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Masters Degrees (Deep Ecology)

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Are you dismayed, disturbed and totally disenchanted with what is happening to the only real planetary home we have? So are we. But are you also excited by the opportunities and prospects this opens up for us to create a better, brighter and more beautiful world? So are we. Read more
Are you dismayed, disturbed and totally disenchanted with what is happening to the only real planetary home we have? So are we.

But are you also excited by the opportunities and prospects this opens up for us to create a better, brighter and more beautiful world? So are we.

Then join us in this innovative new postgraduate programme from Schumacher College in collaboration with the School of Architecture, Design and Environment at Plymouth University, the School of Design at Carnegie Mellon University, the Dartington Hall Trust and surrounding communities.

Ecological Design Thinking

Never has there been a more important time for a new approach for engaging with the challenging situations we face from the local to the global levels. In a rapidly changing dynamic situation, solutions rarely remain optimal for very long and continuous active participation is a necessary ingredient for success. Growing resilience in individuals and communities is the way to keep going despite the continuous change around us.

Our programme in Ecological Design Thinking embraces and explores this complex world of interactions with lively engagement and an optimistic approach. It offers powerful, practical and ecology-centred skills and knowledge to apply to a diverse range of practices from design, education and business to the more specific roles of leadership, management and consultancy.

The Ecological Design Thinking programme is trans-disciplinary, insightful and universal in its application; pragmatic and integrative in its operation. It brings together theoretical and practical discourses on ecologically inspired design, with methods of design thinking that are merged with the latest developments in anthropology, psychology and socio- political economics. It aims to create a novel ground for change makers at the forefront of our transition to sustainable societies.

Ecologically inspired design includes the study of ecological worldviews, systems dynamics and applied complexity theory alongside the philosophies and practices of permaculture and biomimetic design.

Design thinking is a well-established participatory technique grounded in the empathic understanding of the feelings, experiences and emotions of others. It engages people in lively conversations, visually stimulated interactions and playful prototyping. It frames problems as opportunities, forms insights and generates creative and collaborative solutions in complex situations.

The Ecological Design thinking programme aims to provide a nourishing environment for participants by incorporating short-courses led by internationally recognised thinkers, place-making projects in collaboration with the Dartington Hall Trust, the home of Schumacher College, and short placements offered by external partner organisations.

This programme is the fourth radical postgraduate programme developed at Schumacher College and contributes to and enhance the College’s ongoing collaborative inquiry into sustainable living – a live and networked inquiry of practice underway around the world by the College’s 20,000 alumni and others.

Who is this course for?

We would be delighted to receive your application whether you are coming directly from an undergraduate degree, taking time-out to study mid-career or wanting an opportunity to develop your understanding of a practice that is of great importance to all of our futures. We encourage applications from community practitioners and activists as well as planners, educators, architects, politicians and policy makers. You do not necessarily need a first degree in design to apply for this course. You only need to be enthusiastic, resilient and committed.

We are looking for enthusiastic agents of change who are ready to co-design new approaches to the way we live that are socially just and ecologically sustainable. We are looking for those prepared to take risks and stand on the cutting-edge of new practices in this area.

Schumacher College welcomes students from all over the world in a diverse mix of cultural experience and age that allows for rich peer- to- peer learning.

You Will Learn

The foundation of an ecological worldview through subjects such as ecology, deep ecology, systems thinking, complexity science and Gaia theory.
Living systems principles through the philosophy and practice of permaculture design, biophilia and biomimicry.
Creative and process-focused problem solving techniques by applying the methods and principles of design thinking
A multi-perspective appreciation of ethical issues and their implications for the future consequences of redesigning existing systems and creating new ones.
To apply ecological design thinking knowledge and skills to the design of social systems as a part of an emerging new economics
Personal and group enquiry practices to raise awareness of the interdependent relationship between the individual, society and nature and between theory and practice

Co-creative participatory practices and theoretical principles for new approaches to the ecological design process that include a range of stakeholders in the full lifecycle of projects, and you will apply these both in the studio, on the Dartington Hall Estate and in short placements on live projects

Special Features

An interdisciplinary programme integrating design methods with those of ecology and the social sciences.
An integrative design programme rooted in deep ecological understanding and practice and informed by cutting edge thinking in new economic approaches and social dynamics.
A balanced distribution of time and resources on skill-based and cognitive-based knowledge and between practice and theory.
Access to some of the world’s leading thinkers and practitioners in design, Gaia theory, complexity, climate science, systems thinking, new economics and social change.
Short courses led by internationally recognised thinkers and researchers.
Short practical placements with a range of partner organisations operating at the leading edge of social innovation.
An immersive, integrative and transformational teaching and learning approach rooted in the principles established by Schumacher College and Dartington Hall, and engaged in a living and working community on and around the Dartington Estate in Devon.

Where you will go?

Ecological Design Thinking can be applied to a wide range of contexts, from the personal to the societal. This programme aims to create a new generation of designers, entrepreneurs, policy-makers, educators, researchers, consultants and activists. Graduates will have the skills and knowledge to work for sustainable change in the public and private sectors as well as in civil society, or to set up their own projects or organisations that will contribute to the transformation of society.

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

Summary

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

Modules

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

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

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

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

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

Visit our website for further information...



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This degree is designed primarily for students with no previous specialisation in marine science such as graduates with a degree in biological sciences, chemistry or materials science, physics, maths, environmental science, physical geography or related disciplines. Read more

Summary

This degree is designed primarily for students with no previous specialisation in marine science such as graduates with a degree in biological sciences, chemistry or materials science, physics, maths, environmental science, physical geography or related disciplines. The programme includes compulsory introductory modules that provide a foundation in interdisciplinary marine science, along with the opportunity to specialise in particular areas through an option of modules, as well as research project experience with marine scientists at the National Oceanography Centre Southampton (NOCS). To highlight the specialisations possible, we have developed “pathways” of suggested module choices, which include: Marine Biology and Ecology; Physical Oceanography and Climate Dynamics; Marine Biogeochemistry; Marine Geology and Geophysics; Marine Resources and Law

Students can either follow one of these “pathways”, or mix options from different pathways, where the timetable allows, to pursue broader interests. Employment in the marine environmental sector is a common destination for MSc Oceanography graduates, and as the degree is a “conversion” to marine science from “pure” science backgrounds, around one-third of graduates also go on to PhD research in marine sciences.

Modules

Semester one

Core introductory modules: Biological Oceanography; Chemical Oceanography; Marine Geology; Physical Oceanography Plus: Key Skills and Literature Review

Optional modules: two from: Applied and Marine Geophysics; Biogeochemical Cycles in the Earth System; Coastal Sediment Dynamics; Computational Data Analysis for Geophysicists and Ocean Scientists; Deep-sea Ecology; Geodynamics and Solid Earth Geophysics; International Maritime and Environmental Law; Introductory Remote Sensing of the Oceans; Large-scale Ocean Processes; Microfossils, Environment and Time; Zooplankton Ecology and Processes

Semester two

Optional modules: three from: Global Ocean Carbon Cycle, Ocean Acidification and Climate; Applied Coastal Sediment Dynamics; Climate Dynamics; Ecological Modelling; Environmental Radioactivity and Radiochemistry; Global Climate Cycles; Global Ocean Monitoring; Seafloor Exploration and Surveying 2; Structure and Dynamics of Marine Communities; UN Convention on the Law of the Sea

Plus: Key Skills and Literature Review Research project: From June to September, students work full-time on an independent research project that represents one-third of the MSc degree.

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An increasing number of chemicals is used by society today, which are also released into the environment. Ecotoxicology is concerned with their potential impacts on the ecosystem. Read more

About the Program

An increasing number of chemicals is used by society today, which are also released into the environment. Ecotoxicology is concerned with their potential impacts on the ecosystem. It aims to investigate and discover effects of chemicals on biological systems in order to develop methods for risk management, as well as to predict ecological consequences.

The international "Master of Science program in Ecotoxicology" integrates concepts of Environmental Chemistry, Toxicology and Ecology and includes Social Sciences and Economics as well. Due to its interdisciplinary and applied approach, the Program enables its graduates to analyze complex problems and to develop practical solutions.

As environmental problems reach far beyond national borders, an international approach is necessary and the situation in developing countries needs special solutions.

The Master in Ecotoxicology is carried out under the Institute for Environmental Sciences.

For the latest news about our Institute of Ecotoxicology you can also check our Ecotox-Blog under:
http://www.master-ecotoxicology.de/ecotox-blog

Program Structure

All students take the 9 required modules, as well as a 10-week Research Project Course and an Applied Module at External Organisations of 8 weeks to obtain a deep knowledge in the field of Ecotoxicology. Afterwards, studentes personalize the Program by choosing 2 Modules of the 5 Specialty Areas. The Master Thesis with colloquium round out the 4-semester Program.

Specialty Areas:

Applied Environmental Chemistry & Environmental Physics,
Chemistry,
Applied Ecology,
Geoecology and
Socioeconomics & Environmental Management

Applied Module at External Organizations (AMEO)

The module AMEO is an 8-week internship, which can be performed at an external university or a governmental or industrial research institute in Germany or abroad. Students become familiar with working practice, requirements of the job market and career opportunities and can establish business contacts. They apply, confirm and expand knowledge and competences achieved during their study.

Following an introductory discussion with the supervisors, the students perform the (research) work on their own and discuss the obtained results regularly with their supervisors. The content depends on the actual research questions in the selected research organizations. Topics or possible positions will be suggested by the staff of the Institute for Environmental Sciences or maybe suggested by the students. The topics should be directly related to applied problems relevant in these external organisations and should ideally offer the students opportunities to apply their knowledge and skills in areas, which are not the particular research areas at the Institute for Environmental Sciences in Landau. They include, but are not restricted to the following areas:

Engineering aspects (e.g. hydrology, mitigation techniques)
Multimedia modelling
Food web modelling
Fish, bird or mammal ecotoxicology and risk assessment
Agricultural sciences
Socioeconomics
Specific aspects in regulatory ecotoxicology
Risk communication, economic or societal aspects

Research Project Course (RPC)

The students work independently on a research topic of the university for a total time of about 10 weeks. The topics depend on the actual research conducted in the various research groups. However, all topics do have an interdisciplinary character covering at least two different disciplines (e.g. chemistry and ecology, or physics and risk assessment). The students submit proposals for topics selected from a list provided by the teaching staff including a time and resource planning as well as an independently conducted literature search. Following an introductory discussion with the supervisor, the students perform the research work on their own and discuss the obtained results regularly with their supervisor. Following the practical work, the students write a report including the theoretical background, the methods used, the results obtained and a discussion of the results based on the relevant scientific literature. The students present and defend the outcome of their work at an oral presentation. Following successful completion the students are able to plan a scientific work package, conduct the work, evaluate the results based on the relevant literature and present the outcomes.

The content depends on the actual research questions in the research groups associated with the Institute for Environmental Sciences. They include, but are not restricted to the following areas:

Chemical experiments in the lab
Environmental colloid chemistry
Environmental organic chemistry
Physical transport or transfer processes of environmental chemicals
Ecotoxicological lab tests
Ecotoxicological field studies
In situ or monitoring work in the field
Molecular genetics
GIS data analysis
Literature reviews
Exposure, effect or landscape modelling
Assessment or management of risks

More information on the program structure and contents can also be found under:
https://www.uni-koblenz-landau.de/en/campus-landau/faculty7/info-prospective-students/master-of-science-ecotoxicology/aims-and-contents

Employment outlook

The Program enables the graduates to conduct independent scientific work and prepares in particular for independent and leading positions in the numerous emerging fields of Ecotoxicology. The graduates are able to take responsibility in a professional manner in: Scientific facilities and research institutes, Authorities, public offices and ministries with a regulatory role, Non-governmental organizations, Industry and consulting enterprises. The international orientation of the program qualifies graduates for a global job market. In addition, the Master program prepares for a PhD study.

“I value very much the excellent education and the close individual support from the teaching staff during my studies that allowed me to pursue own research ideas and to find my field of interest. A cooperation of the university with the German Federal Environment Agency enabled me to gain experience in the environmental risk assessment of pesticides. I qualified for a traineeship in the European Food Safety Authority (EFSA) and am now working in the field of pesticide risk assessment.” Klaus Swarowsky (Master Ecotoxicology, EFSA)

Internationally Networked

The Institute for Environmental Sciences is globally connected through international research projects and student exchange programs. The international nature of the Program is achieved through numerous international research and teaching staff, regular seminars from guest lecturers from abroad, and possible internships all over the world.
You will find a map which displays the locations our cooperation partners under:

https://www.uni-koblenz-landau.de/en/campus-landau/faculty7/info-prospective-students/master-of-science-ecotoxicology/aims-and-contents#network

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You will focus on a particular area of oceanography, which may be influenced by the subject area of your first degree, and develop specific knowledge and skills in areas determined by the modules you select and the nature of the research you undertake. Read more

Summary

You will focus on a particular area of oceanography, which may be influenced by the subject area of your first degree, and develop specific knowledge and skills in areas determined by the modules you select and the nature of the research you undertake. The MRes is a research-led programme that differs from the MSc in focusing less on taught modules and more on the research project (about two-thirds of the year).

Modules

Semester one Core modules: Contemporary Topics in Ocean and Earth Science; plus one from: Introduction to Biological Oceanography; Introduction to Chemical Oceanography; Introduction to Marine Geology; Introduction to Physical Oceanography

Optional module: one from: Biogeochemical Cycles in the Earth System; Computational Data Analysis for Geophysicist and Ocean Scientists; Deep-sea Ecology; International Maritime and Environmental Law; Introductory Remote Sensing of the Oceans; Large scale Ocean Processes; Zooplankton Ecology and Processes

Semester two
Optional module: one from: Applied Biogeochemistry and Pollution; Applied Coastal Sediment Dynamics; Climate Dynamics; Ecological Modelling; Environmental Radioactivity and Radiochemistry; Global Climate Cycles; Reproduction in Marine Animals; Sea Floor Exploration and Surveying 2; Structure and Dynamics of Marine Communities; UN Convention on the Law of the Sea

Plus research project

Visit our website for further information...



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Environmental issues such as eutrophication, habitat degradation and climate change threaten the sustainability of our aquatic resources. Read more
Environmental issues such as eutrophication, habitat degradation and climate change threaten the sustainability of our aquatic resources. Responding to these threats the Aquatic Science MSc equips students with an interdisciplinary understanding of the structure and functioning of aquatic environments, encompassing lakes, ponds, rivers, wetlands, groundwaters, estuaries and shallow seas.

Degree information

Students focus on integrated freshwater and coastal systems and gain extensive training in field sampling, study design and species identification. Distinctive features include: integration of aquatic ecology with hydro-geomorphology, aquatic landscape ecology, analysis of sediment cores for environmental change reconstruction, design of aquatic monitoring programmes and modelling of aquatic system dynamics. Students come away with a sound knowledge of current-day links between aquatic science, legislation and conservation.

Students undertake modules to the value of 180 credits.

The programme consists of four core modules (60 credits), four optional modules (60 credits) and a research dissertation (60 credits).

A Postgraduate Diploma - 4 core modules and 4 optional modules all 15 credits (120 credits, full-time nine months, part-time two years) is offered. A Postgraduate Certificate - 4 core modules only at 15 credits (60 credits, full-time twelve weeks, part-time two years) is offered.

Core modules
-Aquatic Systems
-Aquatic Monitoring (includes field-trip to Scottish Highlands)
-Environmental Data Acquisition and Analysis
-Scientific Basis for Freshwater and Coastal Conservation (field-based module in Norfolk, England)

*modules running are dependent on staff sabbaticals.

Optional modules - students choose four of the following:
-Lakes
-Coastal Change
-Politics of Climate Change
-Marine Conservation
-Surface Water Modelling
-Wetlands
-Aquatic Macrophytes (field-based module in Dorset, England)
-Impacts of Climate Change on Hydro-ecological Systems
-Biological Indicators of Environmental Change
-Non-biological Indicators for Environmental Change
-Environmental GIS
-Ocean Circulation and Climate Change

*modules running are dependent on staff sabbaticals.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 15,000 words. Dissertation placement positions are offered linked to external conservation bodies and research-orientated consultancies.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, practical classes, laboratory sessions, case-studies and residential field classes. Assessment is through coursework and the dissertation, which includes an oral presentation of the research proposal.

Careers

This programme provides an ideal foundation for PhD research, or for employment with environmental protection and conservation agencies, the water industry and environmental consultancies.

Top career destinations for this degree:
-Education Officer, Norfolk Wildlife Trust
-PhD in Pond Conservation, UCL
-PhD in the Macroecology of Deep Sea Jelly Fish, University of Southampton
-Land Use Adviser, Natural England
-River Catchment Planner, Norfolk Rivers Trust

Employability
The MSc provides students with the science background and practical skills necessary for a career working in aquatic conservation and environmental protection agencies, environmental consultancies and stakeholder agencies. The MSc is also an ideal platform for further PhD study. We aim to expose students to potential employers from the outset and students receive expert tuition in field sampling and monitoring programme design, conservation biology, taxonomy of key species groups, knowledge of important conservation principles and legislation and working with stakeholders.

Why study this degree at UCL?

The Aquatic Science MSc is run by UCL Geography which enjoys an outstanding international reputation for its aquatic environmental research and teaching. The degree has a strong emphasis on field working with three major residential classes to the North Norfolk Coast, Scottish Highlands and Dorset.

The programme is taught by research groups specialising in Environmental Change & Biodiversity, Environmental Modelling & Observation, and has specialist input from the Thames Estuary Partnership, and in-house aquatic consultancy Environmental Scientific Services.

Speakers from environmental organisations including the UK Environment Agency, the Rivers Trusts, Wildfowl & Wetlands Trust, the UK Wildlife Trusts, National Trust and Natural England lecture on the programme and take part in fieldwork. By bringing together students, researchers and practitioners, a vibrant and informal academic environment is created encouraging mutual discovery and ongoing debate.

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The MSc in Robotics will provide you with the ability to understand, design and implement modern robotic systems. Read more
The MSc in Robotics will provide you with the ability to understand, design and implement modern robotic systems. Robotics is increasingly prominent in a variety of sectors, from manufacturing and health to remote exploration of hostile environments such as space and the deep sea, and as autonomous and semi-autonomous systems that interact with people physically and socially.

This programme exposes you to a wide range of advanced engineering and computer science concepts, with the opportunity to carry out a practical robot project at the Bristol Robotics Laboratory, one of the UK's most comprehensive robotics innovation facilities and a leading centre of robotics research.

The programme is jointly awarded and jointly delivered by the University of Bristol and the University of the West of England, both based in Bristol, and therefore draws on the combined expertise, facilities and resources of the two universities. The Bristol Robotics Laboratory is a collaborative research partnership between the two universities with a vision to transform robotics by pioneering advances in autonomous robot systems that can behave intelligently with minimal human supervision.

Programme structure

Your course will cover the following core subjects:
-Robotics systems
-Robotic fundamentals
-Intelligent adaptive systems
-Robotics research preparation
-Image processing and computer vision
-Technology and context of robotics and autonomous systems
-Bio-inspired artificial intelligence

Typically you will be able to select from the following optional subjects:
-Computational neuroscience
-Uncertainty modelling for intelligent systems
-Introduction to artificial intelligence
-Learning in autonomous systems
-Design verification
-Animation production
-Advanced DSP and FPGA implementation
-Statistical pattern recognition
-Control theory
-Advanced techniques in multidisciplinary design
-Advanced dynamics
-Virtual product development
-Biomechanics
-Sensory ecology
-Transport modelling
-Electromechanical systems integration
-Advanced control and dynamics

Please note that your choice of optional units will be dependent on your academic background, agreement with the programme director and timetable availability.

Dissertation
During your second semester, you will start working on a substantial piece of research work that will make up one third of the overall MSc. It is possible to work on this project at Bristol Robotics Laboratory or in conjunction with one of our many industrial partners. Within the Bristol Robotics Laboratory, there are a number of themes from which projects may be chosen, including:
-Aerial robots
-Assisted living
-Bioenergy and self-sustainable systems
-Biomimetics and neuro-robotics
-Medical robotics
-Nonlinear robotics
-Robot vision
-Safe human-robot interaction
-Self-reparing robotic systems
-Smart automation
-Soft robotics
-Swarm robotics
-Tactile robotics
-Unconventional computation in robots
-Verification and validation for safety in robots

Further information is available from the Faculty of Engineering.

NB: Teaching for this programme is delivered at both the University of Bristol and the University of the West of England campuses. Students attending the programme will be given free transport passes to travel between the two universities.

Careers

Robotics is a huge field spanning areas such as electronics, mechanics, software engineering, mathematics, physics, chemistry, psychology and biology. Career opportunities include: automotive industry, aerospace industry, advanced manufacturing, deep sea exploration, space exploration, food manufacture, pharmaceutical production and industrial quality control.

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The oceans do not exist in isolation but are in constant interaction with the atmosphere and underlying geology receiving energy from the sun and to a lesser extent from geothermal sources. Read more
The oceans do not exist in isolation but are in constant interaction with the atmosphere and underlying geology receiving energy from the sun and to a lesser extent from geothermal sources. The highly interdisciplinary field of Marine science, the study of the oceans from the deep sea to shallow coastal seas, aims to understand the biology, chemistry, geology and physics of this dynamic system so central to all our lives.

This programme offers students with a background in marine biology, geology or geography the opportunity to integrate their expertise in the wider marine science context.

The programme has one core course and offers a wide variety of options with maximum flexibility allowing students to pursue their studies either at our Orkney Campus or in Edinburgh.

Core course

- Oceanography and Marine Ecology
- Research Project (MSc only)

Optional courses

- Marine Resources and Sustainability
- Diversity of Marine Organisms1
- Applied Research Design & Analysis1
- Climate Change: Causes and Impacts
- Marine Ecotoxicology
- Practical Marine Ecotoxicology1
- Marine Ecology & Fisheries
- Introduction to Marine Planning
- Economics of Renewable Energy
- Environmental Processes
- Energy in the 21st Century
- Marine Biotechnology
- Practical Skills in Marine Biotechnology (Edinburgh Campus only owing to labs and practicals)
- Marine Environmental Monitoring
- Climate Change: Mitigation and Adaptation Measures
- GIS for Marine and Environmental Scientists
- Tropical Coral Reef Field Course
- Practical Skills in Marine Surveying (Orkney Campus only - field work)
- Environmental Policy & Risk
- Development Appraisal
- Development Project

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This course provides you with an exceptional grounding in marine environmental research. You’ll develop your understanding of key concepts and issues. Read more
This course provides you with an exceptional grounding in marine environmental research. You’ll develop your understanding of key concepts and issues. You’ll also develop the skills and qualities required for a career in academia or industry.

Through a combination of taught and research modules, our course develops your understanding of:
-The roles of science, policy, technology and economic development in the marine environment
-Marine environmental issues, their origins and possible solutions
-The principal processes maintaining and altering structure, function and ecosystem services of coastal waters
-The key concepts and methodologies used in ecosystem, environmental management and conservation science
-The context, purpose and implementation of resource mapping and evaluation
-The theory, principles, concepts and practices in marine governance

Our staff have over 30 years of research and teaching experience, both in the UK and overseas. Their expertise spans the natural and social sciences in coastal-marine science and management.

Our taught modules will ground your understanding of marine ecosystem dynamics, research methodologies and environmental governance. You will develop your research skills by designing and completing a supervised project.

Major sites for projects include the:
-Red Sea
-Maldives
-Bahamas
-Northumberland coast (UK)

The project will develop a detailed knowledge of your chosen research topic by drawing on the research communities within the School of Marine Science and Technology. These include:
-Marine Biology, Ecosystems and Governance (MBEG)
-Oceans and Climate (OC)

These research groups have had notable successes in their work on:
-Coral reefs (Prof John Bythell, Prof Alasdair Edwards, Prof Nicholas Polunin)
-Physical oceanography and climate modelling (Prof Andrew Willmott, Dr Miguel Maqueda)
-Marine spatial mapping and systems planning (Dr Clare Fitzsimmons)
-Marine protected areas and management (Prof Nicholas Polunin, Prof Selina Stead)
-Food webs (Prof Nicholas Polunin)

They are also active in:
-Marine mammal monitoring (Dr Per Berggren)
-Citizen science and outreach (Dr Jane Delaney)
-Deep sea ecology and marine time series (Dr Ben Wigham)

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The MRes in Evolutionary Biology involves the study of adaptation of organisms to their environment, at the whole organism and molecular scales. Read more
The MRes in Evolutionary Biology involves the study of adaptation of organisms to their environment, at the whole organism and molecular scales. Studies available include the evolutionary and behavioural ecology of insects and mammals and other species, genetic variation in wild populations of fungi, ecological genetics, and the interface between evolution and development. In addition, a number of researchers are interested in estimation of the deep phylogeny of major groups of organisms, such as pulmonate molluscs and protists. One of our staff members, Angus Davidson, uses an evolutionary approach to attempt to understand the origin of the use of 'sex' darts during courtship in slugs and worms.

APPLICATION PROCEDURES

After identifying which Masters you wish to pursue please complete an on-line application form
https://pgapps.nottingham.ac.uk/
Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcripts/certificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission.

COURSE STRUCTURE
The MRes degree course consists of two elements:
160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ½ months full-time research work. AND
20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http://www.nottingham.ac.uk/gradschool/research-training/index.phtml The generic courses should be chosen by the student in consultation with the supervisor(s).

ASSESSMENT
The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva.
*In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules.

The School of Life Sciences will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

SCHOLARSHIPS FOR INTERNATIONAL STUDENTS
http://www.nottingham.ac.uk/studywithus/international-applicants/scholarships-fees-and-finance/scholarships/masters-scholarships.aspx

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Our geochemistry research includes specific areas of expertise. applied and fundamental aspects of geochemistry; environmental sustainability; climate change; and biosphere/geosphere interactions. Read more
Our geochemistry research includes specific areas of expertise: applied and fundamental aspects of geochemistry; environmental sustainability; climate change; and biosphere/geosphere interactions. Through working with academics who are leaders in their field, you will be supported and guided to produce research of an international standard.

The School of Civil Engineering and Geosciences enjoys an international reputation for using the latest science to solve problems of global importance. For geochemistry we have MPhil and PhD supervision in the following areas:

Petroleum-related geological research
-Reservoir and source-rock geochemistry
-Microbial deep biosphere of petroleum reservoirs
-Origin, significance and maturation of molecular biomarker compounds in the sedimentary record
-Physico-chemical properties and behaviour of mudstone sequences
-Shale gas
-Geological sequestration of CO2
-Palynofacies and organic facies of ancient and modern sediments

Environment-related research
-Geomicrobiology
-Mineral science
-Molecular microbial ecology
-Molecular palaeontology
-Soil biogeochemistry
-Waste management
-Bioremediation of polluted soils and waters
-Biogeochemical cycling of elements through Earth history
-Climate change during past greenhouse conditions
-Processes of carbon cycling and export across the land–ocean transition

Delivery

We offer the MPhil and PhD on a full time or part time basis. You will work with research-active academics who will provide advice and support throughout your research project. You will receive formal training in research skills and methods and discipline-specific training is provided where appropriate.

The first three months of study involve intensive theoretical and practical tuition to ensure that you have the study skills to plan your project and can use the equipment and software related to your research. You are encouraged to attend our weekly research seminar series and to present your work at our annual postgraduate research conference, group seminars and relevant international conferences.

Facilities

The School of Civil Engineering and Geosciences has an exceptional range of laboratories equipped with a wide range of analytical instrumentation supporting our research, teaching and contract research projects.
-Chemical and Biological Research Laboratories
-Geotechnics and Structures Research Laboratories

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Statistics is thriving at Kent, and the research of the Group was rated in the top ten in the UK in the most recent Research Assessment Exercise. Read more
Statistics is thriving at Kent, and the research of the Group was rated in the top ten in the UK in the most recent Research Assessment Exercise. We are also one of the main hubs of the National Centre for Statistical Ecology. Recently, we have updated our MSc in Statistics and introduced a new MSc in Statistics with Finance. Both programmes are accredited by the Royal Statistical Society.

*This course will be taught at the Canterbury campus*

Visit the website: https://www.kent.ac.uk/courses/postgraduate/167/statistics-with-finance

Course detail

The MSc in Statistics with Finance is accredited by the Royal Statistical Society (RSS) and is excellent preparation for careers in any field requiring a strong statistical background.

Purpose

This programme trains students for careers using statistics in the financial services industry. You study the statistical modelling underpinning much modern financial engineering combined with a deep understanding of core statistical concepts. The programme includes modelling of financial time series, risk and multivariate techniques.

Format and assessment

You undertake a substantial project in the area of finance or financial econometrics, supervised by an experienced researcher. Some projects are focused on the analysis of particular complex data sets while others are more concerned with generic methodology.

You gain experience of analysing real data problems through practical classes and exercises. The course includes training in the computer language R.

Assessment is through coursework and formal examinations.

Careers

Students often go into careers as professional statisticians in industry, government, research and teaching but our programmes also prepare you for careers in other fields requiring a strong statistical background. You have the opportunity to attend careers talks from professional statisticians working in industry and to attend networking meetings with employers.

Recent graduates have started careers in diverse areas such as the pharmaceutical industry, financial services and sports betting.

How to apply: https://www.kent.ac.uk/courses/postgraduate/apply/

Why study at The University of Kent?

- Shortlisted for University of the Year 2015
- Kent has been ranked fifth out of 120 UK universities in a mock Teaching Excellence Framework (TEF) exercise modelled by Times Higher Education (THE).
- In the Research Excellence Framework (REF) 2014, Kent was ranked 17th* for research output and research intensity, in the Times Higher Education, outperforming 11 of the 24 Russell Group universities
- Over 96% of our postgraduate students who graduated in 2014 found a job or further study opportunity within six months.
Find out more: https://www.kent.ac.uk/courses/postgraduate/why/

Postgraduate scholarships and funding

We have a scholarship fund of over £9 million to support our taught and research students with their tuition fees and living costs. Find out more: https://www.kent.ac.uk/scholarships/postgraduate/

English language learning

If you need to improve your English before and during your postgraduate studies, Kent offers a range of modules and programmes in English for Academic Purposes (EAP). Find out more here: https://www.kent.ac.uk/courses/postgraduate/international/english.html

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Bodies of water, including oceans, large lakes, seas and estuaries, make up the largest part of the earth's surface. Well above 70% of the earth´s surface consists of water, which is essential for all life. Read more
Bodies of water, including oceans, large lakes, seas and estuaries, make up the largest part of the earth's surface. Well above 70% of the earth´s surface consists of water, which is essential for all life. Humans extract both directly and indirectly a major part of their food from the seas, photosynthesis in the oceans is responsible for approximately half of the global oxygen production, the oceans continue to yield unknown life forms at an astonishing rate. In spite of the importance of the water bodies of this earth, much of them remains unknown.

If you are interested in gaining more in-depth knowledge of this world, of the ecosystems associated with water, in a scientific manner, the Master of Science in Marine and Lacustrine Science and Management offers you what you need. This combination of disciplines makes the programme unique, not only in Flanders, but also in Europe. Students with most scientifically oriented bachelor diplomas can start the programme directly.

Career opportunities

This multidisciplinary Master´s diploma is your admission ticket to a fascinating professional world and can be the start of an international career. As a scientist with a broad education, you are the right person for functions that require an integrated approach. The integration of knowledge from across various disciplines is valuable, and you can contribute significantly in various jobs that are concerned with marine and lacustrine domains, wherever they are in the world. The programme is broad and deep and can complement a wide range of scientific professions.

Contents

This 2-year master programme addresses students with a background in sciences. It provides you with strong fundamental and applied knowledge and prepares you for an active role in the scientific research and management of marine ecosystems. The programme adopts a multidisciplinary approach integrating physical, chemical geological, ecological and societal aspects and including nature conservation and sustainable development.

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

You can major in one of four specialisations:
• Biodiversity and Ecology
• Conservation Biology and Ecosystem Management
• Environmental Impact and Remediation
• Earth System Sciences

The programme is one of the International Course Programmes supported by the Flemish Interuniversity Council (VLIR-UOS). A limited number of scholarships is available for students coming from certain developing countries.

The diversity of professional, disciplinary and cultural backgrounds of both students and lecturers ensures that the programme has a truly unique international character.

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

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International Master's in Statistics - MSc. https://www.kent.ac.uk/courses/postgraduate/163/international-masters-statistics. Read more
International Master's in Statistics - MSc: https://www.kent.ac.uk/courses/postgraduate/163/international-masters-statistics

Overview

The International Master’s in Statistics develops your practical, statistical and computing skills to prepare you for a professional career in statistics or as a solid basis for further research in the area.

The programme has been designed to provide a deep understanding of the modern statistical methods required to model and analyse data. You will benefit from a thorough grounding in the ideas underlying these methods and develop your skills in key areas such as practical data analysis and data modelling.

It has been accredited by the Royal Statistical Society (RSS) and equips aspiring professional statisticians with the skills they need for posts in industry, government, research and teaching. It also enables you to develop a range of transferable skills that are attractive to employers within the public and private sectors.

Students whose mathematical and statistical background is insufficient for direct entry on to the appropriate programme, may apply for this course. The first year of the programme gives you a strong background in statistics, including its mathematical aspects, equivalent to the Graduate Diploma in Statistics. This is followed by the MSc in Statistics.

International Master's in Statistics with Finance - MSc: https://www.kent.ac.uk/courses/postgraduate/164/international-masters-statistics-finance

Overview

This programme, accredited by the Royal Statistical Society (RSS), equips aspiring professional statisticians with the skills they will need for posts in industry, government, research and teaching. It is suitable preparation too for careers in other fields requiring a strong statistical background.

Students whose mathematical and statistical background is insufficient for direct entry on to the appropriate programme, may apply for this course. The first year of the programme gives you a strong background in statistics, including its mathematical aspects, equivalent to the Graduate Diploma in Statistics. This is followed by the MSc in Statistics with Finance.

About the School of Mathematics, Statistics and Actuarial Science (SMSAS)

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills. Developing computational skills and applying them to mathematical problems forms a significant part of the postgraduate training in the School. We encourage all postgraduate statistics students to take part in statistics seminars and to help in tutorial classes.

The Statistics Group is forward-thinking, with varied research, and received consistently high rankings in the last two Research Assessment Exercises.

Statistics at Kent provides:

- a programme that gives you the opportunity to develop practical, mathematical and computing skills in statistics, while working on challenging and important problems relevant to a broad range of potential employers

- teaching and supervision by staff who are research-active, with established reputations and who are accessible, supportive and genuinely interested in your work

- advanced and accessible computing and other facilities

- a congenial work atmosphere with pleasant surroundings, where you can socialise and discuss issues with a community of other students.

Research areas

Biometry and ecological statistics
Specific interests are in biometry, cluster analysis, stochastic population processes, analysis of discrete data, analysis of quantal assay data, overdispersion, and we enjoy good links within the University, including the School of Biosciences and the Durrell Institute of Conservation and Ecology. A recent major joint research project involves modelling the behaviour of yeast prions and builds upon previous work in this area. We also work in collaboration with many external institutions.

Bayesian statistics
Current work includes non-parametric Bayes, inference robustness, modelling with non-normal distributions, model uncertainty, variable selection and functional data analysis.
Bioinformatics, statistical genetics and medical statistics
Research covers bioinformatics (eg DNA microarray data), involving collaboration with the School of Biosciences. Other interests include population genetics, clinical trials and survival analysis.

Nonparametric statistics
Research focuses on empirical likelihood, high-dimensional data analysis, nonlinear dynamic analysis, semi-parametric modelling, survival analysis, risk insurance, functional data analysis, spatial data analysis, longitudinal data analysis, feature selection and wavelets.

Careers

Students often go into careers as professional statisticians in industry, government, research and teaching but our programmes also prepare you for careers in other fields requiring a strong statistical background. You have the opportunity to attend careers talks from professional statisticians working in industry and to attend networking meetings with employers.

Recent graduates have started careers in diverse areas such as the pharmaceutical industry, financial services and sports betting.

Professional recognition

The taught programmes in Statistics and Statistics with Finance provide exemption from the professional examinations of the Royal Statistical Society and qualification for Graduate Statistician status.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Oceanographers investigate both fundamental and applied problems relating to the physics, mathematics, biology, chemistry, and geology of the sea, often working across traditional academic disciplines. Read more

Program Overview

Oceanographers investigate both fundamental and applied problems relating to the physics, mathematics, biology, chemistry, and geology of the sea, often working across traditional academic disciplines. Research carried out both independently and in collaboration with federal government laboratories occurs in many different oceanographic regimes, including coastal BC fjords, the inland sea of the Strait of Georgia, open ocean regions of the Subarctic Pacific, and many other locations, including the Arctic and Antarctic Oceans. The types of problems that can be studied include fundamental questions about the flow of stratified fluids at scales ranging from tens of meters to thousands of kilometers, applied research in estuaries, coastal, and deep-ocean processes, general ocean circulation and climate change issues, marine chemistry, geochemistry, and biogeochemistry, natural product chemistry, marine viruses, fisheries oceanography, plankton ecology and physiology, and primary production of the sea. The Department is well equipped to carry out research in the field (using either its own boat or larger vessels in the oceanographic fleet), at the laboratory bench, and in the numerical heart of a computer. Most problems involve aspects of all three.

Students in Oceanography may select courses, depending on their interest, from the following areas of specialization:
- biological oceanography
- marine chemistry and geochemistry
- physical oceanography and atmospheric sciences

Students are encouraged to broaden their knowledge by taking courses outside their area of specialization. Courses related to Oceanography are also offered in the Departments of Botany, Chemistry, Civil Engineering, Geography, Physics and Astronomy, and Zoology.

Oceanography students normally begin their studies in September but may sometimes arrange to start their thesis/dissertation work in the summer before their first Winter Session. A student wishing to do graduate work in Oceanography should first discuss the proposed program with appropriate faculty in the Department of Earth, Ocean and Atmospheric Sciences.

Quick Facts

- Degree: Master of Science
- Specialization: Oceanography
- Subject: Science
- Mode of delivery: On campus
- Program components: Coursework + Options
- Faculty: Faculty of Science

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