Food Science and Nutrition MSci

Nutrients are vital to human and animal health, but how do they work? In this module, you’ll be given a comprehensive introduction to the key concepts in the field of nutrition. Depending on your interests, you can study human or animal nutrition, or both. Understand how the food we eat influences our health. Explore how the food eaten by animals impacts on food production and the global food system.

You’ll study:

• micronutrients, including vitamins and minerals
• macronutrients, including proteins, carbohydrates and fats
• metabolism, and how nutrients give us energy
• the influence of nutrition in diseases such as cancer and diabetes

During processing, the material properties of the food are altered; this directly affects the quality of the food product in terms of its colour, flavour and texture. You'll be introduced to the properties of food materials both raw and processed, with a particular focus on the chemical and physical nature of carbohydrates, proteins and lipids. You’ll have a weekly four hour lecture supported by three hours of practicals each week.

Have you ever wondered how some crops can resist diseases? This module provides you with the fundamentals for understanding biochemical processes in living organisms. You’ll be introduced to the basic structure, properties and functions of the four key biological macromolecules: nucleic acids, proteins, carbohydrates and lipids. You’ll also look at the metabolic pathways occurring in cells, such as respiration, photosynthesis and the biosynthetic pathways for the key macromolecules. In addition to lectures, you’ll have practical laboratory sessions to learn how to use key biochemical techniques for the separation and analysis of macromolecules and measurement of the metabolic process.

Learn how our body reacts when it first senses the presence of food, and how hormones are activated in response to hunger and food consumption. The microbiome and gut health will be covered, both in the healthy state and when undesirable reactions occur, leading to disease. You will explore how certain foods can impact the body, affecting our cognitive and physical health.

What is food quality and how can it be defined for each commodity? How does it develop then deteriorate? What methods (chemical, physical or biochemical) can be employed to control quality and slow down deterioration? In this module you will learn about the properties of major food commodities including cereals, fruit, coffee, herbs and spices, sugar, fish and milk. You will examine the strategies employed to store and/or prepare material for food manufacturing and transport and learn about the global food supply chain. You will have lectures and small group work.

The major aim of this course is to provide you with the basic knowledge of bacterial cell structures and growth and to reveal the mechanisms that allow bacteria to respond to their environment.  Students will also be taught how to handle data commonly used in microbiological experimentation and be given training in the basic practical methods required for all microbiological and food microbiological laboratory work. You will have weekly lectures and practicals.

Modern agriculture is a dynamic, fast-paced and high-tech industry. In this module, you’ll explore practical agricultural systems used by commercial UK farms. Designed for students with a farm or non-farming background, you’ll get to understand the fundamental concepts of agricultural systems within the context of contemporary markets, policy and research. Exact topics covered in the module will vary according to the issues affecting the agricultural industry in any one year, but examples include: dairy production, arable production, soils, agri-environmental interactions, labour and machinery management and farm business systems. You’ll have lectures from academics currently researching these fields and will visit the University Farm and external farms to see what you’ve learnt in practice.

The tutorials component of this module is intended to enhance your transition into university and guide you through the academic expectations of your degrees. This part of the module is spread throughout the year and includes three generic sessions on ‘study skills and plagiarism’, ‘study opportunities’ and ‘career and personal development’, and a series of small group tutorials with your academic tutor to develop generic skills such as finding crucial information, oral presentation, data handling and presentation of results, preparation for examinations, and essay writing skills relevant to biosciences.

The Foundation Science content has three elements: chemistry, maths and statistics and physics. The chemistry element will include: elements and periodic table; atomic structure and bonding; intermolecular attractions, chemical equilibrium; acids and bases, oxidation and reduction; rates of reaction; basic organic chemistry, isomerism, and rings.  The Maths and Stats element will include: calculations, algebra, functions and relationships, powers, logarithms, descriptive statistics, significance, regression and presenting data. The Physics element will include: units and dimensions; power, energy and heat; light and the electromagnetic spectrum; attenuation/absorption; and radioactivity.

There is also an IT element, which interfaces with generic IT training for undergraduates provided within the University.

Be introduced to the key ingredient transformations and manufacturing steps required to safely produce food microstructures such as bread, yoghurt, and chocolate.

You'll explore how we measure sensory properties and consumer liking of a food product, providing you with an opportunity to gain a Foundation level Certificate in Sensory Science from the Institute of Food Science and Technology.

You’ll study:

• the senses and their role in assessing the sensory properties of products
• sensory evaluation, including panel selection, training and sensory protocols, sensory data analysis and consumer methods for the evaluation of products
• the role of ingredients and processing steps in creating food products
• how the food industry ensures final product quality

Students also have the option to sit the Institute of Food Science and Technology Sensory examination leading to a Foundation Certificate in Sensory Science, for which the course is accredited. Following on from the sensory evaluation of food, the manufacture of food products is addressed from three major perspectives in this module: material functionality, manufacturing process and quality of the final product. Material functionality includes the physiochemical properties of the material as well as the functionality of each ingredient in creating the final food product microstructure. Manufacturing process includes the unit operations required to transform the materials to a food product as well as the effect of these operations on each ingredient. Quality of the final product to include quality control measurement, an appreciation for the safety of the food product and sensorial properties.

This module considers food safety and food quality. It covers the full spectrum of potential foodborne illness, mechanisms and techniques of food preservation. You'll cover the legislation and regulatory environment for the production of commercially viable foods. Specific areas include: 

• Potential foodborne illness and spoilage microorganisms found in the food chain

• Nutritional aspects of food preservation

• Product shelf life and techniques and methods that target extended shelf life

• Theory and practice of major food preservation techniques

Through problem-based learning you will develop skills in diagnosing and solving challenges relating to the manufacture, distribution and/or storage of food products. Most of the scenarios are sourced from real-life industry problems. You’ll have a full day session each week to study for this module.

The food we eat determines the functioning of our bodies. But how does metabolism influence whether this leads to health or disease?  You will explore the nutritional biochemistry of metabolism. Looking at healthy outcomes, and factors associated with chronic diseases. These include obesity and diabetes. You will investigate the fed, fasted and starved states. You’ll understand how the body uses macronutrients in different physiological and pathological situations.

You’ll study:

• metabolism, nutrition and exercise in sporting performance
• disorders of metabolism and the therapies used to treat them
• cardiovascular disease risk factors
• obesity and diabetes, from a metabolic perspective

Hormones carry signals between different parts of the body, but how do nutrients determine the interaction between hormones and health? In this module, you’ll carry out an in-depth study of the mammalian endocrine system. You'll look at this from cellular, molecular and anatomical perspectives. You'll explore the role that hormones play in controlling homeostasis and metabolism. We use the latest published nutritional research. You'll study appetite regulation and how endocrine systems determine what, how and when we eat.

You’ll study:

• Nutritional energetics and energy expenditure
• Appetite regulation by the endocrine system
• Homeostasis in relation to the diet

This module will provide you with an opportunity to use your initiative and knowledge to undertake an original research project under the supervision of an individual member of academic staff. You will design the study, gain familiarity with the techniques, undertake data collection, debate ethical issues and where appropriate safety procedures relevant to the topic. Examples of recent research projects include:

• omega-3 oils from sustainable non-fish sources
• the impact of UV-C treatment on nutritional composition of fruit and vegetables
• does the antibody specificity to food proteins from maternal milk reflects the serum levels?
• do dietary polyphenols reduce blood pressure?

Flavour plays an important role in our enjoyment of food, consumption experience, repeat purchase and health and wellbeing. It can be measured by both scientific instruments and sensory panels. But what are the differences between the two, and how can we use them to solve current challenges in the food industry?

In this module, you will study:

• the chemistry, physics and physiology of food flavour
• advanced methods to measure sensory and consumer perceptions of food
• factors that affect our sensory perception and food choice, like genetics
• a range of analytical techniques (APCI-MS, GC-MS, GC-O and HPLC-MS) for flavour analysis
• dynamic flavour release and its role in eliciting flavour perception

You will respond to a current food industry challenge and apply the advanced knowledge you have gained from this module to design and present a realistic scientific solution to a technical brief.

Gain exciting insights into our current research and how it is shaping current and future food formulations and processes. Seminar topics include:

• flavour and sensory science
• properties of biopolymers
• sustainable nutrition
• salt reduction
• engineering new food structures

From these seminars you will identify an area of study that interests you the most for your final year research project. Through discussions with the academic you will create a title for your research project, which you will undertake in your final semester on your course.

Innovation is crucial within food science. It involves translating scientific, engineering, and technological insights into nutritious, sustainable, and commercially viable foods. This module combines lectures from world-leading internal and external experts, with a practical project, where you will work in a group to create a new food product. 

In this module you will study: 

• food factory operations and engineering   
• new product development, brands and consumer trends
• packaging, unit operations, process and quality control 
• microbiological testing, HACCP and compliance
• intellectual property and entrepreneurship

You'll then work with an industry partner to develop a new food product. Using our Food Processing Facility you'll explore all areas of product formulation, manufacture, quality control, microbiological safety analysis, sensory and consumer assessments.

The module culminates with our New Product Development Showcase, where you can present your work to external visitors, industry partners and members of the broader university community. 

Good nutrition is needed to maintain health at any age. So how do nutritional requirements change as we get older? In this module, you’ll explore nutrition throughout the life course. You'll identify the nutritional needs of different age groups. Starting with pre-conception, to pregnancy, infancy, childhood, adolescence, adulthood and into old age. You'll understand the role of optimal nutrition in preventing disease and promote healthy diets.

You’ll study:

• developmental origins of health and disease
• risk factors for nutritional disease at different stages of life
• epidemiological methods used to identify public health challenges
• nutrition in human physiological development across the life course

What are you going to do after your degree? Options include:

• Technical roles
• Research and development
• New product development
• Further study
• Specialised areas, such as flavour or sensory science or legislation

Through a range of workshops you will gain an awareness of what opportunities exist, identify your strengths and interests and practice how to manage your transition into your next steps.

The module has opportunities to engage with industry guests, alumni and your peers to support you in making good decisions about your future career.

This module will train you in the planning, execution and reporting of an independent advanced level research project. The module will help develop the skills associated with planning, recording and executing an individual research project; presenting research both orally and visually to an audience of peers; writing scientific papers; effective time management and assimilating new research skills associated with a specific project.

The module aims to develop your skills in analysis and writing of research proposals. Specific areas covered include: communicating with awarding bodies (how to develop a research idea and write a grant application) and peer review of research proposals. You will spend around four hours per week in lectures studying for this module.

This module explains the major principles and techniques of statistical analysis of research data without becoming too involved in the underlying mathematics.  It explains the importance to collect data in an appropriate and planned manner for later analysis. There are two routes through the module; one focusing on crop improvement and one focusing on more general issues. You will gain an understanding of the major analytical techniques available, and how they relate to each other, and have developed abilities in experimental design, data analysis using appropriate software and presentation of results.

Project management skills are a highly transferable skill directly relevant to work. The module covers the fundamentals of project management:

• project lifecycles
• leadership in project management
• managing risk in projects
• analysis of project successes and failures
• project management software

You will produce a documented project management outline tailored to your research project. You'll identify the key constraints, bottlenecks and milestones. You'll produce a project management visualisation diagram such as Gantt or PERT chart. You'll present an interim verbal report to your supervisors and the module convenor to rehearse such reporting skills.

This module aims to equip you with the knowledge and skills that you need to communicate confidently with a wide range of stakeholders about the research that you are engaged in and the contribution that it makes to society.

This module covers a series of business and legal topics that are directly relevant to those working in the global food industry. In particular, those trading ingredients and finished products on a management level. The topics cover:

• Leadership and management in a food industry
• Food economics and business
• The global food markets
• Innovation management in the food industry
• Business finance
• Dealing with a food crisis
• Risk management
• Import and export food
• Developing a sustainable commercial supply chain for a proprietary food ingredient
• Food waste management
• Digital Technology and Food Manufacturing