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Develop your career in Global Environmental Change and Planetary Health
Overview
- Start dateFull-time: October, part-time: October
- DurationOne year full-time, two-three years part-time
- DeliveryTaught modules 40%, group project (dissertation for part-time students) 20%, individual project 40%
- QualificationMSc, PgDip, PgCert
- Study typeFull-time / Part-time
- CampusCranfield campus
Who is it for?
We welcome students from a variety of academic backgrounds, ranging from economic and social sciences to natural sciences and engineering who have a passion for solving real-world problems and making a positive impact. The course has been specifically designed to support students with a desire to take a more multidisciplinary approach to their learning.
In this respect, you will have the opportunity to select from available module options from across the environment, water, and energy programmes, tailoring these with the help of a tutor, to suit your personal learning ambitions. You will develop a range of personal and leadership skills as you progress through the course, to set you on the path to a rewarding career in becoming part of the solution to the environmental challenges that we face today.
Your career
With the current global focus on finding ways to tackle global environmental and planetary health challenges, you can expect to be highly sought after by employers. Successful Cranfield students will develop diverse and rewarding careers in consultancies, research and teaching organisations, non-government organisations, along with national and local government departments involved in finding solutions to national and global environmental challenges. The international nature of this course means that career opportunities are not restricted to the UK. Cranfield graduates develop careers around the world and are internationally recognised by employers across the scientific, industrial and educational communities.
Cranfield Careers and Employability Service
Cranfield’s Career Service is dedicated to helping you meet your career aspirations. You will have access to career coaching and advice, CV development, interview practice, access to hundreds of available jobs via our Symplicity platform and opportunities to meet recruiting employers at our careers fairs. Our strong reputation and links with potential employers provide you with outstanding opportunities to secure interesting jobs and develop successful careers. Support continues after graduation and as a Cranfield alumnus, you have free life-long access to a range of career resources to help you continue your education and enhance your career.
Cranfield supports international students to work in the UK after graduation
Why this course?
The MSc in Global Environmental Change and Planetary Health will allow you to become part of the solution to address the environmental crises that we face today by providing you with the skills and knowledge required by both national and international organisations working in the environmental sector.
Informed by industry
The Global Environmental Change and Planetary Health MSc is designed to meet the current needs of employers and benefits from a strong input from industry experts. This gives our students the confidence to know that what they are learning is both relevant and beneficial to building a rewarding career.
Course details
Course delivery
Taught modules 40%, group project (dissertation for part-time students) 20%, individual project 40%
Group project
The group project experience is highly valued by both students and prospective employers. It provides students with the opportunity to take responsibility for a consultancy-type project, working within agreed objectives, deadlines and budgets. For part-time students a dissertation or projects portfolio can replace the group project.
Individual project
The individual project is the chance for you to focus on an area of particular interest to you and your future career. These projects provide you with the opportunity to demonstrate your ability to carry out independent research, think and work in an original way, contribute to knowledge, and overcome genuine problems in the energy industry.
Modules
Keeping our courses up-to-date and current requires constant innovation and change. The modules we offer reflect the needs of business and industry and the research interests of our staff and, as a result, may change or be withdrawn due to research developments, legislation changes or for a variety of other reasons. Changes may also be designed to improve the student learning experience or to respond to feedback from students, external examiners, accreditation bodies and industrial advisory panels.
To give you a taster, we have listed the compulsory and elective (where applicable) modules which are currently affiliated with this course. All modules are indicative only, and may be subject to change for your year of entry.
Course modules
Compulsory modules
All the modules in the following list need to be taken as part of this course.
Fundamentals of Global Environmental Change
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Aim |
Human activity is accelerating consumption of natural resources and emissions of pollutants into the environment, destabilising planetary life support systems. This module will introduce you to these processes, identifying the drivers, pressures, changes in state, and impacts on the environment, as well as examining potential responses and solutions. It will cover the physical science-based understanding of our planetary systems, how humankind is modifying these systems, and examine current and future efforts to address these key challenges through science, technology, and policy. |
Syllabus |
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Intended learning outcomes |
On successful completion of this module you should be able to:
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Decision Science
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Aim |
The module introduces the context of environmental decision making, providing both a conceptual overview and practical tools for addressing environmental management problems. It aims to promote an understanding of weight-of-evidence approaches used to inform real-world problems by research, industry, and government. Central to this is an understanding of the strengths and limitations of different approaches and aspects of decision science, the social, economic, and environmental trade-offs made during decision-making, and how real-world complexity and future uncertainty is accounted for. Students will learn how to apply systems thinking to evaluate different courses of action in response to environmental challenges related to land, water, and/or energy. |
Syllabus |
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Intended learning outcomes |
On successful completion of this module you should be able to:
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Environmental Policy and Risk Governance
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Aim |
Aim A critical application of environmental risk management is in the development and appraisal of policy in central government and business. Policies are developed to manage environmental risks and selection of policy options must be informed by risk-based tools and techniques. Doing so demands a comprehension of the technical, organisational, and human elements of governing environmental risks and developing environmental policy. This module draws these themes together by introducing core concepts and then illustrating these concepts with case studies spanning business and government, and finally application via a group exercise. Core lectures are supported by multiple case studies and module assignment.
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Syllabus |
Attitudes towards risk based on psychological, cultural and other dimensions.
• The role of various societal groups (e.g. the media, NGOs) in risk issues.
• Environmental risk analysis, communication and management
• Risk governance.
• Delivering organisational change, including implementation challenges and opportunities.
• Environmental policy development and appraisal.
• Policy instruments and co-design
• Evidence-based decision-making.
• Communicating risk messages to individuals, groups, and society at large and errors in communication
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Intended learning outcomes |
On successful completion of this module you should be able to: • Identify and evaluate the drivers that may influence individual or group perceptions and attitudes towards risk in specific scenarios.
• Critically assess the technical, organisational and human features of effective environmental risk governance.
• Compare and contrast environmental risk management techniques, selecting tools appropriate to the character of the risk in question.
• Critically evaluate the environmental policy cycle of implementation and the basics of policy development and appraisal.
• Develop effective means of communication to suit specific or general situations and how to demonstrate its effectiveness, and critique methods based on theory and evidence.
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Planetary Health
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Aim |
Applied scientific and green engineering principles are required to address the global and national environmental crises driven by climate change, land use change, pollution emissions, and population growth. This diverse module aims to develop an understanding of the interconnected environmental, social and health crises from a local to global scale, and the management, mitigation and adaptation strategies to address them from a planetary health perspective. As the module progresses, learners will be required to develop an advanced interdisciplinary understanding of exposure pathways and the interconnections between the natural environment, ecosystems, human health and wellbeing. Learners will be provided with the necessary systems thinking skills to assess the complexity and impact connecting environmental issues and human health in the Anthropocene and provide solutions; and to also appraise the reliance of human populations on healthy ecosystems, including the highly complex socio-ecological feedback mechanisms involved in interactions between humans and nature. |
Syllabus |
• Interdisciplinary understanding of water, land and air interconnections of human health and wellbeing
• Environment, health, and equity
• Pathways to exposure
• Systems thinking and holistic understanding of complexities
• Enablers and inhibitors
• Upstream causes and downstream effects
• Fundamental concepts of structural, attitudinal and transactional (SAT) analysis
• Case studies
• Management solutions
• Application of Vensim software for causal loop diagrams
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Intended learning outcomes |
On successful completion of this module you should be able to: Interpret interactions and interconnections between natural environment, human health and wellbeing. Critically evaluate complex systems and the social and ecological approach to health promotion and disease prevention and control, ranging from individual to population level determinants of human and ecosystem health. Critically appraise the rights of humans and the rights of nature, giving all human populations and ecosystems, present and future, the opportunity to attain their full vitality. Characterise the linkages between environmental changes and human health at different geospatial and temporal scales. Synthesise diverse information to provide diverse solutions for planetary health challenges. |
Sustainable Environmental Solutions
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Aim |
This module aims to introduce you to the real world environmental solutions that are being developed and in use already, to enable them to enter a number of sectors with up to date knowledge of current approaches. The module will provide you with an overview of the international climate and environmental policy landscape in which countries, sectors and industries are operating, and the scale of action required in order to fulfil current policy goals. You will work on case studies of sustainable solutions (e.g. in aviation, agriculture, transport, waste, etc) and evaluate the potential in these solutions to contribute to global climate or other environmental goals. |
Syllabus |
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Intended learning outcomes |
On successful completion of this module you should be able to:
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Elective modules
From the following list, select 2-4 modules which total 40 credits.
Sustainability and Environmental Assessment
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Aim |
Environmental impact assessment and life cycle analysis are important tools for evaluating the sustainability of complex renewable energy technologies and industrial processes or products. The tools and concepts taught in this module will enable you to assess the sustainability of a case study from an environmental standpoint. Analysis of relevant case studies to demonstrate the assessment process, including how to account for uncertainty and sensitivity analysis. This module is 10 credits. |
Syllabus |
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Intended learning outcomes |
On successful completion of this module you should be able to:
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Land Engineering Principles and Practices
Module Leader |
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Aim |
Natural landscapes and built environments can be engineered to optimise the goods and services delivered to society, including provision of natural resources and the regulation of water and carbon. Technologies that prevent and/or reverse land degradation can be devised and implemented to ensure sustainable use of finite land resources. Environmental engineers and land managers need sound understanding of the environmental properties that determine land capability for any given desired end use, as well as the interrelationships between soil, water, vegetation and built structures. This understanding is grounded in basic soil physics, hydrology, hydraulics, geotechnics and agronomy. With this background, appropriate interventions such as soil erosion control and slope stabilisation can be designed and implemented to improve inherent land quality. The required skills set also informs the management of environmental projects involving land forming, reclamation, restoration and protection, which require selection, design, engineering and maintenance of appropriate structures. This module is 10 credits. |
Syllabus |
Site Assessment: Concept of land capability and land quality: Land forming, earth moving and landscape modification: Geotechnics: Slope stability: Vegetation as an engineering material (bioengineering and biotechnical engineering), Geotextiles. Top and sub soil management |
Intended learning outcomes |
On successful completion of this module you should be able to:
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Catchments and Climate Change
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Environmental Water Quality
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Energy Systems Case Studies
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Intended learning outcomes |
On successful completion of this module a student should be able to:
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Resource Recovery
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Nature-based Solutions Design for Water and Wastewater
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Strategic Foresight
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Aim |
Strategic foresight research refers to a range of methods that can be used to identify, analyse and communicate insights about the future. Standard methods include horizon scanning, trend research, and scenario planning. Outputs include emerging issues, trends, visions, scenarios, and wild cards. The methods employed and insights produced are used by both private and public sector organisations to inform a wide range of policy, risk, strategy and innovation processes. Foresight research is a truly inter-disciplinary ‘science’, covering and combining developments in society, technology, economy, ecology, politics, legislation and values. Crucially, foresight research is as much about analysing the past and present, as it is about looking to the future. Once we understand how a system has developed and works today, we can explore how it may evolve and what it may look like in the future. Strategic foresight techniques consider a wide range of possible, plausible futures so that planning can be put in place to adapt to and mitigate against various conditions. It is designed to add resilience, adaptability and flexibility to organisations in an increasingly complex and fast changing world. This module will explore how: Other foresight methodologies (e.g. scenario planning, visioning, back-casting) can be used to help us to use the trends identified from horizon scanning to identify how the future might develop. |
Syllabus |
In this module, you will adopt a bespoke three-step foresight process to interpret change in the external organisational environment and use the insights generated to anticipate plausible futures and stress-test strategies that support building organisational resilience. The foresight process will support you in building: |
Intended learning outcomes |
On successful completion of this module you should be able to:
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Teaching team
The course is taught by members of research and academic staff and industrial representatives.
The Admissions Tutor and Course Director is Dr Anil Graves.
How to apply
Click on the ‘Apply now’ button below to start your online application.
See our Application guide for information on our application process and entry requirements.