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Masters Degrees (Climatic Change)

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Dynamics and Climate Change at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Environmental Dynamics and Climate Change at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The MSc in Environmental Dynamics and Climate Change course places particular emphasis on recent global and regional environmental and climatic change, the scientific basis and limitations of models and data collection techniques. It combines the international research strengths of staff within the Departments of Geography and Biosciences around environmental and climate dynamics (processes and mechanisms involved in stability and change), marine and ecosystem biology, and environmental management and sustainable development.

Graduates from the Environmental Dynamics and Climate Change course will have extensive knowledge of the current scientific issues underpinning climate change and environmental and ecosystem dynamics, and the practical problem solving, ICT and communication skills required for a successful career in the environmental service industry, regulating bodies or academia.

Students of the MSc Environmental Dynamics and Climate Change at Swansea will benefit from exceptional computing facilities that include fifteen dual-processor workstations for Earth Observation, a 20-node multiprocessor Beowulf cluster, and the Department’s IBM ‘Blue Ice’ supercomputer, used mainly for climate and glaciological modelling.

The aims of the Environmental Dynamics and Climate Change programme are:

To provide advanced training in understanding the scientific issues associated with environmental dynamics and climatic change,

To provide graduates entering the environmental service industry or a regulating body with the required practical problem solving, ICT and communication skills; as well as a basic knowledge of current climate policy and environmental management,

To provide graduates continuing their academic career with the required subject specific and transferable skills.

Modules

Modules of the MSc Environmental Dynamics and Climate Change ‌programme include:

Climate Change

Core Science Skills

Satellite Remote Sensing

Principles of Environmental Dynamics and Climatic Change

Please visit our website for a full description of modules for the Environmental Dynamics and Climate Change MSc.

Fieldwork

The Stackpole residential field course introduces Environmental Dynamics and Climatic Change programme students taking the “Principles of Environmental Dynamics” to some of the major themes of the module: environmental systems, sea-level change and human impact on the environment, in a congenial setting in Pembrokeshire. The environmental issues facing the Stackpole Estate are discussed and placed into a historical perspective through lectures and the analysis of long term environmental records.

Research

The Department of Geography aima to be one of the foremost international centres for research in human and physical geography, and to provide our students with excellent teaching and superb facilities in a friendly atmosphere.

The results of the Research Excellence Framework (REF) 2014 show that Geography at Swansea University is ranked joint 9th in the UK for research impact and 11th in the UK for research environment.

Research groups include:

Environmental Dynamics

Glaciology

Global Environmental Modelling and Earth Observation

Migration, Boundaries and Identity

Social Theory and Urban Space

We host a large community of postgraduate researchers studying for PhD degrees, and run one-year MRes, MSc and MA courses.

Facilities

The Department of Geography is well-resourced to support research: there are two dedicated computer laboratories: One of 24 computers in conjunction with Library and Information Services (LIS) providing general IT software and programmes dedicated to Geographic Information Systems (GIS) and Remote Sensing; One of 10 high-performance Linux workstations delivering software tools for advanced GIS and remote sensing applications.

We have specialist laboratory suites for: stable-isotope ratio analysis; tree ring analysis; extraction and identification of organic compounds; pollen extraction and analysis; rainfall simulation; tephra analysis; soil and sediment characterisation.

In addition, we have recently spent £1.8million on state-of-the-art teaching spaces, including IT facilities, laboratories and flexible teaching spaces.

Student profiles

I originally came to Swansea University to study for a BSc in Geography. Although this course covered a wide range of both human and physical topics that were all very interesting and provided a broad spectrum of skills from GIS and remote sensing to environmental modelling, my main interest was in the physical aspects. I graduated in 2007 with a 1st Class BSc (Hons) in Geography and wanted to continue my studies into the field of climate change. I decided that the MSc in Environmental Dynamics and Climate Change would be an appropriate route to take in order to pursue this field. The MSc in Environmental Dynamics and Climate Change focused on many characteristics of the global environment, like impacts on ecosystems, and how the varying processes associated with climate change can be monitored, measured and modelled. This choice of topics was complimented by the fact that the modules were run by lecturers working at the cutting-edge of global environmental change. The culmination of what I learned over the course of the year was put into practice with the dissertation, which allowed me to focus on an area of particular interest. The group of friends that I had on the course were brilliant and I will take away a lot of fond memories of our time together at Swansea. Now, after finishing the MSc in Environmental Dynamics and Climate Change I have a job working for the National Oceanography Centre in Southampton".

David Hamersley, MSc Environmental Dynamics and Climate Change



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Geographic Information and Climate Change at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Geographic Information and Climate Change at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The MSc Geographic Information and Climate Change course provides cross-disciplinary training in the scientific basis of Geographic Information Systems (GIS), Satellite Remote Sensing and Earth System Modelling alongside aspects of climate change.

The Geographic Information and Climate Change course places particular emphasis on the technical aspects of Geographic Information Systems (GIS) and Earth Observation as well as the past, present and future global and regional environmental and climatic change.

Graduates from the Geographic Information and Climate Change course will develop hands-on technical knowledge in Geographic Information Systems and Remote Sensing together with a broad knowledge of the current scientific issues underpinning climate change, and the practical problem solving, ICT and communication skills required for a successful career in either industry or regulating bodies.

It is envisaged that graduates from the MSc Geographic Information and Climate Change course will enter careers in utilities, county councils, the environmental service industry or regulating body, or indeed be well prepared for a future career in academia.

Key Features

Students of the Geographic Information and Climate Change programme will benefit from exceptional computing facilities that include fifteen dual-processor workstations for Earth Observation, a 20-node multiprocessor Beowulf cluster, and the Department’s IBM ‘Blue Ice’ supercomputer, used mainly for climate and glaciological modelling.

Graduates from the MSc Geographic Information and Climate Change course will have broad knowledge of the current scientific issues underpinning climatic change and environmental and ecosystem dynamics, and the practical problem solving, ICT and communication skills required for a successful career in the environmental service industry, regulating bodies or academia.

Aims:

To provide advanced training in understanding the scientific issues associated with environmental dynamics and climatic change,

To provide graduates entering the environmental service industry or a regulating body with the required practical problem solving, ICT and communication skills; as well as a basic knowledge of current climate policy and environmental management,

To provide graduates continuing their academic career with the required subject specific and transferable skills.

Modules

Please Visit our website for a full description of modules for the Geographic Information and Climate Change MSc.

Fieldwork

The Stackpole residential field course introduces students taking the “Principles of Environmental Dynamics” to some of the major themes of the module: environmental systems, sea-level change and human impact on the environment, in a congenial setting in Pembrokeshire. The environmental issues facing the Stackpole Estate are discussed and placed into a historical perspective through lectures and the analysis of long term environmental records.

Research

We aim to be one of the foremost international centres for research in human and physical geography, and to provide our students with excellent teaching and superb facilities in a friendly atmosphere.

The results of the Research Excellence Framework (REF) 2014 show that Geography at Swansea University is ranked joint 9th in the UK for research impact and 11th in the UK for research environment.

Research groups include:

Environmental Dynamics

Glaciology

Global Environmental Modelling and Earth Observation

Migration, Boundaries and Identity

Social Theory and Urban Space

Facilities

The Department of Geography is well-resourced to support research: there are two dedicated computer laboratories: One of 24 computers in conjunction with Library and Information Services (LIS) providing general IT software and programmes dedicated to Geographic Information Systems (GIS) and Remote Sensing; One of 10 high-performance Linux workstations delivering software tools for advanced GIS and remote sensing applications.

We have specialist laboratory suites for: stable-isotope ratio analysis; tree ring analysis; extraction and identification of organic compounds; pollen extraction and analysis; rainfall simulation; tephra analysis; soil and sediment characterisation.

In addition, we have recently spent £1.8million on state-of-the-art teaching spaces, including IT facilities, laboratories and flexible teaching spaces.

Student profiles

“I chose to study MSc Geographic Information and Climate Change at Swansea as I had already enjoyed my undergraduate degree here. I really enjoyed that the course is quite full on, with a lot of independent work but a willingness from lecturers to help with any issues you have. Anyone considering this course I would advise to come to the university and speak with the lecturers about the potential interests they have. You get out what you put in. I want to go into a field that requires some expertise, although I feel as though I will need more experience once in or looking for a job, Swansea has provided the stepping stone for my future career. The lecturers helped me because they take a back seat, but I understand that they are there to support me when I need it. They have allowed me to be independent.”

Alice Nolan, MSc Geographic Information and Climate Change

After completing his MSc in Geographic Information and Climate Change, Thomas went on to earn a position at the Associated British Ports Marine Environmental Research. He said of his time at Swansea – “I chose MSc Geographic Information and Climate Change at Swansea University because of the funding Available (Access to Master's Scheme) and specific course content (Climate Change and GIS modules). I enjoyed studying topics in greater depth than at undergraduate level, and the opportunity to undertake my dissertation in partnership with an external organisation. The lecturers were highly approachable throughout the course, and were always available for advice outside of lectures and seminars. Studying at Master's level in Swansea provided the opportunity to build upon the knowledge and skills I acquired as an undergraduate. For example, completing my Master's dissertation in partnership with an external company enabled development of my communication and organisational skills, as well as my ability to synthesize research. These skills have been vital for development of my career in the marine consulting sector.”

Thomas Perks, MSc Geographic Information and Climate Change



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The MSc in Environmental Change, Impact and Adaptation is your opportunity to study the latest understanding of environmental change and our efforts to plan for and manage future change. Read more

About the course

The MSc in Environmental Change, Impact and Adaptation is your opportunity to study the latest understanding of environmental change and our efforts to plan for and manage future change. Having completed your undergraduate degree in a related field, this MSc will enable you to bring your skills and knowledge up to date with a view to continuing in employment or further research.

A series of new modules have been developed specifically for this programme and ensure you will receive a balanced appreciation of many aspects of environmental change. You will critically assess the evidence for environmental change across ecosystems and different temporal scales; gain experience in field-based data collection; examine the historic, present and future risks posed to human societies; and critically eval­uate solutions proposed to address challenges arising from climatic and environmental change.

The course begins with an overseas fieldtrip in week one where you will learn to devise your own field-based experiments to investigate environmental change. Training will be given in a range of advanced techniques such as quantification of CO2 emissions from soils and interpretation of evidence for past climate and environments in the landscape. There are no written exams, instead we use a variety of alternative assessment methods including short-film making, white papers, tender reports, computing practicals, field-based experiments, reviews and essays.

This course is delivered by the Department of Geography and Earth Sciences, which has links to Natural Resources Wales and the Centre for Alternative Technology. You will also be assigned a personal tutor and a dissertation coordinator to support your personal and academic needs.

This course will help you develop the latest technological, theoretical and practical understanding of the subject and a range of transferable skills to support your employability. You will be able to: expertly debate the subject in written, oral and on-line forums; develop alternative approaches to research; work independently and as part of a team; undertake self-regulation of work regimes and time management; and collate, process and interpret data sets efficiently.

Our lecturers are active researchers working at the cutting edge of their disciplines, and you will benefit from being taught the latest geographical theories and techniques. In the most recent Research Excellence Framework assessment (REF 2014) DGES retained its crown of the best Geography department in Wales, with 78% of the research being undertaken classified as either "world leading" or "internationally excellent”. DGES is also in the top ten of UK Geography departments with regard to research power, which provides a measure of the quality of research, as well as of the number of staff undertaking research within the department.

This degree will stand you in good stead for a career in risk management, development, disaster relief, environmental management or consultancy. This course is also highly suitable to prepare you for future research at PhD level.

Course content

Core modules:

Advanced Research Skills 1: science communication and data analysis
Environmental Change Dissertation
Environmental Change: a Palaeo Perspective
Global Climate Change: Debates and Impacts
Investigating Environmental Change: Fieldwork
Managing Environmental Change in Practice
Risk Management and Resilience in a Changing Environment

Contact time

Approximately 10-14 hours a week in the first two semesters. During semester three you will arrange your level of contact time with your assigned supervisor.

Assessment

The programme comprises 180 credits. There are 120 credits of taught modules completed during Semester 1 and Semester 2. This is followed by a research dissertation (60 credits) in semester 3.

Employability

This degree will suit you:

- If you want advanced training in environment based topics from one of the UK's leading research departments
- If you have a 2:1 degree or higher in a related discipline
- If you wish to gain academic expertise, field skills and technical experience in an environmental discipline
- If you wish to enter a career in environmental management or consultancy, development, disaster relief, risk management as well as future doctoral research.

Upon completing the Aberystwyth Masters in Environmental Change, Impact and Adaptation, you will be suited to specialist environment-related employment and more general areas of work. As a specialist, you will be a highly competent contributor to any work relating to climate change, human impacts on terrestrial ecosystems, environmental risk assessment and environmental policy analysis. In more generic employment situations, your strengths will be broad and deep because you will be able to demonstrate mastery in any planning, research, analysis and reporting skills that your employer will require.

Studying for this Masters degree will allow you to sharpen all your core scientific disciplines, your professional work ethos and your presentation and communication skills. Once secured by obtaining your Masters Degree, you will have gained confidence in the level of your academic expertise and practical field skills, which in turn will enhance your employability in both highly specialised related professions and also on broader, unrelated professional paths. All employers, whether subject-related specialists or more general corporate bodies and consultancies, place a high value on first-rate technical aptitude, clarity in research and analysis and fluency in communication.

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The current environmental changes affect both natural ecosystems and civil societies. Global change refers to planetary-scale changes occurring in complex socio-ecological systems, which are affected by climatic and non-climatic drivers (e.g., changes in human society). Read more
The current environmental changes affect both natural ecosystems and civil societies. Global change refers to planetary-scale changes occurring in complex socio-ecological systems, which are affected by climatic and non-climatic drivers (e.g., changes in human society). Understanding the intricate, medium- to long-term changes in our land, air and water requires advanced scientific knowledge in measurement, modelling and prediction.

This joint international MSc course between the UCD School of Biology and Environmental Science and Justus-Liebig University (JLU) Giessen, Germany is the response to these global change challenges and will suit skilled motivated science graduates wishing to develop a scientific career in ecosystem research as well as those aiming to contribute to evidence-based environmental policy.

You will be involved in active research groups in both countries, contributing to their ongoing ecosystem studies in order to experience the process of creating scientific knowledge in ecosystem science. In addition to acquiring skills in measuring, analysing and understanding what is behind scientific data you will have the opportunity to develop your analytical, presentation and communication skills to enable you to participate in the policy making process.

Key Fact

Graduates will receive a joint international degree from two well-established universities combining their complementary and multidisciplinary research profiles and cutting-edge expertise. Through the 6-8 weeks work placement in in a company or institution of your choice, you will acquire transferable skills which will make you a sought after and effective employee.

Course Content and Structure

This is a 120 CP programme comprising 70 CP of taught modules, 20CP of work placement and 20 CP of independent research project. The first semester is based at UCD, Dublin, followed by a 6-8 week work placement in a company or institution of your choice. We have established links with organisations such as FAO, UNFCCC, ISEO, EFI, ICLEI and NOAA as well as European and national EPA agencies and many research institutes.
The second taught semester is based in JLU, Giessen between March and August and the third semester (Sept-Dec) is devoted entirely to the individual research project, which can be undertaken in either UCD, JLU or another approved research institute.
Samples of topics include:

• Global change (soil, air, water): modelling and advanced techniques
• Science and policy
• Research in ecology
• Environmental law and policy
• Man in past climates
• Policy consultancy
• Plant-soil-atmosphere interactions
• Biodiversity informatics
• Data analysis and interpretation
• Economics and environmental management
• Environmental impact assessment


For more information on module description and available scholarships, visit http://globalchange.ucd.ie/

Career Opportunities

Graduates may pursue roles as policy advisers, scientific analysts or researchers in government, international organisations, NGOs, research institutes or consulting companies. There are also many opportunities for further studies. The skills you acquire, particularly through the completion of the minor thesis within a 4 month period, provide a strong foundation for PhD research.

Prospective employers include the national Environmental Protection Agency, governmental departments, European Commission as well as policy consultancy firms such as European Environment Agency and also international organisations (e.g. Intergovernmental Panel on Climate Change; United Nations Environment Programme; Food and Agriculture Organisation; International Union for the Conservation of Nature).

Facilities and Resources

• A climate change station at JLU hosts one of the world longest-running Free Air Carbon dioxide (FACE) experiments.
• The Program for Experimental Atmospheres and Climate (PEAC) at UCD is a state-of-the art plant growth room facility to investigate past and future climatic scenarios.
• The UCD Earth Institute is a centre for resource and environment research aimed at leading Ireland’s response to climate change and the global energy crisis.

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Summary. The sustainable provision and use of energy is a major challenge of the 21st century. This programme aims to equip the next generation of energy professionals with the multidisciplinary approaches required to tackle climate change issues, whilst improving energy supply and the built environment. Read more

Summary

The sustainable provision and use of energy is a major challenge of the 21st century. This programme aims to equip the next generation of energy professionals with the multidisciplinary approaches required to tackle climate change issues, whilst improving energy supply and the built environment. We enable students to view energy and sustainability challenges from multiple perspectives, which in turn will lead to

the development of rounded – and lasting solutions. Studying the MSc in Energy and Sustainability (Energy, Resources and Climate Change) will enable you to study the impact of using fossil fuels on the environment and develop alternative sustainable energy solutions.

Modules

Compulsory modules: Introduction to Energy Technologies, Environment and Sustainability; Climate Change, Energy and Settlements; Geographic Information Systems; Energy Resources and Engineering; Data Analysis and Experimental Methods for Civil and Environmental Engineering; Bioenergy; Waste Resource Management; MScResearch Project

Optional modules: one module from either Energy Performance Assessment of Buildings and Climatic Design of Buildings

Visit our website for further information.



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There is a pressing national and international need to understand the nature and consequences of climatic change and to develop adaptation strategies. Read more
There is a pressing national and international need to understand the nature and consequences of climatic change and to develop adaptation strategies. The UCL Climate Change MSc provides rigorous scientific and vocational training for the next generation of climate change professionals.

Degree information

The programme provides you with a knowledge and understanding of the Earth system (incorporating the atmosphere, hydrosphere, biosphere, lithosphere) and the nature and causes of climate variability and change. It combines observationally based climate and environmental science with state-of-the-art modelling, specifically concerned with understanding the impacts of climate change. It seeks to place climate change within the context of broader anthropogenic environmental change and social policy dimensions.

Students undertake modules to the value of 180 credits.

The programme consist of four core modules (60 credits), four optional modules (60 credits) and a research dissertation (60 credits). A Postgraduate Diploma (120 credits, full-time nine months) is offered. A Postgraduate Certificate (60 credits, full-time 12 weeks, part-time one year) is offered.

Core modules
-Climate Dynamics
-Models in Environmental Science
-Past Climates
-Global Environmental Change

*modules running are dependent on staff sabbaticals

Optional modules
-Biological Indicators of Environmental Change
-Climate Modelling
-Coastal Change
-Cities and Climate Change
-Environmental GIS
-Impacts of Climate Change on Hydro-ecological systems
-Non-biological Indicators of Environmental Change
-Ocean Circulation and Climate Change
-Politics of Climate Change
-Terrestrial Carbon: Modelling and Monitoring
-Surface Water Modelling
-Other MSc modules offered across UCL may be taken at the discretion of the MSc convenor.

*availability of modules is dependent on staff sabbaticals.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of approximately 12,000 words and an oral presentation.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials and laboratory and computer-based practical classes. Assessment is through independent project work, practical-based and written coursework, and the dissertation.

Careers

The programme provides an ideal foundation for PhD research, or for employment with a wide range of private industries, non-governmental organisations, government agencies and environmental consultancies. Graduates have gone on to careers in the commercial, non-profit and academic sectors. Examples include government policy implementation, sustainability consultancy, science communication and research. A significant proportion of students go onto further study such as a PhD.

Top career destinations for this degree
-Policy Manager, Department of Energy & Climate Change (DECC)
-Science Communicator, Science Museum / London Transport Museum
-MSc in Environmental Economics, University College London (UCL)
-PhD in Hydrology, University of Leeds

Employability
Climate change is big issue with many governmental, non-governmental and commercial cosequences. This programme will give graduates an edge when applying for jobs in the private sector relating to adaptation and mitigation - such as the insurance industry and carbon monitoring companies respectively. It also provides a great stepping-stone to a PhD.

Why study this degree at UCL?

As one of the world's top universities, UCL excels across the natural sciences, social sciences and humanities. The MSc is run by UCL Geography, which enjoys an outstanding international reputation for its research and teaching.

The Climate Change MSc brings together the strong expertise of the department, offering a distinctive blend of fundamental climate science, environmental modelling, impacts and adaptations, delivered from both natural and social science perspectives.

By bringing together students and researchers we aim to create a vibrant and informal academic environment of mutual discovery and ongoing debate.

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Biosciences at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Biosciences at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

This MRes in Biosciences programme will provide you with research training in one or more of our Research Pathways and you will benefit from training in our Specialist Research Facilities. Research staff will share their expertise and assist you in developing the skills necessary to do independent research, leading to a dissertation written as a scientific paper.

All research students in Biosciences undertake taught modules followed by a major research project under the guidance of academic staff in one or more of our Research Pathways, and benefitting from training in our specialist research facilities.

The MRes Biosciences is a one-year programme. All research students undertake taught modules followed by a major research project under the guidance of academic staff in one or more of our Research Pathways , and benefiting from training in our Specialist Research Facilities.

Biosciences at Swansea has a good relationship with a wide range of external partners, including SMEs, Government Agencies, Local Government, UK and overseas research institutes and universities.

Research Pathways

1) Behavioural and Movement Ecology

Studying adaptations, and the selective pressures in the social and ecological environment that bring them about. We specialise in the movement ecology of individuals and collectives and can provide specialist research training to understand the role of the environment in structuring the properties of animal movement and behaviour.

2) Evolutionary and Molecular Biology

Understanding the diversity of life from a molecular perspective. We use the latest genetic and genomics techniques to address key questions in ecology, behaviour and conservation from an evolutionary perspective in a range of non-model organisms, from fungi to plants and animals.

3) Marine Biology, Fisheries and Aquaculture

From developing new techniques in fish husbandry and rearing of commercially important aquaculture species, to research in food and fuel security, low carbon technologies, biogeochemical cycles and climate change. Specialist research training can be provided on a diverse range of temperate to tropical aquatic organisms, from microplankton to invertebrates to fish, inhabiting marine to freshwater environments.

4) Mathematical and Statistical Ecology

Research that complements the full range of our academic expertise, from theoretical investigations of ecosystem complexity, stoichiometric ecology, pattern formation and animal movement, to practical agricultural applications and the operation of micro-algal biotechnology.

5) Population and Community Ecology

Combining experimental and theoretical approaches to develop our understanding of how species interactions with their environment (including other species) generate the spatial-temporal biodiversity patterns we observe in nature. Study systems include plankton ecosystems, coastal ecosystem functioning, disease control, conservation, and the impact of spatial-temporal environmental variation on community dynamics.

6) Whole Organism Biology

Our staff comprises world-leading experts on a range of organisms studied around the world, and welcome students who want to develop projects around such species.

7) Wildlife Diseases and Pest Control

Research focused on developing natural agents and solutions for the control of wildlife diseases and invertebrate pests that impact on food security and human and animal health. Research training provided in disease detection methods, disease management, and the socioeconomic benefits of pest control.

Facilities

As a student on the MRes Biosciences programme, you will benefit from a range of facilities such as:

Our excellent facilities include a unique built Animal Movement Visualisation Suite (£1.35m), incorporating an electronic wall linked to a computer-tesla cluster for high-speed processing and visualisation of complex accelerometry and magnetometry data derived from animals. Coupled with this facility is the Electronics Lab with capacity for research, development and realisation of animal tags with new capacities (sensors, energy-harvesting systems, miniaturization, 3-D printing of housings etc.); a custom-designed 18m on coastal research vessel; a recent investment of £4.2m on a new suite of state-of-the art Science laboratories; and the £2m unique Centre for Sustainable Aquatic Research (CSAR) with a 750 m2 controlled environment building, with programmable recirculating aquatic systems, unique within the UK’s higher-education sector. These are tailored for research on a diverse range of organisms, ranging from temperate to tropical and marine to freshwater. Coupled with this are nutrient and biochemical analytical capabilities.

Theoretical/mathematical research uses advanced university computing facilities that includes high-end graphics workstations, high-speed network links and the Blue Ice supercomputer located at the Mike Barnsley Centre for Climatic Change Research.

Several dedicated Bioscience labs housed within our grade 2 listed Wallace Building recently benefitted from a £4.2 million renovation programme, providing world-class research facilities that includes a specialist molecular ecology lab and a dedicated arthropod facility.

Research

We are 7th in the UK and top in Wales for research excellence (REF 2014)

93.8% of our research outputs were regarded as world-leading or internationally excellent and Swansea Biosciences had the highest percentage of publications judged ‘world-leading’ in the sector. This is a great achievement for the Department, for the College of Science and indeed for Swansea University.



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This highly reputable course gives you a comprehensive understanding of the science, politics and economics surrounding climate change. Read more
This highly reputable course gives you a comprehensive understanding of the science, politics and economics surrounding climate change. It’s a perfect grounding for graduates wishing to undertake research in climate science, or for those looking for a career in government or business consultancy.

This MSc is designed to train the next generation of climate experts with a full appreciation of the core science as well as the wider developmental and policy issues that are just as crucial. You’ll study compulsory modules covering the physical science behind climate change and the role of energy, as well as several optional modules that you can tailor to your particular interests.

You’ll also complete a Masters-level dissertation, taking advantage of our world-class facilities, leading experts and extraordinary institutional links. The course is based in the Climatic Research Unit (CRU) which is responsible for some of the most important climate research in the world.

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Society urgently needs experts with a multidisciplinary education in atmospheric and Earth System sciences. Climate change and issues of air quality and extreme weather are matters of global concern, but which are inadequately understood from the scientific point of view. Read more
Society urgently needs experts with a multidisciplinary education in atmospheric and Earth System sciences. Climate change and issues of air quality and extreme weather are matters of global concern, but which are inadequately understood from the scientific point of view. Not only must further research be done, but industry and business also need environmental specialists with a strong background in natural sciences. As new regulations and European Union directives are adopted in practice, people with knowledge of recent scientific research are required.

Upon graduating from the Programme you will have competence in:
-Applying experimental, computational and statistical methods to obtain and analyse atmospheric and environmental data.
-Knowledge applicable to solving global challenges such as climate change, air pollution, deforestation and issues related to water resources and eutrophication.
-Making systematic and innovative use of investigation or experimentation to discover new knowledge.
-Reporting results in a clear and logical manner.

The University of Helsinki will introduce annual tuition fees to foreign-language Master’s programmes starting on August 1, 2017 or later. The fee ranges from 13 000-18 000 euros. Citizens of non-EU/EEA countries, who do not have a permanent residence status in the area, are liable to these fees. You can check this FAQ at the Studyinfo website whether or not you are required to pay tuition fees: https://studyinfo.fi/wp2/en/higher-education/higher-education-institutions-will-introduce-tuition-fees-in-autumn-2017/am-i-required-to-pay-tuition-fees/

Programme Contents

The six study lines are as follows:
Aerosol Physics
Aerosol particles are tiny liquid or solid particles floating in the air. Aerosol physics is essential for our understanding of air quality, climate change and production of nanomaterials. Aerosol scientists investigate a large variety of phenomena associated with atmospheric aerosol particles and related gas-to-particle conversion using constantly improving experimental, theoretical, model-based and data analysis methods. As a graduate of this line you will be an expert in the most recent theoretical concepts, measurement techniques and computational methods applied in aerosol research.

Geophysics of the Hydrosphere
Hydrospheric geophysics studies water in all of its forms using physical methods. It includes hydrology, cryology, and physical oceanography. Hydrology includes the study of surface waters such as lakes and rivers, global and local hydrological cycles as well as water resources and geohydrology, the study of groundwater. Cryology focuses on snow and ice phenomena including glacier mass balance and dynamics, sea ice physics, snow cover effects and ground frost. Physical oceanography covers saline water bodies, focusing on describing their dynamics, both large scale circulation and water masses, and local phenomena such as surface waves, upwelling, tides, and ocean acoustics. Scientists study the hydrosphere through field measurements, large and small scale modelling, and formulating mathematical descriptions of the processes.

Meteorology
Meteorology is the physics of the atmosphere. Its best-known application is weather forecasting, but meteorological knowledge is also essential for understanding, predicting and mitigating climate change. Meteorologists study atmospheric phenomena across a wide range of space and time scales using theory, model simulations and observations. The field of meteorology is a forerunner in computing: the development of chaos theory, for example, was triggered by the unexpected behaviour of a meteorological computer model. Meteorology in ATM-MP is further divided into dynamic meteorology and biometeorology. Dynamic meteorology is about large-scale atmospheric dynamics, modelling and observation techniques, whereas biometeorology focuses on interactions between the atmosphere and the underlying surface by combining observations and modelling to study the flows of greenhouse gases and energy with links to biogeochemical cycles, for example. As a graduate of the meteorology line, you will be an expert in atmospheric phenomena who can produce valuable new information and share your knowledge.

Biogeochemical Cycles
Biogeochemistry studies the processes involved in cycling of elements in terrestrial and aquatic ecosystems by integrating physics, meteorology, geophysics, chemistry, geology and biology. Besides natural ecosystems, it also studies systems altered by human activity such as forests under different management regimes, drained peatlands, lakes loaded by excess nutrients and urban environments. The most important elements and substances studied are carbon, nitrogen, sulphur, water and phosphorus, which are vital for ecosystem functioning and processes such as photosynthesis. Biogeochemistry often focuses on the interphases of scientific disciplines and by doing so, it also combines different research methods. It treats ecosystems as open entities which are closely connected to the atmosphere and lithosphere. You will thus get versatile training in environmental issues and research techniques. As a graduate of this line you will be an expert in the functioning of ecosystems and the interactions between ecosystems and the atmosphere/hydrosphere/lithosphere in the context of global change. You will have knowledge applicable for solving global challenges such as climate change, air pollution, deforestation and issues related to water resources and eutrophication.

Remote Sensing
Remote sensing allows the collection of information about the atmosphere, oceans and land surfaces. Various techniques are applied for monitoring the state and dynamics of the Earth system from the ground, aircraft or satellites. While Lidar and radar scan from the surface or mounted on aircraft, instruments on polar orbiting or geostationary satellites permit measurements worldwide. In atmospheric sciences remote sensing has found numerous applications such as observations of greenhouse and other trace gases, aerosols, water vapour, clouds and precipitation, as well as surface observations, for example of vegetation, fire activity, snow cover, sea ice and oceanic parameters such as phytoplankton. Synergistic satellite data analysis enables the study of important processes and feedback in the climate system. Remote sensing advances climate research, weather forecasting, air quality studies, aviation safety and the renewable energy industry. As a graduate of the remote sensing line you will have broad expertise in the operational principles of remote sensing instruments as well as methods of data collection, analysis and interpretation.

Atmospheric Chemistry and Analysis
Atmospheric chemistry studies the composition and reactions of the molecules that make up the atmosphere, including atmospheric trace constituents and their role in chemical, geological and biological processes, including human influence. The low concentrations and high reactivity of these trace molecules place stringent requirements on the measurement and modelling methods used to study them. Analytical chemistry is the science of obtaining, processing, and communicating information about the composition and structure of matter and plays an essential role in the development of science. Environmental analysis consists of the most recent procedures for sampling, sample preparation and sample analysis and learning how to choose the best analytical methods for different environmental samples. Physical atmospheric chemistry studies focus on the reaction types and reaction mechanisms occurring in the atmosphere, with emphasis on reaction kinetics, thermodynamics and modelling methods. As a graduate of this line you will have understanding of the chemical processes of the atmosphere and the latest environmental analytical methods, so you will have vital skills for environmental research.

Programme Structure

The basic degree in the Programme is the Master of Science (MSc). The scope of the degree is 120 credits (ECTS). As a prerequisite you will need to have a relevant Bachelor’s degree. The possible major subjects are Physics, Meteorology, Geophysics, Chemistry, and Forest Ecology. The programme is designed to be completed in two years. Studies in ATM-MP consist of various courses and project work: lecture courses, seminars, laboratory work and intensive courses.

Your first year of studies will consist mainly of lecture courses. During the second year, you must also participate in the seminar course and give a presentation yourself. There is also a project course, which may contain laboratory work, data analysis, or theoretical or model studies. You will have to prepare a short, written report of the project. There are also several summer and winter schools as well as field courses for students in the Programme. Many of the courses take place at the Hyytiälä Forestry Field Station in Southern Finland. The intensive courses typically last 5–12 days and include a concise daily programme with lectures, exercises and group work.

Career Prospects

There is a global need for experts with multidisciplinary education in atmospheric and environmental issues. Governmental environmental agencies need people who are able to interpret new scientific results as a basis for future legislation. Industry, transportation and businesses need to be able to adapt to new regulations.

As a Master of Science graduating from the Programme you will have a strong background of working with environmental issues. You will have the ability to find innovative solutions to complex problems in the field of environmental sciences, climate change and weather forecasting. Graduates of the Programme have found employment in Meteorological Institutes and Environmental Administration in Finland and other countries, companies manufacturing instrumentation for atmospheric and environmental measurements and analysis, and consultancy companies. The Master's degree in ATM-MP also gives you a good background if you intend to proceed to doctoral level studies.

Internationalization

The Programme offers an international study environment with more than 30% of the students and teaching staff coming from abroad.

The ATM-MP is part of a Nordic Nordplus network in Atmosphere-Biosphere Studies, which gives you good opportunities to take courses currently in fourteen Nordic and Baltic universities. There are also several Erasmus agreements with European universities. The PanEurasian Experiment (PEEX) project provides you with opportunities to carry out part of your studies especially in China and Russia.

Research Focus

All the units teaching in the Programme belong to the National Centre of Excellence (FCoE) in Atmospheric Science – From Molecular and Biological processes to the Global Climate (ATM), which is a multidisciplinary team of the Departments of Physics, Forest Sciences and Chemistry at the University of Helsinki, the Department of Applied Physics at the University of Eastern Finland (Kuopio) and the Finnish Meteorological Institute.

The main objective of FCoE ATM is to quantify the feedbacks between the atmosphere and biosphere in a changing climate. The main focus of the research is on investigating the following topics:
1. Understanding the climatic feedbacks and forcing mechanisms related to aerosols, clouds, precipitation and biogeochemical cycles.
2. Developing, refining and utilising the newest measurement and modelling techniques, from quantum chemistry to observations and models of global earth systems.
3. Creating a comprehensive understanding of the role of atmospheric clusters and aerosol particles in regional and global biogeochemical cycles of water, carbon, sulphur, nitrogen and their linkages to atmospheric chemistry.
4. Integrating the results in the context of understanding regional and global Earth systems.

In addition to the research focus of FCoE, current research in hydrospheric geophysics at Helsinki University has an emphasis on cryology, with a focus on the effect of aerosols on Indian glaciers, the impact of climate change on the Arctic environment, the dynamics of the Austfonna ice cap in Svalbard, and the winter season in the coastal zone of the Baltic Sea.

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This course offers comprehensive and flexible postgraduate training in the established yet dynamic field of Quaternary science, with the academic emphasis being on the time-dependent processes affecting environmental change. Read more
This course offers comprehensive and flexible postgraduate training in the established yet dynamic field of Quaternary science, with the academic emphasis being on the time-dependent processes affecting environmental change.

By the end of the course you will have acquired and demonstrated specialist disciplinary knowledge and understanding of key issues pertaining to Quaternary science, in particular the core linking themes of high-resolution palaeoenvironmental records, high-precision dating, and multi-proxy approaches to the investigation of past environmental changes.

You will also be provided with advanced training in techniques used to assess the causes, scale and rapidity of past climate and environmental fluctuations; encompassing field, laboratory, statistical and computing methods used in the acquisition, interpretation and modelling of proxy climatic and environmental data.

See the website https://www.royalholloway.ac.uk/geography/coursefinder/mscquaternaryscience.aspx

Why choose this course?

- The staff and facilities of the Centre for Quaternary Research (CQR) at Royal Holloway, University of London (RHUL) provide a wide range of opportunities for postgraduate training and research including participation in internationally significant research programmes in Quaternary science and links with potential employers.

- This consortium of staff constitutes the strongest teaching team in the UK for the provision of Masters' teaching in the field of non-marine Quaternary earth science and environmental change.

- The Department is one of the leading centres for international geographical research in the UK. In the 2014 Research Excellence Framework our research environment was recognized as overwhelmingly world class. The Natural Environment Research Council (NERC) recognizes this course as "Excellent".

- You will be provided with the temporal perspective necessary for the understanding of many contemporary environmental issues, such as climate change, biological responses to environmental change and soil erosion.

- The distinctive aspects of the research at the CQR are the emphases on high-precision dating, multiproxy palaeoenvironmental reconstruction, quantitative palaeoclimate estimates, high resolution stratigraphy/sedimentology and the influence of Quaternary climate change on early human evolution and dispersal.

Department research and industry highlights

The CQR was established in 1990 and has grown to become one of the leading international research centres in Quaternary science.

Since its inception the CQR has attracted funding from an increasingly diverse range of sources (NERC, AHRC, ESRC, Leverhulme Trust, EC Framework Programs, British Academy). Major research partnerships and initiatives have been forged (e.g. with the Natural History Museum, Museum of London, British Geological Society, English Heritage and Oxford University), which are fostering important advances in understanding Quaternary landscape evolution, quantitative palaeoclimate reconstruction, geochronology, biostratigraphy and Palaeolithic and environmental archaeology. The CQR has also benefited from recent £1.5M SRIF investment in laboratory refurbishment that has enhanced the centre’s research capabilities in OSL dating, tephrochronology, analytical chemistry and soil micromorphology.

On completion of the course graduates will have:

acquired and demonstrated specialist disciplinary knowledge and understanding of key issues pertaining to Quaternary Science, in particular the core linking themes of:
- high-resolution palaeoenvironmental records
- high-precision dating
- multi-proxy approaches to the investigation of past environmental changes.

Assessment

Assessment is carried out by a variety of methods including coursework, practical exercises, field reports and a dissertation.

Employability & career opportunities

Destinations of our graduates include the British Geological Survey, Natural England, the Environment Agency, journal publishing houses, Research Councils, environmental archaeology and museums, as well as academic positions within universities. This course also equips you with a solid foundation for continued PhD studies; around 70% of Quaternary Science graduates over the last decade have gone on to a PhD.

How to apply

Applications for entry to all our full-time postgraduate degrees can be made online https://www.royalholloway.ac.uk/studyhere/postgraduate/applying/howtoapply.aspx .

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Our Environmental Monitoring, Modelling and Management MSc is a multidisciplinary course that will give you a deeper understanding of the processes and techniques for managing environmental change. Read more

Our Environmental Monitoring, Modelling and Management MSc is a multidisciplinary course that will give you a deeper understanding of the processes and techniques for managing environmental change. You will develop skills to assess the causes and manage the consequences of environmental, climatic and land use changes, choosing either a research or a consultancy pathway to frame your study. 

Key benefits

  • Your studies will focus on the delivery of essential technical skills (GIS, Remote Sensing, modelling and monitoring).
  • You will form close links with departmental research groups and external organisations in the UK and beyond.
  • Choose to study a research or consultancy pathway.

Description

The Environmental Monitoring, Modelling and Management MSc course offers advanced-level core training in environmental modelling and monitoring, remote sensing and Geographical Information Systems (GIS), and in the research methods required to use them effectively.

You will examine how to assess the causes and consequences of environmental, climatic and land-use change, with the choice to follow a research pathway or a consultancy pathway. The two paths share key training elements but offer modules designed to support career development in two distinct spheres:

  • The research path will link you with a departmental research group working on research aspects of environmental modelling and monitoring, and is designed explicitly for those going on to a career in research.
  • The consultancy pathway focuses on the application of fundamental training for environmental management and is for those wanting to use their skills directly in environmental management.

The course is made up of optional and required modules. You will be expected to obtain the minimum of 180 credits to complete the course.

If you are studying full-time, you will complete the course in one year, from September to September. If you are studying part-time, your course will take two years to complete. You will take the combination of required and optional modules over this period of time, with the dissertation in your second year.

Course purpose

For those seeking a deeper understanding of environmental processes and techniques for managing environmental change. Provides advanced-level training in the application of environmental modelling and monitoring, remote sensing and geographical information systems (GIS) to environmental management and the prevention, mitigation or adaptation to environmental change.

Course format and assessment

Teaching

We will teach you through a combination of lectures and seminars, and you will typically have 20 hours of this per module. We also expect you to undertake 180 hours of independent study for each module. For your 12,000 word dissertation, we will provide four workshops and five hours of one-to-one supervision to complement your 587 hours of independent study. Typically, one credit equates to 10 hours of work.

Assessment

Performance on taught modules in the Geography Department is normally assessed through essays and other written assignments, oral presentations, lab work and occasionally by examination, depending on the modules selected. All students also undertake a research-based dissertation of 12,000 words.

Career prospects

Many of our graduates have gone on to undertake further doctoral research as well as work as research assistants for international development agencies. There are good career opportunities with government agencies, international and national non-governmental organisations and academic research institutes.



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Summary. The sustainable provision and use of energy is a major challenge of the 21st century. This programme aims to equip the next generation of energy professionals with the multidisciplinary approaches required to tackle climate change issues, whilst improving energy supply and the built environment. Read more

Summary

The sustainable provision and use of energy is a major challenge of the 21st century. This programme aims to equip the next generation of energy professionals with the multidisciplinary approaches required to tackle climate change issues, whilst improving energy supply and the built environment. We enable students to view energy and sustainability challenges from multiple perspectives, which in turn will lead to

the development of rounded – and lasting solutions.This MSc will link energy, environment and buildings to deliver sustainable solutions. You will learn about climatic design of buildings and cities and adaptation for a future climate.

Modules

Compulsory modules: Introduction to Energy Technologies, Environment and Sustainability; Climate Change, Energy and Settlements; Geographic Information Systems; Energy Resources and Engineering; Data Analysis and Experimental Methods for Civil and Environmental Engineering; Energy Performance Assessment of Buildings; Climatic Design of Buildings and Cities; MSc Research Project

Optional modules: one module from either Waste Resource Management or Bioenergy

Visit our website for further information.



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This course aims to develop knowledge and skills relating to the sustainable management of soil and water resources. Specifically, it aims to provide students with the ability to evaluate the potential of sites for plant growth and determine the soil and water factors affecting production. Read more
This course aims to develop knowledge and skills relating to the sustainable management of soil and water resources. Specifically, it aims to provide students with the ability to evaluate the potential of sites for plant growth and determine the soil and water factors affecting production. The course also focuses on the availability of water from surface or groundwater supplies and how this is utilised by irrigation and drainage. The course is underpinned by research and consultancy activities in the Crop Production & Science and Engineering departments.

The course

Soil and water are key resources for agriculture that determine levels of food production and thus food security on a local, national and global scale. Effective management of soil and water is essential for society in general, but critical for agriculture. Management of water is also of key importance as water is likely to become an increasingly limited resource in a world subject to climatic and environmental change.

This course aims to develop knowledge and skills relating to the sustainable management of soil and water resources. Specifically, it aims to provide students with the ability to evaluate the potential of sites for plant growth and determine the soil and water factors affecting production.

The course also focuses on the availability of water from surface or groundwater supplies and how this is utilised by irrigation and drainage. The course is underpinned by research and consultancy activities in the Crop and Environment Sciences, and Engineering departments.

A new Soil and Water Management Centre was launched at Harper Adams University in 2012.

How will it benefit me?

By completing the course you will be able to identify soil, plant and climatic variables for cropping systems in a range of geographical locations, and critically identify the social and environmental impacts of water use on catchments at a local and national scale. You will also be able to produce irrigation and drainage schemes that pay due regard to agronomic, social, economic and environmental requirements for a range of geographic locations.

You will learn to effectively source, review and analyse key information and disseminate findings and concepts relating to efficient water use in food production systems to a range of audiences. The research project will allow you to test hypotheses relevant to soil and water management through the design, execution, analysis and interpretation of appropriate experiments.

Careers

Students will be suitably qualified for careers in agri-business, agricultural consultancy and statutory bodies such as the Environment Agency.

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Significant increases in the global human population, increasing climatic instability and a concurrent reduction in fossil fuel availability, impacting upon agricultural production and policy. Read more
Significant increases in the global human population, increasing climatic instability and a concurrent reduction in fossil fuel availability, impacting upon agricultural production and policy. Food production must increase without a simultaneous increase in resource use.

Improvements in crop yield and production efficiency often come through the utilisation of individual elements of new research. Integrated Crop Management (ICM) however utilises multiple facets of research simultaneously to bring about larger, more sustainable results. This course focuses on incorporating the latest research to develop students’ critical and analytical thinking in subjects such as pest dynamics, genetic improvement, crop technology, sustainable practice and soil management.

This MSc, delivered at Myerscough and awarded by the University of Central Lancashire will integrate these topics alongside a broader critical evaluation of crop sciences enabling you to design bespoke ICM programmes for given situations.
It is aimed at graduates in biological sciences who are looking to find employment as agronomists, farm advisors, agro-technical specialists particularly in allied agricultural industries. Successful completion of this MSc degree will also facilitate progression to PhD level research in food production science.

COURSE CONTENT:

Year 1

Integrated approaches in high-input cropping systems

High-input crop production systems typically focus on achieving both high yields and profitability. This module explores the science and agronomic principles of a range of crops under such management regimes as well as their associated problems and limitations. Consideration will be given to integrated management approaches currently being adopted by industry as well as the major drivers of these changing practices. These include legislation, resistance to agrochemicals and public acceptance.

Invertebrate Dynamics in Crop Production

Approximately 10-15% of global crop production is lost to invertebrate pests. Conversely, invertebrates constitute a significant ecosystem service through pest predation and pollination. In any integrated production system, the management of invertebrates is therefore fundamental to effective crop production. This module will focus on critical evaluation of current research on invertebrate ecology and dynamics and applying this to their potential impacts on conventional cropping systems. Concepts of pest population dynamics, herbivory and species life histories will be considered in relation to their effects on the crop. Alongside this, their ‘value’ as pollinators, predators, vectors and the effects of lethal and sub-lethal pesticide doses will be evaluated.

Contemporary agronomic research and development

Research into agronomy, technology and management is of critical importance if the industry is to continue to adapt to modern pressures and challenges worldwide. This module will explore the research path including laboratory to field trials and, ultimately, application into practice. Case studies will be explored where research and development has made or could make a significant impact to management practice.

Year 2

Integrated approaches in low-input cropping systems

Low-input cropping systems seek to optimise crop yields whilst using fewer inputs when compared to conventional crop production systems. In parts of the world this is due to a lack of financial and physical resources whilst in others this is due to perceived environmental benefits. This module explores the science of the integrated management of crops under such systems, including enhanced soil management and factors influencing nutrition and disease control. Limitations will also be considered as will approaches that conventional crop production could learn from low-input management systems.

Global Drivers for Agricultural Change

This module examines the global drivers behind the need to refocus agricultural production to meet the needs of the increasing world population and mitigate the impacts of climate change. It will focus on concepts such as the effects of globalisation; the economic issues with pesticide development; the globalisation and privatisation of agricultural technology and the use of targeted pest control techniques. Furthermore, the module will assess the impacts of corporate responsibility and the necessity of having sustainable global supply chains.

Research Methodology and Design

This module provides students with the essential personal, organisational, management, theoretical and statistical skills needed to work at Postgraduate Level. It will explore research philosophies, research process and design and the process of questionnaire development and design. The module will develop skills in advanced data organisation, presentation, dissemination and problem solving.

Year 3

Masters Dissertation

The dissertation is a triple module and allows students to design and conduct a substantial piece of independent, supervised research related to the field of study. The dissertation is an independent piece of academic work which allows the student to identify and work in an area of interest to them and manage the research process to agreed deadlines.

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Your programme of study. Renewable energy engineering is in high demand globally as we find alternate methods of energy harvesting to meet our future energy needs and future proof our reliance on hydrocarbons as much as it is possible to do. Read more

Your programme of study

Renewable energy engineering is in high demand globally as we find alternate methods of energy harvesting to meet our future energy needs and future proof our reliance on hydrocarbons as much as it is possible to do. Considerable innovation and improvements are continuous within this field as it is by no means at a stage where society can rely on it to fuel all needs. The sector is interdisciplinary and this programme provides you with a wide range of very useful skills and knowledge to problem solve and progress current renewables and work towards innovation whether that is in a renewables company or as a start up.

You study electrical and electronic engineering pertinent to smart grid, sensing energy use, developing energy harvesting techniques, and renewable energy exchange, plus ability to harvest energy from all of our natural resources including wind, solar, hydro, marine, geothermal, biomass and other newly developing areas.Renewables is definitely an employable sector as governments are now challenged by finite resources coming from traditional areas, climate change and societal concerns about how we harvest energy in the future and our ability to survive climatic issues, population increase and manage work and life.

Courses listed for the programme

Semester 1

Electrical Systems for Renewable Energy

Renewable Energy 1 (Solar and Geothermal)

Renewable Energy 2 (Biomass)

Fundamental Concepts in Safety Engineering

Semester 2

Renewable Energy 3 (Wind, Marine and Hydro)

Energy Conversion and Storage

Renewable Energy Integration to Grid

Legislation, Planning and Economics

Semester 3

Project

Find out more detail by visiting the programme web page

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/278/renewable-energy-engineering/

or online delivery at:

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/1077/renewable-energy-engineering/

Why study at Aberdeen?

  • You study with industry professionals and industry lead projects to encourage and challenge you in practical application
  • The full supply of energy is covered in the programme from the initial harvesting to the conversion methods required to link to grid
  • You can study your degree at University of Aberdeen or online to fit flexibly with your needs
  • You learn within a lab setting with industry visits and events in a global sector community

Where you study

  • University of Aberdeen
  • 12 Months Full Time
  • September start

• Online option available

International Student Fees 2017/2018

Find out about fees:

https://www.abdn.ac.uk/study/international/tuition-fees-and-living-costs-287.php

*Please be advised that online fees may offer a different structure

Scholarships

View all funding options on our funding database via the programme page

https://www.abdn.ac.uk/study/postgraduate-taught/finance-funding-1599.php

https://www.abdn.ac.uk/funding/

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen:

https://abdn.ac.uk/study/student-life

Living costs

https://www.abdn.ac.uk/study/international/finance.php



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