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Masters Degrees (Marine Geophysics)

We have 13 Masters Degrees (Marine Geophysics)

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This is a programme designed for graduates in the physical or environmental sciences, mathematics or engineering. Introducing your course. Read more

This is a programme designed for graduates in the physical or environmental sciences, mathematics or engineering.

Introducing your course

This is the course page for MRes Marine Geology and Geophysics at the University of Southampton. Find out everything about Marine Geology and Geophysics and what studying here involves.

In this course page we explain a range of key information about the course. This includes typical entry requirements, modules you can take and how assessment works. We also suggest career opportunities open to you as a University of Southampton graduate of MRes Marine Geology and Geophysics.

If you still have questions, please get in touch and we’ll be happy to answer any enquiries. See our contact us page for our telephone, email and address information.

Overview

MRes students spend two thirds of their year on their research project and the rest of their time taking taught modules. You can choose from a range of flexible pathways depending on your research interest. These currently include Exploration, Geodynamics, Coastal Processes, Palaeoceanography and Micro-palaeontology. You will develop specific knowledge and skills through your selection of modules and choice of subject for your research project.

The programme is taught by staff from across NOCS who draw on their cutting edge research to create a challenging and stimulating degree programme. You will also be encouraged to attend our research seminars, some delivered by leading visiting scientists.

View the programme specification document for this course



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This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and assessed by coursework and examinations. Read more
This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and assessed by coursework and examinations. The course provides theoretical and practical training in measuring, quantifying and understanding the physical processes within the geological marine environment. It provides a sound scientific basis on which to decide how best to design and execute marine surveys, be they geophysical, sedimentological or geological, for the required purpose.

The MSc in Applied Marine Geoscience evolved from its predecessor, the Marine Geotechnics course which boasted a 30 year pedigree.

A series of modules have been designed to explain the processes that form and characterise a wide variety of sedimentary environments, from the littoral zone to the deep ocean. Those controls range from the dynamical, chemical, climatic to geological; all are inter-related. The student also gains knowledge and understanding of survey techniques in order to map these environments and thereby gain a better understanding of the processes that shape them. The final facet of the course involves an explanation of how these sedimentary materials react to imposed loads - how they behave geotechnically.

From past experience it is found that students on completion of the course will find employment in the offshore hydrocarbons industry, geophysical contract companies (both offshore and terrestrial), geotechnical engineering companies, river and harbour boards or government establishments. The course may also lead students to further academic research studies.

Aims of the course
The aim of the course is to provide the world with people who

understand the inter-relationships between the forces which shape the marine geological environment,
have mastered the practical and analytical techniques necessary to study those controls and survey the geological settings
can critically analyse their findings and present them at a standard and in a form required by end-users, be they commercial or academic.
Whilst the form and style of presentation of work may differ, the skills required by doctoral students and those by potential employers (the marine geoservices industry) overlap to a large extent. Specifically identifying aspects of the course in this light, we aim to enable the students to:

be skilled in planning and acquiring good quality data in the laboratory and in the field in a safe manner
be able to work as a team in the acquisition of larger data-sets
appreciate the importance of recognising the limitations of model-based interpretation of data
review and critically analyse previous work both before and after undertaking data acquisition or modelling
understand the fundamental workings of the offshore geoservices industry
In a more general sense, the course is designed to act as a conversion course for a physical scientist who wants to hone their research skills whilst at the same time getting a grasp of how those skills are applied to solve both academic and commercially based problems. An important part of the course philosophy is the idea that the challenges that face marine geoscientists can often only be solved by taking a multi-disciplinary approach and we instil this idea of wider thought into our graduates.

The course aims to place the student in a strong position to go on to doctoral studies on issues such as palaeoclimatology, geophysics or sedimentology; or enter directly into the offshore industry e.g. to geohazard analysis, or offshore renewable energy exploitation.

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Measuring, describing and depicting the seabed is crucial to the maintenance and development of ports, safe navigation, offshore renewables and the continuing search for hydrocarbons. Read more
Measuring, describing and depicting the seabed is crucial to the maintenance and development of ports, safe navigation, offshore renewables and the continuing search for hydrocarbons. Yet there is an international shortage of hydrographic surveyors. Seize this opportunity to gain a thorough knowledge of the science and technology of hydrography, experiencing the latest methods and equipment involved in exploring and managing the seabed whilst preparing for a career in this growth area.

Key features

-Graduate from a course that crosses different disciplines and is accredited by the Royal Institution of Chartered Surveyors (RICS) and the Chartered Institute of Civil Engineering Surveyors (CICES).
-Study with the ocean right on your doorstep in our waterfront city. Benefit from the practical research opportunities and links to international marine businesses this brings, as well as access to the University’s specialist Marine Institute.
-Study aboard the University’s own survey vessel the Falcon Spirit, and develop hands-on experience in current survey techniques and different methods of data collection and analysis.
-Prepare yourself on a commercially focused programme that’s been developed in response to industry requirements and an expressed commercial need. Progress to a career in hydrographic research and development, port and offshore/ nearshore surveying or environmental support.
-Equip yourself with the latest knowledge relating to hydrography in the fields of marine geophysics, oceanography, land survey techniques, geodesy, bathymetric surveying, tides, acoustic theory and marine resource management. Learn to use equipment including GNSS, SBES, MBES, ADCP and sidescan sonar.
-Engage in debates around the wider aspects of hydrography and the implications for data capture, data management, processing and information systems.
-Attend lectures and receive support from our specialist staff, as well as access to a series of industrial speakers and demonstrations of the latest technologies.
-Gain the knowledge and skills you need to design, develop and implement a final research project at postgraduate level.
-Benefit from our good relationship with industry – a number of companies visit each year. There is excellent recruitment from the programme to the marine sector with global opportunities and the potential to travel in conjunction with your employment.

Course details

Period 1 — an intensive 15 week programme of classroom learning and field activities prepare you for the technical aspects of surveying and the research required in master’s study. 70 per cent lectures/seminars and 30 per cent practical, either within the laboratory or afloat. Assessment is continual or by coursework.

Period 2 — includes specialisms in advanced studies with a combination of the digital mapping and survey project management modules, designed to prepare students for practical roles and management decisions when completing hydrographic tasks on behalf of future employers. Modules are selected based on industrial expectations and potential career requirements. 80 per cent lectures/seminars, 20 per cent practical. Assessment is 50/50 coursework and formal examination for core modules, continuous for the one optional module.

Period 3 — undertake a self-managed final dissertation, supervised by an assigned academic. May comprise a desk study, laboratory experimentation, field observations, data acquisitions and processing.

Core modules
-MAR513 Research Skills and Methods
-MAR520 Hydrography
-MAR521 Acoustic and Oceanographic Surveying
-MAR524 MSc Dissertation
-MAR522 Survey Project Management
-MAR523 Digital Mapping

Optional modules
-MAR517 Coastal Erosion and Protection
-MAR529 Marine Planning
-MAR530 Managing Marine Ecosystems
-MAR507 Economics of the Marine Environment
-MAR518 Remote Sensing and GIS

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

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With a multidisciplinary emphasis, this MSc Oceanography Masters programme incorporates both taught modules as well as independent research. Read more

With a multidisciplinary emphasis, this MSc Oceanography Masters programme incorporates both taught modules as well as independent research.

Introducing your course

This is the course page for MSc Oceanography at the University of Southampton. Find out everything about Oceanography and what studying here involves.

In this course page we explain a range of key information about the course. This includes typical entry requirements, modules you can take and how assessment works. We also suggest career opportunities open to you as a University of Southampton graduate of MSc Oceanography.

If you still have questions, please get in touch and we’ll be happy to answer any enquiries. See our contact us page for our telephone, email and address information.

Overview

The MSc Oceanography degree is designed primarily for students with no previous specialisation in marine science. For example, if you are a graduate with a degree in biological sciences, chemistry or materials science, physics, maths, 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 with marine scientists at the National Oceanography Centre Southampton (NOCS).

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
  • Climate Dynamics

Students can either follow one of these "pathways", or mix options from different pathways, where the timetable allows, to pursue broader interests.

Employment in the marine environmental sector is a common destination for MSc Oceanography graduates, and as the degree is a "conversion" to marine science from "pure" science backgrounds, around one-third of graduates also go on to PhD research in marine sciences.

View the programme specification document for this course



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With the eastern Mediterranean as our natural marine laboratory, the International M.Sc. Program in Marine Geosciences provides students with a unique opportunity to develop practical scientific experience at sea alongside a rigorous academic curriculum. Read more

With the eastern Mediterranean as our natural marine laboratory, the International M.Sc. Program in Marine Geosciences provides students with a unique opportunity to develop practical scientific experience at sea alongside a rigorous academic curriculum.

Established in 2007 as part of the multidisciplinary Leon H. Charney School of Marine Sciences, the Department of Marine Geosciences combines research and graduate studies of the marine environment in the following main disciplines: exploration geophysics, seafloor mapping, remote sensing, geodynamics, tectonics, marine and coastal sedimentology, geochemistry, chemical and physical oceanography.

The two-year MSc program will begin in October.

What you will study

Topics to be covered include: the structure of the seafloor; the Earth’s crust below it and the search for energy sources (oil, gas, hydrates); the dynamics of the water body above it; sea level variations and their relation to tectonic and climate changes; coastline developments in present and past times; and, finally, present and past influences on human evolution. Students will have the opportunity to interact with central research institutions in Israel including the Israel Oceanographic and Limnological Research Institute, the Geological Survey of Israel, the Geophysical Institute of Israel and other industrial institutes.

Taught in English, the program can be completed in two years and begins every October. Coursework, field trips and an educational cruise are held during the first two semesters, the summer semester is dedicated to establishing a research proposal, while the second year is dedicated to conducting research. Students will be required to submit a research thesis at the end of the second year of the program. Upon completion of the program, students will be awarded a Master of Science in Marine Geosciences.

For a full and detailed list of the program curriculum, please visit here.

Full Scholarships for outstanding students from China and India!

Careers

Graduates of the program will be well-placed to pursue careers within government research agencies, onshore and offshore site investigation contractors or consultancy companies, and various branches of higher education and research.

Field Work

Students will gain practical experience in marine geophysical survey work through hands-on field activities. The program includes educational research cruises to the deep sea, coastal and underwater field excursions, as well as geological field trips to marine structures currently exposed onshore. The research and educational cruises are carried out in water bodies in and surrounding Israel – the Mediterranean, the Dead Sea, the Red Sea and the Sea of Galilee.

Courses

Core Courses

  • Geophysical Investigation of the Marine Environment
  • Signals Analysis - Fundamentals and Application
  • Geology of Marine Sediments
  • Physical Oceanography
  • Geochemical Oceanography
  • Hydrography
  • Educational Cruise
  • Scientific Writing and Research Presentation
  • Interdisciplinary School Seminar
  • DMG Colloguium

Elective Courses

  • Intoduction to Geology
  • Introduction to Geophysics
  • Seismic Processing and Imaging
  • Processes in Marine Geology
  • Numerical Methods in Physics of Continuum
  • Processesing and Analysis of Seismic Data: Workshops
  • Seismic Data Interpretation
  • Two-Phase Flow
  • Tectonics of the Oceans
  • Geology of the Eastern Meditteranean
  • Seafloor Morphology
  • Topics in Coastal Geomorphology
  • New Frontiers in Marine Research
  • Miscropaleontolgy
  • Paleoceanography
  • Natural Energy
  • Underwater Geoarchaeology in Caesarea
  • Paleolimnology of the Dead Sea Region: Field Trip
  • Marine Geology of Mt. Carmel, Exploring the Cretaceous Seafloor: Field Trip
  • Coastal Geomorphology: Field Trip

For more information on the course curriculum and course description please click here.

Faculty

Currently, the Department of Marine Geosciences faculty includes seven senior members and six adjunct faculty members. The department is currently under the leadership of Professor Uri S. Ten Brink whose fields include marine geophysics, tectonics, earthquakes, landslides and tsunami hazards.

For a full list of faculty staff and their specialisations please visit here.

Scholarships

This program is eligible for MASA scholarship.

A number of full-tuition scholarships for outstanding students from China and India are available.

Further information on scholarships and financial aid can be found here.



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Get a degree that's recognised worldwide and contribute to knowledge in your field. A Master of Science (MSc) will develop your technical, laboratory and academic writing skills to prepare you for a career in science. Read more

Get a degree that's recognised worldwide and contribute to knowledge in your field. A Master of Science (MSc) will develop your technical, laboratory and academic writing skills to prepare you for a career in science.

The MSc by thesis will take you between 12 and 15 months to complete. You'll carry out in-depth supervised research and write a thesis. During your studies you might also author publications for peer-reviewed journals.

To do an MSc by thesis you'll need an Honours degree or postgraduate diploma in an appropriate field, with an average grade of B+ or higher in your subject area.

Available subjects

Workload

If you are studying full time, you can expect a workload of 40–45 hours a week for much of the year. Part-time students will need to do around 20–23 hours of work a week. Make sure you take this into account if you are working.



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Get a degree that's recognised worldwide and contribute to knowledge in your field. A Master of Science (MSc) will develop your technical, laboratory and academic writing skills to prepare you for a career in science. Read more

Get a degree that's recognised worldwide and contribute to knowledge in your field. A Master of Science (MSc) will develop your technical, laboratory and academic writing skills to prepare you for a career in science.

The MSc will take you between two and two and half years of full-time study or up to four years part time. In the first year of your MSc you'll take several courses related to your specialist subject area. Next, you'll carry out in-depth supervised research for 12–15 months and write a thesis. During your studies you might also author publications for peer-reviewed journals.

To do an MSc you'll need a Bachelor's degree in an appropriate field, with an average grade of B+ or higher in your subject area. You may also be able to qualify for entry if you have appropriate work or other experience.

Range of Master's programmes

Choose to complete this Master's programme or one of the specialist science Master's programmes. Most specialist programmes are 180 points and don't require a thesis.

If you have already done a BSc(Hons) you can apply to go directly into the 120-point MSc by thesis.

Available subjects

Workload

If you are studying full time, you can expect a workload of 40–45 hours a week for much of the year. Part-time students doing two courses per trimester will need to do around 20–23 hours of work a week. Make sure you take this into account if you are working.



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This degree course will provide students with the relevant skills, knowledge and understanding in nuclear sciences (nuclear physics and radiochemistry), geosciences (including geochemistry, geophysics and hydrogeology) and materials science, to prepare graduates for a career in nuclear decommissioning, waste management and remediation. Read more
This degree course will provide students with the relevant skills, knowledge and understanding in nuclear sciences (nuclear physics and radiochemistry), geosciences (including geochemistry, geophysics and hydrogeology) and materials science, to prepare graduates for a career in nuclear decommissioning, waste management and remediation.

The University of Birmingham has a long and established track record of research and education in the nuclear sector, including reactor technology, metallurgy and materials, decommissioning and waste management, dating back to the earliest days of the nuclear industry. The University runs one of the longest-standing Masters level courses in the nuclear sector (over 50 years), in the Physics and Technology of Nuclear Reactors (PTNR). The University has extensive links to the nuclear industry and regulators both within the UK and internationally, including National Nuclear Labs, Japan Atomic Energy Agency, Idaho National Labs, NAGRA, British Energy, AMEC, Serco, HSE (NII), Atkins, Babcock Marine, Westinghouse, UKAEA, EDF, E.ON and RWE NPower.

About the School of Physics and Astronomy

We are one of the largest physics departments in the country with a high profile for research both in the UK and internationally, covering a wide range of topics offering exciting challenges at the leading edge of physics and astronomy. Our student satisfaction rating of 96% in 2016 demonstrates the quality of our teaching.
The School of Physics and Astronomy’s performance in the Research Excellence Framework (REF), the system for assessing the quality of research in the UK higher education institutions, has highlighted that 90% of research outputs in the School were rated as world-leading or internationally excellent.
Our research portfolio is wide-ranging, and covers three principal themes: Particle and Nuclear Physics; Quantum Matter and Nanoscale Science; and Astronomy and Experimental Gravity. We have over 120 academic and research staff together with 120 graduate students with around 50 technical and clerical support staff. Our annual research income is over £8 million and more than 250 research publications are produced each year.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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The Master of Science (MSc) is a two-year degree which encompasses both coursework and research. The first year involves mainly coursework and preliminary research preparation. Read more

The Master of Science (MSc) is a two-year degree which encompasses both coursework and research. The first year involves mainly coursework and preliminary research preparation. Students will have the opportunity to contribute to existing fields of research, or to begin to develop new areas.

The MSc can be studied in any of the subjects listed below, and may be taken by a combination of coursework and thesis, or by thesis only. Students who have a Bachelor's degree will complete the MSc by papers and thesis (at least two years of full-time study). Students who have an Honours degree or postgraduate diploma can complete the degree by thesis only (minimum of one year of study).

Subject areas

View the list of subjects offered for the Master of Science (MSc) and the Master of Applied Science (MAppSc).

Structure of the Programme

The degree may be awarded in any of the subjects listed above. With the approval of the Pro-Vice-Chancellor (Sciences) the degree may be awarded in a subject not listed above.

The programme of study shall be as prescribed for the subject concerned.

A candidate whose qualification for entry to the programme is the degree of Bachelor of Science with Honours or the Postgraduate Diploma in Science or equivalent may achieve the degree after a minimum of one year of further study, normally by completing a thesis or equivalent as prescribed in the MSc Schedule.

A candidate may be exempted from some of the prescribed papers on the basis of previous study.

A candidate shall, before commencing the investigation to be described in a thesis, secure the approval of the Head of the Department concerned for the topic, the supervisor(s), and the proposed course of the investigation.

A candidate may not present a thesis which has previously been accepted for another degree.

A candidate taking the degree by papers and thesis must pass both the papers and the thesis components.

For the thesis, the research should be of a kind that a diligent and competent student should complete within one year of full-time study.



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