School of Biological and Marine Sciences

BSc (Hons) Marine Biology and Oceanography

Around 70% of our planet is ocean with an average depth of 3000m. To understand the biology of this vast area, we must also understand the oceans themselves. Marine biology and oceanography covers topics such as how animals can thrive in extreme environments such as the deep sea, how currents influence animal migrations, and how climate impacts marine life. Teaching uses both small and large research vessels, providing you with an unrivalled experience of open ocean marine biology.

Marine biology courses

This is one of three marine biology undergraduate courses we offer, which are closely integrated.
Which marine biology course should I choose? 

Key features

  • Ranked top 15 in the UK and top 100 globally for Earth and Marine Sciences in the QS World University Rankings 2023
  • Explore the marine life of the open ocean and deep-sea and how physical and chemical processes drive the biology and ecology of marine species.
  • Study marine life in the wild with access to the University’s research vessels based in the Plymouth Sound Special Area for Conservation and our Marine Station.
  • Benefit from our reputation as an international centre for marine research. Our expert teaching staff are active researchers and enthusiastic specialists in their fields.
  • Study marine life in the wild with access to the beautiful and varied Devon and Cornwall coastline. A recent World Wildlife Fund report highlighted the South Devon coast – which can be reached on foot from campus – as the area of highest marine biodiversity in the UK.
  • Deepen your experience through practical field and laboratory work, linked to lecturers – something regularly praised by our external examiners. Our specialist facilities include advanced molecular and behavioural laboratories, a seawater aquarium, environmentally controlled labs and a bespoke marine station.
  • Increase your knowledge and apply your skills in an international setting, with two residential field courses (currently in France and Sweden), and experience research on a large ocean-going research vessel.
  • Gain invaluable experience on a six or 12-month international placement during your third year, or working in a local host organisation alongside your studies. 
  • Develop a wide range of skills that will prepare you for your chosen career and make you attractive to employers – learn how to ask and answer research questions, and how to apply this skill to conservation challenges in the real world. There is also the opportunity to gain the HSE PRO SCUBA qualification, for those with a suitable background in diving.
  • Immerse yourself in Plymouth’s marine research culture. Alongside the University the city is home to several other world-leading establishments, one of the largest concentrations of marine science study in Europe. Take opportunities to gain extra experience working in one of the marine organisations located in Plymouth, alongside your studies.
  • Take the opportunity to contribute to the latest research and advances in the field – many of our students have their research projects published in leading international peer-reviewed journals.
  • Choose from a wide range of subjects that most interest you and are best suited to your intended career path, building your own specialisms and skills.
  • LABplus is a unique open access laboratory and resource centre designed for students studying science and engineering courses. The lab provides a flexible workspace, computing facilities, specialist software, access to microscopes, microscope cameras and bespoke resources.

Course details

  • Year 1

  • In your first year, you’ll get to grips with key biological and oceanographic themes, with topics ranging from biodiversity and ecosystems to evolution and microbiology. Through a mixture of lectures, small group tutorials, laboratory and fieldwork, you’ll begin to acquire skills that will boost your employability and help your career development. You’ll also benefit from intensive field courses, introducing you to the processes of scientific investigation, data collection and analysis.

    Core modules

    • Cells: The Building Blocks of Life (BIOL131)

      The cell is the basic building block of life. This module introduces you to the structure of prokaryotic and eukaryotic cells and the cell biology that allow different cells to do different things including some highly specialised cells of multicellular organisms. The module will then focus on the molecular basis that underlies cell function introducing you to the metabolic pathways and molecules that allow cells to work.

    • Introduction to Marine Biology (MBIO120)

      This module will introduce students to marine biology covering aspects such as marine ecosystems, organisms and oceanography. This will also start to develop a range of core skills and confidence in effective written communication, information technology (including use of peer-reviewed literature), and data handling skills. It will also start to develop field and id skills and taxonomy skills and safe fieldwork practices.

    • Marine Biology Field Course (MBIO123)

      This module develops core skills in effective oral and written communication and provides a toolbox of essential material on numeracy and statistics to address quantitative questions in Marine Biology. During an intensive field course, you will immerse yourself in practical aspects of marine biology, asking questions based on observations and then formulating appropriate hypotheses that can then be tested.

    • Evolution and Behaviour (MBIO161)

      Covers the principles underpinning evolution with a special focus on animal behaviour as adaptive traits. Module covers concepts of the genetic basis of inheritance, population genetics, selection, adaptation, function, fitness and speciation. We will use key examples and practical classes to illustrate key ideas and consider the development of some of the ideas in a historical context.

    • Biodiversity (MBIO162)

      This module introduces the scientific study of biodiversity. Starting with the question what is biodiversity? students go on to explore where it is, how it is distributed across the Earth, and how we value it. This leads to a discussion of how biodiversity is threatened and how we conserve it. Embedded in this big picture is an introduction to the biology of some key taxa that characterise biodiversity.

    • Physical and Chemical Processes of the Ocean (OS102)

      This module provides an introduction to the main physical and chemical processes occurring in the world's oceans and a foundation in key aspects of underpinning science and mathematics.

  • Year 2

  • In your second year, you’ll develop a deeper understanding of the biology and ecology of marine organisms and chemical and biological oceanography. You will receive hands-on, practical training in marine survey, underwater sampling, and species identification, skills that will be honed during the field course, currently in Sweden, where you will undertake field research in deep water from an ocean-going research vessel.

    Core modules

    • Biological Oceanography Field Course (MBIO227)

      A residential field course providing knowledge of sampling offshore marine systems from research vessels. A range of ecosystems will be investigated primarily with respect to their biological component but emphasis will also be placed upon understanding the biological significance of major physico-chemical parameters in the study area.

    • Biology of Marine Organisms (MBIO228)

      This module will provide an introduction to fundamental aspects of the biology of marine organisms. Particular attention is paid to the diversity of form and function within key groups of marine chloroxygenic organisms and animals and how this allows them to inhabit different marine environments.

    • Global Ocean Processes (OS201)

      This module explores the large-scale distribution and characteristics of water masses and biogeochemical properties throughout the global oceans. Physical mechanisms that drive the global circulation in a changing climate will be investigated alongside their role in determining the transport of chemical constituents throughout the open ocean and in shelf seas. The life cycles and distribution of marine organisms and the structuring of marine foodwebs will be explored.

    • Methods in Marine Biology, Coastal Ecology and Oceanography (MBIO229)

      Provides the core skills and techniques to equip students to perform field studies in Marine Biology, Coastal Ecology and Oceanography. Introduces appropriate methodologies for the collection, handling and analysis of data; the scientific principles underlying experimental design and the effective communication of scientific information.

    Optional modules

    • Ecology of Shallow Water Marine Habitats (MBIO217)

      Shallow water marine habitats represent some of the most diverse and productive habitats on earth. This module provides an overview of the key factors influencing their ecology and will also consider the biology of the organisms therein, the scientific study of shallow water habitats and the analysis, evaluation and communication of marine ecological data.

    • Marine Molecular Biology (MBIO221)

      The application of molecular techniques in marine biology has revolutionised our understanding of marine life, from individuals to ecosystems. This module provides a foundation in the concepts and techniques underlying these developments.

    • Waves, Tides and Coastal Dynamics (OS204)

      This module provides an introduction to the characteristics of ocean waves and focuses on how waves and tides interact with the coast and drive the coastal processes that result in shoreline erosion and accretion.

    • Scientific Diving (OS207)

      This module allows suitably qualified students (HSE SCUBA or equivalent) to develop industry and research-relevant skills in measurement and monitoring in the underwater environment using professional SCUBA and related techniques. These will then be applied in a multi-disciplinary context to the planning, execution, analysis and reporting of a field-based sampling activity.

    • Marine Remote Sensing (OS209)

      This module introduces the theory underlying remote sensing using introductory lectures and laboratory practicals. An opportunity to apply the theory in the remote sensing context is provided by boat and computing work. Remote sensing imagery is introduced early in the module and students work on image enhancement, analysis and interpretation in the latter part of the course, supported by theory lectures and/or workshops.

  • Optional placement year

  • During your third year, you’ll have the opportunity to do a work placement, for six or 12 months. Alternatively you’ll be able to choose a work-based learning module, alongside your studies.

    Core modules

    • Marine Biology related Placement (BPIE336)

      An optional six- to twelve-month placement provides a valuable complement to your programme and is an opportunity for you to widen your employment experience and to consolidate the first two stages of study. Whether you work with conservation organisations, consultancies, research institutions or a company of your choice, you can take the opportunity to gain valuable experience and learn new skills to prepare you for the final stage of your degree and employment after graduation.

  • Final year

  • Your final year of study provides the opportunity for you to focus on your chosen areas of interest. You’ll conduct an extensive personal research project, applying the skills and methods you've learnt. You’ll also choose from a range of modules driven by the research interests of our staff, again giving you the opportunity to specialise and tailor your work towards your career goals, while studying at the cutting edge of marine biology.

    Core modules

    • Biological Oceanography (MBIO341)

      This module provides a study of the key physical, ecological and organismal processes in the marine environment and introduces a range of biological studies in applied marine science.

    • SoBMS Project (PROJ302)

      This module provides an opportunity to undertake a research project on an individually developed topic and experience the entire process of scholarly research: from problem formulation, through the design and execution of an investigation, analysis of results and presentation of outcomes. It will develop skills in independent working and self-awareness in relation to personal, professional and academic development.

    Optional modules

    • Ecotoxicology (BIOL311)

      You will gain a detailed understanding of concepts and principles of environmental hazard and risk assessment with an emphasis on the evaluation of the ecotoxicological methods used in the assessment of pollutants on the aquatic environment.

    • Marine Ecology (MBIO327)

      This module considers the processes and mechanisms that affect the development and structure of marine communities through a discussion of the current evidence base, recent concepts and theories relating to multiple life histories stages of marine species from around the globe and experimental testing of behavioural processes. This will be followed by an investigation of the nature and significance of key processes in structuring marine communities.

    • Ecology and Conservation of Marine Vertebrates (MBIO339)

      You will understand the risks of depletion of marine vertebrates owing to fishing, industrial development, pollution and habitat degradation. You will examine the ecology of these organisms in their natural environments and will explore methods for surveying, monitoring and managing populations and species.

    • Fish and Fisheries (MBIO363)

      This module examines aspects of fish biology and fisheries science in relation to real-world challenges of managing fish populations sustainably. This is an integrative module, which builds on fundamental principles in fish physiology, behaviour or ecology, and examines how these underpin frameworks for fisheries science.

    • Ocean Dynamics (OS303)

      The module provides an introduction to dynamical oceanography with emphasis on the large- and meso-scale circulation in the world ocean and shelf seas. Topics include geostrophic and wind driven currents, eddies, formation of fronts, upwelling, interactions between water masses, exchanges between shelf and deep seas. Emphasis is placed on quantitative understanding of physical processes and the analysis of field data.

    • Marine Ecosystem Conservation (OS304)

      From tropical mangroves to temperate pelagic waters, marine ecosystems around the world face a variety of threats due to human activities and resource pressure. This module will examine threats to a range of marine and coastal ecosystems and explore methods for management and conservation. We will explore methods for surveying and monitoring marine ecosystems and learn about the ecological consequences of human impacts.

    • Marine Pollution and Environmental Change (OS309)

      This module will consider the sources, transport, sinks and impacts of a wide range of pollutant types (including nutrients, trace elements, sediments, anthropogenic pollutants and carbon dioxide). Practical field techniques will be introduced and used to assess the environmental condition of estuarine waters. Emphasis will be placed on critical evaluating the links between human activities and marine water quality.

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

The following programme specification represents the latest course structure and may be subject to change:

BSc Marine Biology And Oceanography programme specificaiton 2055

The modules shown for this course are those currently being studied by our students, or are proposed new modules. Please note that programme structures and individual modules are subject to amendment from time to time as part of the University’s curriculum enrichment programme and in line with changes in the University’s policies and requirements.

Entry requirements

UCAS tariff

120 - 144

A level applicants
120-144 points from a minimum of 3 A levels, including Biology and preferably further relevant Science subjects. Qualifying relevant science subjects are: Applied Science, Applied Marine Science, Chemistry, Environmental Science, Environmental Studies, Geography, Geology, Mathematics, Physics, and Psychology. General Studies is excluded. Points can include a relevant Extended Project (EPQ) but must include 3 A levels.
International Baccalaureate
30-36 overall, to include Higher Level Biology and preferably further relevant Science subjects. Qualifying relevant Science subjects are: Chemistry, Environmental Science, Geography, Geology, Mathematics, Physics and Psychology. English and Maths are accepted within as GCSE equivalent at Higher Level Grade 4 or Standard Level Grade 5.
BTEC RQF National Extended Diploma/ QCF Extended Diploma
A typical offer would be DDM, depending on the BTEC and units studied. Please include details of units in your UCAS application or contact Admissions for further advice.
BTEC National Diploma modules
If you hold a BTEC qualification it is vital that you provide our Admissions team with details of the exact modules you have studied as part of the BTEC. Without this information we may be unable to process your application quickly and you could experience significant delays in the progress of your application to study with us. Please explicitly state the full list of modules within your qualification at the time of application.
Access course
Pass an Access to HE Science course with 60 credits overall, to include 45 credits at Level 3, of which 30 credits must be at distinction and 15 credits at merit or higher. Must include a minimum 15 credits in biology units, plus 15 credits in other relevant subjects (includes mathematics, physics, chemistry, environmental science/studies, applied science, geography, geology, technology or psychology). An interview is usually required.
GCSE
All applicants must have GCSE (or equivalent) English and Mathematics at grade C / 4 or above.
International qualifications
We welcome applicants offering a wide range of international qualifications. Applications are considered on an individual basis, depending on the subjects studied.
Other qualifications
Applicants with other qualifications should contact the Admissions Office for advice.
We welcome applicants with international qualifications. To view other accepted qualifications please refer to our tariff glossary

Fees, costs and funding

Student 2023-2024 2024-2025
Home £9,250 £9,250
International £16,300 £18,100
Part time (Home) £770 £770
Full time fees shown are per annum. Part time fees shown are per 10 credits. Please note that fees are reviewed on an annual basis. Fees and the conditions that apply to them shown in the prospectus are correct at the time of going to print. Fees shown on the web are the most up to date but are still subject to change in exceptional circumstances. More information about fees and funding.

Additional costs

This course is delivered by the Faculty of Science and Engineering and more details of any additional costs associated with the faculty's courses are listed on the following page: Additional fieldwork and equipment costs.

Tuition fees for optional placement years

The fee for all undergraduate students completing any part of their placement year in the UK in 2023/2024 is £1,850.
The fee for all undergraduate students completing their whole placement year outside the UK in 2023/2024 is £1,385.
Learn more about placement year tuition fees

Undergraduate scholarships for international students

To reward outstanding achievement the University of Plymouth offers scholarship schemes to help towards funding your studies.

How to apply

All applications for undergraduate courses are made through UCAS (Universities and Colleges Admissions Service). 
UCAS will ask for the information contained in the box at the top of this course page including the UCAS course code and the institution code. 
To apply for this course and for more information about submitting an application including application deadline dates, please visit the UCAS website.
Support is also available to overseas students applying to the University from our International Office via our how to apply webpage or email admissions@plymouth.ac.uk.

Progression routes

International progression routes

The University of Plymouth International College (UPIC) offers foundation, first-year and pre-masters programmes that lead to University of Plymouth degrees. Courses are specially designed for EU and international students who are missing the grades for direct entry to the University, and include full duration visa sponsorship. You can start in January, May or September, benefitting from small class sizes, top-quality tuition and 24/7 student support.
Find out more at plymouth.ac.uk/upic or contact our team at info@upic.plymouth.ac.uk

Location

Plymouth: the place to be for marine biology.
We’re lucky to have an incredibly diverse range of rich coastal habitats around the Devon and Cornwall coastline.
Aerial view of Plymouth Sound

Studying marine biology at Plymouth

Professor Richard Thompson OBE describes the variety of marine courses available to study at the University of Plymouth. 

Welcome to marine biology at Plymouth

See what it's like to study marine biology at the University of Plymouth.
Plymouth students working on a group project

Study sessions for students by students: Peer Assisted Learning Scheme (PALS)

To complement your formal learning we offer regular sessions that provide the opportunity for you to learn with and from your peers. Share knowledge, discuss ideas, and ask questions in a relaxed and friendly environment
If you are a first or second year take the opportunity to study in a relaxed environment, along with other students on the same programme.
 

HSE Professional SCUBA diving course

Plymouth is unique in offering our students the opportunity to gain the HSE Professional SCUBA certification alongside their degree. The course is an intensive four week full-time programme designed to prepare candidates for undertaking media, scientific and archaeological diving projects. If you are looking to do any underwater work in the UK and be paid, you will require a HSE qualification. The Professional SCUBA course is the minimum requirement if you wish to work on scientific, archaeological or media diving projects. Please note that places on the course are offered subject to availability.
Diving in Plymouth Sound

People

Meet our school technical staff   

Our technical staff are integral to the delivery of all our programmes and bring a diverse range of expertise and skills to support students in laboratories, workshops, and the field. 

Follow us on Facebook

Scholarships available to students on marine biology and conservation courses

The University of Plymouth is joining forces with the Ocean Giants Trust to create a series of exciting new opportunities for its marine students.
Students will be able to complement their studies with work for charities in locations such as Mexico, Mozambique, the Philippines and Tanzania.
Pilot whale pod - image courtesy of Getty Images

Field courses in marine biology

Field work is central to our three marine biology courses. We are proud to offer an extensive range of field work activities, both locally, making the most of our privileged location, and internationally, with residential field courses in South Africa, Sweden and Portugal. 
Our field courses are designed by and for Marine Biologists, so that you achieve skills specific to your degree, and immerse yourself in marine biology from the first day.
Marine biology students on a beach
*These are the latest results from the National Student Survey. Please note that the data published on Discover Uni is updated annually in September.