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Course Starts September, January or May. This course, offered by a leading research institute in grass-microbe-animal interactions in relation to sustainable efficient farming, is aimed at professionals working within the agri-food sector. Read more
Course Starts September, January or May

Course Description

This course, offered by a leading research institute in grass-microbe-animal interactions in relation to sustainable efficient farming, is aimed at professionals working within the agri-food sector. It provides students with an in-depth understanding of the components of ruminant production and mixed farming systems, focussing on the latest research into how these systems can be made more sustainable and efficient.

The aim of this Professional Doctorate programme is to produce a qualification which, whilst being equivalent in status and challenge to a PhD, is more appropriate for those pursuing professional rather than academic careers. Our DAg programme comprises taught modules and two work-based research projects, carried out through two-day workshops, distance learning and a mixture of live and virtual supervisory meetings. While the primary academic focus is on the completion of an advanced piece of research, the collaborative route provided by a work-based research project provides an ideal opportunity to embed new knowledge in the work place and ensure that research is relevant to industry. As such, it is crucial that a student’s employer is supportive of both their research aims and the time commitment that the proposed research will involve. Self-employed students should aim to undertake research which will be closely aligned to their business.

Modules

The ATP DAg is delivered in two parts:

Part I is undertaken for a minimum of two years and comprises two taught modules from the ATP menu*, a taught ‘Research Methodologies’ module; and a portfolio of work or a research thesis (approximately 20,000 words in length). Each taught module is worth 20 credits and takes 12-14 weeks to complete. The short Part 1 thesis should involve analysing existing data from the candidate’s workplace. For example: Reviewing historical mineral deficiency data by species and region; analysing and interpreting the findings. Students may exit here with an MRes.

Part II is undertaken for a minimum of three years and comprises a longer portfolio of work or a research thesis (up to 60,000 words). It will involve experimentation and must embody the methodology and results of original research. It should, ideally, be built upon the Part 1 thesis. Thus, from the example above, could be something like: Changing practices and introducing innovation to combat mineral deficiencies.

* Optional taught modules - some of which are delivered by Bangor University (BU) - may be chosen from:

• Genetics and Genomics
• Grassland Systems
• Home-Grown Feeds
• Low Input Beef Sheep and Dairy
• Ruminant Gut Microbiology
• Ruminant Health & Welfare
• Ruminant Nutrition
• Ruminant Production
• Silage Science
• Agro Ecosystems Services (BU)
• Carbon Footprinting & Life Cycle Assessment (BU)
• Resource Efficient Farming (BU)
• Soil Management (BU)
• Upland Farming (BU)

Each module is worth 20 credits and takes 12-14 weeks to complete.

Fees

Currently only available to UK and EU students
• (Bursaries are available to those employed in the UK agri-food sector)

Agriculture, Beef, Sheep, Dairy, Ruminants, Mixed Farming, Grasslands, Pastoral, Farming, Agroecology, Sustainability, Meat, Milk, Food Production

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Course Start Date. May. 2nd Start Date. September. 3rd Start date. January. Distance Learning only. This course, offered by a leading research institute in grass-microbe-animal interactions in relation to sustainable efficient farming, is aimed at professionals working within the agri-food sector. Read more
Course Start Date: May
2nd Start Date: September
3rd Start date: January

Course Description

Distance Learning only

This course, offered by a leading research institute in grass-microbe-animal interactions in relation to sustainable efficient farming, is aimed at professionals working within the agri-food sector. It provides students with an in-depth understanding of the components of ruminant production and mixed farming systems, focussing on the latest research into how these systems can be made more sustainable and efficient.

This scheme aims to facilitate knowledge exchange between academia and industry. Students must complete three taught modules and a 120 credit work-based dissertation. While the primary academic focus is on the completion of an advanced piece of research, the collaborative route provided by a work-based research project provides an ideal opportunity to embed new knowledge in the work place and ensure that research is relevant to industry. As such, it is crucial that a student’s employer is supportive of both their research aims and the time commitment that the proposed research will involve. Self-employed students should aim to undertake research which will be closely aligned to their business.

Modules

This programme comprises any two optional taught modules from 14 optional modules, some of which are delivered by Bangor University (BU):

• Genetics and Genomics
• Grassland Systems
• Home-Grown Feeds
• Low Input Beef Sheep and Dairy
• Ruminant Gut Microbiology
• Ruminant Health & Welfare
• Ruminant Nutrition
• Ruminant Production
• Silage Science
• Agro Ecosystems Services (BU)
• Carbon Footprinting & Life Cycle Assessment (BU)
• Resource Efficient Farming (BU)
• Soil Management (BU)
• Upland Farming (BU)

Each module is worth 20 credits and takes 12-14 weeks to complete.

Before beginning work on their dissertation, each student is required to undertake a ‘Research Methodologies’ module which trains them in statistics, ethics, research design etc. and supports them in developing their proposal. We anticipate that most students will take two years to complete their dissertation which will be approximately 20,000 words in length. The dissertation should involve analysing existing data from the candidate’s workplace. For example: Reviewing historical mineral deficiency data by species and region; analysing and interpreting the findings.

Fees

Currently only available to UK & EU students
• (20% Bursaries are available to those employed in the UK agri-food sector)

Agriculture, Beef, Sheep, Dairy, Ruminants, Mixed Farming, Grasslands, Pastoral, Farming, Agroecology, Sustainability, Meat, Milk, Food Production

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The Neurobiology Division conducts research in the fields of neurobiology and neuropathology. We investigate mechanisms that regulate normal brain function as well as the causes and consequences of dysfunction during ageing and in acute or chronic neurodegenerative disease. Read more

Research profile

The Neurobiology Division conducts research in the fields of neurobiology and neuropathology. We investigate mechanisms that regulate normal brain function as well as the causes and consequences of dysfunction during ageing and in acute or chronic neurodegenerative disease.

The division has an excellent track-record in the supervision and training of postgraduate students by staff highly experienced in teaching and research. It has 13 Group Leaders and 1 career track fellow who supervise more than 10 postgraduate students.

Why our work is important

Some of our current research focuses on:

-identifying new TSE strains and their zoonotic potential, examining routes of transmission and the genetics of host susceptibility to disease
-characterising the pathways and cells involved in the uptake and transport of TSE agents to the brain using rodent models and our natural scrapie sheep flock
-understanding mechanisms of neurodegeneration associated with both chronic and acute neurodegenerative disease using unique disease models
-understanding the long-term consequences of adverse experiences in early life on future health
-identifying novel mechanisms regulating homeostasis and responses to stress in neuronal networks

In addressing these fundamental questions we contribute to the improvement of both animal and human health, livestock productivity and welfare.

Students will be able to take advantage of our multidisciplinary tools including proteomics, bio-imaging, computer-aided behavioural analysis, genetics, molecular biology, in vitro cell models, transgenic rodent models and natural diseases of large animals to dissect biological networks in the nervous and immune systems. The Roslin Institute is uniquely placed to transfer our experience of rodent models into livestock species such as sheep and pigs.

Training and support

Studentships are of 3 or 4 years duration and students will be expected to complete a novel piece of research which will advance our understanding of the field. To help them in this goal, students will be assigned a principal and assistant supervisor, both of whom will be active scientists at the Institute. Student progress is monitored in accordance with School Postgraduate (PG) regulations by a PhD thesis committee (which includes an independent external assessor and chair). There is also dedicated secretarial support to assist these committees and the students with regard to University and Institute matters.

All student matters are overseen by the Schools PG studies committee. The Roslin Institute also has a local PG committee and will provide advice and support to students when requested. An active staff:student liaison committee and a social committee, which is headed by our postgraduate liaison officer, provide additional support.

Students are expected to attend a number of generic training courses offered by the Transkills Programme of the University and to participate in regular seminars and laboratory progress meetings. All students will also be expected to present their data at national and international meetings throughout their period of study.

Facilities

In 2011 the Roslin Institute moved to a new state-of-the-art building on the University of Edinburgh's veterinary campus at Easter Bush. Our facilities include: rodent, bird and livestock animal units and associated lab areas; comprehensive bioinformatic and genomic capability; a range of bioimaging facilities; extensive molecular biology and cell biology labs; café and auditorium where we regularly host workshops and invited speakers.

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The revolution in genetic mapping technology and the advent of whole genome sequences has turned quantitative genetics into one of the fastest growing areas of biology. Read more

Programme description

The revolution in genetic mapping technology and the advent of whole genome sequences has turned quantitative genetics into one of the fastest growing areas of biology.

Quantitative Genetics & Genome Analysis is part of a suite of programmes offering specialist routes in Animal Breeding & Genetics, Evolutionary Genetics, or Human Complex Trait Genetics.

Based in the internationally renowned Institute of Evolutionary Biology, this MSc draws from the wealth of expertise available there, as well as the teaching, research expertise and facilities of Scotland’s Rural College, the University’s Centre for Molecular Medicine, the Medical Research Council’s Human Genetics Unit and the Roslin Institute (birthplace of Dolly the sheep).

Each year the syllabus is fine-tuned to suit current issues in evolutionary, plant, human and animal genetics.

Applicants who wish to select their area of specialisation during the programme should apply for this umbrella programme. Applicants with a preferred programme option should apply via the following links:

Animal Breeding and Genetics
Evolutionary Genetics
Human Complex Trait Genetics

Programme structure

This programme consists of two semesters of taught courses followed by a research project, leading to a dissertation.

Compulsory courses:

Population and Quantitative Genetics
Genetic Interpretation
Statistics and Data Analysis
Linkage and Association in Genome Analysis
Research Proposal
Either Bioinformatics or Molecular Phylogenetics

Option courses (selected according to degree specialisation):

Quantitative Genetic Models
Molecular Evolution
Genetics of Human Complex Traits
Animal Genetic Improvement
Evolution and Climate Change
Functional Genomic Technologies

Career opportunities

You will develop the in-depth knowledge and specialised skills required to apply quantitative genetics theory to practical problems, in both the biomedical and animal science industries, and to undertake research in evolutionary genetics, population genetics and genome analysis.

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The rapid growth of technological and scientific innovation in genetics, biotechnology, conservation biology, reproduction and nutrition has resulted in a need for further training for scientists across animal industries in all areas. Read more
The rapid growth of technological and scientific innovation in genetics, biotechnology, conservation biology, reproduction and nutrition has resulted in a need for further training for scientists across animal industries in all areas. The Master of Animal Science offers you advanced technical training in a focused area of animal science: genetics, nutrition or reproduction, biotechnology and animal production. Undertaking electives from a range of units of study, you will be equipped with advanced skills applied in a variety of industres including poultry, wildlife, pig, aquaculture, dairy, companion and pedigree animals, sheep and beef. The course is designed to enhance your research skills in managing the planning and implementation of a successful research project and in designing, conducting and writing-up a research project.

To ask a question about this course, visit http://sydney.edu.au/internationaloffice/

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The revolution in genetic mapping technology and the advent of whole genome sequences have turned quantitative genetics into one of the fastest growing areas of biology. Read more

Programme description

The revolution in genetic mapping technology and the advent of whole genome sequences have turned quantitative genetics into one of the fastest growing areas of biology.

Based in the internationally renowned Institute of Evolutionary Biology, this MSc draws from the wealth of expertise available there, as well as the teaching, research expertise and facilities of Scotland’s Rural College, the University’s Centre for Genomics and Experimental Medicine, the Medical Research Council’s Human Genetics Unit and the Roslin Institute (birthplace of Dolly the sheep).

Each year the syllabus is fine-tuned to suit current issues in evolutionary, plant, human and animal genetics. This programme forms part of the quantitative genetics and genome analysis suite of programmes offering three specialist routes, which also include Human Complex Trait Genetics and Evolutionary Genetics.

Programme structure

This programme consists of two semesters of taught courses followed by a research project, leading to a dissertation.

Courses are taught via lectures, tutorials, seminars and computer practicals. Assessment is by written examinations, in-course assignments and project work.

Compulsory courses:

Population and Quantitative Genetics
Genetic Interpretation
Linkage and Association in Genome Analysis
Animal Genetic Improvement
Research Proposal
Dissertation

Option courses:

Statistics and Data Analysis
Molecular Phylogenetics
Bioinformatics
Molecular Evolution
Genetics of Human Complex Traits
Quantitative
Genetic Models
Functional Genomic Technologies
Evolution and
Climate Change; Animal Genetic Improvement
Evolutionary Quantitative Genetics

Learning outcomes

An understanding of general concepts in population and quantitative genetics and genomics
A solid grounding in the statistical methods required
In-depth knowledge of animal improvement and complex trait analysis
Development of independent research skills through individual mini- and maxi-research projects
Development of generic skills (IT skills, experience in writing scientific papers, the ability to work independently)
Presentation skills through student seminars, scientific presentation of project work and independent research projects.

Career opportunities

You will develop the in-depth knowledge and specialised skills required to apply quantitative genetics theory to practical problems, in both the biomedical and animal science industries, and to undertake research in evolutionary genetics, population genetics and genome analysis.

Read less
The revolution in genetic mapping technology and the advent of whole genome sequences have turned quantitative genetics into one of the fastest growing areas of biology. Read more

Programme description

The revolution in genetic mapping technology and the advent of whole genome sequences have turned quantitative genetics into one of the fastest growing areas of biology.

Based in the internationally renowned Institute of Evolutionary Biology, this MSc draws from the wealth of expertise available there, as well as the teaching, research expertise and facilities of Scotland’s Rural College, the University’s Centre for Molecular Medicine, the Medical Research Council’s Human Genetics Unit and the Roslin Institute (birthplace of Dolly the sheep).

Each year the syllabus is fine-tuned to suit current issues in evolutionary, plant, human and animal genetics.

This programme forms part of the quantitative genetics and genome analysis suite of programmes offering specialist routes, which also include Animal Breeding & Genetics and Human Complex Trait Genetics.

Programme structure

This programme consists of two semesters of taught courses followed by a research project, leading to a dissertation.

Courses are taught via lectures, tutorials, seminars and computer practicals. Assessment is by written examinations, in-course assignments and project work.

Compulsory courses:

Population and Quantitative Genetics
Genetic Interpretation
Linkage and Association in Genome Analysis
Research Proposal
Dissertation

Option courses:

Statistics and Data Analysis Molecular Phylogenetics Bioinformatics Molecular Evolution Genetics of Human Complex Traits Quantitative Genetic Models Functional Genomic Technologies Evolution and Climate Change Animal Genetic Improvement Evolutionary Quantitative Genetics

Learning outcomes

You will gain the knowledge and skills required to apply quantitative genetics theory to undertake research in evolutionary and quantitative genetics, population genetics and evolutionary genomics.

A thorough understanding of general concepts in population and quantitative genetics and genomics
In-depth knowledge of evolutionary genetics
A solid grounding in the statistical methods required for quantitative biology
Development of independent research skills through individual mini- and maxi-research projects
Development of generic skills (IT skills, experience in writing scientific papers, the ability to work independently)
Presentation skills through student seminars, scientific presentation of project work and independent research projects.

Career opportunities

You will develop the in-depth knowledge and specialised skills required to apply quantitative genetics theory to practical problems, in both the biomedical and animal science industries, and to undertake research in evolutionary genetics, population genetics and genome analysis.

Read less
The revolution in genetic mapping technology and the advent of whole genome sequences have turned quantitative genetics into one of the fastest growing areas of biology. Read more

Programme description

The revolution in genetic mapping technology and the advent of whole genome sequences have turned quantitative genetics into one of the fastest growing areas of biology.

Based in the internationally renowned Institute of Evolutionary Biology, this MSc draws from the wealth of expertise available there, as well as the teaching, research expertise and facilities of Scotland’s Rural College, the University’s Centre for Molecular Medicine, the Medical Research Council’s Human Genetics Unit and the Roslin Institute (birthplace of Dolly the sheep).

Each year the syllabus is fine-tuned to suit current issues in evolutionary, plant, human and animal genetics.

This programme forms part of the quantitative genetics and genome analysis suite of programmes offering specialist routes, which include Animal Breeding & Genetics and Evolutionary Genetics.

Programme structure

This programme consists of two semesters of taught courses followed by a research project, leading to a dissertation.

Courses are taught via lectures, tutorials, seminars and computer practicals. Assessment is by written examinations, in-course assignments and project work.

Compulsory courses:

Population and Quantitative Genetics
Genetic Interpretation
Linkage and Association in Genome Analysis
Genetics of Human Complex Traits
Dissertation.

Option courses:

Statistics and Data Analysis
Molecular Phylogenetics
Bioinformatics
Molecular Evolution
Quantitative Genetic Models
Functional Genomic Technologies
Evolution and Climate Change
Animal Genetic Improvement
Evolutionary Quantitative Genetics

Learning outcomes

You will gain the knowledge and skills required to apply quantitative genetics theory to practical problems in the biomedical industry, and to undertake research in quantitative and population genetics and genome analysis.

A thorough understanding of general concepts in population and quantitative genetics and genomics
In-depth knowledge of complex trait genetics in humans
A solid grounding in the statistical methods required for quantitative biology
Development of independent research skills through individual mini- and maxi-research projects
Development of generic skills (IT skills, experience in writing scientific papers, the ability to work independently)
Presentation skills through student seminars, scientific presentation of project work and independent research projects.

Career opportunities

You will develop the in-depth knowledge and specialised skills required to apply quantitative genetics theory to practical problems, in both the biomedical and animal science industries, and to undertake research in evolutionary genetics, population genetics and genome analysis.

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Areas of research include, but are not limited to. ruminant methane production; sub clinical necrotic enteritis in broiler flocks; mineral digestibility and immunity in weaned pigs; the effects of organically chelated zinc on performance in sheep; welfare implications for high-yielding dairy cows. Read more
Areas of research include, but are not limited to: ruminant methane production; sub clinical necrotic enteritis in broiler flocks; mineral digestibility and immunity in weaned pigs; the effects of organically chelated zinc on performance in sheep; welfare implications for high-yielding dairy cows.

■Choice of one year (MRes), two year (MPhil) or three year (PhD) research degrees
■Excellent completion rates for higher degrees
■Good job prospects for PhD candidates in industry, government organisations and academia
■Accessible academic staff
■Rural location and collegiate atmosphere
■Unique facilities
■Fortnightly research seminar programme

PhD and MPhil research at the University has been developed over the last 20 years to its current position of national and international recognition in a number of areas. There are strong links with agri-business which give postgraduates the chance to develop close contacts with industry and this has led to more than 90 per cent of our PhD graduates getting jobs in their areas of interest.

The MRes is a new, shorter research degree, developed in response to increasing demand.

All MPhil/PhD research students have their own office space and a dedicated personal computer. You will be encouraged to participate in seminars and conferences appropriate to your research

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Research in the Division of Genetics and Genomics aims to advance understanding of complex animal systems and the development of improved predictive models… Read more

Research profile

Research in the Division of Genetics and Genomics aims to advance understanding of complex animal systems and the development of improved predictive models through the application of numerical and computational approaches in the analysis, interpretation, modelling and prediction of complex animal systems from the level of the DNA and other molecules, through cellular and gene networks, tissues and organs to whole organisms and interacting populations of organisms.

The biology and traits of interest include: growth and development, body composition, feed efficiency, reproductive performance, responses to infectious disease and inherited diseases.

Research encompasses basic research in bioscience and mathematical biology and strategic research to address grand challenges, e.g. food security.

Research is focussed on, but not restricted to, target species of agricultural importance including cattle, pigs, poultry, sheep; farmed fish such as salmon; and companion animals. The availability of genome sequences and the associated genomics toolkits enable genetics research in these species.

Expertise includes genetics (molecular, quantitative), physiology (neuroendocrinology, immunology), ‘omics (genomics, functional genomics) with particular strengths in mathematical biology (quantitative genetics, epidemiology, bioinformatics, modelling).

The Division has 18 Group Leaders and 4 career track fellows who supervise over 30 postgraduate students.

Training and support

Studentships are of 3 or 4 years duration and students will be expected to complete a novel piece of research which will advance our understanding of the field. To help them in this goal, students will be assigned a principal and assistant supervisor, both of whom will be active scientists at the Institute. Student progress is monitored in accordance with School Postgraduate (PG) regulations by a PhD thesis committee (which includes an independent external assessor and chair). There is also dedicated secretarial support to assist these committees and the students with regard to University and Institute matters.

All student matters are overseen by the Schools PG studies committee. The Roslin Institute also has a local PG committee and will provide advice and support to students when requested. An active staff:student liaison committee and a social committee, which is headed by our postgraduate liaison officer, provide additional support.

Students are expected to attend a number of generic training courses offered by the Transkills Programme of the University and to participate in regular seminars and laboratory progress meetings. All students will also be expected to present their data at national and international meetings throughout their period of study.

Facilities

In 2011 The Roslin Institute moved to a new state-of-the-art building on the University of Edinburgh's veterinary campus at Easter Bush. Our facilities include: rodent, bird and livestock animal units and associated lab areas; comprehensive bioinformatic and genomic capability; a range of bioimaging facilities; extensive molecular biology and cell biology labs; café and auditorium where we regularly host workshops and invited speakers.

The University's genomics facility Edinburgh Genomics is closely associated with the Division of Genetics and Genomics and provides access to the latest genomics technologies, including next-generation sequencing, SNP genotyping and microarray platforms (genomics.ed.ac.uk).

In addition to the Edinburgh Compute and Data Facility’s high performance computing resources, The Roslin Institute has two compute farms, including one with 256 GB of RAM, which enable the analysis of complex ‘omics data sets.

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A survey by the Scottish biodiversity forum demonstrates that visitors to the Scottish uplands particularly value heather moorland, red deer and mountain landscapes. Read more
A survey by the Scottish biodiversity forum demonstrates that visitors to the Scottish uplands particularly value heather moorland, red deer and mountain landscapes. The red deer range covers most of the Scottish uplands but is also increasingly visited by hill-walkers who are attracted to the open landscapes and high mountains, such as the Munros and Corbetts, especially since the right of responsible access came into effect in Scotland in 2005. As well as being a tourist attraction, the same landscape is also used for activities including deer stalking, which not only generates income and rural jobs but also plays a vital role in controlling deer populations. Whilst both of these activities are legitimate, visitors have the potential to disturb deer which are known to move away and avoid areas of human activity such as footpaths and tracks. This will alter their spatial distribution and habitat use, impacting on their access to preferred areas that provide shelter and/or forage. Such disturbance can cause conflicts with deer management objectives affecting the ability to carry out activities such as recreational hunting and deer control if it changes the distribution of deer among neighbouring estates. Thus, there is a need to understand the interaction between recreational users (such as hill walkers), red deer movement and the relationship with changing sheep stocking rates.

We seek to recruit an excellent student to study for a 12 month Master’s by Research Degree. The successful student will work in a remote Scottish field site, piloting methods to study the movements of hikers and the distributions of both deer and domestic stock. They will benefit from supervision by three experienced and relevant scientists with complementary interests in the study system.

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This is an intensive, vocational course with strong professional links to the industry, offering a maximum of four students, with high levels of painting and drawing skills, the opportunity to develop their careers as scenic artists. Read more
This is an intensive, vocational course with strong professional links to the industry, offering a maximum of four students, with high levels of painting and drawing skills, the opportunity to develop their careers as scenic artists. The skills and techniques acquired on this course are to the level necessary for theatre, television, film and animation industries..

During the year students acquire an understanding of professional practice and standards, and gain in-depth skills and experience in scenic art techniques and their application, combined with the practice of managing a scenic art department.

The Course has 3 very intensive terms during which students paint the sets for the School’s six main house public productions, offering them the opportunity to see their finished work used on stage in a wide range of public performances and venues. Teaching is led by the School’s Head of Scenic Art in collaboration with visiting industry professionals who provide master-classes in a range of skills and techniques that include; life drawing, portraiture, perspective, marbling, wood-graining, polystyrene carving and painting for animation. The scenic art students work collaboratively with the School’s other production departments, and most especially with design students. Furthering their introduction to the industry, work placements with principal companies are arranged during the course; particular attention is placed on students developing their own professional portfolio. Upon graduation students will showcase their work in a public exhibition and be interviewed by some of the UK’s leading industry practitioners. In a freelance industry most of our graduates begin working as assistants for scenic artists, scenic workshops and large theatre companies, eventually becoming supervising scenic artists themselves.

Recent graduate employment; The Royal Opera House, The Royal Shakespeare Company, Cardiff Theatrical Services, The Royal National Theatre, Northern Ballet, TR2 Plymouth, Richard Nutbourne - Cool Flight Ltd, Cameron Macintosh's National Tour of ‘Mary Poppins’, Disney's ‘Aladdin’, ‘Charlie and the Chocolate Factory’ for Warner Brothers. Film work includes; Wes Anderson's ‘Fantastic Mr Fox’ and ‘Isle of Dogs’ (still in production) Tim Burton's ‘Frankenweenie’, Aardman Animations' ‘Shaun the Sheep’, ‘Pirates’ and ‘Early Man’ (still in production). TV work includes 'Will' for TNT and ‘Crazy Face’ for Netflix.

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