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Masters Degrees (Biologist)

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Are you passionate about animal welfare and keen to shape the management of the zoos of the future? Students from over 20 nationalities have chosen our unique programme, the first of its kind in the world. Read more
Are you passionate about animal welfare and keen to shape the management of the zoos of the future? Students from over 20 nationalities have chosen our unique programme, the first of its kind in the world. Study factors affecting animal behaviour, conservation, welfare and their interactions, as well as international zoo management and collaboration. Our partnership with Paignton Zoo gives you regular access to their connections, research and expertise – so you’re primed to make a difference.

Key features

-Delivered in conjunction with the staff at Paignton Zoo and its parent body, the Whitley Wildlife Conservation Trust which also owns Newquay Zoo and Living Coasts.
-Develop your scientific knowledge, professional and technical skills as a conservation biologist. Learn how to manage animal collections for the purpose of education, conservation and wildlife research.
-Study aspects of animal behaviour and ecology, as well as how welfare, housing, nutrition and health all have a part to play in species management.
-Learn to troubleshoot problems at the level of a social group within a particular zoological collection, right up to the level of a species globally. Explore how breeding programmes for endangered species are international in scope.
-Benefit from the knowledge and guidance of Plymouth University’s expert staff with specialisms including the behaviour of captive animals, animal nutrition, the welfare of captive birds and the application of population genetics to captive and natural fish populations.
-Find out how the science of zoos is used to inform government policy. Two of our teaching team are the only academic representatives on the government’s Zoos Expert Committee.
-Get behind-the-scenes insight with a day of study each week with our partners at Paignton Zoo Environmental Park. Deepen your understanding of the business and conservation work of zoos, and how networks and collaborations work between them.
-Access the latest research and information from the Whitley Wildlife Conservation Trust, including information on their co-ordinated breeding programmes for endangered species.
-Be inspired by opportunities to visit a range of zoos in the region – including Dartmoor, Bristol and Newquay – and to travel abroad for research projects. A recent student travelled to Louisiana Zoo for her research project on golden tamarin monkeys.
-Graduates work in zoos as educators, researchers, managers and keepers. Many go on to PhD study or work in further education. Other employers include the European Association for Zoos and Aquaria; the Natural History Unit (BBC); national and international conservation organisations.

Course details

As a full-time student, you’ll study seven modules taking in everything from genetics to environmental enrichment, preventative health to budgeting. We update modules to reflect current thinking and you can specialise within them. If you’re interested in working with tigers, for example, this can be reflected across your work. You’ll be assessed through coursework with practical tasks focused on your future career. Core modules include introduction to zoo organisation, animal conservation, applied animal behaviour and management, animal metabolism and nutrition, animal health and welfare and business management. You’ll then do a final three-month research project of your choice. Previous investigations have included everything from female mate choice in white faced saki monkeys to how peripheral and/or invasive activity affects the behaviour and enclosure use of captive sand tiger sharks.

Core modules
-BIO505 Research Project
-ANIM5006 Contemporary Zoo Management
-BIO5131 Postgraduate Research Skills & Methods
-ANIM5005 Zoo Animal Behaviour and Welfare
-ANIM5007 Small Population Conservation
-ANIM5008 Conservation Ecology and Society
-ANIM5009 Zoo Animal Health, Nutrition and Management

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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Why study at Roehampton. The course offers an opportunity to carry out a substantial research project in primatology, and is an ideal qualification for those wishing to pursue a PhD in this field. Read more

Why study at Roehampton

  • The course offers an opportunity to carry out a substantial research project in primatology, and is an ideal qualification for those wishing to pursue a PhD in this field.
  • Many MRes students publish their dissertation research in international scientific journals.
  • We have well established networks with field sites such as Gashaka Primate Project (Nigeria), Berenty Reserve (Madagascar) and Trentham Monkey Forest (UK).
  • We are the most research-intensive modern university in the UK (Research Excellence Framework 2014).

Course summary

Embark on an incredible journey with a course that focuses on studying the biology, behaviour and conservation of primates. You will gain the skills required to carry out theoretical and field research in primatology, to advance your career or further study.

Primatology is a discipline that has its roots in anatomy, biology, anthropology and psychology. This course covers a comprehensive range of topics within primatology and combines theoretical investigation with fieldwork and laboratory sessions. It also offers intensive training in research methods and statistics.

Recent examples of topics covered include social behaviour, cognition, endocrinology, ranging and habitat use, social networks, human-wildlife conflict, morphology and brain size evolution.

The University of Roehampton has established networks with leading institutions and field sites including the Zoological Society of London , German Primate Centre, Gashaka Primate Project (Nigeria), Trentham Monkey Forest (UK), and Berenty Reserve (Madagascar).

You will be taught by leading experts in the field who carry out their own world-leading research.

Content

You will begin the year by studying an in-depth a range of topics in primatology, as well as learning the theory and practice of primatological research. After your first semester, the emphasis will be on independent study, where you will be undertaking a substantial piece of original research. You will develop your intellectual, practical and analytical skills to devise a viable project proposal. You will carry out your project and produce both a dissertation and a paper suitable for submission to a peer-reviewed scientific journal. Many of our graduates have subsequently published their work in international journals such as Biology LettersAmerican Journal of PrimatologyInternational Journal of PrimatologyAnimal Behaviour and Biological Conservation.

Students’ field work lasts for three months, usually from March to May. You will have the support of your supervisor in arranging data collection for your research project. In the laboratory, students have used geographic information systems to explore ranging behaviour, analysed parasites from wild primates and performed non-invasive hormone analysis.

Modules

  • Primatology: Theory and Practice
  • Primate Biology, Behaviour and Conservation
  • Research Methods in Biology

Career options

Careers in conservation projects, research institutions, animal welfare groups or agencies, zoos, parks, environmental and animal charities; in roles such as researcher, conservation biologist and ecologist.

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This taught Masters degree is designed for those wishing to pursue a career in conservation management or ecological consultancy, professions which increasingly require postgraduate qualification for establishment and progression. Read more
This taught Masters degree is designed for those wishing to pursue a career in conservation management or ecological consultancy, professions which increasingly require postgraduate qualification for establishment and progression. The course puts a high emphasis on practical field experience for managing habitats, monitoring species and developing biological identification skills for plants, invertebrates and vertebrates. These activities are allied to a clear theoretical framework underpinning ecology and conservation practice. We welcome applications from recent graduates, experienced consultants, conservation workers or those seeking a career change.

What will I study?

This Conservation Management course combines the expertise of the field biologist with practical experience of managing habitats. A firm emphasis is placed on fieldwork, biological identification skills and experience of a broad range of management issues.

You will develop laboratory skills including microscopy for bryophyte and invertebrate identification and soil analysis techniques. Identification skills gained will range from plants to invertebrates, mammals, amphibians and birds.

You will learn to write in a concise scientific style, construct arguments, consider ethical issues of ecological work, analyse and interpret data and synthesise scientific literature. These skills are highly desirable in ecological consultancy and conservation research.

Ethics is also an important feature of conservation management, for instance in the collection of voucher specimens. Consideration of ethical issues is given in each module, where appropriate, alongside legal issues.

How will I study?

Fieldwork is an integral part of many modules and is used to provide a multitude of experiences across species, habitats and conservation issues. A variety of local sites are used including dunes, meadows and forests. The programme includes a residential field course. Field trip costs are included within course fees.

In small classes, lecture-style sessions and practical work are designed to develop subject-specific skills, clarify concepts, raise questions and collect data. Follow-up seminars may consider analysis, data presentation, qualitative observations, elucidation of trends, and integration with theoretical ideas.

How will I be assessed?

The course has a variety of assessment methods which are designed to develop the full range of skills and expertise relevant to the subject. These include a research thesis, scientific reports, voucher specimen collections, vegetation portfolios, field-based management plans and examinations.

Who will be teaching me?

The course is taught by a small friendly team who have considerable teaching and research experience in the area. All staff are research active which means that they keep up-to-date with current developments in their areas of interest and pass this knowledge onto their students. Staff expertise includes forest and grassland conservation, habitat restoration, sustainable management of ecosystems, remote sensing in ecology and conservation genetics.

What are my career prospects?

This MSc will equip you with the knowledge and skills required for a successful career in conservation or ecological consultancy. To date, graduates of the course have been employed by a range of non-governmental organisations (for example, Wildlife Trusts, Wildfowl and Wetlands Trust, Royal Society for the Protection of Birds (RSPB), and National Trust), governmental organisations (Natural England) and consultancies (including Atkins UK, Jacob’s Ecology, and Avian Ecology). Graduates have also progressed into conservation research, working for the Centre for Ecology and Hydrology and at various universities.

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Gain the skills to protect and manage wildlife and habitats to make a difference to their future survival. Train in the technologies and scientific methods used in modern conservation. Read more
Gain the skills to protect and manage wildlife and habitats to make a difference to their future survival. Train in the technologies and scientific methods used in modern conservation.

See the website http://www.anglia.ac.uk/study/postgraduate/animal-behaviour-applications-for-conservation

Our course begins with 12 weeks of intensive technical skills training. We follow this with a Behavioural Ecology and Conservation module, which will teach you how to select and apply these techniques to best effect in many different settings.

You'll cover the skills and methods used in modern conservation, including advanced laboratory techniques, satellite tracking, GIS, stable isotope analysis, DNA analysis and field techniques.

You can also personalise your studies from a wide menu of optional modules which focus on different aspects of conservation. These can include a field trip to a research station in Borneo.

The final stage of your course will be a major research project with guidance and support from tutors who are world-class researchers.

Course duration: 12 months full-time or 28 months part-time (September starts), 15 months full-time or 33 months part-time (January starts).

See the website http://www.anglia.ac.uk/study/postgraduate/animal-behaviour-applications-for-conservation

Careers

Our graduates build successful careers in many roles including conservation biologist, scientist or curator at a zoo, conservation educator, ecotourism or environmental consultancy. As a conservationist you can choose work with many organisations, from private companies to NGOs and government departments. You're also in the perfect position to continue your academic career and move up to our Animal and Environmental Sciences PhD.

Modules & assessment

Core modules:
Technology and Techniques in the Study of Animal Behaviour
Behavioural Ecology and Conservation
Research Methods
Research Project

Optional modules:
Practical Applications of DNA Based Technologies
Study Tour: Understanding Biodiversity and Sustainability
GIS Tools for Biodiversity Mapping and Conservation
Introduction to Sustainability and Systems
Communication Skills for Conservation
Governance and Behavioural Change
Better Business
Changing Distribution and Invasive Species
System Pressures

Assessment

We'll assess your progress with a combination of assignments, case studies, group work and presentations, as well as your major project.

Your faculty

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

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The Biomedical Science (Medical Microbiology) Masters at Middlesex in London is designed to provide you with advanced knowledge and skills required for a career working in a diagnostic or research laboratory. Read more
The Biomedical Science (Medical Microbiology) Masters at Middlesex in London is designed to provide you with advanced knowledge and skills required for a career working in a diagnostic or research laboratory.

It covers the fundamental aspects of molecular and cellular biology and modern bio-analytical techniques used for studying cells and microbes. In addition, the course includes a study of pathogenic microbes, epidemiology, infection control, laboratory investigation of infectious diseases, vaccination and immunisation.

We also cover legal and ethical issues related to biomedical research. Our specialist staff, who include microbiologists, cellular pathologists, molecular biologists and biochemists, will provide you with a sound basis in order to pursue research to PhD level.

Course highlights:

Specialist staff include microbiologists, cellular pathologist, molecular biologist and biochemists
Emphasis on the development of laboratory skills
Focus on contemporary issues in medical microbiology

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The University of Venice offers a MSc (Master of Science/Laurea Magistrale) degree in "Environmental Sciences" which includes three available study plans; among them, the Global Environmental Change is taught entirely in English (http://www.unive.it/nqcontent.cfm?a_id170980). Read more

Overview

The University of Venice offers a MSc (Master of Science/Laurea Magistrale) degree in "Environmental Sciences" which includes three available study plans; among them, the Global Environmental Change is taught entirely in English (http://www.unive.it/nqcontent.cfm?a_id=170980)

Joint degree

The Msc programme in Enviromental Sciences offers the possibility of getting a Joint Master's Degree in Sustainable Development (http://www.unive.it/nqcontent.cfm?a_id=75952).
The programme offers an interdisciplinary approach, combining the specialisation in teaching and research of 6 partner universities: Graz (Austria), Ca' Foscari Venice, Leipzig (Germany), Utrecht (the Netherlands), Basel (Switzerland), and Hiroshima (Japan).
Admission to the programme is open to students holding the equivalent of an undergraduate/first cycle degree programme (Italian Laurea triennale), who will be selected on the basis of their research skills, basic knowledge of natural and/or social sciences, and a general insight in the subject of sustainable development and intervention strategies.

The study plans

The programme unfolds into three semesters of full-time lectures and lab experience. The last semester is dedicated to the development of individual projects and of the thesis, supervised by a department member. Each study plan is organized around a set of core courses, two elected activities and a final examination, in which the candidates will defend the thesis.

Students can choose among three study plans:

Global Environmental Change [English-taught Programme], which provides a thorough understanding of Earth System dynamics, taking a holistic and systemic approach, which also include the social and economic systems. Several disciplines are covered, including: climatology, past and recent climate history, tools for predicting changes in climate, analysis and forecasting of the impacts of climate change on the environment, society and human welfare, adaptation and mitigation strategies, integrated assessment of global change drivers.

Environmental Control and Reclamation [IT] which provides advanced knowledge and skills related to the analysis of the processes that contribute to the de-contamination and environmental qualification; technologies currently in use for the treatment of solid, liquid and gaseous fuels and their energy conversion; methodologies for environmental monitoring; productive activities and sustainable rehabilitation of the environment.

Assessment and Management of Environmental Systems [IT], which provides in-depth knowledge intended application and development of methodologies for the management of environmental data; the assessment and management of natural resources; the resource assessment of natural ecosystems; rehabilitation and environmental restoration of ecosystems modified by man; planning and land management, landscape and marine and coastal ecosystems; the assessment and management of environmental sustainability.

Applying to the programme

In order to enter the programme, applicants need to have an equivalent of a three-year Italian undergraduate degree (laurea) such as a BSc degree in Environmental Sciences or related subjects (Biology, Chemistry, Engineering, ecc.) with good background on fundamental topics in Biology, Chemistry, Geology, Mathematics, Physics, Data Sciences.

When and how to apply

The classes start in September. Please note that it is best to apply as early as possible. Applications are made directly to Ca' Foscari University of Venice. For full details visit How to apply, or contact the Administration office () or the Head of the teaching committee ().

Graduate careers & Occupational Profiles

Students graduating from the MSc in Environmental Sciences may use their new skills to enhance their employment prospects in work related to their first degree. In particular this MSc will suit skilled motivated science graduates wishing to develop a scientific career in ecosystem research as well as those aiming to contribute to evidence-based environmental policy. Graduates interested in foundational, experimental, and applied research, can join Ca' Foscari PhD Programmes in Environmental Sciences or in Science and Management of Climate Change.
Possible career opportunities include:
- Geologist
- Biologist and similar professions
- Planning, landscape architecture and territory conservation
- Agriculture and forestry
- Botanist
- Ecologist
- Zoologist

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What is the Master of Bioinformatics all about?.  Bioinformaticians are distinguished by their ability to formulate biologically relevant questions, design and implement the appropriate solution by managing and analysing high-throughput molecular biological and sequence data, and interpret the obtained results. Read more

What is the Master of Bioinformatics all about?

 Bioinformaticians are distinguished by their ability to formulate biologically relevant questions, design and implement the appropriate solution by managing and analysing high-throughput molecular biological and sequence data, and interpret the obtained results.

Structure

This interdisciplinary two-year programme focuses on acquiring

  • basic background knowledge in diverse disciplines belonging to the field of bioinformatics, including statistics, molecular biology and computer science
  • expert knowledge in the field of bioinformatics
  • programming skills
  • engineering skills

The 120-credit programme consists of a reorientation package (one semester), a common package (two semesters) and a thesis.

The Master of Bioinformatics is embedded in a strong bioinformatics research community in KU Leuven, who monthly meet at the Bioinformatics Interest Group. Bioinformatics research groups are spread over the Arenberg and Gasthuisberg campus and are located in the research departments of Microbial and Molecular Systems (M2S), Electrical Engineering (ESAT), Human Genetics, Microbiology and Immunology (REGA), Cellular and Molecular Medicine, Chemistry and Biology. Several of these bioinformatics research groups are also associated with the Flemish Institute for Biotechnology (VIB).

Is this the right programme for me? 

Are you a biochemist or molecular biologist with a keen interest in mathematics and programming? Are you a mathematician or statistician and want to apply your knowledge to complex biological questions? Do you want to develop new methods that can be used by doctors, biologists and biotechnology engineers? Then this is the right program for you!

Objectives

The student:

  • Possesses a broad knowledge of the principles of genetics, biochemistry and molecular and cellular biology that underlie the model systems, the experimental techniques, and the generation of data that are analysed and modelled in bioinformatics.
  • Possesses a broad knowledge of the basic mathematical disciplines (linear algebra, calculus, dynamical systems) that underlie mathematical and statistical modelling in bioinformatics.
  • Masters the concepts and techniques from information technology (database management, structured and object-oriented programming, semantic web technology) for the management and analysis of large amounts of complex and distributed biological and biomedical data.
  • Masters the concepts and techniques from machine learning and frequentist and Bayesian statistics that are used to analyse and model complex omics data.
  • Has acquired knowledge of the core methods of computational biology (such as sequence analysis, phylogenetic analysis, quantitative genetics, protein modelling, array analysis).
  • Has advanced interdisciplinary skills to communicate with experts in life sciences, applied mathematics, statistics, and computer science to formalise complex biological problems into appropriate data management and data analysis strategies.
  • Can - in collaboration with these experts - design complex omics experiments and analyse them independently.
  • Can independently collect and manage data from specialised literature and public databases and critically analyse and interpret this data to solve complex research questions, as well as develop tools to support these processes.
  • Investigates and understands interaction with other relevant science domains and integrate them within the context of more advanced ideas and practical applications and problem solving.
  • Demonstrates critical consideration of and reflection on known and new theories, models or interpretation within the specialty; and can efficiently adapt to the rapid evolution the life sciences, and especially in omics techniques, by quickly learning or developing new analysis strategies and incorporating them into the learned competences.
  • Presents personal research, thoughts, ideas, and opinions of proposals within professional activities in a suitable way, both written and orally, to peers and to a general public.
  • Develop and execute original scientific research and/or apply innovative ideas within research units.
  • Understands ethical, social and scientific integrity issues and responsibilities and is able to analyse the local and global impact of bioinformatics and genomics on individuals, organisations and society.

Career paths

Bioinformaticians find careers in the life sciences domain in the broadest sense: industry, the academic world, health care, etc. The expanding need for bioinformatics in biological and medical research ensures a large variety of job opportunities in fundamental and applied research. 60% of our graduates start a PhD after graduation.

 



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IN BRIEF. Obtain the skills, training and qualifications you need to become a wildlife conservation scientist. Opportunity to travel overseas. Read more

IN BRIEF:

  • Obtain the skills, training and qualifications you need to become a wildlife conservation scientist
  • Opportunity to travel overseas
  • Solve contemporary problems in wildlife conservation and master analytical tools
  • Part-time study option
  • International students can apply

COURSE SUMMARY

Presently, the world faces its first human induced massed extinction event due to the misuse and non-sustainable use of the planet's resources. The International Union for the Conservation of Nature (IUCN) estimates that more than 20 percent of all vertebrate species are at immediate risk of extinction due to human activities. In addition, this year’s WWF Living Planet Report presents concerning evidence that the world’s wildlife populations have declined on average by 58% since 1970, and are likely to decline even further by the end of the decade. This Global Biodiversity Crisis is being tackled at different levels by conservation professionals and scientists.

This MSc course focuses on training wildlife conservation scientists on how to solve and mitigate the problems that wildlife is facing across the globe. The aim of this course is to provide you with the skills you will need as a wildlife conservation scientist, and to enable you to help solve or mitigate real world problems using appropriate quantitative approaches.

COURSE DETAILS

You will receive a broad training in wildlife conservation to help enable you to deal with the complexity of problems faced by wildlife.This MSc course, includes six 15 credit modules to allow you to gain a broader and more appropriate curriculum and includes field course monitoring to give practical hands-on experience.

The modules for this course aim to provide you with the  skills a modern wildlife conservation biologist needs to execute their role effectively in a wide-range of institutions from NGOs, Federal Agencies to Universities.You’ll be taught by highly qualified, research-active staff within the well-respected School of Environment and Life Science. 

TEACHING

This course is taught using a mixture of approaches including the following:

  • Lectures
  • Seminars
  • Discussion/debates
  • Guest speaker presentations
  • Student presentations
  • Computer based practicals

ASSESSMENT

You will be assessed in a variety of ways including theoretical essays, practical assignments, oral presentations and a dissertation.

CAREER PROSPECTS

According to the Society for Conservation Biology (2015), jobs in Conservation Biology are growing at a rate of 3% per year. Wildlife conservation biologists are employed around the world in a wide-range of institutions from NGOs and Federal Agencies to universities.

This course reflects the growing importance of solving the global biodiversity extinction crisis and specifically halting the extinction of animal species. This is recognised globally by governments in a number of significant international treaties, meetings and agreements including the United Nations Convention on Biological Diversity (CBD).

There is global recognition for the need to employ more conservation scientists to solve and mitigate the problems caused by human activities that are detrimental to the survival of wildlife.



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An interdisciplinary masters course covering the breadth of mathematical applications in biology. Read more
An interdisciplinary masters course covering the breadth of mathematical applications in biology.

Are you a biologically inclined mathematician or physicist, or a biologist with an keen interest in modelling and analysis? Do you want to know how to model fish population dynamics and harvests, to decipher the mathematics of viruses, or understand of the swimming behaviour of microrganisms? The new MSc in Advanced Mathematical Biology aims to provide answers to all of these questions, and more.

The MSc will provide insight into processes over a wide range of scales; from highly symmetric capsids (the cases that surround viruses) to the interactions of entire communities in oceans. Advanced statistical methods, systems biology and biological fluid dynamics will be covered, and there will be emphasis on applications to policy and industry throughout. This programme aspires to fill the language gap between technical mathematical concepts and real world applications in the biological and life sciences. Students will gain a comprehensive grounding in cutting edge theory coupled to training in the subtleties of application.

Biological concepts and mechanisms will be discussed during bespoke sessions in “Issues in modern biology,” and developed during interdisciplinary group projects. There will also be a range of challenging elective modules.

The MSc in Advanced Mathematical Biology is an intensive one year taught programme that will prepare students either for a career in industry in the quantitative life sciences or for further academic research in Mathematical Biology.

Placements

An important part of the programme is a summer work-based placement. At the end of the spring term, students will select a placement from a list of academic and industrial institutions across the sector. Students will spend a period of three months working closely with their chosen institution with a placement supervisor. Students will write a dissertation towards the end of the placement, and will be assessed by their academic supervisor who will also consult with the placement supervisor.

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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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