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Masters Degrees (Environment Geoscience)

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Geoscience provides essential guidance on how we can manage many of society’s most pressing future challenges. Read more
Geoscience provides essential guidance on how we can manage many of society’s most pressing future challenges. Whether it is reducing the impact of natural threats, exploiting resources more responsibly or developing new economic livelihoods, geoscientific knowledge has a critical role to play in effective geo-environmental decision making. With a holistic scientific approach and interdisciplinary problem-solving skills, our geoscience graduates will be at the forefront of sustainable thinking.

Key features

-Plymouth’s Sustainable Earth Institute provides the ideal research platform to explore how interdisciplinary thinking can build a more resilient world.
-With a hinterland that includes UNESCO-designated 'Cornwall and West Devon Mining Landscape', 'Jurassic Coast' and 'English Riviera Geopark', we live in a region where geology underpins local communities.
-South-west England’s long heritage of metal and clay mining provides a cultural and environmental legacy of both the benefits and costs of geological exploitation.
-Active engagement with local and international mining, quarrying and energy companies - including the newest UK metals mine on our doorstep – this provides industrial links and career opportunities.
-International fieldwork in areas celebrated for their geodiversity and geo-resources provide excellent natural laboratories for exploring sustainable geoscience.
-A research-based project allows you to apply your broad geoscience skill set to real-world problems, working with industry, a non-governmental organisation (NGO), or leading research academics.
-Modules are assessed 100 per cent by coursework, designed to reflect the outputs of the industry, readying you for what you are likely to be asked to do in your job.

Course details

The programme will outline the broad context of sustainable geoscience, showcasing a range of geological issues that challenge the modern world. Mineral, energy and water resources are the engine of economic development and national security, yet also a critical threat to the health and well being of ourselves and our environment, so we examine the societal issues around resource management. The programme also explores how the natural diversity of rocks and landscapes maintain cultural heritage and sustain tourism, providing communities with alternative economic livelihoods. More broadly, the programme sets geoscientific concerns in the wider national and global sustainable development framework and the interdisciplinary thinking that underpins it to give a holistic geo-perspective on sustainability science.

Core modules
-GEES515 Professional Practice in the Environmental Sector
-GEES516 Science, Society and Environmental Governance
-GEES517 Environmental Assessment
-GEES520 MSc Dissertation
-GEOL5006 Sustainable Geoscience: Research and Communication
-GEOL5007 Sustainable Minerals and Mining

Optional modules
-GEES518 Professional Experience in Environmental Management
-GEOL5008 Geodiversity and Geoheritage

The modules shown for this course or programme are those being studied by current students, or expected new modules. Modules are subject to change depending on year of entry.

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Primarily suited to hydrocarbon industry professionals who wish to further develop their knowledge and skills while working, this online version of the well-established Royal Holloway MSc course has an international reputation for excellence in the petroleum industry. Read more

Study for a prestigious MSc in Petroleum Geoscience

by distance learning

Primarily suited to hydrocarbon industry professionals who wish to further develop their knowledge and skills while working, this online version of the well-established Royal Holloway MSc course has an international reputation for excellence in the petroleum industry.

Finding new reserves is becoming ever more challenging and the enhanced recovery of reserves from existing fields is becoming increasingly important. Well-trained Petroleum Geoscientists with the ability to integrate geological and geophysical data, and to apply it on a variety of scales, have a vital role to play.

Practical and technical skills

This MSc in Petroleum Geoscience provides training in the practical and technical skills to address a range of exploration and production challenges, from predicting the likely distribution of hydrocarbons in a frontier sedimentary basin, to quantifying the complex structural, stratigraphic and sedimentological architecture of individual reservoirs.

Royal Holloway, University of London is one of the leading centres for Earth Science research in the UK. It has excellent links with the international oil industry and a strong programme of industry-funded petroleum geology research, which ensures that this Masters is up-to-date, focused and commercially relevant.

Royal Holloway staff provide tutorial support for each module, plus guidance for your dissertation and for project work, which is based on industry data.

Features of the programme

- Comprehensive learning materials delivered via a dedicated web portal: video clips, animations, audiovisual presentations, fully illustrated manuals, self-assessment quizzes, exercises and computer-based practicals including examples of subsurface data such as seismic and well-log data
- A field trip and intensive study seminars held in the UK as part of the final module on the course
- Option to be awarded a Postgraduate Diploma in Petroleum Geoscience if you choose not to undertake the project.

Prestige

The programme has been developed by academics within the Department of Earth Sciences at Royal Holloway using the material and experience from the campus-based Petroleum Geoscience MSc course that has been running since 1985. The Royal Holloway Earth Sciences Department achieved an 'excellence' rating for teaching quality and 70% of our research was graded as world-leading or internationally excellent in the 2008 Research Assessment Exercise.

Career progression

Many graduates of the campus-based MSc are now well-established, successful industry professionals with careers ranging from national oil companies to geoscience IT and consultancy to academia.

Your time commitment

This course is offered online with each module running with tutor support for a three month period during the academic year, and available the rest of the time for preview and revision. This online structure enables you to fit your studies around work and family commitments. To complete an MSc in a three year period you will need to study an average of 20 hours per week during the academic session.

Excellent support

Fully supported by a Virtual Learning Environment, you will have the opportunity for interaction with online tutors to discuss course material and exercises; a virtual student cafe allows you to interact and network with other students.

Contact us

If you have any questions, please contact our Student Advice Centre:
http://www.londoninternational.ac.uk/contact-us

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The Geoscience MSc at UCL aims to provide a set of programmes that suit each student's aspirations, background and experience. The MSc offers several pathways to ensure a coherent programme of study. Read more
The Geoscience MSc at UCL aims to provide a set of programmes that suit each student's aspirations, background and experience. The MSc offers several pathways to ensure a coherent programme of study: Earth Systems Science; Palaeobiology; Earth and Planetary Physics; Environment; and Hydrogeology.

Degree information

The programme aims to integrate theoretical studies with essential practical skills in the Earth sciences, both in the field and in the laboratory. Students develop the ability to work on group projects, prepare written reports, acquire oral skills and gain training in the methods of scientific research.

Students undertake modules to the value of 180 credits. The programme consists of two core modules (30 credits), six optional modules (90 credits) and a research dissertation (60 credits).

Core modules
-Research Methods
-Project Proposal

Optional modules
-Earth and Planetary Systems Science
-Earth and Planetary Materials
-Melting and Volcanism
-Physical Volcanology and Volcanic Hazard
-Earthquake Seismology & Earthquake Hazard
-Tectonic Geomorphology
-Palaeoceanography
-Palaeoclimatology
-Biodiversity and Macroevolutionary Patterns
-Deep Earth and Planetary Modelling
-Geodynamics and Global Tectonics
-Crustal Dynamics, Mountain Building and Basin Analysis

Relevant modules can also be chosen from:
-UCL Geography

Dissertation/report
All MSc students undertake an independent research project which culminates in a dissertation of approximately 10,000–12,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, and laboratory and fieldwork exercises. Student performance is assessed through coursework, written assignments, unseen written examination and the dissertation.

Careers

First destinations of recent graduates include:
-Neftex Petroleum Consultants Ltd: Geologist
-TWP Architects and Surveyors: Geotechnical Surveyor
-UCL Earth Sciences Rock and Ice Physics Laboratory: Research Assistant
-UCL: Research Degree, Earth Sciences

Employability
MSc Geoscience students have gone on to pursue careers in many varied areas, such as planning and surveying, governmental organisations, academic research.

Why study this degree at UCL?

UCL Earth Sciences is engaged in world-class research into the processes at work on and within the Earth and planets.

Graduate students benefit from our lively and welcoming environment and world-class facilities, which include the UK's only NASA Regional Planetary Image Facility and access to the University of London Observatory in north London.

The department also hosts the Aon Benfield UCL Hazard Research Centre, Europe's leading multidisciplinary hazard research centre, and engages in extensive collaborative work with the Royal Institution and the Natural History Museum.

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Large global changes, and climate change in particular, are having significant impacts on the environment. The study of impacts and mitigation/adaptation measures in the marine environment requires a truly interdisciplinary approach. Read more
Large global changes, and climate change in particular, are having significant impacts on the environment. The study of impacts and mitigation/adaptation measures in the marine environment requires a truly interdisciplinary approach. It is essential that scientists, engineers and environmental decision-makers understand the fundamentals of the causes, impacts and management measures involved in dealing with such important issues. The course specialises in the challenges facing the marine environment and is part of the University's programme of teaching and research in climate change related issues. There are a variety of optional modules available but the core modules are listed below.

CORE MODULES

Climate Change: Causes and Impacts
Marine Conservation and Sustainability
Climate Change: Mitigation and Adaptation Measures
Research Project (MSc only)

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This course is designed for those who have completed an undergraduate geoscience degree and wish to enhance their career prospects with an additional qualification and for graduates of related disciplines thinking of a geoscience career. Read more
This course is designed for those who have completed an undergraduate geoscience degree and wish to enhance their career prospects with an additional qualification and for graduates of related disciplines thinking of a geoscience career.

In this course you will undertake one of three majors to suit your interest area and career aspirations: basin analysis and petroleum, mineral exploration and mining. These majors cater for the minerals, groundwater and petroleum employment areas.

To complete the course you will take a range of coursework units in your chosen specialty and at least one individual research project involving practical laboratory work and/or fieldwork.

Career opportunities

Graduates who complete the basin and analysis and petroleum, mineral exploration, mining or environment geoscience majors are trained specifically for employment in the minerals, groundwater or petroleum industries.
Graduates without an undergraduate qualification in geology or a closely related field may need to undertake further study at master level before embarking on a geoscience career.

Credit for previous study

Applications for recognition of prior learning (RPL) are assessed on an individual basis.

Other notes

There is considerable flexibility in the course structure with some units available in a concentrated, short-course format. Part of the research project may be undertaken in a short, intensive period.

2016 Curtin International Scholarships: Merit Scholarship

Curtin University is an inspiring, vibrant, international organisation, committed to making tomorrow better. It is a beacon for innovation, driving advances in technology through high-impact research and offering more than 100 practical, industry-aligned courses connecting to workplaces of tomorrow.

Ranked in the top two per cent of universities worldwide in the Academic Ranking of World Universities 2015, the University is also ranked 25th in the world for universities under the age of 50 in the QS World University Rankings 2015 Curtin also received an overall five-star excellence rating in the QS stars rating.

Curtin University strives to give high achieving international students the opportunity to gain an internationally recognised education through offering the Merit Scholarship. The Merit Scholarship will give you up to 25 per cent of your first year tuition fees and if you enrol in an ELB program at Curtin English before studying at Curtin, you will also receive a 10 per cent discount on your Curtin English fees.

For full details and terms and conditions of this scholarship, please visit: curtin.edu/int-scholarships and click on Merit.

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

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

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

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

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

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

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

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

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This is the only programme of its kind in the UK, giving you high-level skills and training across the rapidly developing area of carbon capture and storage (CCS). Read more

Programme description

This is the only programme of its kind in the UK, giving you high-level skills and training across the rapidly developing area of carbon capture and storage (CCS).

Global energy demands are still rising, and fossil fuels remain central to meeting those demands in the medium term. CCS is a recognised solution to reducing CO2 emissions until fossil fuels are entirely replaced by renewable energy technologies.

With commercial trials under way, countries and industries are investing in this new technology. In the UK, all existing power stations must have a full-scale retrofit of CCS within five years of the technology being independently judged as technically and commercially proven.

This MSc draws on our world-class interdisciplinary academic research and the insights we have gained from projects involving our industrial stakeholders.

This programme is affiliated with the University's Global Environment & Society Academy.

Programme structure

The MSc has two semesters of lectures and practical classes, followed by a research dissertation of up to 15,000 words. The programme includes industry guest lectures as well as opportunities for fieldwork and industry site visits to a range of locations.

Designed for graduates of engineering or geoscience-related subjects, the programme provides high-level skills and training in the entire value chain of CCS, including combustion, transport, geoscience and legal aspects.

Compulsory courses typically include*:
•Carbon Economics
•Carbon Capture and Transport
•Hydrocarbons (compulsory for students without a geoscience background)
•Carbon Storage and Monitoring
•Dissertation
•Geology for Earth Resources (compulsory for students without a geoscience background)

Option courses:

In consultation with the Programme Director, you will choose from a range of option courses*. We particularly recommend:
•Fundamentals for Remote Sensing
•Novel Strategies for Carbon Storage in Soil
•SeismicReflection Interpretation
•Energy & Society
•Geology for Earth Resources
•Principles of Geographical Information Science
•Spatial Modelling
•Understanding Environment and Development
•Climate Change and Corporate Strategy
•Energy Policy and Politics
•Hydrocarbon Reservoir Quality
•Introduction to Radar Remote Sensing
•Political Ecology
•Separation Processes For Carbon Capture
•Technology and Innovation Management

*Please note that courses are offered subject to timetabling and availability and are subject to change each year.

Career opportunities

Graduates can enter into all manner of jobs due to the transferable and highly desirable nature of the skills gained. However, typically our graduates pursue careers in business, industry, government and non-governmental organisations in the field of low-carbon energy production.

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This is a world-class programme, offering a unique educational opportunity. We aim to develop and improve understanding of the field of Geographical Information Science (GIS) by mixing strong practical skills with fundamental theoretical knowledge that supports the application of GIS skills in any software environment. Read more

Research profile

This is a world-class programme, offering a unique educational opportunity. We aim to develop and improve understanding of the field of Geographical Information Science (GIS) by mixing strong practical skills with fundamental theoretical knowledge that supports the application of GIS skills in any software environment.

The MSc by Research degree is perfect for students wanting to pursue more in-depth research. It allows those with a strong background in GIS the flexibility to widen their expertise through taking optional courses in other disciplines, such as informatics, alongside developing their dissertation.

This intensive programme produces excellent students with sound theoretical knowledge underpinning practical application and 'hands on' experience in geographical problem solving.

The School has the largest geoscience research group in the UK, with about 370 academics and researchers. The ambition and quality of our research was reflected in the latest Research Assessment Exercise, where 66% of our research was rated within the top two categories: world-leading and internationally excellent.

All research students are affiliated to a research institute, which provides a forum for the development of ideas, collaboration, and dissemination of results, and an environment for training, development and mentoring of research students and early-career researchers. Our research institutes each have a very active seminar series drawing distinguished external guests as well as internal speakers, and you will be encouraged to attend and participate.

This programme is affiliated with the University's Global Environment & Society Academy.


Global Environment & Society Academy: http://www.ed.ac.uk/schools-departments/global-environment-society

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This programme is only available to study at the Dubai campus. Facilities Management is responsible for co-ordinating all efforts relating to planning, designing and managing buildings and their systems, equipment and furniture to enhance the organisation’s ability to compete in a rapidly changing world. Read more
This programme is only available to study at the Dubai campus.

Facilities Management is responsible for co-ordinating all efforts relating to planning, designing and managing buildings and their systems, equipment and furniture to enhance the organisation’s ability to compete in a rapidly changing world. It involves the integration of multi-disciplinary activities with the built environment and the management of their impact upon the people and the workplace.

The MSc/Diploma in Facilities Management develops competencies and skills to enable its graduates to manage facilities effectively for a changing business world. Facilities Management provides proactive support and dynamism to the core business of an organisation through a coordinated and well managed approach to secondary business functions. Graduates from the programme will gain the skills necessary to fully realise the potential of facilities management in providing effective and productive environments which meet the needs of today’s businesses.

The MSc is fully accredited by the Royal Institution of Chartered Surveyors and the British Institute of Facilities Management.

Programme Content

The growth of facilities management offers great opportunities for professionals who are competent in the core roles required for 21st Century facilities management. . The programme comprises 5 core courses and 3 elective cours

Course Choice

•Service Procurement and Provision – mandatory
This course looks at the key services that make up a modern facilities management operation ranging from interior design, landscaping and courtesy services to the more traditional property related services concerned with the upkeep of facilities. The course provides a theoretical basis for service procurement; the selection of service providers; and risk management models. It considers the organisational, human and cultural impact of facilities and ways in which improved services can affect facility performance. Within the course, ongoing performance measurement systems are also described which enable the effective management of service contracts.

•Space Planning and Management - mandatory
This course provides a strategic overview of space from a business perspective. It identifies the supply and demand process in relation to property portfolios and considers tools and techniques that enable the effective modelling and use of space. It examines the concept of flexibility and reuse in the context of a changing organisational context. Alternative space strategies are examined in the course in tandem with new ways of working. It also considers how space can be used to support work-life balance strategies in organisations.

•Asset Maintenance Management - mandatory
This course examines the effective management and maintenance of operational property. Key aspects include: maintenance policy and standards; planned and responsive maintenance; asset appraisal and evaluation; information management; maintenance; property portfolios; acquisitions and disposals.

•Contracts & Procurement - mandatory
This course considers facilities management in the broader context of the construction cycle. The advent of new procurement methods such as the Private Finance Initiative (PFI) have inevitably drawn facilities managers into the larger issue of construction projects and their procurement, This course considers procurement arrangement options, principles of contract law, procurement through Public Private Partnerships, construction contracts, negotiation, as well as conflicts and disputes. Facilities managers have an ever increasing contribution to make in this process in the capacity of informed client.

•Sustainable Practices in Facilities Management - mandatory
This course examines a number of key issues in facilities management which are rapidly gaining significance within the industry. The purpose of the course is to familiarise the facilities manager with contemporary issues in facilities management and the relevant guidelines, assessment procedures, and standards for sustainable and strategic facilities issues. Key issues covered include: sustainability, energy management, waste management, the working environment, and comfort and productivity in the workplace.

For BIFM accreditation, students should undertake the following three elective courses:

People & Organisational Management in the Built Environment - optional
Business Management for Built Environment Professionals – optional
Project Management (Theory and Practice) - optional

Alternatively, students can choose (subject to timetabling) three other electives from a range of management courses offered by the School, including:

Value and Risk Management – optional
Macroeconomics, Finance and the Built Environment - optional
Corporate Property Asset Management - optional
Property Investment and Finance – optional

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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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Environmental earth science (or geoscience) covers a range of topics including hydrology, sedimentology and geomorphology. This course provides specialist skills and knowledge for science graduates wanting to pursue careers in environmental earth science. Read more

What is environmental earth science?

Environmental earth science (or geoscience) covers a range of topics including hydrology, sedimentology and geomorphology.

Who is this course for?

This course provides specialist skills and knowledge for science graduates wanting to pursue careers in environmental earth science. Environmental scientists undertake work such as developing ways to minimise the impacts of humans on the natural environment.

Course learning outcomes

The graduates of James Cook University are prepared and equipped to create a brighter future for life in the tropics world-wide.
JCU graduates are committed to lifelong learning, intellectual development, and to the display of exemplary personal, professional and ethical standards. They have a sense of their place in the tropics and are charged with professional, community, and environmental responsibility. JCU graduates appreciate the need to embrace and be acquainted with the Aboriginal and Torres Strait Islander Peoples of Australia. They are committed to reconciliation, diversity and sustainability. They exhibit a willingness to lead and to contribute to the intellectual, environmental, cultural, economic and social challenges of regional, national, and international communities of the tropics.
On successful completion of the Graduate Diploma of Science, graduates will be able to:
*Integrate and apply advanced theoretical and technical knowledge in one or more science disciplines
*Retrieve, analyse, synthesise and evaluate knowledge from a range of sources
*Plan and conduct reliable, evidence-based laboratory and/or field experiments/practices by selecting and applying methods, techniques and tools, as appropriate to one or more science disciplines
*Organise, analyse and interpret complex scientific data using mathematical, statistical and technological skills
*Communicate complex scientific ideas, arguments and conclusions clearly and coherently to a variety of audiences through advanced written and oral English language skills and a variety of media
*Identify, analyse and generate solutions to unpredictable or complex problems, especially related to tropical, rural, remote or Indigenous contexts, by applying scientific knowledge and skills with initiative and high level judgement
*Explain and apply regulatory requirements, ethical principles and, where appropriate, cultural frameworks, to work effectively, responsibly and safely in diverse contexts
*Reflect on current skills, knowledge and attitudes to manage their professional learning needs and performance, autonomously and in collaboration with others.

Award title

GRADUATE DIPLOMA OF SCIENCE (GDipSc)

Course articulation

Students who complete the Graduate Diploma of Science are eligible for entry to the Master of Science, and may be granted advanced standing for all subjects completed under the Graduate Diploma.

Entry requirements (Additional)

English band level 1 - the minimum English Language test scores you need are:
*Academic IELTS – 6.0 (no component lower than 5.5), OR
*TOEFL – 550 (plus minimum Test of Written English score of 4.0), OR
*TOEFL (internet based) – 79 (minimum writing score of 19), OR
*Pearson (PTE Academic) - 57

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English language proficiency requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 1 – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University brings together a team of academic and associate staff across multiple disciplines.
*Nationally-recognised leader in geoscience
*state-of-the-art research and teaching facilities
*internationally-acclaimed academic teaching staff
*strong collaboration with industry and research organisations, both locally and internationally.

Career Opportunities

A postgraduate qualification from JCU can enhance your career prospects, enable you to reskill and change careers completely, or develop a specialist area of expertise and personal interest.
Earth science and environmental science graduates enjoy well-paid careers in Australia and overseas. A range of opportunities await graduates in the academia as well as in private and public sectors.
As an Environ mental Scientist, for instance, you will measure and record features of the environment and study, assess and develop methods of controlling or minimizing the harmful effects of hum an activity on the environment.
Graduates can also get jobs as research assistants or support staff for teaching. With a PhD, you can gain research positions (Postdoctoral, Fellowships) that are often funded for a few years or apply for permanent positions as a lecturer and researcher.

Application deadlines

*1st February for commencement in semester one (February)
*1st July for commencement in semester two (mid-year/July)

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Environmental earth science (or geoscience) covers a range of topics including hydrology, sedimentology and geomorphology. This coursework program provides specialist skills and knowledge for science graduates wanting to pursue careers in environmental earth science. Read more

What is environmental earth science?

Environmental earth science (or geoscience) covers a range of topics including hydrology, sedimentology and geomorphology.

Who is this course for?

This coursework program provides specialist skills and knowledge for science graduates wanting to pursue careers in environmental earth science. Environmental scientists undertake work such as developing ways to minimise the impacts of humans on the natural environment.

Course learning outcomes

On successful completion, graduates will be able to:
*Demonstrate an advanced level of scientific knowledge from with their chosen major
*Critically analyse scientific theory, models, concepts and techniques from within their chosen major
*Critically read and evaluate quantitative and qualitative research findings from within their chosen major
*Apply analytic tools and methodologies to define and describe scientific problems from within their chosen major
*Communicate effectively and persuasively, both orally and in writing.

Award title

MASTER OF SCIENCE (MSc)

Entry requirements (Additional)

English band level 1 - the minimum English Language test scores you need are:
*Academic IELTS – 6.0 (no component lower than 5.5), OR
*TOEFL – 550 (plus minimum Test of Written English score of 4.0), OR
*TOEFL (internet based) – 79 (minimum writing score of 19), OR
*Pearson (PTE Academic) - 57

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English Language Proficiency Requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 1 – Schedule II of the JCU Admissions Policy.

Why JCU?

JCU brings together a team of academic and associate staff across multiple disciplines.
*Nationally-recognised leader in geoscience
*state-of-the-art research and teaching facilities
*internationally-acclaimed academic teaching staff
*strong collaboration with industry and research organisations, both locally and internationally.

Career Opportunities

A postgraduate qualification from JCU can enhance your career prospects, enable you to reskill and change careers completely, or develop a specialist area of expertise and personal interest.
Earth science and environmental science graduates enjoy well-paid careers in Australia and overseas. A range of opportunities await graduates in the academia as well as in private and public sectors.
As an Environ mental Scientist, for instance, you will measure and record features of the environment and study, assess and develop methods of controlling or minimizing the harmful effects of hum an activity on the environment.
Graduates can also get jobs as research assistants or support staff for teaching. With a PhD, you can gain research positions (Postdoctoral, Fellowships) that are often funded for a few years or apply for permanent positions as a lecturer and researcher.

Application deadlines

*1st February for commencement in semester one (February)
*1st July for commencement in semester two (mid-year/July)

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Construction Project Management at Heriot-Watt University is one of the longest-running programmes of its kind in the UK, equipping graduates with the theoretical knowledge and practical and technical skills to manage people and projects within the construction industry. Read more

Programme Background

Construction Project Management at Heriot-Watt University is one of the longest-running programmes of its kind in the UK, equipping graduates with the theoretical knowledge and practical and technical skills to manage people and projects within the construction industry. A range of core courses covering management, procurement and technology-related subjects will give you a foundation in management principles while providing practical skills relevant to professional practice in construction. You will also choose an optional course from a range of subjects drawn from our built environment programmes, providing you with a broader understanding of built environment issues and an opportunity to tailor your studies to fit your interests and professional needs.

Students tend to come from the construction industry, bringing with them practical experience in a variety of built environment roles, or from other professional backgrounds but with an interest in converting to a career in the construction industry. Students from all over the world study this programme both on campus and by Independent Distance Learning (IDL).

Professional Recognition

The MSc is fully accredited by the Royal Institution of Chartered Surveyors (RICS) and the Chartered Institute of Building (CIOB), demonstrating its professional recognition and industrial relevance. The University is a Corporate Member of the Association for Project Management.

Programme Structure

This programme is composed of seven mandatory courses and one optional course. For those looking to complete the programme at MSc level research projects are also required. Students are assessed through a combination of examination and coursework.

Semester 1

Project Management: Theory and Practice - Mandatory
Value and Risk Management - Mandatory
Contracts and Procurement - Mandatory
Sustainability in Civil Engineering - Optional
Construction Technology - Optional
Environmental Hydrology and Water Resources - Optional
Real Estate Economics - Optional
Spatial Planning - Optional
Sustainable Design and Development - Optional
Environmental Geotechnics - Optional

Semester 2

Project Management: Strategic Issues - Mandatory
Construction Financial Management - Mandatory
Construction Practice and Information Technology - Mandatory
People and Organisational Management in the Built Environment - Mandatory

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This MSc is based at our ORKNEY CAMPUS in the far north of Scotland. A unique opportunity to study a live marine environment. Marine planning, including spatial planning, is a fast developing discipline of global interest with excellent employment prospects. Read more
This MSc is based at our ORKNEY CAMPUS in the far north of Scotland. A unique opportunity to study a live marine environment.

Marine planning, including spatial planning, is a fast developing discipline of global interest with excellent employment prospects. Ambition to create jobs and growth in the ‘Blue Economy’ is made real by new technologies giving access to the wealth of resources in the oceans and seas. New approaches are needed to govern the interactions among marine industries while maintaining the aspiration for healthy seas and the conservation of ecosystems. Adaptation to the effects of climate change adds to the importance of marine planning as an essential tool in marine management.

The MSc in Marine Planning for Sustainable Development is based at the Orkney Campus but is available also at the Edinburgh Campus. Orkney is a global centre for marine energy research and development. A unique concentration of marine expertise and activity provides students with unparalleled access to key participants in the sustainable development and planning of marine industries.

The MSc involves studying eight 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.

SEMESTER 1

A11MP Introduction to Marine Planning
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.

A11OC Oceanography & Marine Ecology
Designed to 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. Marine ecosystems are also studied and how these may be impacted by human activities and about the challenges and impacts associated with carrying out engineering operations in the marine environment.

A11ER Economics of Renewable Energy
Orkney is a world leading centre for the research and testing of marine renewables. The economics of the energy sector are studied in the context of the whole renewable energy sector, both marine and terrestrial, with particular focus on wave and tidal projects underway in the vicinity of the University.

A11DM Marine Resource Development
Examines the exploitation and use of marine resources (including oil and gas, fisheries, shipping, marine 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 in the Blue Economy and the challenges of developing and deploying technologies to exploit resources in the marine environment.


SEMESTER 2

A11PK Environmental Policy & Risk
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 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 marine developments. A practical EIA exercise is undertaken.


A11GI GIS for Marine and Environmental Scientists
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.

A11DA 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.

A11VY Practical Marine Survey
A practical field study course into the methods and techniques of marine survey. The opportunity for dive study if suitably qualified.

Additional information
This MSc is based at our ORKNEY CAMPUS. By studying in Orkney you will benefit from a number of activities including field trips, guest lectures and practical activities, 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.


Assistance with funding is available, please visit our website for further details and information on how to apply.

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 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)

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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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