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Masters Degrees (Pest Management)

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The Crop Pest and Disease Management course will offer students training in techniques to facilitate crop food production. Read more
The Crop Pest and Disease Management course will offer students training in techniques to facilitate crop food production. The course covers a broad range of topics in applied entomology, plant pathology and nematology and all students receive training in fundamental skills which will enable them to enter either a pest/disease management work environment or a research career in applied entomology, plant pathology or pest management. There is, however, considerable flexibility within the course thus enabling each student to focus on specialist subjects consistent with their interests and future career intentions.

The course

The continuing production of safe, wholesome food in an environmentally sensitive manner is a major political issue for national governments and internationally within global commodity markets. A report produced by the UK Cabinet Office in 2008 (Food Matters: Towards a Strategy for the 21st Century) predicts that the global population will rise to 9Bn by 2050 rising from a current estimate of nearly 6.8Bn. This increase in population size will substantially increase the demand for food. The global estimates vary in magnitude, but it is thought approximately 25% of crops are lost to pests and diseases, such as insects, fungi and other plant pathogens (FAO Crop Prospects and Food Situation 2009).

The Crop Pest and Disease Management course will offer students training in techniques to facilitate crop food production. The course covers a broad range of topics in applied entomology, plant pathology and nematology and all students receive training in fundamental skills which will enable them to enter either a pest/disease management work environment or a research career in applied entomology, plant pathology or pest management. There is, however, considerable flexibility within the course thus enabling each student to focus on specialist subjects consistent with their interests and future career intentions.

Research projects are available in a wide range of subjects covered by the research groups within the Crop and Environment Sciences Department and choices are made in consultation with expert staff. Projects at linked research institutes in the UK and overseas are also available. The course is underpinned by an extensive programme of research at Harper Adams and long-standing collaborations with research institutes and other organisations in the UK and overseas.

How will it benefit me?

Having completed the MSc you will be able to identify the underlying causes of major pest and disease problems and recognize economically important insects, plant diseases and weeds.

You will also be able to apply integrated pest control methods and oversee their application. The course will focus on the ecological and management principles of pest control and you will learn to evaluate the consequences of pesticide use and application on the biological target. You will also receive training in the evaluation of the economic and environmental costs of integrated approaches to pest control in relation to biological effectiveness. Ultimately, the course will enable students to produce integrated pest and disease management solutions that pay due regard to agricultural, horticultural, social and environmental requirements.

In addition, there is considerable flexibility enabling each student to focus on specialist subjects consistent with their interests and future career intentions

The research project for the MSc will allow you to test hypotheses relevant to pest and disease management research by designing, carrying out, analysing and interpreting experiments or surveys. You will learn to evaluate and interpret data and draw relevant conclusions from existing pest and disease management case studies.

The MSc covers a broad range of topics relevant to pest and disease management and all students receive training in fundamental skills which will enable them to enter a vocational work environment or pursue a research career. There is, however, considerable flexibility enabling each student to focus on specialist subjects consistent with their interests and future career intentions.

Careers

Previous graduates from the course have mainly gone on to work for ADAS or commercial biological control companies, the agro-chemical industry or horticulture sector. Others have joined Research Institutes such as Forest Research, FERA, or Rothamsted Research. Typically 30% of MSc Integrated Pest & Disease Management graduates will go into research careers or onto PhD courses.

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Significant increases in the global human population, increasing climatic instability and a concurrent reduction in fossil fuel availability, impacting upon agricultural production and policy. Read more
Significant increases in the global human population, increasing climatic instability and a concurrent reduction in fossil fuel availability, impacting upon agricultural production and policy. Food production must increase without a simultaneous increase in resource use.

Improvements in crop yield and production efficiency often come through the utilisation of individual elements of new research. Integrated Crop Management (ICM) however utilises multiple facets of research simultaneously to bring about larger, more sustainable results. This course focuses on incorporating the latest research to develop students’ critical and analytical thinking in subjects such as pest dynamics, genetic improvement, crop technology, sustainable practice and soil management.

This MSc, delivered at Myerscough and awarded by the University of Central Lancashire will integrate these topics alongside a broader critical evaluation of crop sciences enabling you to design bespoke ICM programmes for given situations.
It is aimed at graduates in biological sciences who are looking to find employment as agronomists, farm advisors, agro-technical specialists particularly in allied agricultural industries. Successful completion of this MSc degree will also facilitate progression to PhD level research in food production science.

COURSE CONTENT:

Year 1

Integrated approaches in high-input cropping systems

High-input crop production systems typically focus on achieving both high yields and profitability. This module explores the science and agronomic principles of a range of crops under such management regimes as well as their associated problems and limitations. Consideration will be given to integrated management approaches currently being adopted by industry as well as the major drivers of these changing practices. These include legislation, resistance to agrochemicals and public acceptance.

Invertebrate Dynamics in Crop Production

Approximately 10-15% of global crop production is lost to invertebrate pests. Conversely, invertebrates constitute a significant ecosystem service through pest predation and pollination. In any integrated production system, the management of invertebrates is therefore fundamental to effective crop production. This module will focus on critical evaluation of current research on invertebrate ecology and dynamics and applying this to their potential impacts on conventional cropping systems. Concepts of pest population dynamics, herbivory and species life histories will be considered in relation to their effects on the crop. Alongside this, their ‘value’ as pollinators, predators, vectors and the effects of lethal and sub-lethal pesticide doses will be evaluated.

Contemporary agronomic research and development

Research into agronomy, technology and management is of critical importance if the industry is to continue to adapt to modern pressures and challenges worldwide. This module will explore the research path including laboratory to field trials and, ultimately, application into practice. Case studies will be explored where research and development has made or could make a significant impact to management practice.

Year 2

Integrated approaches in low-input cropping systems

Low-input cropping systems seek to optimise crop yields whilst using fewer inputs when compared to conventional crop production systems. In parts of the world this is due to a lack of financial and physical resources whilst in others this is due to perceived environmental benefits. This module explores the science of the integrated management of crops under such systems, including enhanced soil management and factors influencing nutrition and disease control. Limitations will also be considered as will approaches that conventional crop production could learn from low-input management systems.

Global Drivers for Agricultural Change

This module examines the global drivers behind the need to refocus agricultural production to meet the needs of the increasing world population and mitigate the impacts of climate change. It will focus on concepts such as the effects of globalisation; the economic issues with pesticide development; the globalisation and privatisation of agricultural technology and the use of targeted pest control techniques. Furthermore, the module will assess the impacts of corporate responsibility and the necessity of having sustainable global supply chains.

Research Methodology and Design

This module provides students with the essential personal, organisational, management, theoretical and statistical skills needed to work at Postgraduate Level. It will explore research philosophies, research process and design and the process of questionnaire development and design. The module will develop skills in advanced data organisation, presentation, dissemination and problem solving.

Year 3

Masters Dissertation

The dissertation is a triple module and allows students to design and conduct a substantial piece of independent, supervised research related to the field of study. The dissertation is an independent piece of academic work which allows the student to identify and work in an area of interest to them and manage the research process to agreed deadlines.

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The Plant Sciences programme has been designed to help meet the worldwide demand for scientific expertise in the development of plant and crop production and farming systems. Read more

MSc Plant Sciences

The Plant Sciences programme has been designed to help meet the worldwide demand for scientific expertise in the development of plant and crop production and farming systems.

Programme summary

Plant Sciences deals with crop production ranging from plant breeding to the development of sustainable systems for the production of food, pharmaceuticals and renewable resources. It is linked with a professional sector that is highly important to the world economy. The programme focuses on the principles of plant breeding, agro-ecology and plant pathology and the integration of these disciplines to provide healthy plants for food and non-food applications. Technological aspects of crop production are combined with environmental, quality, socio-economic and logistic aspects. Students learn to apply their knowledge to develop integrated approaches for sustainable plant production.

Specialisations

Crop Science
Sound knowledge of crop science is essential to develop appropriate cultivation methods for a reliable supply of safe, healthy food; while considering nature conservation and biodiversity. An integrated approach is crucial to studying plant production at various levels (plant, crop, farm, region). This requires a sound understanding of basic physical, chemical, and physiological aspects of crop growth. Modelling and simulation are used to analyse yield constraints and to improve production efficiency.

Greenhouse Horticulture
Greenhouse horticulture is a unique agro-system and a key economic sector in the Netherlands. It is the only system that allows significant control of (a-) biotic factors through protected cultivation. The advances in this field are based on technological innovations. This specialisation combines product quality with quality of production and focuses on production, quality- and chain management of vegetables, cut flowers and potted plants.

Natural Resource Management
The development of sustainable agro-ecosystems requires understanding of the complex relationships between soil health, cultivation practices and nutrient kinetics. Other important aspects include the interactions between agriculture and nature, and competing claims on productive land worldwide. Natural Resource Management provides knowledge and tools to understand the interactions between the biotic and abiotic factors in agro-systems to facilitate diverse agricultural demands: bulk vs. pharmaceutical products, food vs. biofuel, conservation of biodiversity, climate change, and eco-tourism.

Plant Breeding and Genetic Resources
Plant Breeding and Genetic Resources ranges from the molecular to the population level and requires knowledge of the physiology and genetics of cultivated plants. Plant breeding is crucial in the development of varieties that meet current demands regarding yield, disease resistance, quality and sustainable production. The use of molecular techniques adds to the rapid identification of genes for natural resistance and is essential for accelerating selection by marker assisted breeding.

Complete Online Master
In September 2015, Wageningen University started the specialisation "Plant Breeding" as the first complete online Master of Science. For more information go to http://www.wageningenuniversity.eu/onlinemaster.


Plant Pathology and Entomology
The investments made in crop production need to be protected from losses caused by biotic stress. Integrated pest management provides protection by integrating genetic resistance, cultivation practices and biological control. This specialisation focuses on the ecology of insects, nematodes and weeds, and the epidemiology of fungi and viruses, including transmission mechanisms. Knowledge of plantinsect, plant-pathogen, and crop-weed relations establishes the basis for studies in integrated pest management and resistance breeding.

Your future career

Graduates in Plant Sciences have excellent career prospects and most of them receive job offers before graduation. They are university-trained professionals who are able to contribute to the sustainable development of plant production at various integration levels based on their knowledge of fundamental and applied plant sciences and their interdisciplinary approach. Graduates with a research focus are employed at universities, research institutes and plant breeding or agribusiness companies. Other job opportunities are in management, policy, consultancy and communication in agribusiness and (non-) governmental organisations.

Alumnus Maarten Rouwet.
“I was born in Germany and raised in the East of the Netherlands. After high school I applied for the Bèta-gamma bachelor at the University of Amsterdam where I majored in biology. After visiting the master open day at Wageningen University I knew that the master Plant Sciences had something unique to offer. In my master, I specialised in plant breeding, an ever so interesting field of research. I just started my first job as junior biotech breeder of leavy vegetables at Enza Zaden, a breeding company in Enkhuizen. One of my responsibilities is to identify resistances in wild species of lettuce and to implement these in breeding programmes of cultivated lettuce.”

Related programmes:
MSc Biosystems Engineering
MSc Biotechnology
MSc Biology
MSc Forest and Nature Conservation
MSc Organic Agriculture
MSc Plant Biotechnology.

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The Master of Wildlife Management (MWLM) degree is a three-semester 180-point postgraduate degree designed to train students with the skills necessary for employment in some aspect of wildlife or ecological management or research. Read more
The Master of Wildlife Management (MWLM) degree is a three-semester 180-point postgraduate degree designed to train students with the skills necessary for employment in some aspect of wildlife or ecological management or research.

Other important goals of the course are to develop in students:
-An understanding of the ecological basis of conservation, harvest management and pest control.
-Skills in handling, marking, observing and surveying wild animals.
-An appreciation of the practical realities of wildlife management from the administrative and legal points of view.
-A knowledge of the biology, ecology and behaviour of wild animals in New Zealand.
-Skills in communicating about the management of, and scientific research of, ecological communities. Verbal presentations, debating, dealing with the media, popular science writing and scientific report writing are all emphasised and taught.

Information for new applicants

A candidate would normally have completed a Bachelor of Science (BSc) degree in a related subject area before undertaking the MWLM, but the degree is also open to those with other qualifications.

Structure of the Programme

The programme of study shall consist of papers worth a total of 180 points, normally comprising WILM 401, WILM 402, and WILM 501, plus papers worth at least 100 points from WILM and ZOOL papers, and other 400-level papers. Every programme of study must include WILM 404, (or equivalent) if ZOOL 316, has not been passed previously, and must include WILM 406, if 300-level course work in Conservation Biology has not been taken previously.

A candidate may be exempted from some of the required papers as prescribed in regulation 2(a) on the basis of previous study. A candidate who has completed the requirements for the Postgraduate Diploma in Wildlife Management shall be exempted from those papers in the programme for the degree that have previously been passed for the diploma.

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The Sydney Wildlife Health and Population Management Program brings together the disciplines of animal health and wildlife population management to help you develop and enhance your skills in conservation techniques for native fauna, diagnosis and management of wildlife health, and management of native and pest species populations. Read more
The Sydney Wildlife Health and Population Management Program brings together the disciplines of animal health and wildlife population management to help you develop and enhance your skills in conservation techniques for native fauna, diagnosis and management of wildlife health, and management of native and pest species populations.

Through the Master of Wildlife Health and Population Management, you will gain a qualification that will provide opportunities for employment in a range of wildlife-related settings.

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

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Learn about both the technical and the business issues that can bridge the gap between IT security and business risk. Read more
Learn about both the technical and the business issues that can bridge the gap between IT security and business risk.

Who is it for?

This Masters course is aimed at IT professionals with approximately five years’ experience and is intended to provide them with the skills that they need to progress to a management role in information security and risk. The course will appeal to companies and professionals that need to develop or improve their capability in managing IT-related security, in order to enter markets with higher demands of dependability and security, comply with new regulations, or re-qualify for new roles.

Objectives

Concerns about cyber security and information risk have led to a growing market for technical specialists, but there is also a need for more senior professionals with an awareness of both the technical and the business issues who can bridge the gap between IT security and business risk.

On this Management of Information Security and Risk MSc programme you will learn about both the technical and the business issues that can bridge the gap between IT security and business risk.

Understand how to communicate these risks to both the technical staff and the executive business team (CEO, CIO, CFO and COO) in a language they share. Focus on human-machine interaction and decision making within today's increasingly complex Political-Economical-Socio-Technical (PEST) systems.

Find out about latest industry and government standards, legislation and best practice from leading technical experts and network with your peers to compare and contrast best practices from different industries.

Teaching and learning

The modules are taught by academics at the Centre for Software Reliability, within the School of Mathematics, Computer Science and Engineering, and also by visiting lecturers from industry. We also have invited speakers from academia and industry in most modules. Teaching takes place via seminars, lectures, group work and tutorials. The assessment is through coursework only – this consists of written work (individual and group), presentations and peer review.

The modules will be delivered in block mode, with students taking two modules per term. Each module consists of two blocks as follows:
-Thursday evening: 5pm - 9pm
-Friday: 9am-5pm
-Saturday: 9am-5pm

In summary, assuming attendance at the Thursday evening sessions can be done without having to take any time off from work, the students are expected to take eight Fridays off from work in a calendar year (though some employers may allow their employees to take these times off as study leave), and they will need to also attend classes for a further eight Saturdays (i.e. two Fridays and two Saturdays per module). Timetables are for guidance only and are subject to change.

Modules

The course covers the skills and knowledge necessary to be successful in senior roles in information security and risk.

The course supports the extra breadth of knowledge required by people with professional experience to help them progress towards target roles in management or consulting on security, assurance and risk.

Applicants can also apply to enrol on individual modules as CPDs. It will then be possible for you to gradually build credits for the MSc should you wish to take this route. City, University of London is also an approved MoD Enhanced Learning Credits (ELC) scheme provider (ID-1538).

Modules providing Professional Skills
-Information Leadership (15 credits)
-Executive Development (15 credits)
-Socio-Technical Systems (15 credits)
-IT Risk Management for effective performance and the prevention of fraud, error and disaster (15 credits)

Specialised Security and Risk Modules
-Information Security Management (15 credits)
-IT Risk and Resilience (15 credits)
-Quantitative Risk Analysis (15 credits)
-Assurance Cases (15 credits)

Career prospects

This course will appeal to companies and professionals that need to develop or improve their capability in managing IT-related security, in order to enter markets with higher demands of dependability and security, comply with new regulations, or re-qualify for new roles. Graduates should be suitable for consideration as the CSO or Security Architects and Senior Information Risk Managers and would also greatly help them in information security Consultancy and Auditing roles.

Our previous and existing cohort of students have all been employed full-time in a wide range of companies, including multi-billion pound turnover internationals in the aviation industry, global auditing companies (e.g. KPMG), media companies (e.g. Sky and Sony), financial services companies (e.g. Deutsche Bank) in the City of London, small and medium enterprises (SMEs), government departments and NHS trusts. The programme helps students build a strong network with their peers and maintain it as part of their career development.

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The Plant Biotechnology programme is the combination of different fields of the classical plant sciences (e.g. plant physiology, plant breeding, plant pathology) working with a whole new range of techniques and possibilities opened up by modern molecular biology. Read more

MSc Plant Biotechnology

The Plant Biotechnology programme is the combination of different fields of the classical plant sciences (e.g. plant physiology, plant breeding, plant pathology) working with a whole new range of techniques and possibilities opened up by modern molecular biology.

Programme summary

Due to rapid technological developments in the genomics, molecular biology and biotechnology, the use of molecular marker technology has accelerated the selection of new plant varieties with many desirable traits. It also facilitates the design, development and management of transgenic plants. At present, plants are increasingly used to produce valuable proteins and secondary metabolites for food and pharmaceutical purposes. New insights into the molecular basis of plant-insect, plant- pathogen and crop-weed relationships enable the development of disease-resistant plants and strategies for integrated pest management. A fundamental approach is combined with the development of tools and technologies to apply in plant breeding, plant pathology, post-harvest quality control, and the production of renewable resources. Besides covering the technological aspects, Plant Biotechnology also deals with the ethical issues and regulatory aspects, including intellectual property rights.

Specialisations

Functional Plant Genomics
Functional genomics aims at understanding the relationship between an organism's genome and its phenotype. The availability of a wide variety of sequenced plant genomes has revolutionised insight into plant genetics. By combining array technology, proteomics, metabolomics and phenomics with bioinformatics, gene expression can be studied to understand the dynamic properties of plants and other organisms.

Plants for Human and Animal Health
Plants are increasingly being used as a safe and inexpensive alternative for the production of valuable proteins and metabolites for food supplements and pharmaceuticals. This specialisation provides a fundamental understanding of how plants can be used for the production of foreign proteins and metabolites. In addition, biomedical aspects such as immunology and food allergy, as well as nutritional genomics and plant metabolomics, can also be studied.

Molecular Plant Breeding and Pathology
Molecular approaches to analyse and modify qualitative and quantitative traits in crops are highly effective in improving crop yield, food quality, disease resistance and abiotic stress tolerance. Molecular plant breeding focuses on the application of genomics and QTL-mapping to enable marker assisted selection of a trait of interest (e.g. productivity, quality). Molecular plant pathology aims to provide a greater understanding of plant-insect, plant-pathogen and crop-weed interactions in addition to developing new technologies for integrated plant health management.These technologies include improved molecular detection of pathogens and transgene methods to introduce resistance genes into crops.

Your future career

The main career focus of graduates in Plant Biotechnology is on research and development positions at universities, research institutes, and biotech- or plant breeding companies. Other job opportunities can be found in the fields of policy, consultancy and communication in agribusiness and both governmental and non-governmental organisations. Over 75% of Plant Biotechnology graduates start their (academic) career with a PhD.

Alumnus Behzad Rashidi.
“I obtained my bachelor degree in the field of agricultural engineering, agronomy and plant breeding, at Isfahan University of Technology, Iran. The curiosity and interest for studying plant biotechnology and great reputation of Wageningen University motivated me to follow the master programme Plant Biotechnology. I got a chance to do my internship at State University of New York at Buffalo, working on biofuel production from microalgae. Working with this small unicellular organism made me even more motivated to continue my research after my master. Now I am doing my PhD in the Plant Breeding department of Wageningen University, working on biorefinery of microalgae.”

Related programmes:
MSc Biotechnology
MSc Molecular Life Sciences
MSc Plant Sciences
MSc Nutrition and Health
MSc Bioinformatics
MSc Biology.

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This programme is aimed at students who wish to pursue a career in agriculture and sustainable development in the private sector, research, NGO or government communities. Read more
This programme is aimed at students who wish to pursue a career in agriculture and sustainable development in the private sector, research, NGO or government communities. It provides a firm grounding in research methods applicable to the study of sustainable agriculture and the intellectual tools for understanding sustainable agriculture systems. The courses combine theoretical approaches and empirically based learning from case studies of real projects and agricultural scenarios.

Teaching will focus on case studies from NRI's corporate experience of looking at how research into agricultural issues, both in the natural and social sciences, can be translated into knowledge and products that have real impact on increasing the effectiveness of agriculture in delivering food security and enhancing livelihoods for all stakeholders. The potential role of agricultural innovations, both in technology, including biotechnology, knowledge systems, extension services and institutional partnerships in promoting development are also a strong theme in courses.

The aims of the programme are:

- To understand modern agricultural systems and the associated technologies of production together with their potential impacts on agriculture and livelihoods

- To understand the social, institutional and economic context within which agriculture operates

- To understand modern agriculture and its role in sustainable development.

Visit the website http://www2.gre.ac.uk/study/courses/pg/agr/agrsustdev

Food and Agricultural Sciences

The Natural Resources Institute (NRI) has an internationally-recognised academic reputation and provides taught postgraduate courses in a wonderful environment for students.

NRI provide research, consultancy, training and advisory services to underpin sustainable development, economic growth and poverty reduction. The majority of our activities focus on the harnessing of natural and human capital for the benefit of developing countries, though much of our expertise has proved to be of growing relevance to industrialised nations.

What you'll study

- Research Methods (15 credits)
- Tools for Sustainable Agriculture (15 Credits)
- Integrated Pest Management (30 credits)
- Independent research project dissertation (60 credits)

- Four 15-credit options from a list that currently includes: Agronomy; Agroforestry; Economics, Agriculture, and Marketing; Livestock and Sustainable Agriculture; Plant Disease Management; Agricultural Innovation for Development; Soils and Environments (60 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.Find out more about our fees and the support available to you at our:
- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)
- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

Assessment consists of a combination of assignments, essays, presentations, reports, portfolios and formal examinations.

Career options

This programme provides specialist expertise for those working or seeking to work in agricultural development or research, or pursuing an advanced agricultural or development qualification in the UK and overseas. Students graduate with a broad general knowledge of agricultural applications in sustainable development and also more focused in-depth knowledge.

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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

The course

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

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

How will it benefit me?

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

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

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

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now available for students with Italian qualifications - check at www.unipd.it/en/forest-science. Deadline for application September 28, 2017. Read more

Admission Notice for 2017-2018

now available for students with Italian qualifications - check at http://www.unipd.it/en/forest-science
Deadline for application September 28, 2017

Forest Science

Forest Science is a 2-year Master programme (120 ECTS, equivalent to a Master of Science) providing interdisciplinary holistic and innovative forest education focused on sustainable management and conservation of forest and natural resources

Programme Summary

The programme covers a wide range of subjects. Key course topics are forests and forest ecology, silviculture, sustainable forest management, climate change mitigation, water regulation and related management issues, conservation and management of biodiversity and other ecosystem services, sustainable forest operations, natural hazards, pest management principles and techniques, forest economics and policy, forest governance analysis and conflict management techniques.
Forest Science has close links with other international Forest Schools as well as with international forest and environmental organizations like FAO, EFI, WWF and CIFOR, IUCN and IUFRO. Staff of these institutions and organisations make regular contribution to the course, especially supporting the preparation of thesis work.
The programme participates to three Erasmus Mundus Consortia for Master degrees, namely SUTROFOR, SUFONAMA and MEDfOR, respectively on management of tropical, temperate and Mediterranean forests.
The programme is completely taught in English.

How is the programme organised?

Forest Science offers two different specialization paths.

Forest and Land Management

This curriculum forms specialists in sustainable management, conservation and integrated valorization of forests and natural resources. Students acquire awareness and understanding of the functioning of forest ecosystems and skills for the sustainable management of forests and rural landscape, especially in mountainous Alpine and Mediterranean contexts.

Forest and Nature for the Future

This curriculum forms specialists in the governance of forests and natural ecosystems in the context of issues such as climate change, deforestation, land use change and biodiversity conservation. Students acquire awareness and understanding of complex socio-ecological systems and skills for identifying innovative solutions for responsible forest management in line with the major global environmental issues.

In both curricula, the scientific and technical knowledge are complemented by of statistics, GIS and other mapping techniques, research and project management methods, and by development and enhancement of soft skills such as communication skills and group work capacity.
An opportunity for the students of the two curricula to meet and bridge their learning experience is the Joint Summer Module, an interdisciplinary field activity of 1-2 weeks in Italy or abroad, taking place in the summer between the first and the second year, during which students have also the chance to discuss about forest management and forest policy with various stakeholders of the forest and wood sector.
Visit the MSc “Forest Science” page on the Università di Padova web-site (http://www.agrariamedicinaveterinaria.unipd.it/en/forest-science-1) for more details.

Teaching methods

Teaching takes place in an international environment and is based on class engagement, problem-solving approach and case study assessment.
Lectures, seminars and independent learning are supported by field practicals, laboratory work and forest visits.
Examinations are written or oral and assess students’ participation also through reports, presentations, and group work.

Who is the MSc candidate?

The course is intended for highly-motivated national and international students and is conceived for Bachelor graduates with a main interest in responsible forest management and environmental governance in mountainous Alpine and Mediterranean forests. The programme caters for students from a variety of backgrounds, from forestry, agriculture and biology to environmental sciences.

What career opportunities does the MSc provide?

A Forest Science graduated will find career opportunities in public and private institutions, agencies, Governmental and Non-Governmental Organisations working as planner, designing, manager and supervisor in the field of sustainable and responsible management of forests, natural and semi-natural habitats, land management and protection, landscape management, use and valorisation of forest resources and ecosystems services nationally or internationally. In addition, this high profile education facilitates access to basic or applied research or to doctoral programmes in Italy or abroad.

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One of the most significant challenges currently facing humankind is to make enough food, for an active healthy lifestyle, available to a population which will probably rise beyond nine billion within the next 30 to 40 years. Read more
One of the most significant challenges currently facing humankind is to make enough food, for an active healthy lifestyle, available to a population which will probably rise beyond nine billion within the next 30 to 40 years. There are many factors that combine to impact food availability and the access that people have to food. Food production is prominent among these factors, but we can also feed more people if we distribute food more effectively and waste less food. In addition, other factors such as the state of the economy, climate change and the effects of the food production system on the environment need to be taken into account when considering the future sustainability of our food system.

This PgCert provides an opportunity for flexible and accessible postgraduate learning and professional development, for those who are unable to commit to full-time study. It is delivered by blended learning, which consists largely of online material to allow flexible working, together with short residential schools.

Modules on offer include:
• Consumers and Retailing
• Crop Production and Supply
• Economics and Logistics of the Food Chain
• Food Quality, Nutrition and Food Safety, Post-Harvest Management
• Food Security: The Impending Storm
• Food Waste, Supply Chain Management and Consumer Behaviour
• Pests and Diseases, Pest Management and Pesticides
• Soils, Natural Capital and Sustainable Resource Management

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The 'Viticulture & Enology. innovation meets tradition' program aims at addressing how vineyard and winery innovation is quickly becoming part of the Italian viticulture tradition. Read more
The 'Viticulture & Enology: innovation meets tradition' program aims at addressing how vineyard and winery innovation is quickly becoming part of the Italian viticulture tradition. Italy is now the largest wine producer in the world and boasts the greatest variety in terms of cultivars. The pecularities of Italian viticulture and chances to maintain a leading role are today bound to the ability to introduce sustainable innovation without losing its well-known appeal.

Learning objectives

The main goals of the program are:
● To acquire solid methodology and knowledge suitable to address innovation issues in vineyard and winery
● To achieve specific skills for new canopy management technique suitable to mitigate undesired climate-related effects, new sustain- able approaches for pest and disease control, precision viticulture and enology
● Develop the ability to diagnose limiting factors occurring in vine- yard and winery and to produce suitable solutions
● Learn to pro-actively take part in discussions dealing with viticulture and enology topics.

Career opportunities & professional recognition

The Master’s qualification in ‘Viticulture & Enology: innovation meets tradition’ will open up professional opportunities in the fields of Viticulture and enology chain; wine marketing and distribution; restaurants; large scale retail trade and freelancing.

A class that makes a difference

The Master in Viticulture & Enology will be comprised of international students and Cattolica’s domestic students.

Faculty & teaching staff

● Dr. Matteo Gatti - Research Assistant
● Prof. Gabriele Canali - Associate Professor
● Dr. Fabrizio Torchio - Research Assistant
● Prof. Stefano Poni - Full Professor
● Dr. Milena Lambri - Research Assistant
● Prof. Vittorio Rossi - Full Professor
● Dr. Emanuele Mazzoni - Research Assistant

Partner companies

Here are just a few names of prestigious wine estates that gave their preliminary acceptance in hosting internships: Mossi, Tenute Ruf- fino, Barone Ricasoli, Santa Margherita, Sella e Mosca, Mezzaco- rona, Contratto, Ca’ Del Bosco, Zonin, Res Uvae, Marchesi Mazzei, Cavalieri di Malta, Pico Maccario, and Marramiero.

Can I learn Italian while studying?

An intensive Italian course will be available to international students for the duration of the Master in Viticulture & Enology: innovation meets tradition.

Are there internships opportunities?

Students will need to carry out a mandatory internship for the duration of at least 450 hours (i.e. 18 ECTS) in a farm/wine estate/ institution.

A final exam is scheduled including a case study discussion and/or experimental activity carried out during the internship.

Can I work while studying?

Non-EU students entering Italy on a VISA are permitted to work part-time (20 hours per week).

Curriculum

● Vineyard variability: traditional and precision approaches
● Topics in wine-marketing
● Enhancing the wine quality: innovation in monitoring and controls
● Applied grapevine eco-physiology
● Advances in enology
● Disease and pest management toward a sustainable viticulture
● Seminars on sustainable pesticides use and genetic traceability will also be provided

ECTS of each course include also practical activities, wine tasting and field visits.

Tuition fees & scholarships

Tuition fee: €7.000

Scholarships will be available and assigned on a merit basis.

Application Deadlines?

● Priority consideration deadline 1: March 15, 2016
● Priority consideration deadline 2: April 15, 2016. Students wanting to be considered for the programme as well as for available scholarships are advised to apply by these deadlines as a majority of students will be selected within these first two deadlines.
● Priority consideration deadline 3: May 15, 2016. Some scholarships may still be available but very limited.
● Final deadline: June 30, 2016. No scholarships will be available.

How do I apply?

Applying is an easy five step process. The online application form, application instructions, and full admission guidelines are available at > http://www.ucscinternational.it

Cattolica will evaluate your academic and personal background and decide if you meet the specific conditions for admission to the graduate degree of your choice. If you are still studying, you must obtain your undergraduate degree by the end of July 2016 (September for EU students).

English language proficiency

For applicants whose first language is not English they will need to either have a TOEFL iBT overall score of at least 80 or an Academic IELTS overall score of at least 6.0, or have successfully completed a degree program taught in the English language. Cattolica’s TOEFL institution code is 2605.

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- check at. http://www.unipd.it/en/biotecnologie-alimentazione. http://www.unipd.it/en/how-apply. Instructions in English. http://www.unipd.it/en/educational-offer/second-cycle-degrees/school-of-agricultural-sciences-and-veterinary-medicine?ordinamento2011&keyIF0362. Read more

Admission Notice now available

- check at
http://www.unipd.it/en/biotecnologie-alimentazione
http://www.unipd.it/en/how-apply

Instructions in English:
http://www.unipd.it/en/educational-offer/second-cycle-degrees/school-of-agricultural-sciences-and-veterinary-medicine?ordinamento=2011&key=IF0362
.

Biotechnologies for Food Science

In the 2016-2017 academic year, the University of Padova inaugurated a new curriculum of the Master Degree “Biotechnology applied to Food Security and Nutrition” (Second Cycle Degree) entitled “Biotechnologies for Food Science " to be entirely taught in English.
The “Biotechnologies for Food Science " Master degree (MSc) is an interdisciplinary and research-oriented Master of Science Programme and explores how to produce healthier and safer food following a cross-cutting, farm/field-to-fork approach. It is focused on the application of advanced biotechnologies in food production and safety and it is the ideal trait-d’union between the requests of consumers, of producers in the agro-food sector and research applied to production and food-safety.
The course has a strong component on cutting-edge methods, such as genomics, bioinformatics, proteomics, metabolomics, nanotechnologies, all in the context of animal and crop production as well as food quality and safety. Theoretical lessons are mixed with practical training, offering hands-on experience in advanced DNA, RNA, and protein analysis together with substantial lab sessions in bioinformatics. Lectures will deal with food production, hygiene and quality, molecular methods of agro-food analyses, effects of agro-biotech products on human beings and environments. Moreover environmental stresses, disease mechanisms, pathogens and pests will be treated as essential to understand how to protect crop and farm animals and how food might impact on human health: the lectures move across animal infectious disease, immunology, microbiology, plant pests and pathogens as well as abiotic stresses to show how biotechnology might help preventing disease and improve food production. As consumers are increasingly worried about the presence of contaminants in food and on the real origin of what they eat; the Programme includes a course in food toxicology and regulation, and one on traceability for food authentication.
Our Programme is based at the Agripolis campus, where are located four departments of the School of Agriculture and Veterinary Medicine of the University of Padova, all of which contribute to the MSc course, offering the best opportunities for a rich, cross-disciplinary experience in a highly qualified scientific environment.

Who is the MSc candidate?

This programme is open to Italian and foreign students from the EU and abroad, interested in learning and implementing effective value-added practices for the production of high-quality food products both in the EU and in international markets. English knowledge must be minimum at B2 level (CEFR). Applying students might possibly have a three-year Bachelor’s degree in a field connected with the Master’s curriculum. Good background in molecular biology, biochemistry, and microbiology is requested.

How is the programme organised?

Biotechnologies for Food Science is a 2-year Master programme (120 ECTS, equivalent to a Master of Science). Requirements for graduation include courses and preparation and defense of the Master thesis. Students will be encouraged to spend a period of their studies abroad, through Erasmus+ or other local programmes and agreements. Financial support to meet part of the cost for thesis work is granted to best students.
Visit the MSc “Biotechnologies for Food Science” page on the Università di Padova web-site (http://www.unipd.it/en/biotecnologie-alimentazione) for more details.

Teaching methods

Teaching takes place in an international environment and includes lectures and laboratory activities, practical exercises and seminars by experts; opportunities for intensive tutoring and for master thesis-related stages of at least six months duration will be available with outstanding companies in the sector of the food industry or with other relevant organisations in the private or public sphere. The Programme assists students to find suitable internship opportunities with qualified laboratories in Italy and abroad.
Examinations are written or oral and assess students’ participation also through reports, presentations, and group work.

Course structure

During the two-years MSc course students attend the following 12 course units

Applied genomics for animal and crop improvement
Applied Bionformatics
Food Microbiology and Food Microbial Biotechnology
Molecular basis of disease, immunology, and transmissible diseases
Laboratory of advanced DNA, RNA, and protein analysis
Biotechnology for crop production
Epidemiology and risk analysis
Traceability tools for species authentication  
Advanced technologies for the agrifood sector (nanotechnologies, proteomics, metabolomics)
Biotechnology for plant protection
Food toxicology and food regulation
Foreign language (English)

First year
During the first year of the programme the student will acquire knowledge on animal and crop genomics, focusing on the most advanced methods for high throughput genomic analysis (transcriptomics, genome-wide SNP analysis, epigenomics) and on the most recent approaches for selective breeding (genomic selection, genomic prediction). In parallel, the student will learn how bioinformatics tools might be applied to manage large sets of data, how biological data bases are organized and how to link different types of data. Extensive practical training in bioinformatics will be offered with various sessions in a dedicated lab. Food-borne pathogens and the positive role of microorganisms in food processes will be examined in an integrated microbiology course, while the molecular basis of pathology, host-response to infection, epidemiology, and diagnostics of transmissible diseases will form the basis of two courses. A course on biotechnology for crop production will introduce the molecular and physiological basis of crop production. Biotechnological approaches to improve crop yield, with particular attention to fruit production, and to reduce impact of abiotic stresses will examined. Molecular tools for food traceability and an intensive practical lab in DNA/RNA/protein analysis applied to food control will conclude the first year.

Second year
In the second year, the first semester have three courses. One will focus on novel technologies (proteomics, metabolomics, nanotechnology) and their application to food production. A second one will extend knowledge on plant biotechnology exploring advanced technologies for crop disease and pest management. A third one will deal with contaminants in food and food legislation. The second semester is completely dedicated to lab internship. It is possible to join a research lab in the campus or to have a working stage in the private sector.
link to the Campus descriptions:
http://youtu.be/gR4qcWUXvGg

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The Natural Resources Institute (NRI) is a specialised multidisciplinary research organisation within the University of Greenwich. Read more
The Natural Resources Institute (NRI) is a specialised multidisciplinary research organisation within the University of Greenwich. The Institute received the Queen's Anniversary Prize for its research activities on food security in the developing world. Much of NRI's research work is concerned with natural resources, agriculture and social development in developing countries, although it has an expanding portfolio of activities in Europe and other industrialised countries.

NRI provides a thriving environment for MPhil and PhD students working in agricultural and food sciences. Each of NRI's departments has a strong portfolio of research activities, of which students form an important and integral part.

The Agriculture, Health & Environment Department works on the worldwide development of appropriate cost-effective and sustainable approaches to controlling pests, diseases and weeds that affect crop production. Use of biocontrol and control methods involving no (or very low) conventional pesticides are increasing in importance in our work, especially for export crops.

The Department also has researchers who share a common interest in the many species of insects, ticks and rodents that cause injury to their hosts and transmit diseases to both humans and animals. Research is undertaken in the UK, using NRI's state-of-the-art laboratories, insectaries and glasshouses, and also overseas. Particularly strong areas of research include the epidemiology of insect-borne virus diseases, molecular diagnostics, pest and disease modelling, aerobiology and biometeorology, migrant pests, medical and veterinary entomology and integrated pest management.

The Food and Markets Department works on commodity management and food safety of cereals, grains, root crops, perishables and other crops. The Department works with all aspects of the operations of the food industry, including, for example, storage, post-harvest technology, quality analysis and management, compliance with food standards, food processing and value addition, value chains, private and public sector standards and market development. NRI's work provides many opportunities for postgraduates to be involved in multidisciplinary projects.

We offer full-time or part-time attendance, with students based on our campus or in their home countries, or some combination.

Visit the website http://www2.gre.ac.uk/study/courses/pg/res/afs

What you'll study

Recent research project topics include:

- The impact of host plants on the efficacy of nucleopolyhedrovirus as a biopesticide

- Reasons for multiple loans in microfinance and their effect on the repayment performance

- Evaluating the impact of climate change on postharvest quality of perishables

- Laboratory based investigation of the sensory cues used by vector mosquitoes to locate host animals

- Dormancy and sprout control in root and tuber crops

- Investigations into the oviposition behaviour of Anopheles gambiae

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Find out more about our fees and the support available to you at our:
- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)
- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

Students are assessed through their thesis and oral examination.

Career options

Postgraduate research students from NRI have a good record of finding employment within their specific technical discipline or in the field of international development.

Find out how to apply here - http://www2.gre.ac.uk/research/study/apply/application_process

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The Master of Biological Science with a specialisation in Zoology will provide students with a comprehensive understanding of the structure, function, diversity and evolution of animals, as well as the interaction of animals with each other and the environment. Read more
The Master of Biological Science with a specialisation in Zoology will provide students with a comprehensive understanding of the structure, function, diversity and evolution of animals, as well as the interaction of animals with each other and the environment.

You will have the opportunity to study animals and their habitats, including Western Australia's exciting fauna. These habitats are diverse, and range from deserts through to temporary wetlands and rainforests and ultimately the sea. Zoologists discover the solutions to the problems presented by these habitats.

This specialisation integrates theory with practical (both field and laboratory) studies utilising many of the animals and ecosystems from the diverse state of Western Australia as examples.

The Faculty is well equipped for teaching through the School of Animal Biology and is supported by the world class research of the Centre for Evolutionary Biology, the Oceans Institute, and the Centre of Excellence in Natural Resource Management.

Zoologists are concerned with theoretical topics as diverse as molecular evolution, anatomy, physiology, reproduction, behaviour and community ecology, and with applied aspects that range from fauna conservation and pest management to stream ecology and water quality studies.

Why study Zoology at UWA?

1. Discover the vast diversity of animals in south-west Western Australia and beyond
2. Understand how these animals interact with each other and their surrounding environment.
3. Gain first-hand experience with these animals in both the laboratory and the field
4. Appreciate how climate change will affect this fauna along with the impact of other threats such as habitat destruction and fragmentation.
5. Learn how scientific knowledge can be used to develop and implement management strategies to combat these threats.

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