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Masters Degrees (Marine Biodiversity)

We have 38 Masters Degrees (Marine Biodiversity)

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The biodiversity of the marine environment is of enormous importance to humans as a resource for food, pharmaceuticals and ecosystem services. Read more
The biodiversity of the marine environment is of enormous importance to humans as a resource for food, pharmaceuticals and ecosystem services. The School's Centre for Marine Biodiversity and Biotechnology (CMBB) focuses on research using traditional and newly developing molecular methods to study these important marine resources and products. The rapid loss of biodiversity both on land and in the sea makes it especially important that good knowledge is obtained to enable the appropriate management of the lesser known marine resources.

The programme covers a broad range of issues in four taught core courses enabling students to choose four other taught courses from a variety of options available within the School and elsewhere in the University's programme of MSc programmes.

CORE COURSES

Marine Conservation and Sustainability
Diversity of Marine Organisms
Applied Research Design and Analysis
Marine Monitoring and Pollution Control
Marine Biotechnology

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This MSc Programme is based at our ORKNEY CAMPUS in the far north of Scotland - a unique opportunity to study a live marine environment. Read more

MSc Marine Resource Management

This MSc Programme is based at our ORKNEY CAMPUS in the far north of Scotland - a unique opportunity to study a live marine environment.

As man increases his demands upon the oceans, their sustainable development will depend on a rational management strategy for the total resource.

The professional working in the marine environment is constantly required to be multidisciplinary, and able to appreciate the conflicts that arise between conservation and development.

The MRM programme (See http://www.postgraduate.hw.ac.uk/prog/msc-marine-resource-management-mrm-/ ) considers the sustainable development, use, conservation and management of marine resources.

Core themes include:
- Marine environmental systems.
- Resource management and conservation.
- Valuation and project management.

For more information visit http://www.hw.ac.uk/schools/life-sciences/research/icit.htm

Overview

This is a 12 month full-time MSc degree course taught at our Orkney Campus. It involves studying 8 taught courses. If you can demonstrate that you have already mastered the subject, you may apply for an exemption from one of the taught courses and undertake a Design Project instead. The MSc programme is completed with a research dissertation equivalent to 4 taught courses.

Programme content

- Conservation, Sustainable Development & Resource Management
This course takes a broad look at the principles of sustainability and sustainable resource use, including environmental ethics. You will explore the challenges faced by policy makers and marine managers when incorporating these broad principles into policy and practice. You will learn about how sensitive habitats and the species they support are managed and protected, and how impacts from development are mitigated. The course gives an introduction to biodiversity conservation and the biodiversity action planning process, as well as examining issues around the relationship between conservation and science.

- Environmental Policy & Risk
This course explores the legal and policy context in which renewable energy is being exploited. You will gain an understanding of international law, particularly the Law of the Sea, property rights and how these relate to different energy resources. The course also looks at regulatory issues at the international, European and UK level, which affect how energy developments are taken forward, as well as risk assessment and management in the context of renewable energy developments.

- Oceanography & Marine Biology
This course is designed to give you an understanding of the science of waves and tides, and how this affects efforts to exploit energy from these resources. You will also learn about marine ecosystems and how these may be impacted by energy extraction and about the challenges and impacts associated with carrying out engineering operations in the marine environment.

- Resource Development
This course examines the exploitation and use of marine resources (including oil and gas, fisheries, transport, renewables, aquaculture and tourism), issues associated with development in the marine environment (including pollution and waste) and how these activities are regulated. You will learn about marine technologies and the challenges of developing and deploying technologies to exploit resources in the marine environment.

- Introduction to Marine Spatial Planning
This course introduces students to the emerging policy and practice of marine planning (global and regional). It examines political, jurisdictional and rights issues in the introduction of economic activities into the marine commons (the ‘Blue Growth Agenda’). The framework of marine legislation is explained and methods of conflict resolution are explored. A series of international case studies will identify the various tools and techniques being used around the world to manage human activity and balance conservation interests with demands for economic growth.

- GIS
Geographic Information System mapping is a tool which is now widely used by both developers and regulators in the management and development of marine resources. Within the context of Marine Spatial Planning the use of GIS has rapidly become the standard means of collating and analysing spatial information regarding resource use. This course will explain the principles and provide hands-on experience of applying state of the art mapping software in project based case studies.

- Development Appraisal
Looking at what happens when renewable energy technologies are deployed, this course examines development constraints and opportunities: policy and regulatory issues (including strategic environmental assessment, environmental impact assessment, landscape assessment, capacity issues and the planning system). It also looks at the financial aspects (valuation of capital asses, financing projects and the costs of generating electricity) and at project management.

- Development Project
This is a team project, where students have the opportunity to apply what they have learned through the other courses in relation to a hypothetical project. You have to look at a range of issues including resource assessment, site selection, development layout, consents, planning and economic appraisal, applying the knowledge and tools you have studied.

- Additional information
If you study at our Orkney Campus, you will also benefit from a number of activities including field trips, guest lectures and practicals, which help to develop your skills and knowledge in your field of study, and offer opportunities to meet developers and others involved in the renewable energy industry.

English language requirements

If your first language is not English, or your first degree was not taught in English, we’ll need to see evidence of your English language ability. The minimum requirement for English language is IELTS 6.5 or equivalent. We offer a range of English language courses (See http://www.hw.ac.uk/study/english.htm ) to help you meet the English language requirement prior to starting your masters programme:
- 14 weeks English (for IELTS of 5.5 with no more than one skill at 4.5);
- 10 weeks English (for IELTS of 5.5 with minimum of 5.0 in all skills);
- 6 weeks English (for IELTS 5.5 with minimum of 5.5 in reading & writing and minimum of 5.0 in speaking & listening)

Find information on Fees and Scholarships here http://www.postgraduate.hw.ac.uk/prog/msc-marine-resource-management-mrm-/

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This MSc programme is delivered by the International Centre for Island Technology (ICIT) at our Orkney Campus. It has been designed to promote an integrated, participatory approach to nurture and strengthen quantitative skills in science and environmental graduates using locally relevant issues. Read more

Integrative Marine Data Skills

This MSc programme is delivered by the International Centre for Island Technology (ICIT) at our Orkney Campus. It has been designed to promote an integrated, participatory approach to nurture and strengthen quantitative skills in science and environmental graduates using locally relevant issues. It will build a broad understanding of marine ecosystems, ecosystem services and associated management issues. Teaching is strongly reinforced with laboratory, fieldwork and project work, with emphasis placed on simulating real work situations. Strong links with industry partners, policy-makers and regulators ensure relevance within this sector. It will produce students who are quantitatively competent and literate, capable of interpreting and communicating findings, with work-ready skills (field and industry) to facilitate employment in a competitive marketplace where demand for data-savvy students is high.

Course content

Semester 1:

Advanced Research Skills 1 – Data Collecting and Handling (core)
Data is increasingly important in today’s society with huge quantities generated by the maritime sector to address a range of environmental and economically important issues. However, a specific set of skills are required to handle, extract, manipulate, analyse and communicate these data sets. Students will collect data across three platforms: shoreline, oceanic and remote, providing work-ready technical, laboratory and field skills. This course will build quantitative confidence and competency, providing graduates with the skills essential to understanding, responding to, and mitigating today’s environmental challenges.

Advanced Research Skills 2 – Statistical and Numerical Techniques (core)
The ability to problem-solve, think critically and apply mathematics has been severely eroded across education sectors, with this deficit being transferred to the working environment. Skills in numeracy, data mining, data management and modelling have been highlighted as being in demand. This course will utilise environmentally relevant, local long-term data sets collected in Advanced Research Skills 1 to strengthen skills in data analysis using a range of methods. This course is not targeting students with a strong numerical or modelling background, instead it aims to build confidence with analytical techniques and provide a broad, yet solid depth of knowledge.

Oceanography and Marine Ecology (core)
This course will give an understanding of the science of waves and tides, and how this affects efforts to exploit energy from these resources and to develop other maritime industries. The challenges and impacts associated with engineering operations in the marine environment are examined. Marine ecosystems and ecosystems services are also studied and how these are impacted by human activities.

Introduction to Marine Planning (core)
Introduces students to the emerging policy and practice of marine planning (global and regional). It examines political, jurisdictional and rights issues in the introduction of economic activities into the marine commons (the ‘Blue Growth Agenda’). The framework of marine legislation is explained and methods of conflict resolution are explored. A series of international case studies will identify the various tools and techniques being used around the world to manage human activity and balance conservation interests with demands for economic growth.

Semester 2:

Case Study and Project Design (core)
This course will facilitate the interpretation and communication of data and promote teamwork skills and engagement with a broad range of end-users, fostering responsive management skills. It is an essential follow-on core component from Advanced Research Skills 1 and 2 in Semester 1 to further consolidate the quantitative learning experience and promote synergies with local industry, stake-holders and communities. The course will capitalise on the strong networks already in place at ICIT with staff, local industry and community groups.

GIS for Marine and Environmental Scientists (optional)
Geographic Information System mapping is a tool which is now widely used by both developers and regulators in the management and development of marine resources. Within the context of Marine Spatial Planning the use of GIS has rapidly become the standard means of collating and analysing spatial information regarding resource use. This course will explain the principles and provide hands-on experience of applying state of the art mapping software in project based case studies.

Environmental Policy and Risk (optional)
This course explores the legal and policy context of marine governance. You will gain an understanding of international law, particularly the Law of the Sea, property rights and how these relate to different energy resources. The course examines regulatory issues at the international, European and UK level, as well as risk assessment and management in the context of marine developments. A practical EIA exercise is undertaken.

Practical Skills in Marine Surveying (optional)
Students entering employment in marine conservation or marine resource management are often required to plan or manage surveys of the marine environment in the role of either client or contractor. Diving is often the most effective method for conducting surveys to monitor or map marine biota. This course will provide students with the requisite knowledge for designing and managing such projects utilising scientific diving techniques.

Marine Environmental Monitoring (optional)
This course will provide an understanding of: the scientific background of natural processes in estuarine and coastal environments as a necessary prerequisite for understanding monitoring and management; the fundamentals of the design and applications of environmental monitoring programmes; the role of impact assessment in resource management, conservation and pollution control and legal framework supporting this process; and the importance of the scientific dimension underpinning estuarine and coastal management.

Tropical Coral Reefs: Monitoring and Management Field Course (Malaysia) (optional)
(Additional fee for flights and subsistence)
Students will experience different techniques used for surveying and monitoring coral reefs, to provide an understanding of the sampling and other issues which influence choice of method. It will provide students with an impression of the environmental pressures affecting reef habitats as a result of climate change, tourism related development, and of the range of management measures which may be introduced to promote sustainable use of reef resources. It will familiarise students with the main forms of fish, coral and invertebrates which characterise reefs. In addition, the course gives the chance to examine other marine habitats that are often closely inter-related with reefs: e.g. sea-grass beds.

More information:

https://www.hw.ac.uk/uk/orkney.htm
https://www.hw.ac.uk/schools/energy-geoscience-infrastructure-society/research/icit/orkney.htm
https://www.hw.ac.uk/study/why/our-rankings.htm

Fees and Scholarships

https://www.hw.ac.uk/study/fees/scholarships-bursaries.htm

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Galway’s identity is intertwined with the coast. The Discipline of Geography, with strong links with The Ryan Institute which identifies marine and coastal processes as a Priority Research Area, is delighted to offer a brand new structured postgraduate programme in NUIG. Read more

PROGRAMME OVERVIEW

Galway’s identity is intertwined with the coast. The Discipline of Geography, with strong links with The Ryan Institute which identifies marine and coastal processes as a Priority Research Area, is delighted to offer a brand new structured postgraduate programme in NUIG. This programme is designed to train skilled personnel, who can advise on, organise and regulate an informed development of coastal and marine resources and activities in Ireland, the European Union and worldwide. Ireland’s coastal and marine environments are a vital natural resource. This value is reflected in a broad range of current EU directives and strategies aimed at taking full advantage of these resources while also enhancing our natural environments. The Irish Government has recently launched an integrated plan (Our Ocean Wealth), seeking to put into operation these EU policies for our coastal and marine resources. While rapid growth is expected as these new plans come into action, they are not without risks. A recent report by the Marine Institute outlined some challenges: a need to develop our environmental understanding; the challenge posed by climate change; protecting biodiversity; enhancing monitoring capability; greater integration of science, management and advice. The key to achieving the true sustainable development of our coastal and marine resources may be through new educational programmes. On the one hand, facilitating existing managers and planners through targeted learning in this expanding field, while on the other hand, training our current students to be the future decision-makers in these coastal and marine environments.

This is a highly opportune time for an MSc in Coastal and Marine Environments: physical processes, policy and practice. This MSc programme, theoretically informed and with a strong field-based and applied focus, is offered in direct response to newly emerging discourses on the long term health of coastal and marine environments. It seeks to challenge and facilitate students to engage with but go beyond established scientific conceptual and theoretical perspectives, engage new ways of understanding the complexities of our evolving physical coastal and marine environments, and develop critical insights that can support policy and practice in sustaining these increasingly vulnerable environments.

PROGRAMME STRUCTURE

The MSc in Coastal and Marine Environments is a full-time postgraduate course delivered over 3 semesters (12 months). The programme was devised by a team of academics from the Discipline of Geography who have been involved in priority EU-funded and US National Science Foundation (NSF) research on contemporary and future challenges facing coastal and marine areas, including the ANCORIM (Atlantic Network for Coastal Risk Management) (INTERREG) and MARNET (Marine Atlantic Regions Network) (FP7) projects, as well as local and national-level projects on the same. The team is engaged in a broad range of scientific investigation of the physical environment, with an excellent international publication record. Students will become active members of ongoing research programmes and will learn the research and publication process.

There is a strong focus on the formulation of coastal and marine policies and strategies; the identity and role of stakeholders; the nature and impact of local, national and European governance; and the historic and contemporary approaches used to understand the physical processes that control the characteristics of our coast. Development of skills is supported by a significant focus on practical and field-based learning, including short field courses in Ireland and work placements.

It is directed at graduates from Geography, Natural Sciences and other related disciplines in the social and natural sciences, and at professionals in the field who are interested in furthering their knowledge of coastal and marine environments. Students will be required to conduct socially relevant research that addresses the roles of agencies and policy structures in coastal and marine environments.

CAREER OPPORTUNTIES

With coastal and marine resources increasingly promoted as being central to revitalising the Irish economy, the coming years will require well-informed and educated leaders who understand the complexities of the interaction between the economy and health of these environments. This, added to the broader national and European focus on the coastal zone and the urgent need for more Higher Education courses which recognise the renewed importance of sustainability of coastal and marine activities and the multifunctional facets of these areas, should present graduates of this course with opportunities across various fields ( coastal and marine science, environmental consultancy, local/regional/state management agencies, government and policy institute research, politics and governance of the environment, sustainable energy, research laboratories and programmes, teaching, heritage, tourism, etc.). The work placement programme will aid in professional development and offer links with potential employers, giving our students realistic and desirable career opportunities, and built-in work experience upon graduation.

PhD Entry: the MSc Programme can be used as a platform for potential doctoral PhD candidates for research programmes in Geography and our partners in NUIG, especially the Ryan Institute, and abroad. This will encourage the growth and visibility, at home and abroad, of the coastal and marine priority theme research clusters in NUIG.

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Exploring the principles of marine ecology and management, the dynamics of marine ecosystems and how human activity affects the marine environment. Read more
Exploring the principles of marine ecology and management, the dynamics of marine ecosystems and how human activity affects the marine environment.

Overview

The relationships between coastal and marine ecosystems and human activity make for fascinating study.

With a worldwide consensus that the marine environment needs better management there is a growing demand for people who have been trained in marine resource management. This MSc will equip you to work for a wide range of marine environmental organisations or to progress to a PhD.

Course Content

Our MSc in Marine Environmental Management provides exceptional teaching across a range of marine management modules. You'll be introduced to different marine ecosystems, key species and the impact of humans, now and in the past.

You'll get a chance to examine contemporary marine issues, including:
-Problems associated with fishing including: over-fishing, bycatch, habitat destruction and illegal fishing
-Aquaculture
-How a multitude of human activities affect marine ecosystems
-Marine protected areas.

You'll undertake two research dissertations: one based in York, the other with an external organization.

Modules
For the Masters you will need to take a 80 credits of taught modules as well as 50 credits for your dissertation and 50 credits for your summer placement. There are two core modules, giving 30 of your 80 required taught credits:
-Fisheries Ecology and Management (10 credits)
-Research Skills and Statistical Methods (20 credits)

You'll also choose 50 credits from a range of optional modules:
-Marine Ecosystems (10 credits)
-Ocean and Coastal Science (10 credits)
-Spatial Analysis (10 credits)
-Maldives (10 credits) - requires at least 12 students to run and incurs additional cost
-Current Research in Marine Conservation (10 credits)
-Environmental Impact Assessment (10 credits)
-Ecotoxicology (10 credits)
-Biodiversity Conservation and Protected Areas (10 credits)
-Environmental Governance (10 credits)

Your 5,000 word dissertation is chance to explore in depth a research project in an area that interests you. You can design your own dissertation in consultation with potential supervisors or you can chose from a list compiled by the department.

Before you submit your dissertation you'll give a presentation that summarises your work and allows you to get some feedback on your progress.

Careers

This course is for people who want to work in marine conservation or marine resource management. Potential employers will value the experience you'll get on your placement. The MSc is also an ideal basis for progression to a PhD.

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The emergence of the Law of the Sea Convention and establishment of Exclusive Economic Zones has given coastal states extensive and comprehensive rights and obligations over marine resources in vast areas of ocean. Read more
The emergence of the Law of the Sea Convention and establishment of Exclusive Economic Zones has given coastal states extensive and comprehensive rights and obligations over marine resources in vast areas of ocean. Wise management of ocean resources is essential if the full economic potential of these new entitlements is to be realised. To ensure the continuing biological productivity of these areas, the level and type of development of activities such as waste dumping, mineral extraction, recreation, industrial and urban growth, fisheries and aquaculture, need to be controlled, and interactions of these often conflicting activities resolved by management.

This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and examined by continuous assessment. The course provides theoretical and practical training in measuring and quantifying marine resources and the effects of conflicting usage upon them. It provides a sound scientific basis on which to develop policy and make decisions on marine resource exploitation and protection around the world.

Course Aims
To broaden the student's awareness of the economic potential of the ocean, to generate an understanding of the major marine biological resources and the physical processes controlling these resources, to provide theoretical and practical training in measuring and quantifying these resources and the effects of conflicting usage upon them, to enhance those skills necessary to manage effectively the sea area of national jurisdiction, and to produce graduates with appropriate experience for developing policy and making decisions on marine resources and other marine uses for their individual countries or regions. To date, most graduates have taken up employment in the field of marine environmental protection in the UK and abroad.

You will receive training in the following major modules:

Marine Ecology Skills
Marine Fisheries
Coastal Habitat Ecology and Survey
Marine Environmental Impacts and their Assessment
Marine Conservation and Coastal Zone Management
Research Project design and Planning
Research Project and Dissertation
Modules combine different learning approaches, including taught lectures, seminars and working groups, practicals in the laboratory, on the shore or at sea, as well as personal study and practical research.

Skills Trained
The broad areas covered in each module are outlined below. For more detail on what our current students are studying you can take a look at our online module information.

Marine Ecology Skills
Experimental and survey design
Statistical techniques
Ship work
Taxonomic Workshop
Marine benthos survey
Statistical analysis
Report writing
Marine Fisheries
Fisheries biology
Fisheries resources
Fisheries survey at sea
Population dynamics of fin fish
Coastal Habitat Ecology and Survey
Coastal habitat ecology
Survey techniques
Planning biological surveys
Risk assessment
Team field survey
Marine Environmental Impacts and their Assessment
Physical and chemical processes causing impacts
Development of the coastal zone
Environmental Impact Assessment
Preparation of an Environmental Impact Statement
Consultant / Developer interviews
EIA public meeting
Marine Conservation and Coastal Zone Management
Environmental remote sensing and Geographical Information Systems
Coastal Zone Law
Socioeconomics
Biodiversity
Conservation
Sustainability
Integrated Coastal Zone Management
Coastal Zone Management Conference
Research Project Design and Planning
Literature review
Project proposal development
Scientific peer review
Research Project and Dissertation
Health and Safety
Practical research at home or overseas
20,000 word dissertation

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Marine biology is an extraordinarily broad and dynamic subject, reflecting the diversity and energy of marine ecosystems and the fantastic array of life they contain, making this a compelling subject to study. Read more
Marine biology is an extraordinarily broad and dynamic subject, reflecting the diversity and energy of marine ecosystems and the fantastic array of life they contain, making this a compelling subject to study. Marine processes exert massive influences on the Earth’s climate and the pattern of biogeochemical cycling. Closely linked with the diverse research pursuits of a range of scientists this programme allows you to apply and develop your particular skills in a marine context.

Key features

-Study in Plymouth, an internationally renowned city for marine biological research.
-Participate in a specifically designed, topical programme jointly hosted by Plymouth University and the Marine Biological Association (MBA) of the UK.
-Choose between two pathways to suit your research interests, biodiversity and ecology or cellular and molecular biology.
-Benefit from being taught by recognised experts with worldwide links to research organisations and projects.
-Draw on our expertise, working alongside research staff on a personal project.
-Undertake an extensive, original and innovative research project, often in collaboration with MBA Research Fellows, or one of our other partner institutions (Plymouth Marine Laboratory, Sir Alister Hardy Foundation for Ocean Science and the National Marine Aquarium), either in the UK or abroad.
-Excellent training for further research.
-See the benefit from close links with the research community worldwide.

Course details

In your first term you will study core modules which concentrate on building up your general research and academic skills. You’ll also be introduced to the research and organisation of the MBA and the Marine Biology and Ecology Research Centre at the University, with a focus upon raising your awareness of potential dissertation topics and advisors. You’ll take a specific module based on your chosen specialisation. The ecology option includes additional training in the analysis of ecological data and conservation/biodiversity assessments. The cellular and molecular option meanwhile focuses on DNA and microbiological techniques, biological imaging, and electrophysiological methods. The majority of time from mid-January onwards is spent on your research project and dissertation. You’ll undertake your project working directly with researchers at the MBA, Plymouth University or one of our other partner institutions. It may also be possible to conduct your project abroad.

Core modules
-MBAM5106 Advanced Research in Marine Biology
-MBAM5109 Marine Biology MRes Dissertation
-BIO5131 Postgraduate Research Skills & Methods

Optional modules
-MBAM5108 Marine Ecology and Conservation
-MBAM5107 Molecular and Cellular Approaches in Marine Biology

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.

Advice from graduate Olivia Durkin

"Although I may have not followed the typical path of a marine biology graduate, I have always remained flexible in the available job opportunities and therefore gained a very varied skill set, enabling me to adapt to different roles and projects. Do what you enjoy and it’s ok if you don’t end up being the dolphin trainer you thought you might be."

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Take the opportunity to study on the UK’s first MSc Marine Renewable Energy programme. Read more
Take the opportunity to study on the UK’s first MSc Marine Renewable Energy programme. Building on our international reputation for marine research and teaching, the Peninsula Research Institute in Marine Renewable Energy (PRIMaRE) initiative and the South West Marine Energy Park, this distinctive degree focuses on the rapidly growing marine renewable energy sector. Gain expert knowledge in marine science, engineering, economics, law and policy, and undertake an independent research project.

Key features

-Be at the forefront of the emerging field of marine renewable energy at a time when such expertise is increasingly sought after.
-Learn in an environment which benefits from PRIMaRE investment in new staff expertise and facilities.
-Benefit from a programme fully-integrated with the £42 million wave hub project, the world's largest wave energy test site, off north Cornwall.
-Live and study in ‘Britain’s Ocean City’, with easy access to businesses and the natural environment involved in your area of study this is an ideal location to study marine renewables.
-Take the opportunity to study abroad in the research project phase and be supported by one Plymouth University supervisor and one supervisor overseas.
-Benefit from our research team’s expertise – our staff achieved ratings of ‘worldleading’ and ‘internationally excellent’ in the UK government’s most recent Research Assessment Exercise (RAE 2008).

Course details

The taught modules in the first period are compulsory and are designed to provide you with a broad background on marine renewable as well as a solid basis for the option modules in period two. You’ll undertake four modules in period one that provide a background in marine renewable energy: introduction to marine renewable energy, economics, law and policy for marine renewable energy, research skills and research methods. In periods two and three you’ll demonstrate your ability to implement a research project and produce an independent dissertation or paper of your own research. Many projects are carried out in association with active PRIMaRE research projects that staff are engaged in, including: resource characterisation, marine renewable energy systems, environmental and biodiversity impacts, coastal impacts, safe operations and navigational risk, underwater and surface electrical systems, socio-economic factors. Projects always have two supervisors.

Core modules
-MAR513 Research Skills and Methods
-MAR526 Introduction to Marine Renewable Energy
-MAR527 Economics, Law and Policy for Marine Renewable Energy
-MAR525 MRes Dissertation

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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visit course pages for more information about the next Open Day at NHM on Wednesday 7 June 2017. Taxonomy and systematics provide the foundation for studying the great diversity of the living world. Read more

Open Day

visit course pages for more information about the next Open Day at NHM on Wednesday 7 June 2017.

Course Overview

Taxonomy and systematics provide the foundation for studying the great diversity of the living world. These fields are rapidly changing through new digital and molecular technologies. There is ever greater urgency for species identification and monitoring in virtually all the environmental sciences, and evolutionary ‘tree thinking’ is now applied widely in most areas of the life sciences.

This course provides in-depth training in the study of biodiversity based on the principles of phylogenetics, evolutionary biology, palaeobiology and taxonomy. The emphasis is on quantitative approaches and current methods in DNA-based phylogenetics, bioinformatics, and the use of digital collections.

Location

This course is a collaboration of Imperial College London (Silwood Park) with the Natural History Museum. This provides an exciting scientific environment of two institutions at the forefront of taxonomic and evolutionary research.

The MSc in Taxonomy and Biodiversity comprises two terms of taught modules, mostly based at the Natural History Museum, and covers core areas in biodiversity, palaeobiology, phylogenetics, molecular systematics, phylogenomics and taxonomic principles. This is followed by a 16-week laboratory or field-based research project at the NHM or Imperial College’s Silwood Park or South Kensington campuses.

Modules

• Taxonomy of major groups and the Tree-of-Life: An introduction of major branches of the Tree, including identification exercises, presented by NHM experts
• Statistics and Computing: A two-week intensive course at Silwood Park
• Field course: trapping and collecting techniques for terrestrial and aquatic ecosystems
• Phylogenetic Reconstruction: the principles of building phylogenetic trees
• Molecular Systematics: generating and analysing molecular data; model-based phylogenetics
• Phylogenomics: Genomic techniques for studying evolutionary processes and biodiversity
• Biodiversity (Concepts): speciation, radiation, macroevolution
•Biodiversity (Applied): Measuring biodiversity, geospatial analysis, collection management and biodiversity informatics
• Palaeobiology: Studying the fossil record and what we can learn for biodiversity

Post Study

Students on the course will become the new generation of taxonomists in the broadest sense. They will be familiar with these new tools, as well as the wider concepts of biodiversity science, evolutionary biology and genomics. Most importantly, students gain the abilities to work as an independent scientist and researcher, to be able to solve questions about the future of biodiversity and to communicate them to peers and the public.
Students have many options for future employment in evolutionary and ecological research labs in industry, government and non-governmental organisations, conservation, and scientific publishing and the media. The courses are an excellent starting point for PhD level careers, feeding into various Doctoral Training Programmes available at NHM and Imperial, or elsewhere.

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This two-year taught MSc is a joint European programme that provides the opportunity to study in Southampton, Bilbao, Bordeaux and Liege and will develop your ability to make a difference in marine environmental resource management. Read more

Summary

This two-year taught MSc is a joint European programme that provides the opportunity to study in Southampton, Bilbao, Bordeaux and Liege and will develop your ability to make a difference in marine environmental resource management. You will spend a full semester at three out of the four European universities (Southampton, Bilbao, Bordeaux, Liege) and will study in English. Your dissertation can be taken at any of these institutions or at any other MER partner institution worldwide. This experience of mobility, along with the emphasis on environment and resources in the programme, will empower you in the pan-European job and research market.

Modules

Semenster one delivered by the University of Southampton or the University of Bordeaux
Modules offered at Southampton:

Core modules: Contemporary Topics in Marine Science Policy and Law; Introduction to Biological Oceanography; Introduction to Chemical Oceanography; Introduction to Marine Geology; Introduction to Physical Oceanography
Optional modules: Coastal Sediment Dynamics; Marine GeoArchaeology; Microfossils, Environment and Time; Applied and Marine Geophysics; Biogeochemical Cycles in the Earth System; International Maritime and Environment Law; Introductory Remote Sensing of the Oceans; Largescale Ocean Processes; Deep-sea Ecology; Zooplankton Ecology and Processes

Semester two delivered by the University of the Basque Country, Bilbao.

Semester three delivered by the University of Southampton or the University of Liege.
Modules offered at Southampton:

Option modules: four from: Deep-sea Ecology; Zooplankton Ecology and Processes; and any option not taken in the first semester Specialisation in: Biodiversity and Preservation of the Marine Environment and its Resources; Design of Sampling Schemes and Data Analysis in Research Projects; Ecotoxicology; Integrated Assessment of the Quality of the Marine Environment; Sustainable Management of Marine Living Resources; Sustainable Management of Marine Non-living Resources

Visit our website for further information...



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Today more than ever, quantitative skills form an essential basis for successful careers in ecology, conservation, and animal and human health. Read more
Today more than ever, quantitative skills form an essential basis for successful careers in ecology, conservation, and animal and human health. This Masters programme provides specific training in data collection, modelling and statistical analyses as well as generic research skills. It is offered by the Institute of Biodiversity, Animal Health and Comparative Medicine (IBAHCM), a grouping of top researchers who focus on combining field data with computational and genetic approaches to solve applied problems in epidemiology and conservation.

Why this programme

-This programme encompasses key skills in monitoring and assessing biodiversity critical for understanding the impacts of environmental change.
-It covers quantitative analyses of ecological and epidemiological data critical for animal health and conservation.
-You will have the opportunity to base your independent research projects at the University field station on Loch Lomond (for freshwater or terrestrial-based projects); Millport field station on the Isle of Cumbria (for marine projects); or Cochno farm in Glasgow (for research based on farm animals). We will also assist you to gain research project placements in zoos or environmental consulting firms whenever possible.
-The uniqueness of the programme is the opportunity to gain core skills and knowledge across a wide range of subjects, which will enhance future career opportunities, including entrance into competitive PhD programmes. For example, there are identification based programmes offered elsewhere, but most others do not combine practical field skills with molecular techniques, advanced informatics for assessing biodiversity based on molecular markers, as well as advanced statistics and modelling. Other courses in epidemiology are rarely ecologically focused; the specialty in IBAHCM is understanding disease ecology, in the context of both animal conservation and implications for human public health.
-You will be taught by research-active staff using the latest approaches in quantitative methods, sequence analysis, and practical approaches to assessing biodiversity, and you will have opportunites to actively participate in internationally recognised research. Some examples of recent publications lead by students in the programme: Blackburn, S., Hopcraft, J. G. C., Ogutu, J. O., Matthiopoulos, J. and Frank, L. (2016), Human-wildlife conflict, benefit sharing and the survival of lions in pastoralist community-based conservancies. J Appl Ecol. doi:10.1111/1365-2664.12632. Rysava, K., McGill, R. A. R., Matthiopoulos, J., and Hopcraft, J. G. C. (2016) Re-constructing nutritional history of Serengeti wildebeest from stable isotopes in tail hair: seasonal starvation patterns in an obligate grazer. Rapid Commun. Mass Spectrom., 30:1461-1468. doi: 10.1002/rcm.7572. Ferguson, E.A., Hampson, K., Cleaveland, S., Consunji, R., Deray, R., Friar, J., Haydon, D. T., Jimenez, J., Pancipane, M. and Townsend, S.E., 2015. Heterogeneity in the spread and control of infectious disease; consequences for the elimination of canine rabies. Scientific Reports, 5, p. 18232. doi: 10.1038/srep18232.
-A unique strength of the University of Glasgow for many years has been the strong ties between veterinarians and ecologists, which has now been formalised in the formation of the IBAHCM. This direct linking is rare but offers unique opportunities to provide training that spans both fundamental and applied research.

Programme structure

The programme provides a strong grounding in scientific writing and communication, statistical analysis, and experimental design. It is designed for flexibility, to enable you to customise a portfolio of courses suited to your particular interests.

You can choose from a range of specialised options that encompass key skills in:
-Monitoring and assessing biodiversity – critical for understanding the impacts of environmental change
-Quantitative analyses of ecological and epidemiological data – critical for animal health and conservation
-Ethics and legislative policy – critical for promoting humane treatment of both captive and wild animals.

Core courses
-Key research skills (scientific writing, introduction to R, advanced linear models, experimental design and power analysis)
-Measuring biodiversity and abundance
-Programming in R
-Independent research project

Optional courses
-Molecular analyses for biodiversity and conservation
-Biodiversity informatics
-Molecular epidemiology and phylodynamics
-Infectious disease ecology and the dynamics of emerging disease
-Single-species population models
-Multi-species models
-Spatial and network processes in ecology & epidemiology
-Introduction to Bayesian statistics
-Freshwater sampling techniques
-Invertebrate identification
-Vertebrate identification
-Human Dimensions of Conservation
-Principles of Conservation Ecology
-Protected Area Management
-Animal welfare science
-Legislation related to animal welfare
-Enrichment of animals in captive environments
-Care of captive animals
-Biology of suffering
-Assessment of physiological state

Career prospects

You will gain core skills and knowledge across a wide range of subjects that will enhance your selection chances for competitive PhD programmes. In addition to academic options, career opportunities include roles in zoos, environmental consultancies, government agencies, ecotourism and conservation biology, and veterinary or public health epidemiology.

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How does increasing temperatures affect whales and seals? How does the hole in the ozone layer affect plankton? How is biodiversity changing in the Wadden Sea?. Read more
How does increasing temperatures affect whales and seals? How does the hole in the ozone layer affect plankton? How is biodiversity changing in the Wadden Sea?

How are the oceans responding to climate change? In answering such questions, the two-year Master's degree programme in Marine Biology focuses on life in our planet's seas and oceans. Whether you are interested in biological oceanography, conservation of marine mammals, or coastal marine ecology, there are plenty of opportunities: you can design your own study programme to fit your personal preferences. In 2015, we start the renewed Marine Biology Master program in Groningen.

The modernized program is open for all students with a bachelor in biology. It includes a number of newly developed master courses which are jointly taught by several research groups in Marine Biology at the University of Groningen, and in close co-operation with the Royal Netherlands Institute for Sea Research (Texel, Yerseke). The programme is strongly research oriented. You will conduct research under the supervision of experienced scientists.

Why in Groningen?

- Wadden Sea nearby: unique in the world (on UNESCO World Heritage list)
- Research projects on the level of cells, organisms, populations in seas and oceans
- In cooperation with Dutch national research institutes on marine life

Job perspectives

- About one third of the graduates continue in academic research with the pursuit of their PhD degree in The Netherlands or abroad.
- About one third of the graduates continue in various kinds of research and management related to fisheries and coastal zone management.
- About one third of the graduates work in the public sector, for example in journalism, teaching or communication.

Job examples

- PhD research position
- Research and Management related to marine biology
- Work in the public sector

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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. Read more
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.

Career opportunities

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.

Contents

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.

This programma trains students in:
1. playing a key role in high quality scientific marine research
2. providing advice in marine management based on sound scientific knowledge
3. becoming critically minded, problem-solving and communicative scientists

You can major in one of four specialisations:
• 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.

Visit the Marine and Lacustrine Science and Management (Oceans & Lakes) page on the Vrije Universiteit Brussel website for more details!

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This skills-focussed MSc provides students with a thorough knowledge of the biodiversity in our oceans while receiving practical training in cutting-edge techniques and experimental approaches underpinning on-going developments in marine biotechnology. Read more
This skills-focussed MSc provides students with a thorough knowledge of the biodiversity in our oceans while receiving practical training in cutting-edge techniques and experimental approaches underpinning on-going developments in marine biotechnology.
Students learn about existing products developed by marine biotechnologists and gain insight into new and emerging global market opportunities. Seminars led by distinguished industrialists and commercial marine biotechnologists encourage the entrepreneurial spirit, provide inspiration and allow for appreciation of commercial realities.

In addition, students are equipped with key employability skills, including:
-Problem solving and critical thinking.
-Information retrieval, evaluation and presentation.
-Data interpretation and report writing.
-Group working, organisation and leadership.

Through an active approach to learning, students develop confidence to work independently and are encouraged to pursue their main interests.

Key information

-Degree type: MSc, Postgraduate Diploma.
-Study methods: Part time, full time. Campus based.
-Duration: 12 months full time.
-Start date: September.
-Course Director: Dr Andrew Desbois.

Course objectives

This course provides students with:
-An awareness of the diversity of marine organisms and the adaptations that enable them to prosper in their natural habitats.
-A thorough knowledge of the fundamental science and methodologies underpinning on-going developments in marine biotechnology.
-An understanding of the latest advances and global opportunities that exist in the burgeoning field of marine biotechnology.
-Training in practical, investigative and research skills, as well as commercialisation and intellectual property protection.

About the Faculty

The Faculty of Natural Sciences provides a distinctive and distinguished academic arena that explores the complex and challenging inter-relationships between human behaviours, technologies, biological, environmental and aquatic systems.

The Faculty brings together four divisions:
-Institute of Aquaculture.
-Biological and Environmental Sciences.
-Computing Science and Mathematics.
-Psychology.

World-leading original, significant and rigorous research is found in all of our academic disciplines. Our approach is interdisciplinary and research aspires to be cutting-edge, collaborative and excellent – internationally recognised for its quality and relevance.
In the most recent Research Excellence Framework (REF), the Faculty participated in six units of assessment where it excelled in a breadth of disciplines:
-1st in the UK in Aquaculture.
-4th in the UK for Agriculture, Veterinary and Food Science.
-3rd in Scotland (18th in the UK) for Psychology.
-One of only four UK universities with Psychology research rated as having 100% world-leading impact.

Other admission requirements

If English is not your first language you must have one of the following qualifications as evidence of your English language skills:
-IELTS: 6.0 with 5.5 minimum in each skill.
-Cambridge Certificate of Proficiency in English (CPE): Grade C.
-Cambridge Certificate of Advanced English (CAE): Grade C.
-Pearson Test of English (Academic): 54 with 51 in each component.
-IBT TOEFL: 80 with no subtest less than 17.

For more information go to English language requirements: https://www.stir.ac.uk/study-in-the-uk/entry-requirements/english/

If you don’t meet the required score you may be able to register for one of our pre-sessional English courses. To register you must hold a conditional offer for your course and have an IELTS score 0.5 or 1.0 below the required standard. View our range of pre-sessional courses: http://www.intohigher.com/uk/en-gb/our-centres/into-university-of-stirling/studying/our-courses/course-list/pre-sessional-english.aspx

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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. Read more

CONTRIBUTE TO THE SUSTAINABLE USE OF SEA AND OCEAN RESOURCES

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.

PROGRAMME OBJECTIVE

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.

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