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.
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!
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.
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.
For more information on the course curriculum and course description please click here.
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.
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.
Chemists have always been in demand worldwide with pharmaceutical and biotechnology industries, fine chemicals, and within research laboratories across the globe. The programme at Aberdeen is accredited by the Royal Society of Chemistry. Aberdeen is noted for Nobel prizes within Chemistry which include the invention of modern chromatography (Synge 1952) and the discovery of a new element - protactinium (Soddy 1921). Teaching at Aberdeen is informed by world class research within food security. Class sizes are kept small to enable you to have strong teaching interaction and support in your studies. You will be taught by many staff in the environment group (TESLA) and (MBC)
The programme focuses on specialised modern analytical methodology. The range of industries or institutes where these skills are asked for includes the pharmaceutical industry, environmental institutions, research institutes and also the oil & gas industry. There are many new innovations which require chemists with advanced skills to analyse and test new methods of providing health via IOT devices, smart phones and small sensors deployed throughout the body to quickly provide analysis and customised recommendations.
Find out more detail by visiting the programme web page
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*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.
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Marine Sciences studies how marine systems and processes operate naturally and how they change through human intervention.
Seas and oceans play an important role in our day-to-day lives, and over 65% of the world's population lives or works in coastal areas. Vital for our economy and health – as well as for climate, food, and biodiversity – seas and oceans have immense societal significance. However, the oceans are changing rapidly as human-induced pollution and CO2 emissions lead to global warming and ocean acidification. The impact on organisms, ocean chemistry, and currents on short to long timescales is uncertain, affecting both business and policy making.
As part of your two-year Master's programme in Marine Sciences, students will learn how marine systems and processes operate naturally – and how they change through human intervention. The programme offers multidisciplinary cutting-edge information in this rapidly developing field.
The Marine Sciences Master’s programme will enable you to specialize in the physical, chemical, biological, and geological processes taking place in seas and oceans. You will investigate how seas and oceans functioned in the past, are functioning at present, and will function in the future.
Bodies of water, including oceans, large lakes, seas and estuaries, make up the largest part of the earth's surface. Well above 70% of the earth´s surface consists of water, which is essential for all life. Humans extract both directly and indirectly a major part of their food from the seas, photosynthesis in the oceans is responsible for approximately half of the global oxygen production, the oceans continue to yield unknown life forms at an astonishing rate. In spite of the importance of the water bodies of this earth, much of them remains unknown.
If you are interested in gaining more in-depth knowledge of this world, of the ecosystems associated with water, in a scientific manner, the Master of Science in Marine and Lacustrine Science and Management offers you what you need. This combination of disciplines makes the programme unique, not only in Flanders, but also in Europe. Students with most scientifically oriented bachelor diplomas can start the programme directly.
This 2-year master programme addresses students with a background in sciences. It provides you with strong fundamental and applied knowledge and prepares you for an active role in the scientific research and management of marine ecosystems. The programme adopts a multidisciplinary approach integrating physical, chemical geological, ecological and societal aspects and including nature conservation and sustainable development.
• Biodiversity and Ecology
• Conservation Biology and Ecosystem Management
• Environmental Impact and Remediation
• Earth System Sciences
The programme is one of the International Course Programmes supported by the Flemish Interuniversity Council (VLIR-UOS). A limited number of scholarships is available for students coming from certain developing countries.
The diversity of professional, disciplinary and cultural backgrounds of both students and lecturers ensures that the programme has a truly unique international character.
This programma trains students in:
This multidisciplinary Master´s diploma is your admission ticket to a fascinating professional world and can be the start of an international career. As a scientist with a broad education, you are the right person for functions that require an integrated approach. The integration of knowledge from across various disciplines is valuable, and you can contribute significantly in various jobs that are concerned with marine and lacustrine domains, wherever they are in the world. The programme is broad and deep and can complement a wide range of scientific professions.
With a multidisciplinary emphasis, this MSc Oceanography Masters programme incorporates both taught modules as well as independent research.
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.
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:
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.
Help improve human or animal health through creating new or more effective drugs and medicines. Learn the research processes used to identify drug targets and develop new therapeutics.
Your studies will combine the biological sciences with chemistry, giving you the skills to target, design, synthesise, create and assess new drugs. You'll also learn about protecting intellectual property, assessing the financial viability of drugs and the pre-clinical and clinical trial processes.
Tailor your studies to your strengths, interests and career goals. You'll learn a mix of academic and practical skills that are closely aligned to the needs of industry.
The Master of Drug Discovery and Development is best suited to very able students with backgrounds in chemistry or relevant life-science subjects such as biochemistry, biomedical science, pharmacy or pharmacology. It is an intensive one-year taught programme, unique in New Zealand.
Learn from academics and professionals who are leaders in the field and have experience in successfully taking drugs to market. Each course is taught by at least three academics so you'll be exposed to a wide range of expertise.
Drug Discovery and Development is taught by the Schools of Chemical and Physical Sciences and Biological Sciences in collaboration with the University's Ferrier Research Institute and the Centre for Biodiscovery.
You'll be able to take advantage of the research expertise of the Ferrier Research Institute in drug design and development, and if you're doing a Master's, you'll be working alongside the more than 30 scientists who make up the largest carbohydrate research team in the world. The Institute also has its own manufacturing facility so you'll have the opportunity to observe the drug development process from discovery to product.
You'll also benefit from the programme's links with the Centre for Biodiscovery where you will interact with the research teams that are actively discovering, designing and assessing novel bioactive compounds.
Get wise to the real-world issues facing pharmaceutical development and make the most of the hard-earned experiences of staff who have worked in the local and international biotech industry. Learn not only how to handle chemicals on a large scale, but to develop the mindset to do this in a way that is safe, reliable and robust—so you end up providing medicines that will change people’s lives.
Victoria offers three postgraduate qualifications in Drug Discovery and Development. Choose the one that suits your career goals, time constraints and financial situation.
If you begin by enrolling in the Certificate or Diploma programme you can continue on to complete your Master's. Or if you enrol in the Master's but can't complete it, for whatever reason, you may have completed enough points to be awarded a Certificate or Diploma.
Each qualification includes the core courses DRGD 401 Chemical Biology and Drug Discovery, and a choice between DRDG 402 Drug Design or CHEM 421 Organic Chemistry and Bio-organic Chemistry.
After that you'll choose from selected courses from the study areas of Drug Discovery and Development, Biomedical Science, Biotechnology, Chemistry, Clinical Research and Microbiology.
All three qualifications give you the opportunity to do at least some research.
You'll complete four courses worth 60 points made up of the two core courses and two further choices.
You're likely to take seven courses that will include the two core courses, your elective options and the 30-point Research Preparation course.
You'll study for your Master's in two parts over three trimesters. In Part 1, the first two trimesters, you're likely to take seven courses that will include the core courses and a 30-point Research Preparation course.
In Part 2, you'll complete a full research project. Choose between DRDG 561 Applied Research Project, where you'll complete one or more problem-solving projects, or DRGD 590 Research Project, where you'll focus on medicinal chemistry and the formulation of active pharmaceutical products. In some cases you may be able to replace the research project with the thesis course DRGD 595.
Your Master's may be endorsed with a specialisation in either Drug Discovery, Drug Development or Chemical Biology. Check the requirements to find out what you need to do for these.
You can expect a workload of 40–45 hours a week for much of your studies.
The MDDD can be completed in 12 months full time, or in two years of part-time study but you'll need to discuss this option with the programme directorfirst. The Diploma will take you two trimesters and the Certificate one trimester.
You'll study at Wellington's Kelburn campus where you will have access to state-of-the-art research facilities. Students doing a research programme will also work in partnership the world-renowned Ferrier Research Institute in Lower Hutt.
Be part of a dynamic and collaborative scientific research community. Past students' research areas in drug discovery and development have included:
Become part of an active community of scientists. Postgraduate study at Victoria will help you build valuable relationships and networks with peers, university staff and future colleagues. You'll have unprecedented access to world industry leaders who visit as guest lecturers and run seminars with students.
You'll have the broad skills you need to work in drug discovery in companies, universities, research institutes or with drug regulatory authorities. You might work within the pharmaceutical, bioanalytical or chemical industries, or take your skills into nutraceuticals or agrichemicals.
Are you up to the challenge of finding innovative methods and sustainable solutions to the threats facing the environment? The Environmental Sciences master's programme in Wageningen has its roots in the natural, technological and social sciences. Students will gain insight into the socio-economic causes and the characteristics of pollution and degradation of the natural environment, including the effects on human beings, the atmosphere, ecosystems and other organisms. This two-year programme is based on an interdisciplinary approach. Students learn to develop analytical tools and models, as well as technologies, socio-political arrangements and economic instruments to prevent and control environmental and sustainability issues.
The Environmental Sciences MSc programme of Wageningen University is an international programme containing one year of course work and and one year of research. It is thesis-oriented with the individual research project (major) as its core. Compulsory elements are kept at a minimum, thus enabling the coursework to be tailored to the wishes and needs of the individual student. Study adviser and thesis supervisor both assist the student in selecting the most relevant courses from what Wageningen University has to offer. Read more about the background of the programme.
Within the master's programme you can choose from the following Thesis tracks to meet your personal interests:
Graduates find jobs at many different organisations. Professional job possibilities can be found as:
Read more about the career perspectives and opportunities.
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.
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.