biological knowledge for teaching biology in the school system. This course cannot be taken for credit by anyone who already has credit for Biology 191, Biology 199 or PBI 191.
Prerequisites: Secondary school Biology and/or Chemistry are recommended.
Co-requisite: Biology Lab 193b
Staff
Biology Lab 193b Introductory Biology Laboratory for Education Students 1-0-3
BIL193b has essentially the same course content as BIL191a but is designed for education students to provide them with the necessary laboratory biological knowledge for teaching biology in the school system. This course cannot be taken for credit by anyone who already has credit for BIL191 or BIL199.
Co-requisite: Biology 193b
Staff
Biology 212b Evolution 3-3-0
Possibly the greatest single theory in modern science, evolution influences all aspects of biology from wildlife management to modern medicine. This course will examine both the patterns of evolution as well as the mechanism.
Prerequisite: Biology 115a
Professor Richardson
Biology 215b Metabolism 3-3-0
Introduction to the basic metabolic pathways of living cells. These include the central metabolic pathways associated with cellular energy generation, carbohydrate degradation and synthesis, fatty acid degradation and synthesis, lipid metabolism and nitrogen metabolism. Emphasis will be placed on the role and regulation of enzymes associated with these pathways.
Prerequisite: collegial biology, Biology 155a or Chemistry 105a/185a and Biology 226a.
Co-requisite: Biology Lab 215b.
Students may not take this course for credit if they have received credit for BCH 275b.
Professor Stroeher
Biology Lab 215b Metabolism Laboratory 1-0-3
This course introduces the student to research approaches in metabolic enzymology and the study of enzyme kinetics. Environmental factors influencing enzyme activity as well as the effects of different inhibitory molecules will be examined. As well, protein isolation and analysis will be covered.
Pre-requisite: collegial biology, Biology 155a or Chemistry 105a/185a and Biology 226a
Co-requisite: Biology 215b
Professor Stroeher
Biology 217b Advanced Ecology 3-3-0
A second course in ecology that focuses on understanding relations between animals, plants, and microbes. Topics include: population growth and regulation, variation in space and time, predation (including herbivory and adaptations to avoid being eaten), parasitism and disease, symbiosis and mutualism, life history variation, regulation and manipulation of abundance, disturbance, food webs, colonization, conservation, and population viability analysis.
Prerequisite: Biology 117a; Co-requisite Biology Lab 217b
Professor van Hulst
Biology Lab 217b Advanced Ecology Laboratory 1-0-3
Laboratory exercises to accompany Advanced Ecology. We will use 10 exercises in conservation biology using the computer application RAMAS EcoLab. These incorporate real-world ecological problems, and will give the student experience in dealing with complex systems, as well as teaching valuable notions in applied ecology.
Prerequisite: Biology 117a; Co-requisite: Biology 217b
Professor van Hulst
Biology 220* History of Biology 3-3-0
An outline of biological discovery from early times to the present in relation to social, historical and cultural developments.
Prerequisites: Biology 110a, Biology 115a, Biology 116b, Biology 117a, Biology 118b
Staff
Biology 221 Biogeography 3-3-0
The main goals of this course are to study spatial patterns of biodiversity and to attempt to reconstruct the origin and the present distribution of both extinct and extant taxa. We start by examining the modern distribution of selected groups of plants and animals, as well as the distribution and limits of the major biomes. We proceed with an overview of the major changes in the earth's climate and topology through geological times, and conclude with the impact of these historical changes on the evolution and the distribution of plants and animals. Techniques in biogeographical analysis will be taught and the students are expected to carry out a group project on the biogeographic history of a specific group of plants or animals. Topics such as extinction, adaptive radiation and island biogeography will also be covered.
Prerequisites: Biology 115a
Pre or Co-requisite: Biology 212
Professor Savage
Biology 226a Animal Physiology I 3-3-0
Basic mechanisms of homeostatic regulation. Topics include: Cell physiology, Nervous system, Muscular system, the Endocrine system, and the Cardiovascular system.
Prerequisite: Biology 110a; Co-requisite: Biology Lab 226a
Students who have received credit for Biology 216a cannot also receive credit for Biology 226a.
Professor Hull
Biology Lab 226a Animal Physiology I Laboratory 1-0-3
Experiments designed to examine the physiological systems discussed in Biology 226a.
Prerequisite: Biology 110a; Co-requisite: Biology 226a
Professor Hull
Biology 228b Animal Physiology II 3-3-0
Mechanisms of functional operation of animal organisms. Topics include: renal, respiratory, gastrointestinal, and reproductive function.
Prerequisite: Biology 226a; Co-requisite: Biology Lab 228b
Students who have received credit for Biology 344b cannot also receive credit for Biology 228b
Professor Hull
Biology Lab 228b Animal Physiology II Laboratory 1-0-3
Experiments dealing with different aspects of animal physiology. Some experiments will be performed using computer simulations.
Prerequisite: Biology 226a Co-requisite: Biology 228b.
Students who have received credit for Biology Laboratory 344b cannot also receive credit for Biology Lab 228b.
Professor Hull
Biology 230a Freshwater Biology 3-3-0
This course will expose students to the biological importance and diversity of freshwater systems. Class material will look at both the biotic and abiotic components of aquatic systems as well as their interactions.
Prerequisite or Co-requisite: Biology 115a; Co-requisite: Biology Lab 230a
Offered in odd-numbered years
Professor Richardson
Biology Lab 230a Freshwater Biology Lab 1-3-0
The lab section will focus on the different techniques necessary for sampling both lentic and lotic systems. Emphasis will be placed on practical first-hand experience using the appropriate equipment in the field. The process of data collection will culminate in the students performing a mini-research project on a local aquatic system of their choice and presenting these data to their peers.
Prerequisite or Co-requisite: Biology 115a; Biology 117a; Co-requisite: Biology 230a
Offered in odd-numbered years
Professor Richardson
Biology 248b Invertebrate Zoology 3-3-0
Morphology, physiology, embryology, evolution and classification of invertebrate animals.
Prerequisite: Biology 115a; Co-requisite: Biology Lab 248b
Professor Savage
Biology Lab 248b Invertebrate Zoology Laboratory 1-0-3
The classification, identification, morphology and biology of the animals considered in Biology 248b.
Prerequisite: Biology 115a; Co-requisite: Biology 248b
Professor Savage
Biology 252* Bioethics 3-3-0
Ethical aspects of modern biology, biotechnology, and medicine. Topics to be discussed: Use and abuse of biology, Transgenics and the changing world, Medical science today, Biology and Culture, Sociobiology, Limits to scientific inquiry. The animal rights controversy, cloning controversy, ethical imperatives, environmental issues, and medical ethics will be explored.
Prerequisite: Biology 110a or permission of instructor
Note: This course restricted to Biology, Biochemistry and Chemistry majors.
Professor Stroeher
Biology 257a Vascular Plant Systematics 3-3-0
Evolution, taxonomy, morphology, and anatomy of the vascular plants.
Prerequisite: Biology 116b; Co-requisite: Biology Lab 257a
Offered in even-numbered years
Professor van Hulst
Biology Lab 257a Vascular Plant Systematics Laboratory 1-3-0
Exercises in identification and classification of vascular plants: use of floras and identification keys, computer keys, and programs for numerical classification; morphology and anatomy of vascular plants.
Prerequisite: Biology 116b; Co-requisite: Biology 257a
Offered in even-numbered years
Professor van Hulst
Biology 270a Vertebrate Zoology 3-3-0
Evolution, classification, morphology, and physiology of the various classes of vertebrates. Particular attention will be placed upon the integumentary, skeletal, muscular, respiratory, digestive, excretory, and reproductive systems.
Prerequisite: Biology 115a; Co-requisite Biology Lab 270b
Professor Richardson
Biology Lab 270a Vertebrate Zoology Laboratory 1-0-3
The lab component will expose students to the diversity of vertebrates around them. Vertebrate diversity and behavior will be studied through a series of field trips, while basic anatomy will be examined in more detail in the lab through dissections and preserved mounts.
Prerequisite: Biology 115a; Co-requisite: Biology 270b
Professor Richardson
Biology 272a Scientific Writing for the Life Sciences 3-3-0
This course is intended for Honours Biology students and will instruct them in the writing, revision and various forms of presentation of scientific research. Lectures will introduce the scientific method and train students to critically read the scientific literature. Detailed examples of a written paper will then follow with step-by-step instructions. Data analysis, word processing and citation methods will be reviewed. In addition to written manuscripts, poster and oral presentations will be discussed.
Prerequisite: This course is normally open to U2 or U3 students by permission of departmental chair or instructor.
Staff
Biology 278* Physiology and Pharmacology of Aging 3-3-0
The major physiological systems will be reviewed, with emphasis on how these systems change during the aging process and how these changes affect the individual's everyday functioning. Topics will include the cardiovascular system; respiratory system; metabolic regulation, digestion and absorption; and electrolyte and mineral ocorticoid regulation. A review of basic pharmacological principles and mechanisms of action will follow this. Finally, we will discuss how the aging process interacts with various types of medications most frequently prescribed to elderly people, and some common idiosyncratic reactions seen in the elderly. Also, the special precautions which must be observed in prescribing and administering drugs to the elderly will be outlined.
See Psychology Biology 220
Students may not take this course for credit if they have received credit for PBI 220.
Professor Drumheller
Biology 279a Neuropsychology 3-3-0
Neuropsychology is the study of the relationship between brain structures and behaviour. In this course we will explore the neuroanatomical correlates of both normal and abnormal behaviors in humans. Among the topics to be discussed are the behavioral sequelae of head injury, mood disorders associated with regional trauma and epilepsy, sex differences in cerebral organization, cerebral asymmetries, language and aphasia, and the various disorders of perception. Depending on the interests of the students, special topics include dyslexia, alexithymia, Alzheimer's disease, alcoholism, and schizophrenia.
See Psychology Biology 279a.
Students may not take this course for credit if they have received credit for PBI 279a.
Professor Drumheller
Biology 280b Psychopharmacology 3-3-0
This course is designed to introduce students in psychology and the natural sciences to the field of neuropsychology. Emphasis will be placed on the relationships between psychoactive drugs, their mechanisms of action in the nervous system, and human behavior. Following an analysis of the principles of pharmacology and pharmacokinetics, as well as the mechanisms of drug tolerance and dependence, the cognitive, emotional and behavioral aspects of specific classes of drugs will be examined. These classes of drugs will include sedatives, hypnotics, stimulants, narcotics, psychomimetics, psychedelics, and hallucinogens.
See Psychology Biology 280b.
Students may not take this course for credit if they have received credit for PBI 280b.
Professor Drumheller
BIO291a Planning and Analysis of Biological Experiments 3-3-0
This course constitutes a practical guide to the basics of experimental design and data analysis in biology and biochemistry. It addresses students who have taken an introductory course in statistics (e.g. PHY101).After having taken this course you should be able to set up effective experiments, analyze their results, and present your conclusions effectively.
Corequisite:BIL291a
Professor van Hulst
BIL291a: Planning and Analysis of Biological Experiments Laboratory 1-0-3
The laboratory provides hands-on training in setting up experiments and analyzing their results using the open-source statistical language R. This is widely used in both academic and industrial settings, is powerful, and is freely available. It provides many tools for experimental design, data analysis, and graphical presentation.
Corequisite: BIO291a
Dr. Robert van Hulst
Biology 310b Advanced Cell Biology 3-3-0
Topics in modern cell biology. Examines aspects of eukaryotic cell structure and function. Includes, but not restricted to, areas such as intracellular signaling, cell-cycling and cancer, endocytosis, protein targeting and organelle biogenesis.
Prerequisite: Biology 110a, Biology 118b
Offered in even-numbered years
Professor Hull
Biology 314b Biotechnology 3-3-0
This course will explore the technical approaches used in current research and biotechnology, emphasizing the applications of molecular strategies and processes studied in Biology 360. Both the theoretical and practical aspects of these molecular approaches will be discussed, as well as how these techniques are utilized and how they have changed modern research and medicine.
Prerequisite: Biology 360a or Biochemistry 370
Co-requisite: Biology Lab 314b
Professor Stroeher
Biology Lab 314b Biotechnology Laboratory 1-0-3
Practical application of several of the techniques introduces in Biology 314.
Prerequisite: Biology 360a or Biochemistry 370
Co-requisite: Biology 314b.
Professor Stroeher
Biology 317* Forest Ecology 3-3-0
This course treats forests as ecological systems: it investigates their physical and chemical environments, their biotic environments, the population ecology of forest trees, and forest communities. The course will also deal with practical aspects of forest management for wood production and for wildlife habitat. Some exercises in tree identification and forest mensuration will be included.
Prerequisite: Biology 117a
Staff
Biology 320b Programmed Cell Death 3-3-0
Programmed cell death, also called apoptosis, is a normal physiological process that takes place in every type of cell in the animal kingdom. It plays a critical role in embryo development, in selective processes (immune system), in degenerative diseases and in cancer. Since the early 90's, programmed cell death is one of the fastest growing subject of research, with almost 15000 scientific publications in 2004. In this course, we will explore normal and impaired mechanisms involved in cell death, through examples taken in human medicine or in invertebrates' development.
Prerequisite: Biology 110
Biology 328b Advanced Physiology 3-3-0
This course will examine how animals adapt to environmental stresses such as extremes of temperature of altitude, hypoxia, water limitation and dietary changes. Short-term (acute), medium-term (acclimatory) and chronic (evolutionary) adaptations will be discussed.
Pre-requisite: Biology 226a; Pre-or Co-requisite: Biology 228b
Offered in odd-numbered years
Professor Hull
Biology 330* Ornithology 3-3-0
An introduction to the study of birds, including their structure, function, reproduction, evolution and classification. The integration of morphological, physiological, behavioral and environmental adaptations will be emphasized. In addition, topics of particular relevance to birds such as mechanisms of flight, migration, vocal communication, and conservation will be discussed.
Prerequisite: Biology 115a; Co-requisite: Biology Lab 330
Professor Yezerinac
Biology Lab 330* Ornithology Laboratory 1-0-3
Study of bird morphology using preserved specimens and museum study skins. Field trips will be used to learn about living birds and their identification.
Prerequisite: Biology115a; Co-requisite: Biology 330
Professor Yezerinac
Biology 333a Advanced Exercise Science 3-3-0
This course examines selected topics in Exercise Physiology. Through traditional lectures, directed readings, seminars, and case studies, students will study short-term and long-term adaptations to exercise. We will also examine the scientific principles underlying sports-related topics such as optimizing exercise performance, injuries, and injury repair.
Prerequisite: Biology 226 or Exercise Science 127
Co-requisite: Biology Laboratory 333
Note: See Exercise Science 373. Students may not take this course for credit if they have received credit for EXS 373.
Professor Hull
Biology Lab 333 Advanced Exercise Science Laboratory 1-0-3
The labs will introduce students to functional and clinically applied anatomy and physiology. They will experience evaluation and treatments of various musculo skeletal conditions, with an emphasis on sports related injuries. The student will work in both clinical and field settings. Case studies, injury reporting, and injury research will enable the student to learn independently and apply lecture material.
Co-requisite: Biology 333
Note: See Exercise Science 383. Students may not take this course for credit if they have received credit for EXS 383.
Professor King
Biology 345* Plant Physiology 3-3-0
Nutrition, transport, growth and development in plants; the water relations of plants; mineral nutrition; growth regulators; tropisms; photoperiodism; vernalization and dormancy.
Prerequisite: Biology 116b
Professor van Hulst
Biology 349a Medical and Veterinary Entomology 3-3-0
As one of the most important group of vectors, insects, ticks and mites are involved in the transmission of numerous viruses, protozoans and bacteria causing diseases such as malaria, the plague, sleeping sickness, scabies, West Nile fever, and Lyme disease. This course will introduce students to some of the basic concepts of entomology but with a focus on the biology and control of those groups causing harm to humans and their domestic animals.
Prerequisite BIO 115
Biology 350 Invertebrate Physiology 3-3-0
This course provides an overview of some physiological mechanisms of invertebrates including digestion and nutrition, respiration, excretion, reproduction, circulation, locomotion, and behavior. We will also consider some of the unique strategies used by invertebrates which allow them to thrive in Earth's most extreme and challenging environments: deserts, frozen wastelands, deep ocean floors, hot vents, inside other organisms, and hypersaline lakes.
Prerequisite: BIO 115.
Biology 352a Microbiology 3-3-0
An introduction to prokaryotic microorganisms, eukaryotic microorganisms, and viruses; their ecology, growth characteristics, and host interactions. Examination of the environmental roles of microbes as well as their impact on the human world.
Prerequisite: Biology 110a; Co-requisite: Biology Lab 352a
Offered in even-numbered years
Professor Stroeher
Biology Lab 352a Microbiology Laboratory 1-0-3
An introduction to common microbiological techniques used in medical, biological and biochemical research, including techniques in growth, staining and identification of bacteria and viruses. As well, the diversity of physiological and metabolic requirements of bacteria will be examined.
Prerequisite: Biology 110a; Co-requisite: Biology 352a
Offered in even-numbered years
Professor Stroeher
Biology 353 Principles of Parasitism 3-3-0
An overview of parasite biology, with special emphasis on eukaryotic parasite diversity, ecology and host-parasite interactions (biochemistry, immunology, physiology, and pathology). We will also consider population / community ecology and evolutionary implications for parasites and their hosts. The course material is complemented by a lab, BIL 353.
Biology Lab 353 Principles of Parasitism Lab 1-0-3
The taxonomy, morphology, life cycles, and histopathology of commonly occurring protozoan and metazoan parasites of humans and domestic animals. Designed to give the student hands on experience, the laboratory will include the examination of prepared specimens and necropsy (=dissection) of hosts, and experiments exploring the effects of parasites on host physiology.
Biology 354 Insect Biodiversity 3-3-0
With close to a million described species, insects form more than 70%of animal diversity. But in spite of such overwhelming diversity they are poorly known and consequently often excluded from biodiversity studies. The main goal of this course is to teach the students how to collect, preserve and identify insects, especially those found in eastern North America. In addition to using material housed in the Bishop's insect collection, material collected in the field by each student will be prepared in a fashion that will make the specimens museum worthy. Through the collecting and identification process, students will learn about insect taxonomy but they will also learn about where different taxa can be found and what their general ecological requirements are. Once they have competed the course, students should be able to identify most commonly encountered insects at least to the family level and recognize those that are beneficial or potentially harmful.
Prerequisite: BIO 115
Biology 358b Animal Behaviour 3-3-0
Foraging patterns, food selection, habitat selection, avoiding predation, behavioral thermoregulation, competition between species, competition for mates, ecological view of territorial behaviour, optimal tactics for reproduction, sexual selection, economics of group living (sociality), spacing patterns.
Prerequisite: Biology, 115a, Biology 117a; Co-requisite: Biology Lab 358b
Offered in odd-numbered years
Professor Richardson
Biology Lab 358b Animal Behaviour Labs 1-0-3
Laboratory exercises to accompany Biology 358b.
Prerequisite: Biology 115a, Biology 117a; Co-requisite: Biology 358b
Offered in odd-numbered years
Professor Richardson
Biology 359a Human Genetics 3-3-0
Cytogenetics, biochemical genetics, Mendelian genetics, molecular genetics and quantitative genetics of humans; chromosome mapping; genetics and medicine.
Prerequisite: Biology 118b
Offered in even-numbered years
Staff
Biology 360a Molecular Genetics 3-3-0
The molecular biology of nucleic acids and proteins, including DNA replication, mutation, and recombination; RNA transcription; and protein synthesis. Also covered will be protein/nucleic acid interactions and regulation of gene expression.
Prerequisite: Biology 118b
Students may not take this course for credit if they have received credit for BCH 370a.
Professor Stroeher
Biology 365b Developmental Biology 3-3-0
Examination of the molecular events involved in the development of vertebrates, invertebrates and plants, emphasizing common strategies used in these three systems. Topics will include establishment of body axes, origin of germ layers, and segmental pattern formation. The role of developmental genes, regulatory gene families, and maternal effect genes will be emphasized. Morphogenesis and early cell differentiation will also be studied.
Prerequisite: Biology 110a; Biology 118b
Offered in even-numbered years
Professor Stroeher
Biology 367a Ichthyology: The World of Fishes 3-3-0
A survey of fishes of the world. Fish taxa representing freshwater, marine, temperate, tropical and deep sea forms will be examined in terms of their morphology, phylogeny, behaviourial ecology and community structure. Adaptations associated with the successful occupation of diverse aquatic habitats within the group as a whole will be discussed. In addition, within-taxa global distribution patterns will be examined in light of current theories regarding plate tectonics and zoogeography.
Prerequisite: collegial biology, Biology 115a; Co-requisite: Biology Lab 367a
Offered in even-numbered years.
Professor Richardson
Biology Lab 367a Ichthyology Laboratory 1-0-3
The identification of fishes, with the use of keys based on the characteristics of major groups. Practical techniques will include the preservation, clearing and staining of whole fishes for skeletal features. Other laboratory exercises will include examinations of fish anatomy, behaviour and development.
Prerequisite: collegial biology, Biology 115a; Co-requisite: Biology 367a
Offered in even-numbered years.
Professor Richardson
Biology 371a Independent Studies in Biology I 3-1-3
This course is not normally offered and is only meant for final-year students who wish to pursue in-depth study of a particular area of biology or who have a special need for a biology course that would otherwise not be available during their final semester of course work. This course can only be done in close collaboration with a faculty advisor from within the Department of Biological Sciences, and may not be used as a supplement to a student's honours project. Requirements for this course will be agreed upon by at least three professors from within the Department of Biological Sciences.
Pre-requisite: Consent of a member of the Department of Biological Sciences.
Biology 372b Independent Studies in Biology II 3-1-3
This course represents an additional semester of independent work, either a continuation of or a separate course from Bio 371a, meant for final-year students who wish to pursue in-depth study of a particular area of biology or who have a special need for a biology course that would otherwise not be available during their final semester of course work. This course can only be done in close collaboration with a faculty advisor from within the Department of Biological Sciences, and may not be used as a supplement to a student's honours project. Requirements for this course will be agreed upon by at least three professors from within the Department of Biological Sciences.
Pre-requisite: Consent of a member of the Department of Biological Sciences.
Biology 462a/b Honours Biological Problems 3-1-6
An introduction to the planning, execution and reporting of biological research. Each student is required to choose a research problem and, in consultation with a departmentally approved supervisor, draw up a formal research proposal of work to be undertaken. The final mark in this course will be based on the research proposal, preliminary research completed on the stated project, and presentation of a poster during the final week of classes. Satisfactory completion of Biology 462 with a minimum mark of 75% will permit enrollment in Biology 463.
Prerequisite: Permission of course coordinator. (Professor van Hulst)
Co-requisite: Biology 272a
Biology 463a/b Advanced Honours Biological Problems 3-1-6
A continuation of Biology 462, in which the student will complete all research as outlined in the research proposal. The final mark in this course will be based on the quality and amount of research completed, presentation of a departmental seminar during the final week of classes, open to the public, based on research findings, and submission of a final written honours thesis. Enrollment in Biology 463 is conditional upon completing Biology 462 with a minimum mark of 75%.
Prerequisite: Permission of course coordinator. (Professor van Hulst)
Cognate courses:
Biochemistry 336b (Immunology) is a cognate biology course.