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Masters Degrees (Ecological Modelling)

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he contribution of mathematical and computational modelling to the understanding of biological systems has rapidly grown in recent years. Read more
he contribution of mathematical and computational modelling to the understanding of biological systems has rapidly grown in recent years. This discipline encompasses a wide range of life science areas, including ecology (e.g. population dynamics), epidemiology (e.g. spread of diseases), medicine (e.g. modelling cancer growth and treatment) and developmental biology.

This programme aims to equip students with the necessary technical skills to develop, analyse and interpret models applied to biological systems. Course work is supported by an extended and supervised project in life science modelling.

Students will take a total of 8 courses, 4 in each of the 1st and 2nd Semesters followed by a 3-month Project in the summer. A typical distribution for this programme is as follows:

Core courses

Modelling and Tools;
Mathematical Ecology;
Dynamical Systems;
Mathematical Biology and Medicine.

Optional Courses

Optimization;
Numerical Analysis of ODEs;
Applied Mathematics;
Statistical Methods;
Stochastic Simulation;
Partial Differential Equations;
Numerical Analysis;
Geometry;
Climate Change: Causes and Impacts;
Biologically Inspired Computation;
Climate Change: Mitigation and Adaptation Measures.

Typical project subjects

Population Cycles of Forest Insects;
Modelling Invasive Tumour Growth;
The replacement of Red Squirrels by Grey Squirrels in the UK;
Wiring of Nervous System;
Vegetation Patterning in Semi-arid Environments;
Daisyworld: A Simple Land Surface Climate Model.

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There is a growing need for qualified professionals with expertise in environmental modelling. The UCL Environmental Modelling MSc is a cross-disciplinary degree that provides rigorous technical and scientific training for the next generation of environmental modelling professionals. Read more

There is a growing need for qualified professionals with expertise in environmental modelling. The UCL Environmental Modelling MSc is a cross-disciplinary degree that provides rigorous technical and scientific training for the next generation of environmental modelling professionals.

About this degree

You will gain a well-rounded training in the role, implementation and application of models in environmental science. Core modules provide a critical perspective on model-based science, and introduce essential computational and numerical methods. The programme is contextualised with reference to the challenges of understanding both natural and human-induced changes to a variety of environmental systems.

Students undertake modules to the value of 180 credits.

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

A Postgraduate Diploma (120 credits, full-time nine months, part-time two years) is offered.

A Postgraduate Certificate (60 credits, full-time 12 weeks, part-time one year) is offered.

Core modules

  • Models in Environmental Science
  • Global Environmental Change
  • Scientific Computing
  • Analytical and Numerical Methods

Optional modules

Options may include:

  • Climate Modelling
  • Coastal Change
  • Environmental GIS
  • Impacts of Climate Change on Hydro-Ecological Systems
  • Lakes
  • Ocean Circulation and Climate Change
  • Surface Water Modelling
  • Terrestrial Carbon: Monitoring and Modelling

Other MSc modules offered across UCL may be taken at the discretion of the MSc convenor

Dissertation/report

All students undertake an independent research project, culminating in a dissertation of approximately 12,000 words and an oral presentation.

Teaching and learning

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

Further information on modules and degree structure is available on the department website: Environmental Modelling MSc

Careers

The programme has been designed to provide an ideal foundation for PhD research, or for employment with environmental monitoring and protection agencies, industry and environmental consultancies. Graduates have gone on to careers as management consultants, business analysts and university researchers.

Recent career destinations for this degree

  • Risk Analyst, Canopius
  • Research Fellow, University of Girona and studying PhD Sanitas, Universitat de Girona (University of Girona)

Employability

Modelling was identified as the highest priority UK skills gap in a government review of the environmental sector. This MSc programme exposes students to the full range of environmental modelling which places graduates in a strong position to find employment. We anticipate that graduates of this MSc are either employed in the private environmental consulting sector or undertake a PhD.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

The Environmental Modelling MSc is run by UCL Geography which enjoys an outstanding international reputation for its research and teaching. Research groups contributing to the MSc include those concerned with environmental modelling and observation, past climates, and recent environmental change and biodiversity.

The programme draws on the unrivalled strengths of UCL in environment modelling. Our expertise encompasses state-of-the-art global climate models, regional ocean models, advanced hydrodynamic and hydrological simulations, palaeoclimate reconstruction over geological to recent historical timescales, earth observation-derived vegetation and carbon cycle modelling, and model-based assessment of climate change impacts on coastal, estuarine and freshwater systems.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Geography

81% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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Specifically the course will. ■ Provide knowledge in a wide range of applied ecological areas. ■ Underpin this with a sound understanding of the quantitative aspects of this field including statistical analysis, expert system design and population modelling. Read more
Specifically the course will:
■ Provide knowledge in a wide range of applied ecological areas.
■ Underpin this with a sound understanding of the quantitative aspects of this field including statistical analysis, expert system design and population modelling.
■ Provide taught elements linked to academic applied research groups.
■ Offer a rich research training through access to project supervisors with different expertise and disciplines.
■ Provide training in crucial transferable skills in writing, presenting, discussing scientific material.

The course

This MSc serves to reinforce the relevance of ecology to a broad range of applications and trains students to apply ecological tools and understanding in a wide variety of contexts. The course draws on and complements the established and highly regarded MSc programmes taught at Harper Adams. Along with core ecological training, students will be allowed to select modules from a number of the MSc courses running at Harper Adams, including Conservation and Forest Protection, Entomology, Integrated Pest Management, Rural Estate and Land Management and Sustainable Agriculture.

Specifically the course will:
■ Provide knowledge in a wide range of applied ecological areas.
■ Underpin this with a sound understanding of the quantitative aspects of this field including statistical analysis, expert system design and population modelling.
■ Provide taught elements linked to academic applied research groups.
■ Offer a rich research training through access to project supervisors with different expertise and disciplines.
■ Provide training in crucial transferable skills in writing, presenting, discussing scientific material.

How will it benefit me?

Having completed the course you will be able to recognize the major entomological groups worldwide, understand how to apply a logical framework to demonstrate management priorities in different environments and have an understanding of individual, population and community ecology. You will be able to assess the economic and environmental costs of ecological applications and evaluate their effectiveness.

You will also have a clear understanding of the remit and function of ecosystems and a detailed knowledge and understanding of the essential facts, concepts, principles and theories relevant to your chosen area of specialization. You will receive training in how to communicate your ideas and findings related to applied ecology to a range of audiences. Although there are some compulsory modules there is considerable flexibility enabling each student to focus on specialist subjects consistent with their interests and future career intentions

For the MSc, you will also be able to test hypotheses relevant to applied ecological research by designing, carrying out, analysing and interpreting experiments or surveys. Finally, you will learn to evaluate and interpret data and draw relevant conclusions from existing case studies.

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Ecological Economics focuses on how to make sustainability and environmental management work in practice by applying economic principles. Read more

Ecological Economics focuses on how to make sustainability and environmental management work in practice by applying economic principles.

This programme is run in collaboration with Scotland’s Rural College (SRUC). Graduates with postgraduate training in this area are in greater demand than ever before in business, industry and government.

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

Programme structure

You will learn through lectures, group work, informal group discussion and individual study, as well as the spring study tour. After two semesters of taught courses, you will begin work on your individual dissertations. You will be able to choose from a wide selection of option courses to suit individual interests and career goals.

You will learn through lectures, group work, informal group discussion and individual study, as well as the spring study tour. After two semesters of taught courses, you will begin work on your individual dissertations. You will be able to choose from a wide selection of option courses to suit individual interests and career goals.

Compulsory courses typically will be:

  • Foundations in Ecological Economics
  • Applications in Ecological Economics
  • Ecological Economics Field Methods in Research and Practice
  • Dissertation

Option courses previously available include:

In consultation with the Programme Director, you will choose from a range of option courses^. We particularly recommend:

  • Principles of Environmental Sustainability
  • Marine Systems and Policies
  • Understanding Environment and Development
  • The Ecology of Ecosystem Services
  • Political Ecology
  • Environmental Impact Assessment
  • Waste Reduction and Recycling
  • Participation in Policy and Planning
  • Water Resource Management
  • Forests and Environment
  • Human Dimensions of Environmental Change and Sustainability
  • Principles of GIS
  • Energy & Society I; Key Themes and Issues
  • Atmospheric Quality and Global Change
  • Introduction To Spatial Analysis
  • Climate Change and Corporate Strategy
  • Frameworks to Assess Food Security
  • Soil Protection and Management
  • Encountering Cities
  • Development: Principles and Practices
  • Further Spatial Analysis
  • Sustainability of Food Production
  • Interrelationships in Food Systems
  • Case Studies in Sustainable Development
  • Introduction to Environmental Modelling
  • Marine Infrastructure and Environmental Change
  • Ecosystem Service Values

^Courses are offered subject to timetabling and availability and are subject to change

Field trip

To experience and understand conflict between ecosystem conservation and human development needs at ground level, this programme typically includes a unique 7-10-day study tour, usually overseas and in the developing world (previous destinations have included South Africa, Kenya and Tanzania).

Career opportunities

Being able to identify ecological economic problems, and apply economic principles and methods to solve these problems is increasingly valued by employers.

Our graduates are working in a variety of sectors, including environmental consultancies; international and governmental agencies; NGOs; financial institutions; multinationals; environmental education and research.

Additionally around a quarter of our masters students go on to doctoral research programmes.

Student experience

Would you like to know what it’s really like to study at the School of GeoSciences?

Visit our student experience blog where you can find articles, advice, videos and ask current students your questions.



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Join us for our. Master Open Day. to find out more about our courses. We are pleased to announce the creation of our new MSc Ecological Economics. Read more

Join us for our Master Open Day to find out more about our courses.

We are pleased to announce the creation of our new MSc Ecological Economics. The course is based in the School of Earth and Environment with some of the modules being taught by the Leeds University Business School.

It reflects a new approach to teaching economics that focuses on real-world problems and integrates a wide range of different perspectives.

Many of the most serious environmental and social problems that we face can be traced to root causes in our economic system.

On this course, you'll develop an understanding of how economic activity gives rise to environmental and social problems, and be introduced to the main tools to tackle them.

You'll join one of the largest and most renowned centres of ecological economics research in the world on a course that challenges conventional thinking and introduces a real-world approach to teaching economics.

You can combine modules that help you build strong conceptual foundations in sustainability with specialist modules in ecological, environmental, and heterodox economics.

The course is ideal if you have an interest in economic issues with a focus on their social and environmental consequences, but you don't need to have completed a previous degree in economics.

Course highlights

  • Study topics ranging from the value of ecosystem services to managing an economy without growth.
  • Learn analytical tools such as input-output analysis and dynamic system modelling.
  • Gain skills that are in demand by organisations ranging from government and academia to international NGOs and social enterprises, and have access to career opportunities through our vibrant alumni community.
  • Potentially carry-out your research dissertation project with a partner organisation. This collaborative arrangement is designed to help you to deliver research that generates a real-world impact, while at the same time creating high employment prospects. Please see the Career Opportunities section for a list of organisations you could possibly partner with.




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International Student Fees 2017/2018. Read more

International Student Fees 2017/2018

If you want to protect species against decline and extinction by working in either research, consultancy or conservation professions this programme gives you advanced skills in Ecology and linked subject areas such as Environmental Science, GIS, EIA and Catchment Management Planning. You attend a field research trip at Bettyhill on the North coast of Sutherland followed by training in plant ecology, animal population GIS design and analysis. You learn applied Ecology and conservation in an interdisciplinary context. Many environmental consultancies and government bodies require Ecologists as part of their environmental teams, and there are further charities and activist organisations which require Ecologists as part of their teams. The degree provides many useful and overlapping skills within environmental science such as EIA Environmental Impact Assessments. These are reports and studies used to determine issues and challenges to the natural environmental from economic development of all types.

You learn relevant skills environmental policy, legislation, risk assessment models, environmental analytical instrumentation and implementing models. Employment options may be within consultancies, regulators and NGOs. Regulation of economic impact on the natural world has never been so highlighted across the worlds media as it is now in terms of how to protect species and highlight decline.

Courses listed for the programme

Semester 1

  • Plant Ecology
  • Core Skills in Environmental Science
  • Environmental Pollution
  • Applications of GIS

Semester 2

  • Ecology, Conservation and Society
  • Catchment Management
  • Environmental Analysis
  • Ecological and Environmental Modelling
  • Land Use and the Change Environment on Deesside

Semester 3

  • Project in Environmental and Ecological Sciences

Find out more detail by visiting the programme web page

Why study at Aberdeen?

  • Environmental and Soil Science is rated within the top 10 in the UK at Aberdeen and the soil ecology group has been ranked No.1 for overall research excellence (REF 2014)
  • You are taught be established and renowned researchers with 50 years experience of teaching Ecology. Many graduates can be found in leadership professions in Ecology around the world.
  • You are invited to seminars, conferences and talks held at Aberdeen across the Environmental and Soil Science  disciplines and centres.

Where you study

  • University of Aberdeen
  • 12 Months Full Time or 24 Months Part Time
  • September start

International Student Fees 2017/2018

Find out about international fees:

  • International
  • EU and Scotland
  • Other UK

Find out more about fees on the programme page

*Please be advised that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page and the latest postgraduate opportunities

Living in Aberdeen

Find out more about:

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

Find out more about living in Aberdeen and living costs 



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If you are interested in the possibility of a research degree (PhD or Research Masters) in the School of Mathematical Sciences, we encourage you to become familiar with the range of research activity and expertise in the School. Read more
If you are interested in the possibility of a research degree (PhD or Research Masters) in the School of Mathematical Sciences, we encourage you to become familiar with the range of research activity and expertise in the School. In particular, we would encourage you to approach or contact members of the academic staff whose research area may be of particular interest.

The research of the School covers a wide range of areas including:

Analysis (Infinite-dimensional analysis, Functional Analysis, Potential Theory)
Algebra (Matrix Theory, K-theory, Quadratic and Hermitian Forms)
Discrete Mathematics (Coding, Cryptography, Number Theory)
Applied Mathematics (Fluid Dynamics, Computational Science, Meteorology, Biomathematics, Information Theory)
Theoretical Physics (Astrophysics, General Relativity, Quantum Gravity, Statistical Mechanics, Quantum Field Theory)
Statistics (Bayesian Statistics, Pharmaceutical, Medical and Educational Statistics, Environmental and ecological modelling, Epidemiology, Econometrics).

Please see our School Website for more details:
http://www.ucd.ie/mathstat

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Several agencies at a national and international level are required to manage our environment sustainably by implementing policy and legislation. Read more
Several agencies at a national and international level are required to manage our environment sustainably by implementing policy and legislation. The study of Applied Environmental Science is critical for establishing policies in environmental assessment, evaluating potential change in environmental quality in response to various land use and other activities, and in the development of management and conservation strategies, as well as contributing to policy formulation.

This programme provides graduates with a thorough knowledge of Environmental Science and there is a heavy emphasis on practical training in fieldwork, laboratory analyses, information sourcing, data analysis,planning, reporting and communication. You will work with an interdisciplinary team of experts covering the key aspects of Environmental Science, encompassing marine, freshwater and terrestrial systems, to make this an exceptionally practical multidisciplinary programme.

Key Fact

This Applied Environmental Science course has been running for over 20 years, it’s the only such MSc in Ireland to include a major input from civil engineering, relating particularly to water quality, hydrology and waste treatment processes. This MSc also offers a 2 month work placement in the environmental sector providing relevant work experience.

Core Modules

Samples of modules include:
• Water Resources Engineering
• Vegetation Ecology
• Environmental Impact Assessment
• Geographic Information Systems (GIS) and Data Analyses
• Freshwater Resources Assessment
• Remote Sensing
• Global Change Ecology
• Ecological Modelling
• Wildlife & Resources Management
• Integrated Municipal Solid Waste
• Marine/Coastal Ecology
• Soil Ecology
• Water, Waste & Environment Modelling
• Environmental Geology
• Ecotoxicology & Air Quality Monitoring


The course gives due consideration to key legislative requirements and policy developments. Modules and topics shown are subject to change and are not guaranteed by UCD.

Career Opportunities

Our graduates are building successful varied careers in environmental resources assessment, management and protection. A considerable number have been employed in consultancy positions and some are also with the Inland Fisheries Ireland, the Department of the Environment and the Environmental Protection Agency (EPA). Some graduates have also continued their studies at PhD level in the areas of fisheries, biomass fuels, soil, water engineering and invertebrate ecology.

Facilities and Resources

The School of Biology and Environmental Science has 14 state-of the-art research laboratories that are equipped to support a very wide range of research activities at the cellular or whole organism level. The UCD Rosemount Environmental Research Station can also support glasshouse or field-based experiments.

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Goal of the pro­gramme. Ecology and evolutionary biology offer a perspective on biology from the level of genes to communities of species. Read more

Goal of the pro­gramme

Ecology and evolutionary biology offer a perspective on biology from the level of genes to communities of species.

In the master's degree program, you can become familiar with a wide variety of topics in three areas: ecology, evolutionary biology and conservation biology. You can choose studies from any of these areas, as well as from other master's degree programmes. The programme is diverse and multidisciplinary: teaching is done with lectures, laboratory and computer training courses, interactive seminars, study tours and field courses. The field courses range from the northern subarctic region to tropical rainforests.

Our wide expertise extends from molecular ecology to population and community biology. The Centres of Excellence of Metapopulation Biology and Biological Interactions are located in our department.

Our programme offers you a wide range of options: evolutionary biology or genetics for those interested in ecological genetics and genomics, as well as the ability to take advantage of the high-quality molecular ecology and systematics laboratory; conservation biology for those interested in regional or global environmental problems; and ecological modelling skills for those interested in computational biology. Our training also offers Behavioural Ecology. 

Ecology, evolutionary biology and conservation biology are not only fascinating topics for basic research, they also have a key role in addressing global environmental challenges.

Upon graduating from the Master's degree in ecology and evolutionary biology programme, you will:

  • Have mastered the main theories and methods in ecology and evolutionary biology and be able to apply them to practical problems
  • Be able to plan and carry out a scientific research project
  • Have read the relevant scientific literature and be able to utilise your expertise in different types of work
  • Be able to work as an expert in your field
  • Be able to to write good scientific English
  • Be able to work in research projects and groups
  • Be able to continue on to doctoral studies

Further information about the studies on the Master's programme website.

Pro­gramme con­tents

The Master's degree program includes studies of ecology, evolutionary biology and conservation biology. The studies are organised in modules. You can affect the content of the studies by planning your personal curriculum. You can study the following themes:

  • Ecology studies the abundance and distribution of species (animals, plants, microbes) and the interactions among them and with the environment. The perspective ranges from the molecular to the ecosystem level. In ecology, a central question is: Why are some species able to invade new habitats and displace native species? Which species are able to adapt to environmental change or migrate with the changing climate, and which species will become extinct?
  • Evolutionary biology examines the processes which support biodiversity on its various levels (genes – individuals – populations – species – ecosystems). You will learn about the theory of evolution and how to use population genetics and genomics methods in researching evolutionary issues.
  • Conservation Biology studies the depletion of biodiversity, its causes and consequences. You will learn to apply ecological theory to the problems of environmental conservation, to assess the effectiveness of methods of conservation, as well as to resolve the problems relating to conservation e.g. by modelling and computational methods. The training emphasizes the importance of interdisciplinary education in the area of conservation.


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The Master in Conservation Biology, specialization Ecology, Monitoring and Management of Ecosystems aims at providing a critical and conceptually-based understanding of structure, functioning, monitoring, and management of ecosystems submitted to various natural and anthropogenic pressures, in the framework of biodiversity conservation. Read more

The Master in Conservation Biology, specialization Ecology, Monitoring and Management of Ecosystems aims at providing a critical and conceptually-based understanding of structure, functioning, monitoring, and management of ecosystems submitted to various natural and anthropogenic pressures, in the framework of biodiversity conservation. Half of the second year is devoted to a personal Master thesis project.

The Master is a two-year course. In the first year, the course design is based upon the idea that biodiversity conservation must be based on a multi-level knowledge approach, mixing key disciplines in ecology, and including recent technical advances in numerical ecology, molecular ecology, wildlife monitoring and ecosystem management. The course content is rooted in our established strengths in functional ecology (ecosystem structure and function, population and community ecology), paleoecology (long-term evolution of ecosystems), ecotoxicology (fate and effects of pollutants), epidemiology (transmission of zoonotic pathogens), conservation biology (status and threats of patrimonial animal and plant species), numerical ecology, ecological modelling and research design. The master degree program is further enriched by input from professional conservationists and managers, with the aim to put courses in the broader context of project management and decision making procedures.

The specific course objectives are to develop abilities to:

  • critically engage with concepts and theory in functional ecology from interdisciplinary perspectives at an advanced scientific level,
  • critically assess the ability of populations and communities to react, cope with and adjust to environmental changes occurring over different spatial and time scales,
  • appreciate the opportunities offered by new technological developments for the future of research on ecosystem monitoring and management,
  • combine theory, hypotheses, methods, data and field work to identify and develop innovative applied or fundamental research questions and designs.

Teaching consists of lectures, seminars, class tutorials and practical training in the field and in the laboratory, which provide in-depth exploration of key issues. The teaching philosophy is to stimulate discussion and debate between academic staff and students to identify and explore theory, methods and practices in an academic space that encourages a critical dialogue.

Field courses allow students to apply in the field the methods and ideas presented in the classroom. Each year, they will attend one week-long fieldtrip and several field courses. One of these field courses (in the framework of the teaching unit “Conservation Biology and Ecosystem Management”) allows them to test a hypothesis dealing with the potential impact of anthropogenic disturbances on plant or animal populations or communities, in the context of the various activities taking place in the Jura Mountains, known for their outstanding landscapes, typical ecosystems (e.g. peatbogs, wood-pastures) and patrimonial species (e.g. boreal lynx). Other field courses address the assessment and the management of ecosystems, and the monitoring of plant and animal wildlife.

Students must pass the examinations taken during the first year (i.e. obtain 60 ECTS) in order to proceed without further selection into the second year.

The second year is mainly devoted to the thesis project within a research team or a professional structure (NGOs, consultancy companies, governmental agencies…) with the support of an academic supervisor, specialist of the related research domain. Half of this second year is devoted to researching and writing a thesis of about 12,000 words. The research topic will be devised at the end of the first year. The thesis accounts for half the marks for the second year.

Graduate destinations

The aim of the course is to train future scientific leaders in functional ecology, ecotoxicology and epidemiology as well as future managers and policy officers in biodiversity conservation and ecosystem management. In that respect, the course combines functional ecology and conservation biology as two major disciplines with some other relevant topics – paleoecology, ecotoxicology, epidemiology, ethics and deontology, epistemology, environmental regulation and socioeconomics of conservation, structure and management of environmental organizations, in addition to the hard science of biodiversity.

The Master’s Alumni Office helps alumni keep in touch with each other and organises alumni events.

Application

Available spots: 16 in M1 and M2

Students already registered in a French university apply online on eCandidat. All information available on ttp://http://www.nature-conservation-ubfc.com/emme/en/.

Non-registered students should rather look at http://www.univ-fcomte.fr/pages/fr/menu1/accueil-international-131.html

Candidacy file:

  • Detailed Curriculum Vitae with personal, training, internship, professional, and other information allowing the recruitment committee to assess the quality of the candidacy.
  • Evidence of completion of upper secondary school (high school) in the form of final and official diploma and transcripts. Note that the transcripts must specify all coursework completed.
  • Cover letter.
  • Two letters of recommendation.

Application examination:

Examination by the recruitment committee of the Master EDGE

After a first examination of all complete files by the recruitment committee, some candidates may be called for an interview with some members of the recruitment committee.

Selection criteria:

  • Previous training in line with the Master EDGE objectives
  • Quality of the training (marks, ranks, distinction)
  • Internships and/or professional experiences in line with the Master EDGE objectives
  • Motivation and career objectives
  • Recommendation

General requirements:

To meet the general entrance requirements for programme studies at the Master’s level, you must have graduated from an accredited university with a degree equivalent to at least a Swedish Bachelor’s degree (180 ECTS). Please note that you must provide adequate supporting documentation in the form of diplomas or official transcripts specifying all courses completed, including any transferred credits from previous schools, both in the original language and translated into English or French.

Specific requirements:

Specific entrance requirements consist of previous university studies within the following subjects: biology, ecology, and statistics.

English requirement

In order to be eligible, the English language entry requirement corresponds to English studies at upper secondary (high school) level in France.

GRANTS

Up to five fellowship grants (800 € per month, during up to 10 months) will be awarded each year to high quality foreign students, with a particular attention to applications coming from Mediterranean countries and Caribbean island nations and territories.



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The Ecology and the Environment master’s programme prepares students to work with the management of ecosystems, ecological communities and populations, based on a thorough knowledge of ecological concepts and theories. Read more

The Ecology and the Environment master’s programme prepares students to work with the management of ecosystems, ecological communities and populations, based on a thorough knowledge of ecological concepts and theories.

The programme has a critical scientific approach to ecology and its applications in society. Students acquire training in practical areas such as experiment design, data interpretation, ecological fieldwork and theoretical modelling, both in a classroom setting and through fieldwork.

There is a strong focus on the practical application of ecological knowledge in society. You learn about environmental and natural resource management, and how it is implicated by various stakeholders. Courses cover population ecology, community ecology and ecology systems theories, including their relationship to current environmental problems. Furthermore, the programme has an internship period and a course that focuses on ecological decision support for forestry and agriculture.

One-year thesis project

The key part of the programme is a one-year master’s project in which students apply their theoretical and methodological knowledge. The project can be linked to current research projects at the Division of Biology in subjects such as conservation ecology, ecology of shallow waters, design and management of treatment wetlands, spatio-temporal ecology, and population and community ecology. Alternatively, the master’s project can be conducted at a university or research institute abroad, in a field such as tropical ecology or ecological engineering.

Emphasis on mathematical models

This programme also emphasises the need for mathematical models and statistical analyses to address complex ecological and environmental problems. Typical applications are in helping to identify crop management strategies for effective biological control, understanding the impact of life-history strategies on the risk of population extinction in a varying environment, and evaluating the preservation status of nature reserves and how they should be managed.



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These programmes offers the opportunity to begin or consolidate your research career under the guidance of internationally renowned researchers and professionals in the School of Mathematics, Statistics and Actuarial Science (SMSAS). Read more
These programmes offers the opportunity to begin or consolidate your research career under the guidance of internationally renowned researchers and professionals in the School of Mathematics, Statistics and Actuarial Science (SMSAS).

Research interests are diverse and include: Bayesian statistics; bioinformatics; biometry; ecological statistics; epidemic modelling; medical statistics; nonparametric statistics and semi-parametric modelling; risk and queueing theory; shape statistics.

Visit the website https://www.kent.ac.uk/courses/postgraduate/169/statistics

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.

Course structure

The research interests of the group are in line with the mainstream of statistics, with emphasis on both theoretical and applied subjects.

There are strong connections with a number of prestigious research universities such as Texas A&M University, the University of Texas, the University of Otago, the University of Sydney and other research institutions at home and abroad.

The group regularly receives research grants. The EPSRC has awarded two major grants, which support the National Centre for Statistical Ecology (NCSE), a joint venture between several institutions. A BBSRC grant supports stochastic modelling in bioscience.

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.

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

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There is a pressing national and international need to understand the nature and consequences of climatic change and to develop adaptation strategies. Read more

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

About this degree

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

Students undertake modules to the value of 180 credits.

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

A Postgraduate Diploma (120 credits, full-time nine months) is offered.

A Postgraduate Certificate (60 credits, full-time 12 weeks, part-time one year) is offered.

Core modules

  • Climate Dynamics
  • Models in Environmental Science
  • Past Climates
  • Global Environmental Change

* modules running are dependent on staff sabbaticals

Optional modules

Options may include:

  • Biological Indicators of Environmental Change
  • Climate Modelling
  • Coastal Change
  • Cities and Climate Change
  • Environmental GIS
  • Impacts of Climate Change on Hydro-ecological systems
  • Non-biological Indicators of Environmental Change
  • Ocean Circulation and Climate Change
  • Politics of Climate Change
  • Terrestrial Carbon: Modelling and Monitoring
  • Surface Water Modelling

Other MSc modules offered across UCL may be taken at the discretion of the MSc convenor. *Availability of modules is dependent on staff sabbaticals.

Dissertation/report

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

Teaching and learning

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

Further information on modules and degree structure is available on the department website: Climate Change MSc

Careers

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

Recent career destinations for this degree

  • Policy Manager, Department of Energy & Climate Change (DECC)
  • MSc Environmental Economics, UCL
  • PhD in Hydrology, University of Leeds

Employability

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

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

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

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

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

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Geography

81% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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Researchers in the School of Biological Sciences conduct cutting-edge research across a broad range of biological disciplines. genomics, biotechnology, cell biology, sensory biology, animal behaviour and evolution, population biology, host-disease interactions and ecosystem services, to name but a few. Read more
Researchers in the School of Biological Sciences conduct cutting-edge research across a broad range of biological disciplines: genomics, biotechnology, cell biology, sensory biology, animal behaviour and evolution, population biology, host-disease interactions and ecosystem services, to name but a few.

In 2014 the school relocated to a new £54 million, state-of-the-art Life Sciences building. Our new laboratory facilities are among the best in the world, with critical '-omics' technologies and associated computing capacity (bioinformatics) a core component. The new building is designed to foster our already strong collaborative and convivial environment, and includes a world-leading centre for evolutionary biology research in collaboration with key researchers from earth sciences, biochemistry, social medicine, chemistry and computer sciences. The school has strong links with local industry, including BBC Bristol, Bristol Zoo and the Botanic Gardens. We have a lively, international postgraduate community of about 150 research students. Our stimulating environment and excellent graduate school training and support provide excellent opportunities to develop future careers.

Research groups

The underlying theme of our research is the search for an understanding of the function, evolution, development and regulation of complex systems, pursued using the latest technologies, from '-omics' to nanoscience, and mathematical modelling tools. Our research is organised around four main themes that reflect our strengths and interests: evolutionary biology; animal behaviour and sensory biology; plant and agricultural sciences; and ecology and environmental change.

Evolutionary Biology
The theme of evolutionary biology runs through all our research in the School of Biological Sciences. Research in this theme seeks to understand organismal evolution and biodiversity using a range of approaches and study systems. We have particular strengths in evolutionary genomics, phylogenetics and phylogenomics, population genetics, and evolutionary theory and computer modelling.

Animal Behaviour and Sensory Biology
Research is aimed at understanding the adaptive significance of behaviour, from underlying neural mechanisms ('how', or proximate, questions) to evolutionary explanations of function ('why', or ultimate, questions). The approach is strongly interdisciplinary, using diverse physiological and biomechanical techniques, behavioural experiments, computer modelling and molecular biology to link from the genetic foundations through to the evolution of behaviour and sensory systems.

Plant and Agricultural Sciences
The global issue of food security unifies research in this theme, which ranges from molecular-based analysis of plant development, signal transduction and disease, to ecological studies of agricultural and livestock production systems. We have particular strengths in functional genomics, bioinformatics, plant developmental biology, plant pathology and parasite biology, livestock parasitology and agricultural systems biology. Our research is helped by the LESARS endowment, which funds research of agricultural relevance.

Ecology and Environmental Change
Research seeks to understand ecological relations between organisms (plant, animal or microbe) at individual, population and community levels, as well as between organisms and their environments. Assessing the effect of climate change on these ecological processes is also fundamental to our research. Key research areas within this theme include community ecology, restoration ecology, conservation, evolutionary responses to climate change and freshwater ecology. Our research has many applied angles, such as ecosystem management, wildlife conservation, environmental and biological control, agricultural practice and informing policy.

Careers

Many postgraduate students choose a higher degree because they enjoy their subject and subsequently go on to work in a related area. An Office of Science and Technology survey found that around three-quarters of BBSRC- and NERC-funded postgraduates went on to a job related to their study subject.

Postgraduate study is often a requirement for becoming a researcher, scientist, academic journal editor and for work in some public bodies or private companies. Around 60 per cent of biological sciences doctoral graduates continue in research. Academic research tends to be contract-based with few permanent posts, but the school has a strong track record in supporting the careers of young researchers by helping them to find postdoctoral positions or develop fellowship applications.

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The importance of science in understanding disaster risks and the need for science-based strategies at local, national and international levels in the private, public, and third sectors are now widely recognised. Read more

The importance of science in understanding disaster risks and the need for science-based strategies at local, national and international levels in the private, public, and third sectors are now widely recognised. The Risk and Disaster Science MSc aims to meet the growing need for experts trained in disaster science in sectors ranging from finance to humanitarian response.

About this degree

In a science-led programme, students will explore the characterisation of risk from a fundamental understanding of hazard, statistical modelling, appreciation of causes of vulnerability, and quantifying exposure to the management and reduction of disaster risks. There is an emphasis on scientific analysis and statistical methods. Students will enjoy a wide range of taught modules covering scientific, technical, socio-economic, political, environmental, ethical and cultural perspectives.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (90 credits), optional modules (to the combined value of 30 credits) and an independent research project (60 credits).

A Postgraduate Diploma (120 credits, six core modules and two optional modules), full-time nine months, part-time two years, is also offered.

Core modules

  • Catastrophe Risk Modelling
  • Earthquake Risks
  • Emergency and Crisis Management
  • Integrating Science into Risk and Disaster Reduction
  • Risk and Disaster Reduction Research Tools
  • Research Appraisal and Proposal

Optional modules

Choose options (to the combined value of 30 credits) from a list which may include the following:

  • Climate Risks to Hydro-ecological Systems
  • Emergency and Crisis Planning
  • Decision and Risk Statistics
  • Seismic Risk Assessment
  • Conflict, Humanitarianism, and Disaster Risk Reduction
  • Digital Public Health: Epidemics and Emergencies in the Era of Big Data
  • Natural and Anthropogenic Hazards and Vulnerability
  • The Variable Sun: Space Weather and You

Dissertation/report

All students undertake an independent research project of 10,000-12,000 words which culminates in a research project and poster presentation.

Teaching and learning

The programme is delivered through a combination of lectures, practicals, field visits, directed reading and problem-solving exercises and a real-time disaster scenario event, with an emphasis on hands-on learning and tutorial-style dialogue between students and lecturers. Assessment is by independent and group oral presentations, written examination, coursework essays, and the independent project. Practical applications of critical and creative problem-solving will be encouraged and assessed throughout.

Fieldwork

Students are responsible for their subsistence and travel costs within London when on fieldwork. All other travel and fees will be paid for or reimbursed by the IRDR

Further information on modules and degree structure is available on the department website: Risk and Disaster Science MSc

Funding

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.

Careers

This programme provides excellent training towards careers in industry and commerce, research, research communication and public policy including insurance, catastrophe modelling, finance, risk management, business continuity, humanitarian assistance, engineering, electricity distribution and many other fields. It supports the career development of professionals already working in risk and disaster reduction, as well as those who intend to go into this field. 

Employability

This programme will equip students with scientific and analytical skills to better understand and assess disaster risks and to identify solutions to reduce those risks. These skills are highly sought after in the private, public and NGO sector, and in specific fields such as catastrophe modelling, risk management, and public policy.

Career destinations of IRDR graduates include: an international economic consultancy in the field of micro-finance; a consultancy role in disaster risk for an insurance company; the World Food Programme; Rescue Global – a London based NGO; and a PhD studentship. 

Why study this degree at UCL?

The UCL Institute for Risk and Disaster Reduction (IRDR), where teaching for this programme is based, leads and co-ordinates multidisciplinary research, knowledge exchange and advanced teaching in risk and disaster reduction across UCL.

UCL is uniquely well placed to lead research and teaching in this field; in addition to academics across seven faculties involved in world-class research, UCL IRDR has established links with scientific leaders in NGOs, industry and government departments based in and around London, who contribute to teaching and project supervision.

As a student, you will be encouraged to join our active seminar series, high-profile public discussion meetings and networking events.

The IRDR runs a careers and opportunities forum for students; this has been attended by insurance companies, catastrophe modelling firms, NGOs, academic institutions, and headhunters in the field of risk and disaster reduction.



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