ZOOLOGY

Credit Points

15

Course Coordinator

Dr L R Noble

Pre-requisites

BI 2002

Notes

(i) This course extends over 6 weeks only.
(ii) Available only to students in programme year 3 or above.

Overview

An overview of current evolutionary theory and its development, and of the principles of biodiversity. Topics include the origin of life, ecological and molecular genetics, natural selection, species and speciation, the fossil record and macroevolution, modern taxonomy and systematics, human evolution, the conservation of biodiversity, and related areas.

Structure

Thread I: 6 week course,5 lectures per week, 6 hours of tutorials/practicals/seminars per week.

To pass this course, a pass must be achieved in BOTH the theory exam and the in-course assessment.

Assessment

1st Attempt: 1 three-hour written examination (50%) and in-course assessment (50%)(2 essays 5% + 15%, 3 practical reports 6%, 6% & 8%, 1 oral presentation 10%). Oral examination for borderline candidates.

Resit: A resit exam, in the same format as the main exam. This may contain material from both the practical and lecture components of the course.

Credit Points

15

Course Coordinator

Dr D Hazlerigg

Pre-requisites

BI 20Z1, BI 25Z1.

Overview

This course covers the physiological mechanisms animals have evolved to cope with different environments. Particular topics are Hormones and the Environment; Vision and chemoreception and the environment; Thermoregulation; Osmoregulation ; Interelationships between nutrition, infection and immunity.

Structure

Thread I: 6 week course 5 hours lectures and 3 hours practicals per week.

To pass this course, a pass must be achieved in BOTH the theory exam and the in-course assessment.

Assessment

1st Attempt: 1 three-hour writtent examination (60%) and in-course assessment (40%). Oral examination for borderline candidates.

Resit: A resit exam, in the same format as the main exam. This may contain material from both the practical and lecture components of the course.

Credit Points

15

Course Coordinator

Dr M Solan

Pre-requisites

BI 2001

Overview

This course deals with the basic ecological theory and mathematical modelling approaches required to study animal population dynamics, especially those populations which have importance for conservation consideration, management and exploitation. The formal tools used to describe population change in continuous and fragmented populations are explored. The complexity of reproductive strategies found in the animal kingdom as well as their implication for harvesting of species are presented.

Structure

Thread II: 6 week course- 2 two-hour lectures per week, 2 one-hour lectures per week, 4 three-hour practicals over 6 weeks.

To pass this course, a pass must be achieved in BOTH the theory exam and the in-course assessment.

Assessment

1st Attempt: 1 three-hour written examination for all candidates (50%) and in-course Assessment (50%)(which comprises four practical reports (40%) and a quiz held in the classroom (10%) An 1 hour exam on in-course material for those candidates who failed this assessment. Oral examination for borderline candidates.

Resit: A resit exam, in the same format as the main exam. This may contain material from both the practical and lecture components of the course.

Credit Points

15

Course Coordinator

Dr F Wragg

Pre-requisites

BI 1003

Notes

(i) This course extends over 6 weeks only. (ii) Available only to students in programme year 3 or above.

Overview

Introduction to the study of animal behaviour: external stimuli and perception, use of stimuli in orientation and navigation, signals and communication, chemical stimuli; internal states, especially hormonal effects on behaviour; motivation and conflict; rhythmic occurrence of behaviour; functional aspects of behaviour, behavioural ecology; evolution of behaviour; social behaviour.

Structure

Thread II: 6 week course - 5 one-hour lectures, 1 one-hour tutorial and 1 three-hour laboratory per week.

To pass this course, a pass must be achieved in BOTH the theory exam and the in-course assessment.

Assessment

1st Attempt: 1 three-hour written examination (60%), assessment of practical reports (25%), essay (15%). Oral examination for borderline candidates.

Resit: A resit exam, in the same format as the main exam. This may contain material from both the practical and lecture components of the course.

Credit Points

15

Course Coordinator

Dr Tara Marshall

Pre-requisites

MR 1505 or BI 2001 or BI 20Z1 or BI 25Z1 or BI 25Z2.

Notes

(i) This course extends over 6 weeks only.
(ii) Available only to students in programme year 3 or above.

Overview

The course covers main aspects of ocean circulation; regional upwelling; chemical and physical properties of seawater; the ecology of phytoplankton, zooplankton, benthos, nekton, mammals, birds, rocky shores, littoral zone, kelp forest and deep sea; the coral reef, polar and North Sea ecosystems; and selected topics in marine management.

Structure

Thread I: 6 week course - 5 lecture hours, 1 six hour laboratory or field session per week.

To pass this course, a pass must be achieved in BOTH the theory exam and the in-course assessment.

Assessment

1st Attempt: 1 three-hour written examination (60%), assessment of laboratory work (40%).

Resit: A resit exam, in the same format as the main exam. To pass this course, a pass must be achieved in BOTH the theory exam and the in-course assessment.

Credit Points

15

Course Coordinator

Dr A Douglas

Pre-requisites

MR 1008 or MR 1510 or BI 2001 or BI 20Z1 or BI 25ZI or BI 25Z3. Other students may be admitted to the course at the discretion of the Head of School.

Notes

(i) This course extends over 6 weeks only.
(ii) Available only to students in programme year 3 or above.

Overview

The aim of this course is to present aspects of marine and freshwater biology with a particular emphasis on matters of practical application. An understanding of freshwater ecosystems is developed through the study of their hydrology and chemistry and the biology of the fauna and flora. Conservation, pollution, fish and fisheries, whaling and aqauculture are among the topics discussed in this course, which deals with the impact of man on aquatic environments.

Structure

Thread I (slots A, E, F): 6 week course – 6 one-hour lectures and six hours of practicals/field-sessions/seminars per week.

To pass this course, a pass must be achieved in BOTH the theory exam and the in-course assessment.

Assessment

1st Attempt: 1 three-hour written examination (60%) and in-course assessment (40%). Oral examination for borderline candidates.

Resit: A resit exam, in the same format as the main exam. This may contain material from both the practical and lecture components of the course. A 1 hour exam on in-course material for those who have failed this assessment.

Credit Points

15

Course Coordinator

Dr A Bowman

Pre-requisites

BI 25Z1 or BI 2504 or BI 25A2.

Overview

The aim of this course is to provide a thorough overview of the principles of infectious diseases affecting man and animals. Lectures will cover principles of infection, epidemiology, zoonoses, control strategies, notifiable diseases and their containment, and vector borne disease. Lectures rely heavily on specific examples of the major groups of infectious organisms that, in part, reflect the interests of the team.

Structure

Thread II: 6 weeks - 36 one-hour lectures; 5 six hour practicals; 1 four hour poster session.

To pass this course, a pass must be achieved in BOTH the theory exam and the in-course assessment.

Assessment

1st Attempt: 1 two-hour written examination (50%); poster presentation (15%); in-course assessment (35%). Interviews will be conducted for borderline cases.

Resit: A resit exam, in the same format as the main exam. This may contain material from both the practical and lecture components of the course.

Credit Points

40

Course Coordinator

Dr J Sternberg and Dr P J Fraser

Pre-requisites

Available only to those taking one of the Zoology Honours Degrees.

Overview

An independent research project, under the supervision of a member of staff. The candidate is required to deliver a short seminar on the results of the work and to submit a thesis.

Structure

Independent work.

Assessment

1st Attempt: Evaluation of the thesis and seminar and an oral examination.

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

20

Course Coordinator

Dr J Sternberg and Dr P J Fraser

Pre-requisites

Available only to those taking one of the Zoology Honours Degrees.

Overview

Lectures on preparing for thesis work, debates on current issues in biology, authoring for the internet, statistics and data analysis, careers advice, use of library facilities, abstracting skills and data interpretation, recent topics in zoology, a residential course on team work, departmental seminars, the classification of the animal kingdom, dissection techniques.

Structure

A timetable is issued at the beginning of the first semester.

Assessment

1st Attempt: 1 three-hour written examination (50%); in-course assessment (50%).

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Dr Paul Thompson

Pre-requisites

ZO 3504

Overview

This course deals with the current advances in Marine and Fisheries science, including the application of ecosystems and food web approaches, marine mammal ecology and cephalopod biology.

Structure

Thread II: 6 week course - 3 two-hour lecture sessions/week.

Assessment

1st Attempt: 1 three-hour written examination (100%).

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Dr J Sternberg and Dr P J Fraser

Pre-requisites

Only available to students in programme year 4 taking one of the Zoology Honours Degrees.

Overview

An independent review essay chosen from a list made available by Zoology and which will change from year to year. A member of staff will provide guidance.

Structure

12 week course - Independent work with guidance by a member of staff.

Assessment

1st Attempt: Evaluation of the essay by two examiners.

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Dr P Billingsley and Dr A Bowman

Pre-requisites

BI 25Z1 or ZO 3810

Notes

Available only to students in programme year 4.

Overview

Introductory lectures of 1-2 hours will each describe a current research topic in vector biology. Example topics are disease transmission, physiology, ecology and resistance of vectors including molecular approaches. Lectures will draw attention to 3-5 recent research articles, which are given to the students for reading and are discussed the following week in tutorial format.

Structure

Thread II: 6 weeks - 4 one-hour lectures; 1 hour tutorial per week.

Assessment

1st Attempt: 1 three-hour written examination (100%).

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Professor X Lambin

Pre-requisites

ZO 3303

Overview

The course deals with the concepts and practice of wildlife population conservation and management, including methods to access population size, survival rates and how to use this information to assess the viability of animal populations with matrix projection models. The course will consider how to manage wildlife populations that either represent a resource (such as red deer and red grouse), a potential competitor (such as grey seals) are threatened (such as water voles, fresh water pearl mussels) or are a pest species. Other issues raised in the course include how scientists estimate the size of populations and whether they increase or decrease? Why do populations decline? Is poor breeding success or declining survival causing the decline of song trush populations?

Structure

Thread I: 6 week course - 2 two-hour lectures/seminars per week and 6 three-hour practicals.

Assessment

1st Attempt: 1 three-hour written examination (100%).

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Professor P A Racey

Pre-requisites

Available only to students in Programme Year 4.

Overview

Principles of Conservation Biology and how they are reflected in policy and practice. Different approaches to establishing priorities for conservation by governments (with reference to WSSC) and NGOs (comparing WWF's Ecoregions with CI's hotspots and WCS's landscape approaches). Assessment of Diamond's Evil Quartet and counter measures with particular relevance to the Bushmeat trade and invasive species. The use of molecular genetic techniques in conservation biology. Community-based approaches to conservation. Case studies will be presented by University and Research Institute staff.

Structure

Thread II: 6 weeks - 2 two-hour lectures per week, 3 hours of guest lecturers per week, 2 hours of student presentations per week.

Assessment

1st Attempt: 1 two-hour written exam.

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Alex Douglas & Fiona Wragg

Pre-requisites

Animal Behaviour (ZO 3507)

Notes

Only available to students in level 4 Zoology, Biology and other Biological Sciences. Pre-requisite should be strictly adhered to.

Overview

Behavioural ecology provides a framework for exploring relationships between animal behaviour, ecology and evolution. Specifically, behavioural ecology is concerned with questions about how patterns of behaviour contribute to an animal's chance of survival and reproductive success. The main theme of this course is to explore the links between animal behaviour and population and community ecology. Topics covered include, investigating optimality and game theory, ecological and evolutionary aspects of mate choice, mating systems and sexual conflict and the role of behaviour in management and conservation (including captive breeding and reintroduction). This course will introduce techniques commonly employed in behavioural ecology research. Emphasis will be placed on quantitative and statistical approaches to theoretical and practical behavioural research. Lectures will be supplemented by case studies in key topics, student-centred learning, discussion groups and debates based on current journal articles. An important practical component of the course will be centred upon the exploration of theoretical concepts using computer-based modelling approach.

Structure

2 two hour lectures plus 1 three hour practical/seminar/private study session per week.

Assessment

1st attempt: 1 three hour written exam (100%)

Resit: 1 three hour written exam (100%)

Credit Points

15

Course Coordinator

Dr J M Sternberg

Pre-requisites

ZO 3807

Overview

This course will address modern aspects of parasitology, primarily in the context of human parasitic disease.Tropical parasitisms will be discussed in depth along with current control programmes such as that of the WHO. The course will then consider recent developments and future prospects in parasite diagnosis, chemotherapy and vaccine design.

Structure

Thread I (slot A & F): 6 week course - 3 two-hour lectures per week.

Assessment

1st Attempt: 1 three-hour written examination (100%).

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Dr P J Fraser

Pre-requisites

Notes

Marine Biology background preferred. This course is open to Level 4 students who have, in the opinion of their adviser, the necessary background.

Overview

Introduces current research on bioluminescence, seal and dolphin behavioural ecology with emphasis on diving, disease, feeding and lactation, and low and high hydrostatic pressure effects on marine animals.

Structure

Thread II (slots B, C & D): 6 week course - 4 one-hour lectures per week. 2 one-hour Tutorials per week. 3 hour literature searches expected by students to expand lecture material per week.

Assessment

1st Attempt: 1 three-hour written examination (100%).

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Professor A J Mordue

Pre-requisites

Notes

Available to level 4 students.

Overview

This course will introduce ethical thinking into the pursuit of science, particularly relating to biological issues. The nature of science, its role in culture and society, ethics and ethical debate will be considered. The view will be taken that scientists cannot distance themselves from the wider implications of their work. Lectures, discussions, case studies, will be used to debate current ethical topics, such as the ethics of animal research, xenotransplantion, genetic screening, etc.

Structure

Thread I: 6 week course - 2 two-hour lectures; 1 three-hour seminar/tutorial/practical per week.

Assessment

1st Attempt: 1 three-hour written examination (100%).

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

C S Jones & L R Noble

Pre-requisites

BI 2002, ZO 3009

Notes

Only available to students in Level 4 of Zoology, Biology & other Biological Sciences.

Overview

Molecular ecology can be broadly defined as the application of molecular genetic markers to problems in ecology and evolution, encompassing studies on the genetic relationships among individuals, populations and species. As such the field covers population and evolutionary genetics, behavioural ecology, conservation biology, genetic exchange within the natural environment, and ecological aspects of environmental release of recombinant organisms. The course will introduce the genetic markers, the techniques and analysis commonly used in this field. Emphasis will be placed uopn molecular data acquisition and statistical analysis to address questions related to population structure, genetic diversity, speciation, and historical factors that have shaped the distribution and abundance of organisms. Additional topics covered will include the neutral theory and molecular clocks, the significance of the use of mitochondrial DNA for polyogenetic and phylogeographic studies, inbreeding depression, and applications to behavioural ecology (paternity and relatedness), and the release of genetically modified organisms. Case studies will be given that employ either neutral markers for inference about ecological and evolutionary processes in natural or introduced populations, or examine ecologically important genes and their products directly. An intuitive grasp of the relevant theory, applications and analytical approaches will be obtained through lectures, discussions, and case studies via poster presentations, and primary journal article readings.

Structure

Thread II: 6 weeks

Assessment

1st Attempt: 3 hour written exam (100%).

Resit (for Honours students only): Candidates achieving a CAS mark of 6-8 may be awarded compensatory level 1 credit. Candidates achieving a CAS mark of less than 6 will be required to submit themselves for re-assessment and should contact the Course Co-ordinator for further details.

Credit Points

15

Course Coordinator

Dr Martin Solan

Pre-requisites

Ocean Biology (BI 25Z2), Marine Ecology and Ecosystems (ZO 3508)

Overview

Understanding the factors that determine the distribution, abundance and diversity of benthic organisms has traditionally been the mainstay of benthic ecology. As such the field covers several disciplines including microbiology, biogeochemisty, population dynamics, behavioural ecology, technology and engineering, environmental management and conservation ecology. The course will introduce how benthic ecosystems are structured, function and how benthic organisms respond to and/or regulate the environment. Emphasis will be placed on soft sediment systems that cover ~ 70% of the planet surface and will focus on a variety of benthic habits in the intertidal, coastal sublittoral and deep sea. Additional topics covered will include biodiversity and ecosystem functioning, benthic-pelagic coupling, bioturbation, and management and conservation issues. Where appropriate case studies will illustrate key concepts by example. Relevant theory, applications and sampling/data analysis approaches will be obtained from lectures, discussions and primary journal article readings.

Structure

4 one and half hour lectures per week.

Assessment

1st attempt: 1 three hour exam

Resit: 1 three hour exam