STUDY

This module equips you with the academic skills necessary for successful undergraduate study in science. Topics include essay writing, critical reading, referencing, avoiding plagiarism, and structuring scientific reports. You will also learn how to manage time effectively, plan assignments, and engage in reflective practice. With a focus on scientific communication, this module fosters self-awareness and independent learning, helping you transition into higher education with confidence. Interactive workshops and formative tasks will support the development of a professional academic writing style, enabling you to engage meaningfully with scientific literature and evidence-based discussions throughout their degree

Mathematics is the language of science. The study of any science at undergraduate level requires an appropriate level of mathematical understanding and practical competence. The mastery of mathematics requires a supportive learning environment where key concepts are demystified and applied in a logical and orderly fashion. Aimed at those without an A-Level in Mathematics and/or 'return to learning' who might be feeling apprehensive about doing maths, this module aims to develop your skills and increase confidence in using mathematics in general, and in particular in the application of mathematics to health and life sciences. 

The use of computers is an integral part of academic study. This module will focus primarily on spreadsheet software (Microsoft Excel) in order to develop skills in generating and analysing tables of data, and producing graphs and charts to support scientific study and research. Specifically, Excel will be used to consolidate mathematical concepts presented elsewhere in this module, and gives you the opportunity to investigate the relationship between data, functions and graphs. 

An essential introduction to the field of biology, designed to equip you with the basic knowledge of biological concepts. This module will cover a broad range of topics from cellular biology to ecosystems, with a focus on the understanding the basic principles that govern life on Earth. You will explore the structure and function of living organisms, biological systems, and the key process that support life such as metabolism, genetics and evolution. 

This module provides an essential introduction to the structure and function of the human body, focusing on major physiological systems including cardiovascular, respiratory, endocrine, nervous, and musculoskeletal systems. Emphasis is placed on how these systems contribute to maintaining homeostasis and overall health. You will engage in both theoretical study and practical laboratory sessions to build confidence in anatomical terminology, physiological concepts, and scientific observation. This foundation equips you with the necessary biological literacy and practical skills to succeed in higher-level modules that explore human health, disease, and nutrition in greater depth. 

This module will provide you with the core skills required for you to develop competencies in literature searching, experimental design, scientific methods, data analysis and effective communication of research findings in an appropriate scientific format. The module is based on a series of workshops and is designed to develop the skills required for subsequent advanced modules on the course.

This module will provide you with the core practical research skills required to carry out basic scientific procedures safely and competently within the life sciences. The module is based on a series of practical sessions and is designed to develop your essential practical and mathematical research skills also required for subsequent advanced modules on the course.  

This module provides a comprehensive introduction to core biochemical concepts essential for understanding biological systems. You begin by exploring atomic structure and bonding before progressing to the macromolecules fundamental to life, including proteins, nucleic acids, carbohydrates, and lipids. Key metabolic pathways such as glycolysis, the Krebs cycle, and the electron transport chain are examined in detail. Practical sessions reinforce theoretical understanding through hands-on experience in biochemical techniques like protein extraction and gel electrophoresis. You also gain skills in detecting and quantifying biomolecules. Enzyme structure, function, and regulation are also explored, highlighting the central role of enzymes in cellular processes. Through a blended learning approach—combining lectures, virtual tools, and laboratory work—students develop scientific literacy, analytical reasoning, and practical lab competencies, providing a strong foundation for advanced bioscience modules. 

Cell Biology explores the intricate architecture and functions of prokaryotic and eukaryotic cells, focusing on how cellular processes are controlled and disrupted in disease. You investigate the cell cycle, differentiation, cell death, migration, and signalling pathways. The molecular basis of cancer and other pathologies are explored to illustrate how cellular dysregulation underpins disease. The module blends theory with practical lab experience, giving you hands-on skills in microscopy, cell staining, and culture techniques. Key microbiological methods and cell imaging technologies are also introduced. The content builds a clear understanding of how cellular components interact and adapt, enabling you to critically analyse cell behaviour across health and disease contexts. Tutorials and interactive lectures support the development of conceptual and applied understanding, preparing you for further study and research in life sciences.

Follow the evolution of life from biomolecules and the first basic cells through to complex organisms such as mammals, birds and modern plants. You will appreciate the process of evolution through natural selection, which underpins the life sciences, and learn how to classify organisms.

Explore the cutting-edge world of genetics and molecular biology in this comprehensive module. Learn how genes and genomes govern life processes, and master revolutionary techniques like PCR, gene cloning, and CRISPR. Through engaging lectures, dynamic practical sessions, and critical discussions, you’ll gain in-depth understanding of molecular mechanisms, biotechnology applications, and genetic diseases. Prepare to apply your skills in research, diagnostics, and biotechnological innovation, positioning yourself at the forefront of biological science.

Dive into the fascinating world of vertebrates! This exciting module explores the anatomy, function, and evolution of the major vertebrate groups, revealing how their incredible adaptations have shaped their survival and behaviour. Get hands-on with real specimens - learn to identify species from bones, teeth, and hair - and gain practical skills essential for careers in zoology, veterinary science, evolutionary biology, palaeontology, conservation, and natural history museum curation

Explore the fascinating interplay between microbes and the human immune system in this essential module. Covering bacteria, viruses, fungi, and parasites alongside innate and adaptive immunity, this module blends theory with practical lab sessions. Develop a solid understanding of microbial pathogenicity, immune responses, and immunological disorders. Practical workshops enhance your laboratory skills. Interactive lectures and case studies deepen your ability to analyse infection processes and immune mechanisms, underpinned by current scientific research.

Plants are key to solving today’s global challenges — from food security to climate change. This lab-focused module explores the essential roles plants play in sustaining life and shaping a more sustainable future. You'll investigate plant biology through hands-on experiments and fieldwork, covering topics like biodiversity, metabolism, genetics, and morphology. Learn how plants drive ecosystems, provide energy, and offer innovative solutions through biotechnology and carbon capture. This module is ideal for if your eager to explore the science behind the green revolution and develop the lab skills needed to address real-world problems.

All organisms, from the smallest bacterium to the giant blue whale are interconnected by a mesh of ecological interactions.  Understanding how individuals, populations and communities interact with each other and their environment is essential for successful management of natural resources and the protection of species, habitats and ecosystems.  In this module we will study fundamental ecological theory.  We will examine what controls the distribution and abundance of organisms, how energy is transferred through ecosystems and explore how the principles of ecology underpin effective conservation practice.  The module will include fieldtrips to a diverse range of habitats and introduce key surveying and ecological assessment skills.

Explore the dynamic science of how drugs and toxins interact with the human body. Integrating biochemistry, anatomy, and physiology, you will develop a deep understanding of pharmacological mechanisms, drug metabolism, toxicity, and their impacts on health. Through engaging lectures, interactive podcasts, and peer-led seminars, you’ll critically evaluate drug actions, toxicological risks, and emerging therapies. This module prepares you for careers in research, pharmaceuticals, and clinical sciences by enhancing your ability to apply interdisciplinary knowledge to real-world problems in pharmacology and toxicology

This module enhances your readiness for independent scientific enquiry by building advanced research skills essential for the final-year dissertation and future professional roles. You will refine their abilities in literature appraisal, research design, statistical analysis, and scientific writing. Emphasis is placed on ethics, funding applications, and the communication of research findings in professional formats. You will gain experience in critical evaluation, hypothesis formulation, and data interpretation through practical tasks and workshops. By the end of the module, you will be well-equipped to carry out a self-directed research project and contribute confidently to evidence-based practice or further academic study.

Effective science communication bridges the gap between scientific knowledge and public understanding. You will train in science communication with a focus on biological sciences media. You will develop the skills needed to convey complex scientific concepts to diverse audiences using various media platforms that can include filmmaking, imaging, and educational outreach. The course is particularly valuable for those interested in careers in biological science media, science education and teaching. The module will prepare you for a dissertation project in science communication and must be taken by students taking the ‘Science Communication Project’ module. 

This module explores contemporary and cutting-edge topics in Biology, examining how recent advancements are reshaping our understanding of biological systems. The module will cover a broad range of topics at the intersection of biology, environment, health, and society. You will engage with current scientific challenges developing critical thinking and analytical skills while examining the societal implications of biological research.  

Love marine wildlife? This is the module for you. Designed for students passionate about the ocean but more interested in ecology and conservation than pure biochemistry or oceanography, this module dives into the biology and conservation of marine mammals, fish, and aquatic ecosystems. You’ll develop practical skills in assessing fish populations and aquatic habitats, while exploring real-world issues in marine conservation — from global fisheries policy to the roles of local and international agencies in protecting marine life. With hands-on learning and work-based opportunities, this module is ideal for anyone aiming for a career in marine conservation, ecological consultancy, or aquatic resource management

Industrial chemicals are an essential part of modern day living. We use these chemicals to fertilise our crops, to prevent crops from being overwhelmed by pests, as preservatives in food, as combustion fuels to power our vehicles, for industry, for heat. Walk anywhere in your local town and you will witness industrial chemical processes releasing waste chemicals into the environment. While some of these waste chemicals are harmless, many have detrimental effects on the environment, and therefore on human and wildlife health. Understanding what these effects are and how they can be mitigated is the core focus of Ecotoxicology.

In this module we will learn about the different types of chemical contaminants, their effects on wildlife and humans, and about how chemical contaminants can be assessed and made safer. Industrial pollution is one of the ‘big five’ causes of species extinctions, therefore understanding ecotoxicology is essential for wildlife conservation. During this module you will study the molecular, cellular, and physiological effects of common inorganic and organic pollutants and gain experience of a range of laboratory-based toxicity tests. We will use modern techniques to test the effects of toxic chemicals in the lab and will analyse chemical contamination and its effects on wildlife in the field. Learning these skills is crucial for students interested in further careers in environmental consultancy and lab-based research

As part of University unique partnership with Colchester Zoo, we will participate in management and research at the UmPhafa Reserve, and nearby reserves in South Africa. You will be able to conduct species surveys, habitat assessments, and get involved with practical conservation management, developing practical skills and gaining a deeper understanding of the challenges and strategies involved in conserving large animals, studying genetics and disease, studying thermoregulation. This residential field course provides the opportunity to develop these skills in a comfortable, supportive environment. An amazing opportunity to study iconic African large mammals in their natural environment. This module is heavily subsidised but is expected to incur an additional cost to you for flights

This module introduces you to the essential principles and applications of bioinformatics, combining theoretical knowledge with practical skills. You will learn how computational techniques are applied to the analysis of biological data, including sequence alignment, gene prediction, structural bioinformatics, and systems biology. Emphasis is placed on the use of bioinformatics tools and databases, alongside the development of critical thinking to analyse biological questions using computational methods

Biotechnology is the use of technology to manipulate biological systems and organisms to create products like medicines, food and energy. Biotechnology is rapid evolving with significant potential to address global challenges and improve the quality of life of people around the world. However, it also poses ethical and societal challenges. This module aims to provide students with an in-depth understanding of the theoretical and practical aspects of modern biotechnology. Students will explore the organisms, the techniques, and ethics applications of biotechnology in the various industry and fields (e.g. medicine, agriculture, industrial, environmental management) 

This module introduces you to the principles and methods of epidemiology, providing you with the knowledge and skills to critically evaluate the distribution, determinants, and control of diseases in populations. The module will cover both descriptive and analytical epidemiological methods, focusing on their application to public health. You will gain insight into study design, data analysis, bias, confounding, and causal inference, and develop an understanding of the key factors influencing the spread of infectious and non-infectious diseases

Explore the fascinating journey from a single cell to a complex organism in this module, covering key developmental stages such as fertilisation, blastocyst formation, gastrulation neurulation and somitogenesis, comparing different relevant models. Dive into the world of stem cells—understand their types, characteristics, applications in tissue engineering, and therapeutic potential while debating ethical considerations and regulation frameworks. Engage with interactive lectures, group work, and cutting-edge research techniques. This module sharpens your ability to critically analyse scientific evidence and work effectively in teams, preparing you for future professional challenges and innovations, and informing you about the latest diagnostic and therapeutic avenues.

The Research Project (Dissertation) will provide an opportunity for individuals to develop an area of scientific interest arising from either course-based or work-based experience. The focus of the dissertation will be a research-based study, central to which will be some form of hypothesis testing and problem solving.  It will enable you to utilise practical, intellectual and decision making skills in novel situations. The dissertation will provide a mechanism for the development of autonomy and self-direction whilst undertaking a problem solving approach to a research topic.  

Science communication is vital for making complex issues accessible to the public. Media tools like filmmaking, photography, and social campaigns shape public perceptions, raise awareness, and drive change. Educational outreach in schools, NGOs, and social platforms fosters environmental stewardship by making science more relatable. Effective communication strategies help combat misinformation and inspire positive change. 

For pursuing careers in science media, education, or teaching, these skills are essential for influencing public attitudes and policy. This module provides hands-on experience in designing and delivering impactful science communication projects.  You will produce an independent piece of science communication with a focus on Biology research topic or issue. This may take the form of filmmaking, imaging, a social media campaign or other media delivery, or can include educational outreach or teaching. The product may be delivered in the context of peers, a zoological or wildlife NGO, or in schools. The dissertation will report on the planning and delivery of the work, the product produced and a quantitative and qualitative assessment of the delivery of the project. 

It is required that the you must have taken the ‘Science Communication and Media’ module.