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This taught one-year course will give students a thorough understanding of all aspects of wetland science and ecology. Students will also gain experience and knowledge on the complex conservation, restoration and management issues associated with wetlands. Read more
This taught one-year course will give students a thorough understanding of all aspects of wetland science and ecology. Students will also gain experience and knowledge on the complex conservation, restoration and management issues associated with wetlands. Field and laboratory work will cover the latest techniques in environmental analysis needed for contemporary wetland monitoring and experimentation.

Taught wetland and conservation modules

Wetland ecology
Classification of wetland types
Properties and functions of wetlands
Wetland zoology and botanical adaptations
Wetland hydrology and biogeochemistry
Carbon sequestration in wetlands
Use of wetlands for carbon offsetting
Wetland conservation and restoration techniques
Use and design of constructed wetlands
Wetland plant identification

Instrumental and environmental analysis

Students will learn a variety of instrumental analysis techniques suitable for ecologists interested in environmental analysis and those studying a wide variety of aquatic and terrestrial habitats – not just wetlands. The theory, practical use and basic maintenance of the instruments will be covered, along with sample collection and analysis.

The lab and field based techniques covered include:

pH, conductivity and Redox potential
Greenhouse gas (GHG) collection and analysis using a gas chromatograph (GC) and infra-red gas analysis (IRGA)
Cation and anion concentration analysis using ion chromatography (IC)
Stable isotope analysis with an isotope ratio mass spectrometer (IRMS)

Wetland-based research project

The research project comprises a third of the MSc and is supervised by research active staff with excellent publication record and experience in their field.
Career Options

Students choosing this MSc will enjoy a modular course that will teach both the practical and theoretical aspects of wetland science and conservation. Successful students will therefore develop the skills and experience required to enable progression onto PhD studies in a wide-range of biological, biogeochemical, environmental and conservation based subjects.

The course will also allow students to seek employment in areas related to wetlands, soil science, water treatment and quality, conservation and environmental consultancy.

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This taught one-year course will give students a thorough understanding of all aspects of wetland science required for understanding, design and construction of treatment wetlands for pollution control. Read more
This taught one-year course will give students a thorough understanding of all aspects of wetland science required for understanding, design and construction of treatment wetlands for pollution control. Students will learn the theoretical and practical skills needed in the application of a range of treatment wetlands for pollution control and water management. Field and laboratory work will also cover the latest techniques in environmental analysis needed for contemporary wetland monitoring and experimentation.

Taught wetland modules include:

Wetland classes and biodiversity
Wetland hydrology and biogeochemistry
Wetland Ecosystem Services
International wetland field trip
Constructed treatment wetlands
Instrumental and environmental analysis: alongside the theoretical and practical design skills needed for the building of constructed treatment wetlands students on this course will learn a variety of instrumental analysis techniques. These will be tailored for constructed wetland engineers and biogeochemists interested in environmental analysis and suitable for those studying a wide variety of aquatic and terrestrial habitats – not just wetlands. The theory, practical use and basic maintenance of the instruments will be covered, along with sample collection and analysis.

The lab and field based techniques covered include:

pH, conductivity and Redox potential
Greenhouse gas (GHG) collection and analysis using a gas chromatograph (GC) and infra-red gas analysis (IRGA)
Cation and anion concentration analysis using ion chromatography (IC)
Stable isotope analysis with an isotope ratio mass spectrometer (IRMS)
Modelling for the design of treatment wetlands
Constructed treatment wetland research project: the research project comprises a third of the MSc and is supervised by research active staff with excellent publication record and experience in their field.

There is the possibility of working alongside a constructed wetland consultancy partner for part of the project.

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Environmental issues such as eutrophication, habitat degradation and climate change threaten the sustainability of our aquatic resources. Read more
Environmental issues such as eutrophication, habitat degradation and climate change threaten the sustainability of our aquatic resources. Responding to these threats the Aquatic Science MSc equips students with an interdisciplinary understanding of the structure and functioning of aquatic environments, encompassing lakes, ponds, rivers, wetlands, groundwaters, estuaries and shallow seas.

Degree information

Students focus on integrated freshwater and coastal systems and gain extensive training in field sampling, study design and species identification. Distinctive features include: integration of aquatic ecology with hydro-geomorphology, aquatic landscape ecology, analysis of sediment cores for environmental change reconstruction, design of aquatic monitoring programmes and modelling of aquatic system dynamics. Students come away with a sound knowledge of current-day links between aquatic science, legislation and conservation.

Students undertake modules to the value of 180 credits.

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

A Postgraduate Diploma - 4 core modules and 4 optional modules all 15 credits (120 credits, full-time nine months, part-time two years) is offered. A Postgraduate Certificate - 4 core modules only at 15 credits (60 credits, full-time twelve weeks, part-time two years) is offered.

Core modules
-Aquatic Systems
-Aquatic Monitoring (includes field-trip to Scottish Highlands)
-Environmental Data Acquisition and Analysis
-Scientific Basis for Freshwater and Coastal Conservation (field-based module in Norfolk, England)

*modules running are dependent on staff sabbaticals.

Optional modules - students choose four of the following:
-Lakes
-Coastal Change
-Politics of Climate Change
-Marine Conservation
-Surface Water Modelling
-Wetlands
-Aquatic Macrophytes (field-based module in Dorset, England)
-Impacts of Climate Change on Hydro-ecological Systems
-Biological Indicators of Environmental Change
-Non-biological Indicators for Environmental Change
-Environmental GIS
-Ocean Circulation and Climate Change

*modules running are dependent on staff sabbaticals.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 15,000 words. Dissertation placement positions are offered linked to external conservation bodies and research-orientated consultancies.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, practical classes, laboratory sessions, case-studies and residential field classes. Assessment is through coursework and the dissertation, which includes an oral presentation of the research proposal.

Careers

This programme provides an ideal foundation for PhD research, or for employment with environmental protection and conservation agencies, the water industry and environmental consultancies.

Top career destinations for this degree:
-Education Officer, Norfolk Wildlife Trust
-PhD in Pond Conservation, UCL
-PhD in the Macroecology of Deep Sea Jelly Fish, University of Southampton
-Land Use Adviser, Natural England
-River Catchment Planner, Norfolk Rivers Trust

Employability
The MSc provides students with the science background and practical skills necessary for a career working in aquatic conservation and environmental protection agencies, environmental consultancies and stakeholder agencies. The MSc is also an ideal platform for further PhD study. We aim to expose students to potential employers from the outset and students receive expert tuition in field sampling and monitoring programme design, conservation biology, taxonomy of key species groups, knowledge of important conservation principles and legislation and working with stakeholders.

Why study this degree at UCL?

The Aquatic Science MSc is run by UCL Geography which enjoys an outstanding international reputation for its aquatic environmental research and teaching. The degree has a strong emphasis on field working with three major residential classes to the North Norfolk Coast, Scottish Highlands and Dorset.

The programme is taught by research groups specialising in Environmental Change & Biodiversity, Environmental Modelling & Observation, and has specialist input from the Thames Estuary Partnership, and in-house aquatic consultancy Environmental Scientific Services.

Speakers from environmental organisations including the UK Environment Agency, the Rivers Trusts, Wildfowl & Wetlands Trust, the UK Wildlife Trusts, National Trust and Natural England lecture on the programme and take part in fieldwork. By bringing together students, researchers and practitioners, a vibrant and informal academic environment is created encouraging mutual discovery and ongoing debate.

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Adaptive Organisms focuses on processes at the sub-organism level. Using the latest molecular and physiological tools, we study the adaptations of organisms to environmental stresses. Read more
Adaptive Organisms focuses on processes at the sub-organism level. Using the latest molecular and physiological tools, we study the adaptations of organisms to environmental stresses. The regulatory mechanisms, including genetic constraints, physiological plasticity and the evolutionary history of the responses of organisms are thoroughly explored.
The programme provides a fascinating overview on the adaptability of plants, animals and micro-organisms to sub-optimal conditions, and conveys crucial information for understanding of the effects of environmental change. This information is applied in nature management, but also in biotechnology and breeding programmes.

See the website http://www.ru.nl/masters/biology/organisms

Admission requirements for international students

1. A completed Bachelor's degree in Biology or related area
2. Proficiency in English
In order to take part in this programme, you need to have fluency in both written and spoken English. Non-native speakers of English without a Dutch Bachelor's degree or VWO diploma need one of the following:
- A TOEFL score of >575 (paper based) or >90 (internet based)
- A IELTS score of ≥6.5
- Cambridge Certificate of Advanced English (CAE) or Certificate of Proficiency in English (CPE), with a mark of C or higher

If you don’t meet the academic requirements

If you have not taken the required courses for entry, you will need to catch up in a tailor-made transition programme, depending on your prior education. It may take a maximum of six month and would be evaluated by the examination commission. For more information on transition programmes, please contact Ms. C. Mooren ().

Career prospects

This programme provides you with the qualifications you need to start working on a PhD, or a professional position in the fields of communication, business and management or education. Biologists often continue their research careers in universities, research institutes, pharmaceutical companies and public health authorities. Upon graduation, our students take up positions as researchers or analysts in government departments, research organisations and medical or pharmaceutical companies.

What biologists do:
- Researchers at universities or in companies
- Supervisors of clinical trials
- Consultants
- Lecturers
- Policy coordinators
- Teachers

Where biologists work:
- Research/education
- Health care
- Business services
- Industry
- Government
- Trade

Our approach to this field

Adaptive Organisms focuses on processes at the sub-organism level. Using the latest molecular and physiological tools, we study the adaptations of organisms to environmental stresses. The regulatory mechanisms, including genetic constraints, physiological plasticity and the evolutionary history of the responses of organisms are thoroughly explored.

The programme provides a fascinating overview on the adaptability of plants, animals and micro-organisms to sub-optimal conditions, and conveys crucial information for understanding of the effects of environmental change. This information is applied in nature management, but also in biotechnology and breeding programmes.

Our research in this field

- Rich programme
This M.Sc. programme puts the interactions between organisms into context, and also integrates all levels of organisations - from molecules and cells up to ecosystems and landscapes. This combination of experience results in a rich and coherent MSc. programme of Master's courses and exciting internships with state-of-the-art research institutes. It prepares you for a career in science, both fundamental and applied, but also provides the necessary knowledge for innovative evidence-based applications in nature and water management.

- Personal tutor
Our top scientists are looking forward to taking students them on a challenging and inspiring scientific journey. This programme offers you many opportunities to follow your own interests under the guidance of a personal tutor. Radboud University offers you a multitude of research fields to choose from in close collaboration with the
- academic hospital UMCN St. Radboud;
- Institute for Water and Wetlands Research;
- Nijmegen Centre for Molecular Life Sciences;
- Donders Institute.

This allows you to specialise in a field of personal interest.

See the website http://www.ru.nl/masters/biology/organisms

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Communities and Ecosystems deals with the ecology of units of interacting individuals, in populations, communities and ecosystems. Read more

Master's specialisation in Communities and Ecosystems

Communities and Ecosystems deals with the ecology of units of interacting individuals, in populations, communities and ecosystems. The biodiversity is analysed and functionally related to the hydrology, nutritional status and landscape configuration of the ecosystem. Ecogenomics tools are applied to obtain information on unknown components such as microbial composition or evolutionary history of populations. This information together gives insight in how different communities (plants, animals, micro-organisms) within an ecosystem are interrelated and interdependent, and how they determine the resilience of the community to environmental stress. This fundamental knowledge is applied in proven applications in nature and water management.

See the website http://www.ru.nl/masters/biology/ecosystems

Admission requirements for international students

1. A completed Bachelor's degree in Biology or related area

2. Proficiency in English
In order to take part in this programme, you need to have fluency in both written and spoken English. Non-native speakers of English without a Dutch Bachelor's degree or VWO diploma need one of the following:
-A TOEFL score of >575 (paper based) or >232 (computer based) or >90(internet based)
- A IELTS score of >6.5
- Cambridge Certificate of Advanced English (CAE) or Certificate of Proficiency in English (CPE), with a mark of C or higher

Career prospects

This programme provides you with the qualifications you need to start working on your PhD and in the field of communication, business and management or education. Biologists often continue their research careers in universities, research institutes, pharmaceutical companies and public health authorities. On graduation, our students very quickly take up positions as researchers or analysts in government departments, research organisations and medical or pharmaceutical companies.
What biologists do:
- Researchers at universities or in companies
- Supervisors of clinical trials
- Consultants
- Lecturers
- Policy coordinators
- Teachers

Where biologists work:
- Research/education
- Health care
- Business services
- Industry
- Government
- Trade

Our approach to this field

Communities and Ecosystems deals with the ecology of units of interacting individuals, in populations, communities and ecosystems. The biodiversity is analysed and functionally related to the hydrology, nutritional status and landscape configuration of the ecosystem. Ecogenomics tools are applied to obtain information on unknown components such as microbial composition or evolutionary history of populations. This information together gives insight in how different communities (plants, animals, micro-organisms) within an ecosystem are interrelated and interdependent, and how they determine the resilience of the community to environmental stress. This fundamental knowledge is applied in proven applications in nature and water management.

Our research in this field

- Rich programme
This M.Sc. programme not only puts the interactions between organisms into context, it also integrates all levels of organisation from the molecule and the cell up to ecosystems and the landscape. This combination of experience results in a rich and coherent MSc. programme of Master's courses and exciting internships with state-of-the-art research. It prepares you for a career in science, both fundamental and applied, but also provides the necessary knowledge for innovative evidence-based applications in nature and water management.

- Personal tutor
Our top scientist are looking forward to take you with them on a challenging and inspiring scientific journey. This programme offers you many opportunities to follow your own interests under the guidance of a personal tutor. Radboud University offers you a multitude of research fields to choose from in close collaboration with the
- academic hospital UMCN St. Radboud;
- Institute for Water and Wetlands Research;
- Nijmegen Centre for Molecular Life Sciences;
- Donders Institute.

This allows you to specialise in a field of personal interest.

See the website http://www.ru.nl/masters/biology/ecosystems

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If Environmental Sciences is your passion, the specialisation in Water and Environment would be a great choice. This specialisation aims at the insight needed to tackle problems such as climate change, flooding, eutrophication, chemical pollution, habitat fragmentation and bio-invasions. Read more

Master's specialisation in Water and Environment

If Environmental Sciences is your passion, the specialisation in Water and Environment would be a great choice. This specialisation aims at the insight needed to tackle problems such as climate change, flooding, eutrophication, chemical pollution, habitat fragmentation and bio-invasions. We provide you with the laboratory, field and assessment tools needed to protect ecosystem and human health in the context of multiple environmental pressures. After completing the Water and Environment specialisation you will have the qualifications needed for positions at research institutes, industry, consultancies, universities, governments and other scientific and management oriented organisations.

See the website http://www.ru.nl/masters/waterandenvironment

Admission requirements for international students

1. A completed Bachelor's degree in Biology or related area
2. Proficiency in English
In order to take part in this programme, you need to have fluency in both written and spoken English. Non-native speakers of English* without a Dutch Bachelor's degree or VWO diploma need one of the following:
- A TOEFL score of >575 (paper based) or >90 (internet based)
- A IELTS score of ≥6.5
- Cambridge Certificate of Advanced English (CAE) or Certificate of Proficiency in English (CPE), with a mark of C or higher

Career prospects

After completing the Water and Environment specialisation you will have the qualifications needed for positions at research institutes, industry, consultancies, universities, governments and other scientific and management oriented organisations.

Our approach to this field

If Environmental Sciences is your passion, the specialisation in Water and Environment would be a great choice. This specialisation aims at the insight needed to tackle problems such as climate change, flooding, eutrophication, chemical pollution, habitat fragmentation and bio-invasions. We provide you with the laboratory, field and assessment tools needed to protect ecosystem and human health in the context of multiple environmental pressures. After completing the Water and Environment specialisation, you will have the qualifications needed for positions at research institutes, industry, consultancies, universities, governments and other scientific and management oriented organisations.

Our research in this field

- Rich programme
This M.Sc. programme not only puts the interactions between organisms into context, it also integrates all levels of organisation from the molecule and the cell up to ecosystems and the landscape. This combination of experience results in a rich and coherent MSc. programme of Master's courses and exciting internships with state-of-the-art research. It prepares you for a career in science, both fundamental and applied, but also provides the necessary knowledge for innovative evidence-based applications in nature and water management.

- Personal tutor
Our top scientist are looking forward to take you with them on a challenging and inspiring scientific journey. This programme offers you many opportunities to follow your own interests under the guidance of a personal tutor. Radboud University offers you a multitude of research fields to choose from in close collaboration with the
- academic hospital UMCN St. Radboud;
- Institute for Water and Wetlands Research;
- Nijmegen Centre for Molecular Life Sciences;
- Donders Institute.

This allows you to specialise in a field of personal interest.

See the website http://www.ru.nl/masters/waterandenvironment

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Become a specialist wildlife conservation practitioner with practical skills, experience and knowledge innovation to protect the world’s most vulnerable species. Read more
Become a specialist wildlife conservation practitioner with practical skills, experience and knowledge innovation to protect the world’s most vulnerable species. Learn from our conservation partners and work with major conservation organisations to prepare for a rewarding career.

Key benefits

The course is delivered on site at Bristol Zoo Gardens and its sister site, the Wild Place Project. These locations give you an opportunity to develop your skills and test innovative strategies and products.

We have excellent links to industry and business in the South West, including Avon and Somerset Wildlife Trusts. Sites of international conservation importance, such as the Avon Gorge and Somerset Levels, are on our doorstep, so there are plenty of fieldwork opportunities.

Course detail

This exciting course is not just theoretical. It's designed to give you hands-on experience of contemporary and advancing techniques for conserving biodiversity in a rapidly changing world. It's delivered in collaboration with the internationally renowned Bristol Zoological Society (BZS), and is unique in the way it prepares you for complete practical conservation.

Alongside developing your abilities and practice in ecosystem and species conservation, communication and effecting behaviour change, the MSc Advanced Wildlife Conservation in Practice course has a strong emphasis on developing your innovation and entrepreneurial skills. There is an ever more pressing need for conservationists to create and work with emerging technologies to ensure we maximise the opportunities for biodiversity conservation.

Modules

• Advanced ecosystem conservation in practice
• Advanced species conservation in practice
• Communication for conservation
• Innovation and Enterprise in Conservation
• Research Project

Format

Teaching is split equally between BZS staff and UWE Bristol staff, with some additional content from other partner organisations, such as RSPB and the Wildfowl and Wetlands Trust (Slimbridge). You'll have the opportunity to become immersed in a major conservation organisation, interact with experts engaged in ground-breaking conservation projects across the globe, and meet practising conservationists and ecologists from a wide range of organisations. This gives you the opportunity to develop your professional network and hone your skills towards the job you want.

Each teaching block includes a guest tutor from an outside organisation, while some of the module assignments will require you to network with conservation managers from your local area.

Assessment

Each module assessment is specifically designed to allow you to develop your practical skills and understanding, and increase your employability once you graduate. They will usually take the form of mini-projects and will require you to master advanced techniques in wildlife conservation and evaluate their effectiveness in a range of circumstances. The projects include presentations, portfolios and reports. There are no formal written exams.

Careers / Further study

The course has been developed with a wide range of stakeholders from the ecological consultancy and charity sectors. We use their feedback to ensure the skills you gain are the ones employers are looking for. On completion of the course, you will be excellently placed to seek work in national and international conservation organisations and ecological consultancies, government agencies or even to set up your own NGO.

You may choose to continue your conservation research or go on to doctorate-level studies. The course also gives you the potential to become a chartered member of the Institute of Environmental Management.

How to apply

Information on applications can be found at the following link: http://www1.uwe.ac.uk/study/applyingtouwebristol/postgraduateapplications.aspx

Funding

- New Postgraduate Master's loans for 2016/17 academic year –
The government are introducing a master’s loan scheme, whereby master’s students under 60 can access a loan of up to £10,000 as a contribution towards the cost of their study. This is part of the government’s long-term commitment to enhance support for postgraduate study.

Scholarships and other sources of funding are also available.

More information can be found here: http://www1.uwe.ac.uk/students/feesandfunding/fundingandscholarships/postgraduatefunding.aspx

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This Master's degree is designed for students who wish to practice across a broad range environmental engineering and apply new sustainable risk management strategies for complex environmental problems. Read more
This Master's degree is designed for students who wish to practice across a broad range environmental engineering and apply new sustainable risk management strategies for complex environmental problems. Water, Waste and Environmental Engineering has been traditionally referred to as public health engineering in the United Kingdom. In this postgraduate course, the technical aspects of both natural and engineering environmental systems will be covered. There will be broad interdisciplinary subjects synthesizing knowledge from a wide spectrum of science and engineering, expanding the content of public health engineering, which in the UK has traditionally been responsible for developing the infrastructure for managing water and waste.

Students will develop engineering skills and be able to design, develop and apply concepts for water and waste as a resource based on environmental sensitivity and be competent in planning, modelling, design, construction, operations, maintenance and control of both engineered and natural water and earth resources.

Students who select this postgraduate programme will gain a skill set that will enable them to progress in the fields of:

- Environmental engineering
- Desalination and water reuse
- Water resources engineering
- Hydraulics and hydrology
- Environmental fluid hydraulics
- Environmental remediation
- Waste management
- Other specialities valued in both the private and public sectors.

The MSc in Water, Waste and Environmental Engineering will incorporate solid waste management, contaminated land treatment and the use of geographic information systems (GIS) with emphasis on management of the earth's resources.

The programme will explain the relationship between different earth resources including hydrosystems, both 'engineered' - hydro-power plants, water/wastewater treatment plants, sewers - and 'natural' - rivers, lakes, wetlands, irrigation districts, reservoirs etc., solid wastes, brownfield land, and geo-derived primary resources and their sustainable management.

The aims of the programme are:

- To show you how to design, implement and manage sustainable, risk-reduced eco-friendly solutions for reducing the environmental impact of exploitation of earth's resources in the context of environmental engineering-related issues facing global societies

- To provide you with the skills to further your careers in these areas

- To support you in understanding the innovative and pioneering approaches in this field and to be able to apply them to the solution of real-world problems in developing novel industrially-relevant solutions.

Visit the website http://www2.gre.ac.uk/study/courses/pg/enggen/wwee

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

Environmental Engineering and Sustainability (15 credits)
Hydrosystems Engineering and Management (15 credits)
Individual Research Project for Civil and Environmental Engineering (60 credits)
Information Technologies for Environmental Engineering (15 credits)
Research, Planning and Communication (15 credits)
Waste Management and Remediation Technology (15 credits)
Desalination and Water Reuse (15 credits)
Water and Sanitation for Developing Countries (15 credits)
Water and Wastewater Engineering (15 credits)

Part time
- Year 1:
Students are required to study the following compulsory courses.

Environmental Engineering and Sustainability (15 credits)
Information Technologies for Environmental Engineering (15 credits)
Waste Management and Remediation Technology (15 credits)
Desalination and Water Reuse (15 credits)

-Year 2:
Students are required to study the following compulsory courses.

Hydrosystems Engineering and Management (15 credits)
Individual Research Project for Civil and Environmental Engineering (60 credits)
Research, Planning and Communication (15 credits)
Water and Sanitation for Developing Countries (15 credits)
Water and Wastewater Engineering (15 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.

Teaching and learning

The number of contact hours (e.g. lectures, seminars and feedback on assignments) per module/course ranges from 50-75 hours for the one year full time programme or roughly equivalent to four hours per week per module. The expected self-study time is approximately 80-90 hours per module per year (roughly equivalent to four hours per week per module).

You will be taught by academics with a range of industrial and academia experience for each module.

Assessment

Project work, assignments and laboratory exercises in addition to substantial written examination of course materials will occur in most modules. The Environmental Engineering Research Project will require submission of a substantial final report/dissertation. Assessment of this module will involve participation in a poster and seminar presentation and a final oral examination.

Professional recognition

Accreditation will be sought from the Chartered Institution of Water and Environmental Management (CIWEM) and The Joint Board of Moderators (JBM) including the Institution of Civil Engineers, The Institution of Structural Engineers, the Chartered Institution of Highways and Transportation and Institute of Highway Engineers.

Career options

Postgraduate students from this programme will find such employment opportunities as engineers, scientist and technical managers in the private sector (engineering design firms, engineering consultancy, project management, risk management and waste management), in the public sector (environmental protection engineering, regulations and standards, local government) and in non-governmental sectors (NGOs, environmental advocacy) or may wish to pursue further qualifications such as a PhD within the Faculty of Engineering and Science at the University of Greenwich to become even more specialised. Employers of environmental engineers include engineering consultancies (such as AECOM, Atkins, Mott MacDonald Group, Hyder), government agencies (such as Environment Agency, Scottish Environment Protection Agency) and NGOs (such as Oxfam, Engineers without Boarders, Water Aid).

Careers and employability

FACULTY OF ENGINEERING & SCIENCE
We work with employers to ensure our degrees provide students with the skills and knowledge they need to succeed in the world of work. They also provide a range of work experience opportunities for undergraduates in areas such as civil engineering, manufacturing and business information technology.

Students also benefit from the services provided by the university’s Guidance and Employability Team, including ‘JobShop’, mentoring, volunteering and the student ambassador scheme.

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

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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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Memorial University's Master of Science in Boreal Ecosystems and Agricultural Sciences program is a rigorous, hands-on study of resources and agriculture in the context of boreal ecosystems. Read more
Memorial University's Master of Science in Boreal Ecosystems and Agricultural Sciences program is a rigorous, hands-on study of resources and agriculture in the context of boreal ecosystems. The program focuses on the science and economics of plant, soil, land, and water resources. The program integrates brand-new labs in the Boreal Ecosystems Research Facilities, and through a combination of course, lab, and field work, and a required thesis, helps prepare students for any number of careers in environmental and agricultural industries.

Grenfell Campus is renowned for its environmental programming which enables students in its programs to draw upon a wide range of faculty with diverse environmental interests. Located in western Newfoundland, Grenfell is ideally placed to provide hands-on experiences in a diverse boreal environment. This includes wetlands, boreal forest, the atlantic ocean, numerous river systems, and sub-arctic tundra. With approximately 1,300 students, the university campus is an ideal size to allow students to work closely with faculty in pursuit of their studies.

The MSc program requires a selection of core courses and courses for specialization, followed by a mandatory thesis.

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Deepen your knowledge and experience in a rigorous biology graduate program customized to you and your research interests. At Acadia, you will be part of one of the most vibrant and community-focused departments in the region. Read more
Deepen your knowledge and experience in a rigorous biology graduate program customized to you and your research interests. At Acadia, you will be part of one of the most vibrant and community-focused departments in the region.
In Acadia's Master of Science in Biology you will enhance your expertise in modern research methods in biology and deepen your knowledge in your chosen area of study. Although we have a wide variety of research areas to suit your interest, you will benefit from a small school experience, working closely with your supervisor and others in the same research group, and developing a close relationship with your fellow graduate students.

Within our graduate program emphasis is placed on research rather than coursework. You will work with your supervisor and advisory committee to determine an individualized program of study suited to your research interests. Through many of our research programs you will also gain experience working with individuals and organizations in the local community.

Be Inspired

Acadia is located near the tidal mud flats of the Bay of Fundy (named one of the Seven Natural Wonders of the World) and within the Annapolis Valley, so our location provides you with access to a variety of ecosystems including, aquatic, wetland, farm, and forest. These habitats are used in field-based research work to give you a balance of outdoor and indoor learning experiences throughout the program.

We have also taken leadership roles in some of the largest projects in the Atlantic region. Acadia, through the Acadia Tidal Energy Institute, is actively involved in tidal power initiatives in the Bay of Fundy. Acadia is a partner with Ducks Unlimited Canada in waterfowl and wetlands conservation projects. Watershed management and estuarine systems are studied through the Acadia Centre for Estuarine Research, the only centre of its kind in Canada.

Research Interests

-Animal movement and its relationship to population dynamics and conservation
-Cancer immunology
-Coevolution of parasites and hosts
-Conservation biology
-Developmental biology, and its relation to evolutionary change
-Ecology and health of coastal habitats
-Fungal endophytes of coastal and marine plants
-Immune cell developmental pathways
-Impacts of anthropogenic disturbances in coastal ecosystems on fish
-Insect pheromone processing and behaviour
-Interaction between parasites and host ecology
-Management and recovery of species at risk
-Molecular evolution and molecular systematics in bivalves and mammals
-Natural history of beetles and birds in forested and agricultural landscapes
-Floral character evolution in family Rosaceae and genus Vaccinum
-Pest management in forestry and agriculture
-Plant ecology
-Plant systematics, phylogeny and evolution
-Population dynamics
-Role of relaxin family peptides and their receptors in neuroprotection
-Tidal energy and its impacts
-Watershed management

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The International Community increasingly faces the task of addressing a plethora of environmental challenges. Read more
The International Community increasingly faces the task of addressing a plethora of environmental challenges. The LLM Environmental law provides an insight into the international legal response to these various challenges which include global warming, ozone layer depletion, the over-exploitation by mankind of wildlife species and the destruction of vital habitat sites.

Many environmental problems require an international response. This course aims to provide the student with an insight into international environmental law with a focus on the general themes and principles in this area, the law relating to the protection of biodiversity, and that which endeavours to prevent or at least minimise the impact of transfrontier pollution.

The modules taught on this course cover a wide range of issues of contemporary relevance. The underlying purpose is to provide a solid grounding in the basic principles of European Community and international environmental law as applied in a particular context.

How has international environmental law evolved historically? Who are the main actors in the field? What key principles underpin regulation? What do we mean by the pursuit of “sustainable development”? How is the law in this area enforced? Treaty regimes explored include those relating to acid deposition, climate change, ozone layer depletion, nuclear contamination and freshwater pollution. In addition, an insight will be given to the various treaty regimes that seek to address the continuing pressures on the world’s biodiversity. For example, how is commercial whaling now regulated? What system is in place to regulate trade in endangered species? What of the protection of wetlands, Antarctica, world heritage and of migratory species?

Modern techniques of environmental regulation are also addressed, such as the funding mechanisms for international environmental treaties (e.g. Biodiversity Convention, Ozone Layer Convention) and the procedural requirement for environmental impact assessment of certain activities under international and European Community law.

Since its introduction in 1987, our LLM programme has continued to grow in popularity and prestige. Offering a wide and diverse range of over 50 options, the programme now attracts some 150 to 180 candidates each year, from more than 50 countries, confirming its status as one of the leading and most exciting LLM programmes available.

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This interdisciplinary programme is designed to provide an opportunity to explore the interplay between scientific knowledge and law. Read more
This interdisciplinary programme is designed to provide an opportunity to explore the interplay between scientific knowledge and law. You may take courses that address the international legal response to the growing number of pressures on the global environment, and complement these by studying a variety of courses designed to give an introduction to physical and/or biological sciences.

Climate change, acid rain, biodiversity conservation, species extinction, contaminated land - these are but a few of the environmental issues that constitute headline news today. Modules offered by the School of Law are designed to give a wider understanding of EC and international law perspectives on environmental problems that frequently can only be addressed through regional or international regulation. How has international environmental law evolved historically? Who are the main actors in the field? What key principles underpin regulation? What do we mean by the pursuit of “sustainable development”? How is the law in this area enforced?

Treaty regimes explored include those relating to acid deposition, climate change, ozone layer depletion, nuclear contamination and freshwater pollution. In addition, an insight will be given to the various treaty regimes that seek to address the continuing pressures on the world’s biodiversity. For example, how is commercial whaling now regulated? What system is in place to regulate trade in endangered species? What of the protection of wetlands, Antarctica, world heritage and of migratory species?

The scientific element of the programme is designed to provide a background in biological and/or physical sciences, and also an understanding of relevant mathematical and computer science to facilitate a quantitative understanding of environmental issues.

Addressing these issues to ensure a clean and healthy environment for the enjoyment of future generations is one of the greatest challenges for environmental science and law.

Key facts

The School of Law is rated as ‘internationally outstanding’ (Grade 5A on a scale of 1-5) for its research and as ‘Excellent’ for its teaching quality.
The School enjoys important professional relationships with international institutions; leading firms in the City of London and the provinces; private industry and consultancies; and non-governmental organisations.
The School of Biosciences is one of the largest and strongest Schools of its kind in the UK.
It has consistently achieved high ratings in independent UK assessments of both research and teaching quality, receiving an RAE grade of 5A and 23/24 in the latest Teaching Quality Assessment.
The Sutton Bonington Campus is a self-contained, 16-hectare site in the beautiful countryside of South Nottinghamshire and it offers a number of dedicated facilities applicable to this course.

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

What will I study?

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

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

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

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

How will I study?

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

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

How will I be assessed?

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

Who will be teaching me?

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

What are my career prospects?

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

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Environmental engineering uses science and engineering principles to assess and mitigate pollution for the benefit of human health and the environment. Read more
Environmental engineering uses science and engineering principles to assess and mitigate pollution for the benefit of human health and the environment. This research programme requires an understanding of biology, chemistry, physics, engineering, socio-economics and legislation to develop solutions for the sustainable provision of clean air, land and water for humankind.

By pursuing research in the School of Civil Engineering and Geosciences you will join an extremely successful research group focussing on environmental civil engineering. Our mission is to foster, promote and conduct research of international quality. This means that we attract high quality graduates and researchers and train them to international standards.

This research programme is ideal if you are enthusiastic about environmental engineering research. Our main research themes in environmental engineering are:
-Engineered biological systems
-Mining and metals in the environment
-Biochemical processes in contaminated water, soils and sediments
-Safe water and sanitation in developing countries

We offer MPhil and PhD supervision in the following research areas:
-Anaerobic digestion
-Manipulation of the fate of micro-pollutants
-Pollutant sequestration
-Bioremediation
-Risk assessment
-Sanitation and low-cost water supplies for developing countries
-Waste stabilisation ponds
-Constructed wetlands
-Minewater treatment
-Carbon neutral initiatives
-Geothermal energy

Our microbiological research has a strong emphasis on understanding and engineering biological processes using ecological theory, underpinned by exploration of molecular techniques, eg fluorescent in situ hybridisation, quantitative PCR, and denaturing gradient gel electrophoresis.

Delivery

We have extensive contacts in the UK and overseas to enable research to be carried out in collaboration with industry and government agencies. Research projects are supervised by staff with a wide range of industrial and academic experience. Professor Thomas Curtis and Professor David Graham, both Professors of Environmental Engineering, are a couple of our notable academic staff.

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