The modules described here are the ones that we currently offer and will give you a good idea of the range of subjects that we teach. However as our undergraduate teaching is research led and we constantly review our teaching to ensure that the modules that we offer are up to date there may be changes to module titles and content.
Please note: The modules listed on the website for this programme are regularly reviewed to ensure they are up-to-date and informed by the latest research and teaching methods. Unless indicated otherwise, the modules listed for this programme are for students starting in 2017. We aim to publish any changes to compulsory modules and programme structure for 2018 entry by 1 September 2017 and recommend you refer back to this page shortly after that date for any changes. On rare occasions, we may need to make unexpected changes to compulsory modules after that date; in this event we will contact offer holders as soon as possible to inform or consult them as appropriate.
In Introduction to Evolution and Animal Biology you will study the diversity of animal species, and their adaptations, including complex behavioural strategies, reproductive and survival strategies and how these can be understood in the context of evolution. Along with all of the other students on the Biological Sciences programmes you will take other modules (listed below) designed to introduce you to all aspects of this broad subject discipline.
First year modules
Fundamentals of Biochemistry - Fundamental biochemical processes taking place inside cells
Genetics I - Storage of genetic information, gene expression and regulation, mitosis and meiosis, gene linkage and chromosome mapping.
Introduction to Microbiology | Watch video - Broad introduction to microbiology with a focus on infectious disease, covering bacteria, fungi, protists, archaea and viruses
Cell Biology and Physiology - Tissues, organelles, reproduction and development.
Ecological Concepts and Plant Sciences - This module provides a broad overview of the biology of our environment, including topics such as climate change, conservation, ecophysiology and cell biology of plants.
Widening Horizon Module (WHM) - allows you to explore content from other academic programmes of this university in the form of a stand-alone module. More information on WHMs can be found here.
The key second year module for zoologists is Animal Biology; this module takes an evolutionary and comparative approach to the study of animal behaviour and its underlying mechanistic control by the nervous system. You choose 4 other optional modules from the list below: Ecology, Cell and Developmental Biology and a field course, particularly Adaptations to Aquatic Environments, are good choices for a zoologist.
Second year modules
Key second year module:
Animal Biology - This module explores how the central nervous system translates sensory stimuli to behaviour. Topics include comparative neurobiology, biological timekeeping, sensory biology, learning and behaviour and others.
The final year is made up of a combination of taught modules and independent study. It is here that the link between the teaching and the research in the school is particularly important. The final year allows choice from a range of specialised topics in zoology, which are informed and inspired by the research being carried out in the school.
Central to the final year is the research project, which makes up one third of the credits earned in the final year. This allows you to join one of our many research groups, providing the fascinating opportunity to experience research first hand and to contribute to current research projects.
Project work is not limited to the laboratory; some students will do more ecology- or behaviour- based projects involving field work that may be in a UK zoo or further afield.
Final year modules
Choose a research project and at least 2 final year modules from:
Cellular Neurobiology * | Watch video - Neuronal function and neural development, synaptic function, transmitter receptors and ion channels.
Adaptation to changing environments - This ecology-oriented module examines behavioural, physiological and molecular mechanisms of adaptation to environmental stress. It examines animals’ mechanisms to respond to changes occurring on varying timescales and over diverse geographic areas
Living in Groups: Collective Behaviour in Animals | Watch video - This module explores features and rules of group behaviour in animals. Introducing formal concepts such as Social Network Analysis, the module defines fundamental rules that govern collective behaviour, and how individuals partake in making and communicating decisions.
Example optional modules may include:
Bacterial Gene Regulation - How genes are switched on or off in response to external stimuli, how control of gene expression can be explored experimentally.
Eukaryotic Gene Expression - Control of gene transcription, chromatin structure, pre-mRNA processing, mRNA translation and degradation.
Applied and Environmental Microbiology - Microbial communities, how they compete, and behave socially.
Genetics III: Genetic Variation in Humans and other Eukaryotes - Genetic variation in humans and model organisms, dynamics of chromosome organisation during mitosis and meiosis, genome instability.
Plant Science in the 21st Century | Watch video - Plant growth and development in relation to food supply, biofuels and climate change. Research-based module with emphasis on analysis of the current research literature.
Structures of Destruction - Bacterial and viral pathogens explored from the perspective of their molecular structures, protein misfolding and amyloid diseases.
Cancer Biology - Regulation of cell division and aberrations in malignant tumours, genetic bases of tumourigenesis, programmed cell death.
Human Evolution - Genetics and genomics, development of bipedalism, development of society and how humans’ activity applies selective pressure on the evolution of HIV.
Molecular and Cellular Immunology | Watch video - Evolution of the immune system, innate immunity, cell biology of immunity, structural basis of discrimination between self and non-self.
Biodiversity and Conservation Management - Examining the scientific basis of conservation, the threats facing biodiversity and how those threats are assessed, why population size is critical and how biodiversity is maintained either in nature or at a backup location.
Conservation Practice: Genes to Ecosystems - Examining the scientific basis for conservation and its genetic foundation.
Molecular Basis of Bacterial Infection | Watch video - Evolution of bacterial virulence, antibiotics and antibiotics resistance, genomic data in analysing pathogenicity.
* This module is under review and content will likely change from 2018/2019 onwards