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Masters Degrees (Ecological Modelling)

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he contribution of mathematical and computational modelling to the understanding of biological systems has rapidly grown in recent years. Read more
he contribution of mathematical and computational modelling to the understanding of biological systems has rapidly grown in recent years. This discipline encompasses a wide range of life science areas, including ecology (e.g. population dynamics), epidemiology (e.g. spread of diseases), medicine (e.g. modelling cancer growth and treatment) and developmental biology.

This programme aims to equip students with the necessary technical skills to develop, analyse and interpret models applied to biological systems. Course work is supported by an extended and supervised project in life science modelling.

Students will take a total of 8 courses, 4 in each of the 1st and 2nd Semesters followed by a 3-month Project in the summer. A typical distribution for this programme is as follows:

Core courses

Modelling and Tools;
Mathematical Ecology;
Dynamical Systems;
Mathematical Biology and Medicine.

Optional Courses

Optimization;
Numerical Analysis of ODEs;
Applied Mathematics;
Statistical Methods;
Stochastic Simulation;
Partial Differential Equations;
Numerical Analysis;
Geometry;
Climate Change: Causes and Impacts;
Biologically Inspired Computation;
Climate Change: Mitigation and Adaptation Measures.

Typical project subjects

Population Cycles of Forest Insects;
Modelling Invasive Tumour Growth;
The replacement of Red Squirrels by Grey Squirrels in the UK;
Wiring of Nervous System;
Vegetation Patterning in Semi-arid Environments;
Daisyworld: A Simple Land Surface Climate Model.

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There is a growing need for qualified professionals with expertise in environmental modelling. The UCL Environmental Modelling MSc is a cross-disciplinary degree that provides rigorous technical and scientific training for the next generation of environmental modelling professionals. Read more
There is a growing need for qualified professionals with expertise in environmental modelling. The UCL Environmental Modelling MSc is a cross-disciplinary degree that provides rigorous technical and scientific training for the next generation of environmental modelling professionals.

Degree information

You will gain a well-rounded training in the role, implementation and application of models in environmental science. Core modules provide a critical perspective on model-based science, and introduce essential computational and numerical methods. The programme is contextualised with reference to the challenges of understanding both natural and human-induced changes to a variety of environmental systems.

Students take modules to the value of 180 credits. The programme consists of four core modules (60 credits), optional modules (60 credits) and a research dissertation (60 credits). A Postgraduate Diploma (120 credits, full-time nine months, part-time two years) is offered. A Postgraduate Certificate (60 credits, full-time 12 weeks, part-time one year) is offered.

Core modules
-Models in Environmental Science
-Global Environmental Change
-Scientific Computing
-Analytical and Numerical Methods

Optional modules - options may include:
-Climate Modelling
-Coastal Change
-Environmental GIS
-Impacts of Climate Change on Hydro-Ecological Systems
-Lakes
-Ocean Circulation and Climate Change
-Surface Water Modelling
-Terrestrial Carbon: Monitoring and Modelling
-Other MSc modules offered across UCL may be taken at the discretion of the MSc convenor

Dissertation/report
All students undertake an independent research project, culminating in a dissertation of approximately 12,000 words and an oral presentation.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, and laboratory and computer-based practical classes. Assessment is through independent project work, practical-based and written coursework, written examinations and the dissertation.

Careers

The programme has been designed to provide an ideal foundation for PhD research, or for employment with environmental monitoring and protection agencies, industry and environmental consultancies. Graduates have gone on to careers as management consultants, business analysts and university researchers.

Top career destinations for this degree:
-Research Fellow, University of Girona and studying PhD Sanitas, Universitat de Girona (University of Girona)
-Risk Analyst, Canopius

Employability
Modelling was identified as the highest priority UK skills gap in a government review of the environmental sector. This MSc programme exposes students to the full range of environmental modelling which places graduates in a strong position to find employment. We anticipate that graduates of this MSc are either employed in the private environmental consulting sector or undertake a PhD.

Why study this degree at UCL?

The Environmental Modelling MSc is run by UCL Geography which enjoys an outstanding international reputation for its research and teaching. Research groups contributing to the MSc include those concerned with environmental modelling and observation, past climates, and recent environmental change and biodiversity.

The programme draws on the unrivalled strengths of UCL in environment modelling. Our expertise encompasses state-of-the-art global climate models, regional ocean models, advanced hydrodynamic and hydrological simulations, palaeoclimate reconstruction over geological to recent historical timescales, earth observation-derived vegetation and carbon cycle modelling, and model-based assessment of climate change impacts on coastal, estuarine and freshwater systems.

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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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Ecological Economics focuses on how to make sustainability and environmental management work in practice by applying economic principles. Read more

Programme description

Ecological Economics focuses on how to make sustainability and environmental management work in practice by applying economic principles.

This programme is run in collaboration with Scotland’s Rural College (SRUC). Graduates with postgraduate training in this area are in greater demand than ever before in business, industry and government.

This programme is affiliated with the University's Global Environment & Society Academy.

Programme structure

You will learn through lectures, group work, informal group discussion and individual study, as well as the spring study tour. After two semesters of taught courses, you will begin work on your individual dissertations. You will be able to choose from a wide selection of option courses to suit individual interests and career goals.

Compulsory courses typically will be*:
•Foundations in Ecological Economics
•Applications in Ecological Economics
•Dissertation

Option courses:

In consultation with the Programme Director, you will choose from a range of option courses*. We particularly recommend:
•Human Dimensions of Environmental Change and Sustainability
•Principles of Environmental Sustainability
•Project Appraisal
•Ecosystem Dynamics and Functions
•Understanding Environment and Development
•Marine Systems and Policies
•Atmospheric Quality and Global Change
•Culture, Ethics & Environment
•Encountering Cities
•Frameworks to Assess Food Security
•Integrated Resource Management
•International Development in a Changing World
•Introduction To Spatial Analysis
•Principles of GIS
•Society and Development
•Soil Protection and Management
•Environmental Impact Assessment
•Climate Change and Corporate Strategy
•Participation in Policy and Planning
•Waste Reduction and Recycling
•Water Resource Management
•Political Ecology
•Case Studies in Sustainable Development
•Management of Sustainable Development
•Ecosystem Values and Management
•Forests and Environment
•Further Spatial Analysis
•Integrated Resource Planning
•Interrelationships in Food Systems
•Introduction to Environmental Modelling
•Sustainability of Food Production
•Understanding the City

*Please note: courses are offered subject to timetabling and availability and are subject to change each year.

Field trip

To experience and understand conflict between ecosystem conservation and human development needs at ground level, we typically offer a unique 7-10-day study tour, usually overseas and in the developing world (previous destinations have included South Africa, Kenya and Tanzania).

Career opportunities

Being able to identify ecological economic problems, and apply economic principles and methods to solve these problems is increasingly valued by employers.

Our graduates are working in a variety of sectors, including environmental consultancies; international and governmental agencies; NGOs; financial institutions; multinationals; environmental education and research.

Additionally around a quarter of our masters students go on to doctoral research programmes.

Student experience

Would you like to know what it’s really like to study at the School of GeoSciences?

Visit our student experience blog where you can find articles, advice, videos and ask current students your questions.
https://edingeoscistudents.wordpress.com/

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We are pleased to announce the creation of our new MSc Ecological Economics. The course is based in the School of Earth and Environment with some of the modules being taught by the Leeds University Business School. Read more

Overview

We are pleased to announce the creation of our new MSc Ecological Economics. The course is based in the School of Earth and Environment with some of the modules being taught by the Leeds University Business School. It reflects a new approach to teaching economics that focuses on real-world problems and integrates a wide range of different perspectives.

Many of the most serious environmental and social problems that we face can be traced to root causes in our economic system. On this course, you will develop an understanding of how economic activity gives rise to environmental and social problems, and be introduced to the main tools to tackle them.

You will join one of the largest and most renowned centres of ecological economics research in the world on a course that challenges conventional thinking and introduces a real-world approach to teaching economics. You can combine modules that help you build strong conceptual foundations in sustainability with specialist modules in ecological, environmental, and heterodox economics. The course is ideal if you have an interest in analysing economic issues with a focus on their social and environmental consequences, but you don't need to have completed a previous degree in economics.

Course Highlights

• Study topics ranging from the value of ecosystem services to managing an economy without growth.
• Learn analytical tools such as input-output analysis and system dynamics modelling.
• Gain skills that are in demand by organisations ranging from government and academia to international NGOs and social enterprises, and have access to career opportunities through our vibrant alumni community.
• Potentially carry-out your research dissertation project with a partner organisation. This collaborative arrangement is designed to help you to deliver research that generates a real-world impact, while at the same time creating high employment prospects.

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This degree is designed primarily for students with no previous specialisation in marine science such as graduates with a degree in biological sciences, chemistry or materials science, physics, maths, environmental science, physical geography or related disciplines. Read more

Summary

This degree is designed primarily for students with no previous specialisation in marine science such as graduates with a degree in biological sciences, chemistry or materials science, physics, maths, environmental science, physical geography or related disciplines. The programme includes compulsory introductory modules that provide a foundation in interdisciplinary marine science, along with the opportunity to specialise in particular areas through an option of modules, as well as research project experience with marine scientists at the National Oceanography Centre Southampton (NOCS). To highlight the specialisations possible, we have developed “pathways” of suggested module choices, which include: Marine Biology and Ecology; Physical Oceanography and Climate Dynamics; Marine Biogeochemistry; Marine Geology and Geophysics; Marine Resources and Law

Students can either follow one of these “pathways”, or mix options from different pathways, where the timetable allows, to pursue broader interests. Employment in the marine environmental sector is a common destination for MSc Oceanography graduates, and as the degree is a “conversion” to marine science from “pure” science backgrounds, around one-third of graduates also go on to PhD research in marine sciences.

Modules

Semester one

Core introductory modules: Biological Oceanography; Chemical Oceanography; Marine Geology; Physical Oceanography Plus: Key Skills and Literature Review

Optional modules: two from: Applied and Marine Geophysics; Biogeochemical Cycles in the Earth System; Coastal Sediment Dynamics; Computational Data Analysis for Geophysicists and Ocean Scientists; Deep-sea Ecology; Geodynamics and Solid Earth Geophysics; International Maritime and Environmental Law; Introductory Remote Sensing of the Oceans; Large-scale Ocean Processes; Microfossils, Environment and Time; Zooplankton Ecology and Processes

Semester two

Optional modules: three from: Global Ocean Carbon Cycle, Ocean Acidification and Climate; Applied Coastal Sediment Dynamics; Climate Dynamics; Ecological Modelling; Environmental Radioactivity and Radiochemistry; Global Climate Cycles; Global Ocean Monitoring; Seafloor Exploration and Surveying 2; Structure and Dynamics of Marine Communities; UN Convention on the Law of the Sea

Plus: Key Skills and Literature Review Research project: From June to September, students work full-time on an independent research project that represents one-third of the MSc degree.

Visit our website for further information...



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This programme provides broad knowledge of marine geological and geophysical techniques and advanced training in marine geophysical exploration techniques, mathematical modelling, geodynamics, coastal processes, micropalaeontology or palaeoceanographic expertise. Read more

Summary

This programme provides broad knowledge of marine geological and geophysical techniques and advanced training in marine geophysical exploration techniques, mathematical modelling, geodynamics, coastal processes, micropalaeontology or palaeoceanographic expertise.

You will gain hands-on research experience through an advanced project with leading international researchers. The MRes focuses less on taught modules and more on the research project (about two-thirds of the year).

Modules

Semester one:

Core modules: Contemporary Topics in Ocean and Earth Science; Introduction to Marine Geology; plus one from Introduction to Chemical Oceanography or Introduction to Physical Oceanography

Optional modules: Applied and Marine Geophysics; Basin Analysis; Coastal Sediment Dynamics; Computational Data Analysis for Geophysicists and Ocean Scientists; Geodynamics and Solid Earth Geophysics; Microfossils, Environments and Time

Semester two:

Optional modules: Applied Coastal Sediment Dynamics; Ecological Modelling; Global Climate Cycles;
High-resolution Marine Geophysics

Plus research project

Visit our website for further information...



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You will focus on a particular area of oceanography, which may be influenced by the subject area of your first degree, and develop specific knowledge and skills in areas determined by the modules you select and the nature of the research you undertake. Read more

Summary

You will focus on a particular area of oceanography, which may be influenced by the subject area of your first degree, and develop specific knowledge and skills in areas determined by the modules you select and the nature of the research you undertake. The MRes is a research-led programme that differs from the MSc in focusing less on taught modules and more on the research project (about two-thirds of the year).

Modules

Semester one Core modules: Contemporary Topics in Ocean and Earth Science; plus one from: Introduction to Biological Oceanography; Introduction to Chemical Oceanography; Introduction to Marine Geology; Introduction to Physical Oceanography

Optional module: one from: Biogeochemical Cycles in the Earth System; Computational Data Analysis for Geophysicist and Ocean Scientists; Deep-sea Ecology; International Maritime and Environmental Law; Introductory Remote Sensing of the Oceans; Large scale Ocean Processes; Zooplankton Ecology and Processes

Semester two
Optional module: one from: Applied Biogeochemistry and Pollution; Applied Coastal Sediment Dynamics; Climate Dynamics; Ecological Modelling; Environmental Radioactivity and Radiochemistry; Global Climate Cycles; Reproduction in Marine Animals; Sea Floor Exploration and Surveying 2; Structure and Dynamics of Marine Communities; UN Convention on the Law of the Sea

Plus research project

Visit our website for further information...



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If you are interested in the possibility of a research degree (PhD or Research Masters) in the School of Mathematical Sciences, we encourage you to become familiar with the range of research activity and expertise in the School. Read more
If you are interested in the possibility of a research degree (PhD or Research Masters) in the School of Mathematical Sciences, we encourage you to become familiar with the range of research activity and expertise in the School. In particular, we would encourage you to approach or contact members of the academic staff whose research area may be of particular interest.

The research of the School covers a wide range of areas including:

Analysis (Infinite-dimensional analysis, Functional Analysis, Potential Theory)
Algebra (Matrix Theory, K-theory, Quadratic and Hermitian Forms)
Discrete Mathematics (Coding, Cryptography, Number Theory)
Applied Mathematics (Fluid Dynamics, Computational Science, Meteorology, Biomathematics, Information Theory)
Theoretical Physics (Astrophysics, General Relativity, Quantum Gravity, Statistical Mechanics, Quantum Field Theory)
Statistics (Bayesian Statistics, Pharmaceutical, Medical and Educational Statistics, Environmental and ecological modelling, Epidemiology, Econometrics).

Please see our School Website for more details:
http://www.ucd.ie/mathstat

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Ecology and evolutionary biology offer a perspective on biology from the level of genes to communities of species. In the master's degree program, you can become familiar with a wide variety of topics in three areas. Read more
Ecology and evolutionary biology offer a perspective on biology from the level of genes to communities of species.

In the master's degree program, you can become familiar with a wide variety of topics in three areas: ecology, evolutionary biology and conservation biology. You can choose studies from any of these areas, as well as from other master's degree programmes. The programme is diverse and multidisciplinary: teaching is done with lectures, laboratory and computer training courses, interactive seminars, study tours and field courses. The field courses range from the northern subarctic region to tropical rainforests.

Our wide expertise extends from molecular ecology to population and community biology. The Centres of Excellence of Metapopulation Biology and Biological Interactions are located in our department.

Our programme offers you a wide range of options: evolutionary biology or genetics for those interested in ecological genetics and genomics, as well as the ability to take advantage of the high-quality molecular ecology and systematics laboratory; conservation biology for those interested in regional or global environmental problems; and ecological modelling skills for those interested in computational biology. Our training also offers Behavioural Ecology.

Ecology, evolutionary biology and conservation biology are not only fascinating topics for basic research, they also have a key role in addressing global environmental challenges.

Upon graduating from the Master's degree in ecology and evolutionary biology programme, you will:
-Have mastered the main theories and methods in ecology and evolutionary biology and be able to apply them to practical problems.
-Be able to plan and carry out a scientific research project.
-Have read the relevant scientific literature and be able to utilise your expertise in different types of work.
-Be able to work as an expert in your field.
-Be able to to write good scientific English.
-Be able to work in research projects and groups.
-Be able to continue on to doctoral studies.

The University of Helsinki will introduce annual tuition fees to foreign-language Master’s programmes starting on August 1, 2017 or later. The fee ranges from 13 000-18 000 euros. Citizens of non-EU/EEA countries, who do not have a permanent residence status in the area, are liable to these fees. You can check this FAQ at the Studyinfo website whether or not you are required to pay tuition fees: https://studyinfo.fi/wp2/en/higher-education/higher-education-institutions-will-introduce-tuition-fees-in-autumn-2017/am-i-required-to-pay-tuition-fees/

Programme Contents

The Master's degree program includes studies of ecology, evolutionary biology and conservation biology. The studies are organised in modules. You can affect the content of the studies by planning your personal curriculum. You can study the following themes:
-Ecology studies the abundance and distribution of species (animals, plants, microbes) and the interactions among them and with the environment. The perspective ranges from the molecular to the ecosystem level. In ecology, a central question is: Why are some species able to invade new habitats and displace native species? Which species are able to adapt to environmental change or migrate with the changing climate, and which species will become extinct?
-Evolutionary biology examines the processes which support biodiversity on its various levels (genes – individuals – populations – species – ecosystems). You will learn about the theory of evolution and how to use population genetics and genomics methods in researching evolutionary issues.
-Conservation Biology studies the depletion of biodiversity, its causes and consequences. You will learn to apply ecological theory to the problems of environmental conservation, to assess the effectiveness of methods of conservation, as well as to resolve the problems relating to conservation e.g. by modelling and computational methods. The training emphasizes the importance of interdisciplinary education in the area of conservation.

Programme Structure

You undertake modules producing a total of 120 credits (ECTS) according to your personal study plan. The degree consists of:
-60 credits of advanced studies, including a research project (Master’s thesis, 30 credits)
-60 credits of other studies chosen from the Programme or from other Programmes

Career planning or extracurricular activities can be included in your personal study plan. If you are studying to qualify as a biology teacher, you will need 60 credits of pedagogical studies in your degree. This applies only to Finnish or Swedish speaking students.

Career Prospects

Master's degree in ecology and evolutionary biology gives an access to the capability of University teaching and research tasks, for a wide range of expert and administrative tasks of the various research centres, companies, in the field of public administration (e.g., The UNITED NATIONS, the European Union, the State and the provincial administration, cities, municipalities), international and national organizations and the media. The degree also provides the scientific validity for doctoral education in different areas of biology.

The Master’s degree in Ecology and Evolutionary Biology is a well-liked option among students studying towards biology teacher qualification (Finnish and Swedish speaking students).

Internationalization

You will have the opportunity to study at foreign universities and research institutions within the framework of an international student exchange. You can also gain valuable experience by working as a tutor of international students or participating in the international activities of the Student Union or other student organisations.

The teachers and researchers in the department of Ecology and Evolutionary Biology are internationally known and respected. Their research groups host numerous international researchers as visitors and workers. They also employ many foreign graduate students, which creates an international atmosphere in the programme.

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You learn relevant skills environmental policy, legislation, risk assessment models, environmental analytical instrumentation and implementing models. Read more
You learn relevant skills environmental policy, legislation, risk assessment models, environmental analytical instrumentation and implementing models. Employment options may be within consultancies, regulators and NGOs.

COURSES
Semester 1

Plant Ecology
Core Skills in Environmental Science
Environmental Pollution
Applications of GIS

Semester 2

Ecology, Conservation and Society
Catchment Management
Environmental Analysis
Ecological and Environmental Modelling
Land Use and the Change Environment on Deesside

Semester 3

Project in Environmental and Ecological Sciences

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Course aims. This program aims to provide a comprehensive perspective of existing modelling approaches and contemporary methods of data analysis used in biology and ecology. Read more
Course aims
This program aims to provide a comprehensive perspective of existing modelling approaches and contemporary methods of data analysis used in biology and ecology.

The focus will be on design, analysis and implementation of mathematical models for problems arising in life sciences, with special emphasis on ecological applications.

By the end of the course, you will be able to formulate problems in mathematical terms, build relevant mathematical models of biological phenomena, apply an array of analytical tools and/or select and develop an appropriate numerical method, write a computer program for numerical simulations, and present and interpret the results for a potential client from the agriculture and nature conservation sector.

Course modules
Autumn term:
Scientific Computing
Data Mining
Applied Dynamical Systems
Patterns and Processes in Ecosystems

Spring term:
Topics in Mathematical Biology
Computational Methods for Partial Differential Equations

Plus two option modules from the following:
• Introductory Mathematical Neuroscience
• Research Presentation
• Algorithms for Bioinformatics
• Java and Databases for Bioinformatics
Option modules are subject to availability in each particular year. Course titles and content are subject to change.

After term two, you will be given a choice of research projects. A project is undertaken full-time, leading to an oral presentation and the submission of a dissertation by the middle of September. The projects are supervised by a member of the Department of Mathematics either alone or jointly with a member of the School of Bioscience or from a relevant industrial partner.

Teaching and assessments methods
The course will be taught by lectures, seminars, problem classes and workshops. Each module will be assessed by a mixture of continuous assessments and examinations.

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These programmes offers the opportunity to begin or consolidate your research career under the guidance of internationally renowned researchers and professionals in the School of Mathematics, Statistics and Actuarial Science (SMSAS). Read more
These programmes offers the opportunity to begin or consolidate your research career under the guidance of internationally renowned researchers and professionals in the School of Mathematics, Statistics and Actuarial Science (SMSAS).

Research interests are diverse and include: Bayesian statistics; bioinformatics; biometry; ecological statistics; epidemic modelling; medical statistics; nonparametric statistics and semi-parametric modelling; risk and queueing theory; shape statistics.

Visit the website https://www.kent.ac.uk/courses/postgraduate/169/statistics

About the School of Mathematics, Statistics and Actuarial Science (SMSAS):

The School has a strong reputation for world-class research and a well-established system of support and training, with a high level of contact between staff and research students. Postgraduate students develop analytical, communication and research skills. Developing computational skills and applying them to mathematical problems forms a significant part of the postgraduate training in the School. We encourage all postgraduate statistics students to take part in statistics seminars and to help in tutorial classes.

The Statistics Group is forward-thinking, with varied research, and received consistently high rankings in the last two Research Assessment Exercises.

Statistics at Kent provides:

- a programme that gives you the opportunity to develop practical, mathematical and computing skills in statistics, while working on challenging and important problems relevant to a broad range of potential employers

- teaching and supervision by staff who are research-active, with established reputations and who are accessible, supportive and genuinely interested in your work

- advanced and accessible computing and other facilities

- a congenial work atmosphere with pleasant surroundings, where you can socialise and discuss issues with a community of other students.

Course structure

The research interests of the group are in line with the mainstream of statistics, with emphasis on both theoretical and applied subjects.

There are strong connections with a number of prestigious research universities such as Texas A&M University, the University of Texas, the University of Otago, the University of Sydney and other research institutions at home and abroad.

The group regularly receives research grants. The EPSRC has awarded two major grants, which support the National Centre for Statistical Ecology (NCSE), a joint venture between several institutions. A BBSRC grant supports stochastic modelling in bioscience.

Research areas

- Biometry and ecological statistics

Specific interests are in biometry, cluster analysis, stochastic population processes, analysis of discrete data, analysis of quantal assay data, overdispersion, and we enjoy good links within the University, including the School of Biosciences and the Durrell Institute of Conservation and Ecology. A recent major joint research project involves modelling the behaviour of yeast prions and builds upon previous work in this area. We also work in collaboration with many external institutions.

- Bayesian statistics

Current work includes non-parametric Bayes, inference robustness, modelling with non-normal distributions, model uncertainty, variable selection and functional data analysis.

- Bioinformatics, statistical genetics and medical statistics

Research covers bioinformatics (eg DNA microarray data), involving collaboration with the School of Biosciences. Other interests include population genetics, clinical trials and survival analysis.

- Nonparametric statistics

Research focuses on empirical likelihood, high-dimensional data analysis, nonlinear dynamic analysis, semi-parametric modelling, survival analysis, risk insurance, functional data analysis, spatial data analysis, longitudinal data analysis, feature selection and wavelets.

Careers

Students often go into careers as professional statisticians in industry, government, research and teaching but our programmes also prepare you for careers in other fields requiring a strong statistical background. You have the opportunity to attend careers talks from professional statisticians working in industry and to attend networking meetings with employers.

Recent graduates have started careers in diverse areas such as the pharmaceutical industry, financial services and sports betting.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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There is a pressing national and international need to understand the nature and consequences of climatic change and to develop adaptation strategies. Read more
There is a pressing national and international need to understand the nature and consequences of climatic change and to develop adaptation strategies. The UCL Climate Change MSc provides rigorous scientific and vocational training for the next generation of climate change professionals.

Degree information

The programme provides you with a knowledge and understanding of the Earth system (incorporating the atmosphere, hydrosphere, biosphere, lithosphere) and the nature and causes of climate variability and change. It combines observationally based climate and environmental science with state-of-the-art modelling, specifically concerned with understanding the impacts of climate change. It seeks to place climate change within the context of broader anthropogenic environmental change and social policy dimensions.

Students undertake modules to the value of 180 credits.

The programme consist of four core modules (60 credits), four optional modules (60 credits) and a research dissertation (60 credits). A Postgraduate Diploma (120 credits, full-time nine months) is offered. A Postgraduate Certificate (60 credits, full-time 12 weeks, part-time one year) is offered.

Core modules
-Climate Dynamics
-Models in Environmental Science
-Past Climates
-Global Environmental Change

*modules running are dependent on staff sabbaticals

Optional modules
-Biological Indicators of Environmental Change
-Climate Modelling
-Coastal Change
-Cities and Climate Change
-Environmental GIS
-Impacts of Climate Change on Hydro-ecological systems
-Non-biological Indicators of Environmental Change
-Ocean Circulation and Climate Change
-Politics of Climate Change
-Terrestrial Carbon: Modelling and Monitoring
-Surface Water Modelling
-Other MSc modules offered across UCL may be taken at the discretion of the MSc convenor.

*availability of modules is dependent on staff sabbaticals.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of approximately 12,000 words and an oral presentation.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials and laboratory and computer-based practical classes. Assessment is through independent project work, practical-based and written coursework, and the dissertation.

Careers

The programme provides an ideal foundation for PhD research, or for employment with a wide range of private industries, non-governmental organisations, government agencies and environmental consultancies. Graduates have gone on to careers in the commercial, non-profit and academic sectors. Examples include government policy implementation, sustainability consultancy, science communication and research. A significant proportion of students go onto further study such as a PhD.

Top career destinations for this degree
-Policy Manager, Department of Energy & Climate Change (DECC)
-Science Communicator, Science Museum / London Transport Museum
-MSc in Environmental Economics, University College London (UCL)
-PhD in Hydrology, University of Leeds

Employability
Climate change is big issue with many governmental, non-governmental and commercial cosequences. This programme will give graduates an edge when applying for jobs in the private sector relating to adaptation and mitigation - such as the insurance industry and carbon monitoring companies respectively. It also provides a great stepping-stone to a PhD.

Why study this degree at UCL?

As one of the world's top universities, UCL excels across the natural sciences, social sciences and humanities. The MSc is run by UCL Geography, which enjoys an outstanding international reputation for its research and teaching.

The Climate Change MSc brings together the strong expertise of the department, offering a distinctive blend of fundamental climate science, environmental modelling, impacts and adaptations, delivered from both natural and social science perspectives.

By bringing together students and researchers we aim to create a vibrant and informal academic environment of mutual discovery and ongoing debate.

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This course will commence. The PgDip/MSc course in Environmental Management and Geographic Information Systems is PART-TIME and offered by DISTANCE LEARNING. Read more
This course will commence

September 2017

The PgDip/MSc course in Environmental Management and Geographic Information Systems is PART-TIME and offered by DISTANCE LEARNING. It is accredited by the Institution of Environmental Sciences (https://www.the-ies.org)

This course aims to satisfy an industrial and public sector demand for science-­qualified environmental management personnel who can analyse environmental issues and propose viable solutions in fields such as conservation, agriculture, forestry, industry and countryside planning.

It provides a balanced programme studying the core elements of Environmental Management combined with a more detailed study of the techniques of the principles and practice of GIS. It enables students to develop an advanced understanding of the functioning of ecosystems through the study of biodiversity and pollution monitoring and to equip them with the analytical GIS tools to enable effective ecosystem analysis. The GIS elements of the course develop an enhanced understanding of theoretical material relating to data models, data sources and quality, data management, GIS functionality and data analysis. The course provides students with hands-­‐on experience of key GIS packages and other analytical software. Examples are drawn from across the spectrum of physical and social environmental contexts.

Students resident in the UK and Ireland will be provided with a student copy of Esri ArcGIS software free of charge.

Modular Structure

Principles of GIS

This module introduces the theory and practice of Geographic Information Systems, and is intended to provide an understanding of the breadth of potential GIS applications and to equip students with key concepts and skills relating to the input, management, manipulation, analysis and output of spatial data. Lecture-based teaching of key concepts is reinforced by linked practical exercises which allow students to develop competence in ESRI’s ArcGIS package. The module assumes no prior knowledge or experience of GIS.

Spatial Data Management

This module builds on the knowledge and practical skills gained in the Principles of GIS module to provide students with further experience in the acquisition, manipulation and analysis of spatial data. Methods for generating and collecting digital spatial data from primary and secondary sources are considered, and data processing, selection, integration and analysis extensively practiced. Lecture and practical sessions include digitising, geo-registration, GPS, accessing and using secondary sources, spatial join and overlay, network analysis and 3D modelling, and incorporate experience of a variety of large and small scale vector and raster datasets. The module also incorporates practice in statistical analysis and interpretation. Development of GIS software skills focuses on ArcGIS and extensions.

Biodiversity Management

Biodiversity managers make decisions based on understanding ecosystems and by applying ecological principles to achieve their objectives. This module covers key scientific topics, which are crucial for developing effective biodiversity management plans in different ecosystems. It exemplifies how ecological-social-economic factors interact to influence our ability to conserve and manage biodiversity.

Pollution Monitoring

This module provides the knowledge and skills necessary to monitor pollution of the environment. The topics included are: the key elements of the monitoring programmes for air, water and land; sample collection; chemical methods of analysis, including quality assurance; biological methods of analysis, including toxicity tests and bio-assessment; use of environmental models; statistics, data analysis and assessing compliance and; critical loads.

Spatial Analysis

This module builds on the introductory material of the previous GIS modules studied, covering key concepts of spatial data analysis and modelling, and providing extensive practical experience of ESDA and spatial modelling within a GIS environment.

GIS for Environmental Managers

This module examines the application of GIS to environmental management, modelling and impact assessment. It aims to enable students to appreciate the need for properly researched information to support strategic and operational environmental management decisions, and to be aware of the means by which such information can be obtained and evaluated.

Environmental Management Project

This module provides the opportunity for the student to demonstrate the skills acquired during the course, in the form of a final project. The project is presented in the form of a scientific paper on an area agreed with the student’s supervisor.

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