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Masters Degrees (Ecology And Evolutionary Biology)

We have 74 Masters Degrees (Ecology And Evolutionary Biology)

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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 programme will focus on concepts and theory essential to understanding global ecological change, including. state of the art techniques for environmental process research, invasive species ecology and conservation genetics. Read more
The programme will focus on concepts and theory essential to understanding global ecological change, including: state of the art techniques for environmental process research, invasive species ecology and conservation genetics. Students will learn how to convert science to policy or management, and how to consult with stakeholders. Students will also spend time shadowing our multidisciplinary research teams before conducting a substantive six-month project. These projects may be jointly supervised by colleagues at related institutes or within industry. We will equip science graduates with the essential skills to proceed to further research via PhD or careers in consultancy and industry.

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The Top Programme Evolutionary Biology is embedded in the Master's programme in Ecology and Evolution. The Top Programme Evolutionary Biology explores the interface between ecology and evolution. Read more
The Top Programme Evolutionary Biology is embedded in the Master's programme in Ecology and Evolution. The Top Programme Evolutionary Biology explores the interface between ecology and evolution.

The hallmark is to explore the interface between ecology and evolution. You will benefit from a wide spectrum of national and international expertise in these fields. You will acquire top quality research competences. The programme is specifically designed to acquire the right research competences and prepare you for conducting top quality research.

The Top Programme is administered by the Centre for Ecological and Evolutionary Studies (CEES), a centre of excellence in ecological and evolutionary research and the lead partner in the national Research School Functional Ecology and Biodiversity. This central position ensures that students can benefit from a wide spectrum of national and international expertise across the fields of ecology and evolution. Via advanced theoretical and practical training you will become highly attractive for research positions in the area of Evolutionary Biology.

We also offer an Erasmus Mundus programme in Evolutionary Biology: A joint project between four European universities. Students will start the programme at one of these universities and will spend at least one semester at a partner university.

Why in Groningen?

- Acquire Top Quality Research Competences
- Coaching by Personal Mentor
- CHE Excellence Ranking in Biology since 2007

Job perspectives

These programmes are specifically designed to prepare you for conducting top quality research. Often you continue your career by starting PhD research.

Job examples

- PhD research position

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The Master in Conservation Biology, with specialization in Behavioural Ecology and Wildlife Management, aims at providing a critical and conceptually-based understanding of animal behaviour and evolutionary ecology, in the framework of conservation biology and wildlife management. Read more

The Master in Conservation Biology, with specialization in Behavioural Ecology and Wildlife Management, aims at providing a critical and conceptually-based understanding of animal behaviour and evolutionary ecology, in the framework of conservation biology and wildlife management. This two-year master program consists in both lessons and fieldtrips, while half of the second year is devoted to a personal research project conducted by students in an international research team.

OUR MASTER PROGRAM

The Master program has a two-year span, with most of the courses taught in english. Our teaching philosophy is based on the idea that biodiversity conservation must be grounded in a multi-level knowledge approach, mixing key disciplines in ecology and evolution with recent technical advances in the fields of biometry, molecular ecology and management tools. The teaching content is rooted in our established strengths in behavioural ecology, evolutionary biology, conservation biology, quantitative ecology and research design. The master program is enriched by input from professional conservationists and managers, to put courses in the broader context of project management and decision-making policies.

The specific teaching objectives aim at developing and improving students’ skills to:

  • engage with concepts and theory in behavioural ecology, conservation biology and wildlife management from interdisciplinary perspectives at an advanced scientific level.
  • assess the ability of organisms to react, cope with and adjust to environmental change occurring over different spatial and time scales.
  • appreciate the opportunities offered by new technological developments for the future of research on animal behaviour and wildlife management
  • combine theory, hypotheses, methods, data and fieldwork so as to identify and develop innovative research questions and design.

Half of the second year is devoted to conducting a personal research project and writing a thesis of 12,000 words. Research projects are conducted within an international team previously selected by the students, and led with the support of an expert supervisor.

TEACHING & FIELDTRIPS

Teaching consists of lectures, seminars by international researchers, class tutorials and practical training in the laboratory and in the field, providing in-depth exploration of key issues. Our teaching philosophy is to stimulate balanced and evidence-based discussions and debates between academic staff and students. Such interactions provide efficient training to identify and explore theory, methods and practice in an academic environment.

Field courses allow students to apply the methods and ideas developed in the classroom to practical use in the field. Each year, you will attend at least one week-long fieldtrip, and several one-day field sessions. The "Camargue field course" provides the opportunity to work on a model species for wildlife management in the Camargue Natural Regional Park (CNRP): the greater flamingo. Fieldwork will be grounded on extensive research on wildlife populations in the context of the various activities taking place in the CNRP. Other field courses address the quantitative analysis of animal behaviour, the monitoring of wildlife, and ex-situ conservation. The “Parc Polaire fieldtrip”, in the Jura mountains, allows students to experience the role of and, stakes faced by, a park dedicated to the conservation of European wild species such as the European bison and deer species.

CAREER PROSPECTS

The aim of our master program is to train future scientific leaders in animal behaviour and conservation biology, as well as future managers and policy officers in biodiversity, conservation and wildlife management.

Therefore, our program aims at providing both a diversified and specialized expertise in the general fields of animal behaviour and wildlife management. It also combines behavioural ecology and conservation biology as major disciplines with some other relevant topics – ethics and deontology, epistemology, 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.

LIFE IN DIJON, CAPITAL CITY OF BURGUNDY (FRANCE)

The whole of the program takes place at the University of Burgundy-Franche Comté, located in the scenic city of Dijon. The former capital city of the Duchy of Burgundy, Dijon is now a medium-size French city, where you can enjoy a vibrant and active cultural life, as well as quick getaways to the countryside and the world famous neighbouring vineyards of the so-called “Golden coast”.

Life in Dijon is very affordable and accommodation easily accessible. The city is well-equipped with modern tramway and bus lines, making commuting between any place in Dijon and the University easy and convenient.

Showing marks of its medieval past, Dijon has excelled in making any subsequent architectural revolution his own. Dijon possesses a fair number of outstanding museums and remarkable monuments, and is also internationally known as the hometown of the notorious French gastronomy. Dijon has a vibrant cultural life with music and food festivals all over the year. Cultural and leisure attractions are widespread, from classical music concerts to jazz festivals, food fairs, cinemas… Dijon is also host of several top-level professional sports teams (football, basketball, handball, rugby…), while also offering a large diversity of sports facilities for the amateur. From beach-volley fields to suburban hiking and cycling paths, urban parks and the much appreciated Lake Kir, incentives to jump in a pair of trainers will be everywhere.

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.

APPLICATIONS

During the first year, students take examinations associated with the Master in Conservation Biology, specialized in Behavioural Ecology and Wildlife Management. Examinations must be successfully passed (i.e. obtain 60 ECTS credits) in order to proceed to the second year. In the second year, the thesis following your research project accounts for half the marks of the second year.

For further information about how to apply, please directly contact the head of the master program, Professor Frank Cézilly ().

Please also visit our dedicated webpage (http://www.nature-conservation-ubfc.com/bewm/fr/), and like our facebook page (“Master BEWM – UBFC Dijon”) to stay up to date with the life of and the latest news about our program!



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This MSc is taught by the Centre for Ecology and Conservation (CEC http://biosciences.exeter.ac.uk/cec/), whose evolutionary and behaviour research groups are amongst the most dynamic in the UK. Read more
This MSc is taught by the Centre for Ecology and Conservation (CEC http://biosciences.exeter.ac.uk/cec/), whose evolutionary and behaviour research groups are amongst the most dynamic in the UK. As an MSc student you will be integrated into these groups and conduct cutting-edge research projects that aim to make genuine contributions to the field of evolutionary and behavioural ecology. The goal is to prepare you for a future research career.

The Centre is the fastest growing institute of its kind in the UK and an integral part of the School of Biosciences at the Penryn Campus. Research is almost exclusively organismal, with particular emphasis on social mammals, birds, turtles and insects. We also specialise in modelling animal behaviour and species interactions and see this as essential and complementary to our whole approach. The other area of emphasis which underpins much of our work is quantitative and molecular genetics; fundamental to the evolutionary process and to conservation biology and policy issues.

Programme overview

- Delivered by leading international researchers in the Centre for Ecology and Conservation, who regularly publish in peer-reviewed journals;
- Designed to prepare you for a future research career with excellent graduate employment opportunities. In the first year of operation, 78 per cent of our students had secured a PhD position before finishing the programme;
- Provides extensive training in current research techniques;
- Develops knowledge and critical awareness of current problems and new insights in evolutionary and behavioural ecology, much of which is at, or informed by, study at the forefront of the field;
- Offers access to excellent facilities including state-of-the-art molecular and genetics labs with a full range of microscopy equipment, greenhouses, aviary and controlled environment rooms. (http://biosciences.exeter.ac.uk/facilities/cornwall/)

Fieldwork

The census research projects will see you spending a considerable amount of time in the field collecting data at several key research sites in West Cornwall and interacting with local NGOs (Cornwall Wildlife Trust, South West Lakes Trust).

This programme includes a two week field course in Kenya and will include visits to some of Africa’s largest and most important game reserves, as well as an introduction to some of the day-to-day problems faced by conservation biologists in developing nations. You will study the behaviour of animals in a natural ecological setting with a focus on large mammals, birds and insects.

Find out more about our field course modules at http://www.exeter.ac.uk/postgraduate/taught/biosciences/fieldwork/. You can also keep up to date and share the experiences of our students in the field on our Field Course Fortnight website at http://blogs.exeter.ac.uk/fieldcourses/ .

Learning and teaching

The taught component of this programme is delivered in the first five months, during which time you will be encouraged to develop your census research projects. The rest of the academic year is dedicated to these projects.

Teaching and learning methods

All material is designed for Masters level and will involve fieldwork, seminars and group discussion. Within modules there is considerable scope for you to direct your learning towards fields of particular interest, especially through your choice of research project. Students are located in the Centre for Ecology and Conservation laboratories, where close working relationships are fostered. Every student has the personal and academic support of the programme director, as well as their academic tutor, module leaders and project supervisors. Because of the layout of our research laboratory, postdoctoral researchers and PhD students interact closely with postgraduates to provide more personal support during the research phase of the programme.

Programme structure

The programme is made up of compulsory modules. Constituent modules may be updated, deleted or replaced as a consequence of the annual programme review of this programme.

Compulsory modules

The compulsory modules can include; Research Project; Evolutionary and Behavioural Ecology; Approaches in Evolutionary and Behavioural Ecology; African Behavioural Ecology Field Course; Statistical Modelling and Key Skills

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Will the otter be able to recover? How do plants settle in new areas? Why do geese always travel south at exactly the same time? How do species of plants and animals live together in a habitat?. Read more
Will the otter be able to recover? How do plants settle in new areas? Why do geese always travel south at exactly the same time? How do species of plants and animals live together in a habitat?

During this two-year Master's programme Ecology and Evolution, you will gain insight into the living organism in relation to its environment.

Ecology is an internationally oriented field and the degree programme has a strong focus on research. You will therefore conduct one or two independent research projects in various fields. But as you can design most of the programme yourself, you can specialize in the area of your interest. This programme also offers a Top Programme in Evolutionary Biology.

The Master's degree programme Ecology and Evolution is offered by t he Groningen Institute of Evolutionary Life Sciences (GELIFES), which conducts research in four relevant areas:
* Evolutionary Ecology & Genetics
* Behavioural Ecology & Ecophysiology
* Conservation Biology
* Community Ecology

Why in Groningen?

- Design most of your programme yourself !
- Offers Top programme Evolutionary Biology!
- Research projects possible in various fields!

Job perspectives

As a graduate of this programe you can for example become a researcher at a university or at an institution for applied research. You also have the options of becoming a project officer, consultant or policy officer.

Job examples

- PhD research position
- Project officer
- Consultant

Research Projects in Various Fields

The Master's degree programme is coordinated by the Groningen Institute for Evolutionary Life Sciences. GELIFES is part of the Faculty of Mathematics and Natural Sciences and embraces fourteen research groups, which perform research in the fields of:

-Evolutionary Ecology & Genetics
On the importance of genetic variation: how do genetic variation and natural selection result in reproductive systems, adaptation of organisms to their environment and the emergence of new species? We try to answer this question by means of an experimental, molecular approach (genomics) and via model-based studies.

-Behavioural Ecology & Ecophysiology
Both the morphology and physiology of an organism and its behaviour are formed by selection. Behaviour – for example the timing of reproduction, partner choice and time and route of bird migration – and physiology – for example the degree of plasticity to regulate energy use and temperature – are products of evolution. Theoretical models are paired with experimental ones to study these issues, both in the field and in the laboratory.

-Conservation Biology
Small populations are threatened with extinction because their habitat is fragmented. Their chance of survival depends on their genetic structure, demography, dynamics of distribution, etc. This type of research is important, for example, for the restoration of nature reserves or the development of sustainable fishery. Examples of a research projects include the effects of genetic erosion in fruit flies and the seed dispersal of plants in the Wadden Sea.

-Community Ecology
Species and individuals living in the same area interact with each other and with their environment. Processes of physiological adaptations and restrictions, competition, grazing, predation and succession can change a group of individuals into a community. Combining field observations, laboratory experiments and theoretical models can give us a better understanding of the mechanisms that are active in nature.

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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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This degree programme provides an exciting opportunity for advanced study in Evolutionary Psychology, ie psychological science informed by explicit consideration of the fact that the human mind, like the human body, is a product of evolutionary processes. Read more
This degree programme provides an exciting opportunity for advanced study in Evolutionary Psychology, ie psychological science informed by explicit consideration of the fact that the human mind, like the human body, is a product of evolutionary processes. It is taught in association with the Centre for Culture and Evolutionary Psychology (C-CEP), and the Centre for Cognition and Neuroimaging (CCNI) at Brunel.

The degree programme aims to provide students with an understanding of how evolutionary theory can provide a framework for the study of human psychology and behaviour. Students will acquire comprehensive knowledge of important theoretical issues, research findings and recent advances in evolutionary psychology. You will study concepts, findings and recent advances in evolutionary biology, animal behaviour and behavioural ecology that are critical for research in evolutionary psychology. Moreover there will be the opportunity to take an optional module in either Cognitive Neuroscience or Cross-Cultural Psychology.

The programme team includes, Nicholas Pound PhD (McMaster), Andrew Clark PhD (McMaster), Michael Price PhD (UCSB) and Achim Schützwohl PhD (University of Bielefeld). In addition, there are opportunities for dissertation research projects to be co-supervised by psychologists with expertise in other areas of Psychology (eg cognitive neuroscience, social psychology).

At Brunel we have extensive facilities for human subjects research (including EEG, fMRI, motion capture and 3D body scanning).

Who is this Degree For?
This course is particularly suited to students in the life sciences or social sciences who are interested in finding out how principles from evolutionary biology can provide a framework for the scientific study of human psychology and behaviour.

Course Content
Modules are subject to variation and students are advised to check with the School on whether a particular module of interest will be running in their year of entry. At the time of printing, planned modules are as follows:
Core modules: Evolutionary Biology and Research Methods; Evolutionary Psychology; Animal Behaviour and Behavioural Ecology
Optional modules: Cognitive Neuroscience; Cross-Cultural Variations in Psychological Findings. Check the web for the latest updates.

Assessment
Assessment is by coursework (including term papers and oral presentations), examinations and a dissertation of up to 15,000 words.

Careers
The MSc will provide students with the knowledge and skills required to go on to do PhD research not just in Evolutionary Psychology, but also in other areas of Psychology and the Biological and Social Sciences. Moreover, students will acquire analytic and research skills that will be useful in diverse areas of employment including governmental and non-government research organisations, and the private sector.

Here is what one of our past students says:

Gillian: "I enjoyed studying for my BSc in Zoology with Evolutionary Psychology at Liverpool University and missed my studies after I graduated. So I took on the Brunel MSc in Evolutionary Psychology part-time alongside my job as a Communications Manager for the Department of Health. The course has deepened my understanding of the subject and I am now considering taking on a PhD. I have also found the learning useful in my work. Many strategic communications campaigns aim to change behaviour – for example to improve hygiene in hospitals or encourage people to eat healthier foods. Such campaigns often use insights from psychology in order to make them more powerful and the MSc has given me a good insight into how and why they work."

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Sussex has long been a centre of excellence for evolutionary biology, counting John Maynard Smith among its founding members. By studying with us you’ll develop into a researcher capable of contributing to the grand challenges of antibiotic resistance, cancer and environmental change. Read more
Sussex has long been a centre of excellence for evolutionary biology, counting John Maynard Smith among its founding members. By studying with us you’ll develop into a researcher capable of contributing to the grand challenges of antibiotic resistance, cancer and environmental change.

This research-focused degree is based on our strengths in evolutionary biology, from the evolution of sociality, symbioses and sexual conflict to the process and effect of mutations. You’ll study how and why organisms are the way they are, and how this affects fundamental parts of our lives.

How will I study?
In the autumn and spring terms, you’ll have access to a variety of taught modules, including our unique field modules in tropical rainforest and Mediterranean regions.

From the spring term onwards, you’ll be researching real-world problems in close contact with your supervisor. This forms part of the in-depth research project that forms a core part of this course, and ultimately aims to produce a scientific publication.

Taught modules are assessed via:
-Essays
-Reports
-Presentations

The project is assessed with a dissertation.

Scholarships
Our aim is to ensure that every student who wants to study with us is able to despite financial barriers, so that we continue to attract talented and unique individuals.

Chancellor's International Scholarship (2017)
-25 scholarships of a 50% tuition fee waiver
-Application deadline: 1 May 2017

Geoff Lockwood Scholarship (2017)
-1 scholarship for Postgraduate (taught) of £3,000 fee waive
-Application deadline: 24 July 2017

HESPAL Scholarship (Higher Education Scholarships Scheme for the Palestinian Territories) (2017)
-Two full fee waivers in conjuction with maintenance support from the British Council
-Application deadline: 1 January 2017

USA Friends Scholarships (2017)
-A scholarship of an amount equivalent to $10,000 for nationals or residents of the USA on a one year taught Masters degree course.
-Application deadline: 3 April 2017

Faculty
The degree is delivered primarily by faculty in the Evolution, Behaviour and Environment subject group in the School of Life Sciences.

We are an enthusiastic and dynamic group of researchers, working with a diverse range of organisms, from plants, social insects and fruit flies, to Trinidadian guppies and humans.

Some of our research topics include:
-Understanding the evolutionary biology of sociality
-Rates of adaptive evolution and mutation in genomes
-Links between genotype, phenotype and selection
-Evolution of symbiosis and host-parasite relationships
-Evolutionary neuroscience
-Evolutionary genetics of sexual conflicts and sexually antagonistic selection

Careers
This degree will provide you with the high-quality learning experience necessary to place you in a strong position to move on to a PhD in evolutionary biology, or a research career in associated areas.

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Application period/deadline. November 1, 2017 - January 24, 2018. A unique combination of studies in ecology, population genetics and molecular ecology with emphasis in northern issues. Read more

Application period/deadline: November 1, 2017 - January 24, 2018

• A unique combination of studies in ecology, population genetics and molecular ecology with emphasis in northern issues

• The study programme is a combination of field work in the arctic and subarctic and in old-growth boreal forests and mires as well as molecular lab work

• Prepares the students for future leadership positions in conservation biology and environmental ecology

International master’s degree programme in Ecology and Population Genetics (ECOGEN) is a two-year programme concentrating on conservation issues and population genetics of endangered animals and plants. The programme will give you relevant skills and core knowledge of the latest methods and tools in:

• Molecular ecology

• Microbial ecology

• Metagenomics and microbiomes of organisms

• Conservation genomics of large mammals

• Distribution history of plants and their phylogeography

• Bioinformatics

The two-year programme has two specialisation options:

• Ecology

• Genetics

Optional courses make it possible to widen your expertise into:

• Aquatic ecology

• Microbial ecology

• Conservation ecology

• Restoration ecology

• Plant evolutionary genomics

The master’s programme is based on high quality and productive research in the fields of evolutionary ecology and genetics. Field research stations in natural reserves as well as Biodiversity Unit offer great opportunities for courses and research. Study environment is multicultural. ECOGEN provides positions as a trainee or a master’s thesis student, and an excellent background for PhD studies.

The skills gained in the master’s programme offer you a solid academic training and essential knowledge on wildlife conservation ecology and genetics, as well as their management. After graduation you are capable of evaluating risks, conducting management on small populations of endangered species, and doing research in the field and in lab. You are able to use molecular and bioinformatic tools.

Possible titles include:

• Project manager

• Researcher

• Planning coordinator of conservation issues

• Conservation biologist

Students applying for the programme must have a B.Sc. degree in biology or in closely related fields.

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EXPLORE LIFE FROM GENES TO ECOSYSTEMS. Plants, animals, and microbes all play a key role in the sustainability of life on Earth. The Master's programme in . Read more

EXPLORE LIFE FROM GENES TO ECOSYSTEMS

Plants, animals, and microbes all play a key role in the sustainability of life on Earth. The Master's programme in Environmental Biology offers you the opportunity to explore different organisational levels of life – from genes, cells, and organisms to populations and entire ecosystems. 

In this programme, you will study the fundamental life processes of plants and microbes. The interdisciplinary course content also offers you the chance to examine animal behaviour from an ecological and evolutionary perspective.

TRACKS

Within the Environmental Biology Master, you can select a specialised track from the following: 

  • Plant Biology
  • Fungal Biology
  • Ecology and Natural Resource Management
  • Biomarine Sciences & Palaeoecology
  • Behavioural Ecology

TAILOR-MADE STUDY PLAN

Alternatively, you can develop an individualised curriculum suited to your unique interests. We offer you considerable flexibility in choosing specific subfields or topics within Environmental Biology.



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The programme includes the following profiles. Molecular and Cellular Life Sciences . This profile introduces students into the study of animal and plant development, microbiology, cell signaling pathways, cytoskeleton dynamics, cancer biology, virology and immunology. Read more

The programme includes the following profiles:

Molecular and Cellular Life Sciences 

This profile introduces students into the study of animal and plant development, microbiology, cell signaling pathways, cytoskeleton dynamics, cancer biology, virology and immunology. Courses of this profile span multiple levels of biological organization, from whole organisms down to the molecular level. Students choosing this profile not only receive up-to-date knowledge on these topics but also acquire the laboratory skills required to engage in cutting-edge research.

Ecology and Biodiversity 

This profile allows students to gain experience in the research methods used to study the evolution and ecology of organisms found in terrestrial, freshwater and coastal ecosystems. A staff of experts teaches up-to-date knowledge on individual organisms, populations, species communities and ecosystems, backed up by their active research experience in taxonomy and phylogeny, vertebrate and invertebrate ecology, evolutionary ecology, biogeography, plant ecology, plant-animal interactions, and nature management. In addition, students are introduced into ecological research by means of practical field training and excursions in Belgium and abroad.

Herpetology

This unique profile addresses biology students with a passion for amphibians and reptiles. An international team of visiting scientists organizes lectures on diversity, ecology, physiology, behavior, evolution and conservation biology and prepares students for a professional career in herpetology. Ecological and herpetological field courses in European and tropical countries form an important part of this programme. As a student, you will be in a stimulating environment, with fellow students and top-experts sharing your passion. For more information, have a look at http://www.herpetology.be.

Human Ecology

This profile focuses on the interaction between humans and their natural environment. The increasing impact of the human population on ecosystems worldwide stresses the urgent need for researchers with a multidisciplinary background, that engage in developmental plans for a durable use and management of natural resources. The profile Human Ecology addresses an international audience of students and offers a course programme that, besides scientific topics, also addresses technological, socio-economical and political aspects. For more information, have a look at http://www.humanecology.be.

EMMC Tropical Biodiversity and Ecosystems

The world faces a crisis risking extinction of species through global warming. Due to impact of e.g., changes in land use and destruction of habitats, tropical rain forests, mangrove forests and coral reefs are disappearing and with them ecosystem functions, goods and services on which human populations are dependent. In order to conserve nature, to manage or even to restore tropical biodiversity and ecosystems, we must understand patterns of tropical biodiversity, study how organisms interact with their environment and how they respond to perturbations and change. Next to research, this is dealt with in this unique masters programme. http://www.tropimundo.eu



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The two year MSc Biology concerns understanding the complexity of biological systems, at scales ranging from single molecules to whole ecosystems, provides a unique intellectual challenge. Read more

MSc Biology

The two year MSc Biology concerns understanding the complexity of biological systems, at scales ranging from single molecules to whole ecosystems, provides a unique intellectual challenge. The biosciences aim to understand living systems and to help preserve biodiversity and our environment and simultaneously produce sufficient healthy and safe food.

Programme summary

Biological issues are at the forefront of the technological progress of modern society. They are central to global concerns about how we effect and are affected by our environment. Understanding the complexity of biological systems, at scales ranging from single molecules to whole ecosystems, provides a unique intellectual challenge. The MSc Biology allows students to get a broad overview of the latest developments in biology, ranging from genes to ecosystems. They learn to critically discuss the newest scientific developments in the biological sciences. Within their area of specialisation, students deepen their knowledge and skills in a certain subject. To prepare for a successful international career, we strongly encourage our students to complete part of their programme requirements abroad.

Specialisations

The MSc Biology offers nine specialisations:

Animal Adaptation and Behavioural Biology
This specialisation focuses mainly on subjects as adaptation, mechanisms involved in these adaptations and behaviour of animals.

Bio-interactions
In this specialisation, you obtain knowledge about interactions between organisms. You learn to understand and interpret interactions on different levels, from molecular to ecosystem level.

Molecular Ecology
In this specialisation, you learn to use molecular techniques to solve ecological questions. You will use, for example, molecular techniques to study the interaction between a virus and a plant.

Conservation and Systems Ecology
This specialisation focuses initially on fundamental processes that play a key role in ecology. You learn to interpret different relations, for example, the relation between chemical (or physical processes) and bioprocesses. Furthermore, you learn to analyse different ecosystems. You can use this knowledge to manage and conserve these ecological systems.

Evolution and Biodiversity
The systematics of biodiversity in an evolutionary perspective is the central focus of this specialisation. Subjects that will be addressed in this specialisation are: evolution, genetics, biosystematic research and taxonomic analysis.

Health and Disease
This specialisation focuses on regulatory mechanisms that have a central role in human and animal health.

Marine Biology
Choosing this specialisation means studying the complexity of the marine ecosystem. Moreover, you learn about the impacts of, for instance, fishery and recreation on this ecosystem or the interaction between different species in this system.

Molecular Development and Gene Regulation
This specialisation focuses on gene regulations and the different developmental mechanisms of organisms.

Plant Adaptation
This specialisation focuses on the adaptations that different plants gained in order to adjust to various conditions. You learn to understand the regulation processes in plants that underlie these adaptations.

Your future career

Many graduates from the MSc Biology study programme enter careers in fundamental and applied research or go on to become PhD students. Some find a position as communication officer, manager or policymaker. Compared with other Dutch universities, many biology graduates from Wageningen University find a position abroad.

Alumna Iris de Winter.
"I work as a PhD student at Wageningen University. In my research, I aim to understand the effect of human disturbance on the parasites prevalence in lemurs. I also look at the potential risks of the transmission of diseases and parasites from lemurs to humans, but also vice versa, from humans (and their livestock and pets) to wild lemur population. I alternate my fieldwork in Madagascar with parasite identification, analyses and writing manuscripts in the Netherlands. With this research, I hope to gain more insight in the factors that increase parasite prevalence in natural systems and hereby to improve the protection of both lemurs and their natural habitat."

Related programmes:
MSc Molecular Life Sciences
MSc Animal Sciences
MSc Plant Sciences
MSc Forest and Nature Conservation
MSc Biotechnology
MSc Plant Biotechnology
MSc Aquaculture and Marine Resource Management
MSc Organic Agriculture.

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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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Tropical ecosystems provide important resources locally and globally, and coral reefs are the most diverse of marine ecosystems threatened by human activities. Read more
Tropical ecosystems provide important resources locally and globally, and coral reefs are the most diverse of marine ecosystems threatened by human activities.

Our unique multidisciplinary course, MSc Tropical Marine Biology, is designed to deliver advanced tropical marine biology theory and to facilitate the development of a comprehensive range of practical and professional skills required by today’s employers.

As a student of our School you will benefit from the breadth of research carried out by our internationally recognised academics, and will engage with current research activities both in the UK and abroad. You also have opportunity to put theory into practice and study coral reef conservation first hand during the School’s annual field trip to Wakatobi Marine National Park, Indonesia.

Explore topics including:
-Hands-on experience of coral reef conservation on our pioneering underwater lectures in Indonesia
-The biotechnological ‘treasure chest’ of marine microbes, algae and invertebrates
-Tropical oceans, seagrass beds, mangroves and coral reefs
-Coral reef resource management

During the summer term, you will embark on your own extensive research project under the supervision of researchers at the forefront of their fields. This can be conducted within our in-house Coral Reef Research Unit, or alongside one of our research partners from across the globe, addressing key questions on the functioning of and threats to tropical marine ecosystems.

Two-thirds of our research is rated “world-leading” or “internationally excellent” (REF 2014), and you learn from and work alongside our expert staff.

Professional accreditation

To expand your skillset and boost your employability, we provide you with £125 to spend on externally accredited learning, such as certification as a Marine Mammal Surveyor, participation in Sea Survival courses or gaining the skills and background knowledge needed to drive a powerboat.

Our expert staff

As one of the largest schools at our University, we offer a lively, friendly and supportive environment with research-led study and high quality teaching. You benefit from our academics’ wide range of expertise on important national and international problems using cutting-edge techniques.

Key academic staff for this course include: Dr Leanne Appleby Hepburn, who works on community ecology of coral reefs; Professor Dave Smith, who is researching tropical marine biology and conservation; Dr Michael Steinke, who is working on biogenic trace gases in marine environments; Dr Tom Cameron, who specialises in aquatic community ecology; and Dr Etienne Low-Decarie, who is investigating ecological and evolutionary responses to global change.

The University of Essex has a Women's Network to support female staff and students and was awarded the Athena SWAN Institutional Bronze Award in November 2013 in recognition of its continuing work to support women in STEM.

Specialist facilities

Recent investment has provided modern facilities for imaging biological systems, aquatic community ecology, photosynthesis and eco-physiology. On our course you have the opportunity to:
-Work in an open and friendly department, with shared staff-student social spaces
-Conduct your research alongside academics and PhD students in shared labs
-Our local marine biology field centre, with direct access to the Colne estuary, a recently designated marine conservation zone (MCZ). -Develop your practical skills through mapping habitats, Geographical Information Systems (GIS) and boat handling
-Learn to use state-of-the-art research facilities

Your future

As the world's environmental problems increase, the demand for qualified marine biologists continues to grow, and postgraduate study is often a requirement for becoming a researcher, scientist, academic journal editor and to work in some public bodies or private companies.

Many of our Masters students progress to study for their PhD, and we offer numerous studentships to support our students in their studies.

Our graduates go on to a range of careers. Some work with governmental and non-governmental environmental agencies, organisations, consultancies and voluntary organisations, or go on to conduct doctorate research. Many overseas students return to comparable posts in their home country.

We work with our university’s Employability and Careers Centre to help you find out about further work experience, internships, placements, and voluntary opportunities.

Example structure

-Tropical Marine Resources
-Tropical Marine Systems
-Methods in Tropical Marine Biology
-Professional Skills in Tropical Marine Biology
-Research Project: MSc Tropical Marine Biology

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