You will focus on a particular area of oceanography, which may be influenced by the subject area of your first degree, and develop specific knowledge and skills in areas determined by the modules you select and the nature of the research you undertake. The MRes is a research-led programme that differs from the MSc in focusing less on taught modules and more on the research project (about two-thirds of the year).
Semester one Core modules: Contemporary Topics in Ocean and Earth Science; plus one from: Introduction to Biological Oceanography; Introduction to Chemical Oceanography; Introduction to Marine Geology; Introduction to Physical Oceanography
Optional module: one from: Biogeochemical Cycles in the Earth System; Computational Data Analysis for Geophysicist and Ocean Scientists; Deep-sea Ecology; International Maritime and Environmental Law; Introductory Remote Sensing of the Oceans; Large scale Ocean Processes; Zooplankton Ecology and Processes
Optional module: one from: Applied Biogeochemistry and Pollution; Applied Coastal Sediment Dynamics; Climate Dynamics; Ecological Modelling; Environmental Radioactivity and Radiochemistry; Global Climate Cycles; Reproduction in Marine Animals; Sea Floor Exploration and Surveying 2; Structure and Dynamics of Marine Communities; UN Convention on the Law of the Sea
Plus research project
If you have a mathematical background and want to apply your mathematical skills to understanding the complex behaviour of the Earth’s atmosphere and oceans then this could be the programme for you. This is an exciting interdisciplinary subject, of increasing importance to a society facing climate change.
You’ll be trained in both modern applied mathematics and atmosphere-ocean science, combining teaching resources from the School of Mathematics and the School of Earth and Environment. The latter are provided by members of the School’s Institute for Climate and Atmospheric Science, part of the National Centre for Atmospheric Science.
Only a handful of UK universities are positioned to offer similar interdisciplinary training in modern applied mathematics and atmosphere-ocean-climate science.
If you do not meet the full academic entry requirements then you may wish to consider the Graduate Diploma in Mathematics. This course is aimed at students who would like to study for a mathematics related MSc course but do not currently meet the entry requirements. Upon completion of the Graduate Diploma, students who meet the required performance level will be eligible for entry onto a number of related MSc courses, in the following academic year.
The focus of the course is on analysing the equations of fluid dynamics and thermodynamics, via mathematical and numerical modelling. The programme is highly flexible, meaning you are free to choose options from applied maths, atmosphere-ocean science, numerical methods and scientific computation alongside the compulsory core applied maths and fluid dynamics modules.
Topics are drawn from four broad areas:
Modules are taught either by the School of Mathematics or the School of Earth and Environment.
The course is made up of two parts: a set of taught modules, and a research project. Two-thirds of the course consists of taught modules involving lectures and some computer workshops. Beyond a compulsory core of atmosphere-ocean fluid dynamics, students may choose options to suit their interests from applied maths (e.g. nonlinear dynamics), atmosphere-ocean science (e.g. climate change processes, weather forecasting), numerical methods and scientific computation. The final third of the course consists of an intensive summer project, in which students conduct an in-depth investigation of a chosen subject related to the course.
Teaching is by lectures, tutorials, practical classes, and one-on-one supervision (for research projects). Outside these formal sessions, students are able to study at their own pace, aided by our wide range of electronic teaching resources.
Assessment is by course work and written exams which take place at the end of the semester in which the module is taught.
Students will be prepared for postgraduate research in applied mathematics or atmosphere-ocean science, or employment in the environmental sector.
However, given the interdisciplinary nature of the programme, graduates will have expertise and skills in a number of different areas, and should be attractive to a wide range of employers.
We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.
The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.
This Masters will prepare you in the physical sciences and mathematics for a research career in climate, atmospheric or environmental sciences. It ideally bridges the gap between undergraduate studies in physical/natural sciences and engineering, and study for a PhD.
Alternatively, if you decide to leave academia, the highly transferable skills gained from this course could lead to a research role in industry or government.
Gain a broad overview of physical problems in climate and atmospheric science, together with a sound physical understanding of natural processes. Alongside this, develop highly transferable skills to conduct research in these subjects with a strong emphasis on quantitative data analysis and physical and numerical modelling.
A career in scientific research is always interesting – sometimes exciting – but might not suit everyone. This course provides an excellent opportunity to get a taste of postgraduate research study and decide whether it is really the career for you.
Interact with academics who are at the forefront of major global issues. Leeds is a leading centre of excellence across both the physical science of the climate and atmosphere science, and the resultant socio-economic impacts and processes:
Institute for Climate and Atmospheric Science (ICAS) is the UK’s most diverse academic institute for atmospheric research.
Priestley International Centre for Climate Change (PICC) a world-leading centre for policy-relevant, solution-driven climate research.
Centre for Polar Observation and Modelling (CPOM) is a research centre that studies processes in the Earth's polar latitudes that may affect the Earth's albedo, polar atmosphere and ocean circulation, and global sea level.
Develop your research skills – you will be regarded as a researcher in the School and expected to work closely with ICAS staff as well as presenting at the annual ICAS Science Conference along with academics and doctoral researchers.
Continue on to a PhD, or move into a research role in industry or government. Highly numerate graduates with training in independent research are widely sought after in many sectors.
The School's £23m building gives you access to world-class research, teaching and laboratory facilities, and dedicated computer facilities – many of which will be available to you throughout your studies.
You will be regarded as a researcher within the School and be expected to work closely with ICAS staff as well as presenting at the annual ICAS away day along with academic staff and doctoral researchers.
Be taught by staff from across the School, primarily from ICAS. Your programme manager is Dr Ryan Neely (ICAS) who also teaches as well as regularly supervises your research project and provides tutorial support.
You'll undertake 180 credits worth of work during the year, based on 4 super-modules, each of which is made up of several components.
Two of these super-modules (Quantitative Skills and Specialist Knowledge) allow you to choose from an expansive range of 'atmospheric' and/or 'climate science' options.
You can choose modules based on the direction of your research project and your first degree, as well as any other previous experience.
These are typical modules/components studied and may change from time to time. Read more in our Terms and conditions.
You’ll be taught through classwork, research seminars, lectures, tutorials, poster presentation, fieldwork and tutorials, group work and/or individual.
For your dissertation project, instead of the traditional thesis, you’ll submit a manuscript suitable for submission to an academic journal. This aims to teach the key transferable skill of communicating results professionally and efficiently, and increase the frequency of publication of students’ research.
The School’s £23m building gives you access to world-class research, teaching and laboratory facilities. You'll also have access to a dedicated computer suite throughout your studies.
Your dissertation project accounts for a significant part of your assessment.
You’re also assessed on work you do in course, for example through field notebooks, project proposals, seminars, submission of a computer project and a literature-based survey.
Students carry out research-directed work, implementing new developments and joining existing and new collaborations with agencies such as the Meteorological Office, British Antarctic Survey and the National Centre for Atmospheric Science. Many students perform field projects in conjunction with international field campaigns.
You will be prepared for a research career, usually onwards to a PhD but this could also lead to a research role in government or industry.
Traditionally a very high proportion of our students go on to further PhD study in climate or atmospheric science. In fact, over the last three years all our students who applied for funded PhD positions at Leeds were successful, with several of them holding multiple offers of fully funded research studentships.
While others have obtained places at Cambridge, Reading, Edinburgh, and UEA, among others.
Highly numerate graduates with training in independent research are widely sought after. And our graduates who choose to leave academia have strong employment prospects – landing jobs with national agencies, environmental consultancies, wind-power companies and the insurance sector.
This degree is designed primarily for students with no previous specialisation in marine science such as graduates with a degree in biological sciences, chemistry or materials science, physics, mathematics, environmental science, physical geography or related disciplines. The programme includes compulsory introductory modules that provide a foundation in interdisciplinary marine science, along with the opportunity to specialise in particular areas through an option of modules, as well as research project experience. To highlight the specialisations possible through the option modules of the programme, we have developed “pathways” of suggested module choices, which include:
– Marine Biology and Ecology
– Physical Oceanography and Climate Dynamics
– Marine Biogeochemistry
– Marine Geology and Geophysics
Students can either follow one of these ‘pathways’, or mix options from different pathways, where the timetable allows, to pursue broader interests.Graduates often pursue careers in the marine environmental sector or undertake PhD research in marine sciences.
Core introductory modules: Biological Oceanography; Chemical Oceanography; Marine Geology; Physical Oceanography Plus: Key Skills and Literature Review
Optional modules: two from: Applied and Marine Geophysics; Biogeochemical Cycles in the Earth System; Coastal Sediment Dynamics; Computational Data Analysis for Geophysicists and Ocean Scientists; Deep-sea Ecology; Geodynamics and Solid Earth Geophysics; International Maritime and Environmental Law; Introductory Remote Sensing of the Oceans; Large-scale Ocean Processes; Microfossils, Environment and Time; Zooplankton Ecology and Processes
Optional modules: three from: Global Ocean Carbon Cycle, Ocean Acidification and Climate; Applied Coastal Sediment Dynamics; Climate Dynamics; Ecological Modelling; Environmental Radioactivity and Radiochemistry; Global Climate Cycles; Global Ocean Monitoring; Seafloor Exploration and Surveying 2; Structure and Dynamics of Marine Communities; UN Convention on the Law of the Sea
Plus: Key Skills and Literature Review Research project: From June to September, students work full-time on an independent research project that represents one-third of the MSc degree.
The MER master program provides high quality teaching in general oceanography with a specialization in marine environment (ecology, ecotoxicology, biochemistry, geochemistry, sedimentology, paleo-oceanography) and living or non-living marine resources. The MER program benefits from a consortium of four EU universities (Bilbao - Spain, Bordeaux-France, Southampton-UK and Liège-Belgium) and a worldwide network of associated partners.
The MER master program is organized according to three teaching semesters (Semester 1-3: coursework) plus a research master thesis (Semester 4) carried out via an internship at any partner research institution worldwide. Mobility is mandatory and three different mobility opportunities are proposed for the coursework:
Coursework is organized according to six mandatory and optional modules (total: 90 ECTS).
Module 1 to 6: Content
The MSc thesis research (Module 6) is carried out during Semester 4 (30 ECTS) at any Marine Research Institute worldwide.
Successful completion of this program will prepare students for a leadership role in various marine sectors such as conservation and environmental management, fisheries, nongovernmental organizations and all levels of government positions from local to global. Students benefit from a worldwide network of partner institutions.
From the start (2007), the MER program has trained more than 100 students. More than 50% of graduates continue with a PhD. Other graduates integrate public or private organizations in their field of expertise.