MSci Geology with Geography


Attendance
Full Time
Award
Degree of Master of Sciences



A-Level typical
ABB (2020/1 entry) See All Requirements
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The School of Environmental Sciences is one of the longest established, largest and most fully developed Schools of Environmental Sciences in Europe. Our holistic approach to teaching and research, integrating physical, chemical, biological, social and geotechnical sciences into the study of natural and human environments, is truly a modern philosophy for the new millennium.

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We have been awarded a Queen’s Anniversary Prize for Higher and Further Education for 50 years of ground-breaking environmental science at UEA. The royal accolade from the Queen is the UK’s most prestigious higher education award.

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Environmental Sciences has been ranked 4th in the UK, 11th in Europe and 40th in the World according to the QS World University Rankings 2018.

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View our video about Field Courses.

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What happens during an earthquake? What’s going on inside an erupting volcano? How does a meteorite impact affect the Earth? Why do flash floods happen and can we stop them?

Follow an advanced four-year programme that takes a very modern approach to Earth science – one that links geology with geography, human society and a multitude of surface and environmental processes. Get out in the field or into the lab to use the principles of geology and physical geography to explore areas such as fossil fuels, geochemistry, earthquakes, volcanoes, geomorphology and hydrogeology.

Overview

Studying Geology with Geography will help you understand the solid Earth and the societal consequences of its processes – such as volcanoes, earthquakes and floods. You’ll explore the interaction of human society and the Earth using geology, geography, social science and the core sciences, with the opportunity to focus on areas that most interest you.

You’ll gain an important foundation in research skills, biodiversity and sustainability in your first year, before specialising as you progress through the course. Take your pick from a wide range of modules covering topics such as geomorphology, hydrology, fossil fuels, geophysical hazards and geophysics. You'll also study advanced, Masters-level modules in your final year and complete an in-depth research project.

Our vast research expertise means we provide world-class teaching, and our international reputation ensures UEA graduates are highly sought after. In the most recent Research Excellence Framework we were ranked first in the UK for the impact of our world-leading research in Earth Systems and Environmental Sciences (Times Higher REF2014 Analysis), demonstrating the crucial role we play in influencing both the scientific community and environmental policy makers.

As a Geology with Geography graduate you’ll be in great demand within the industry. Graduates of UEA’s School of Environmental Sciences are held in high esteem in the wider geosciences community for the high levels of laboratory, field and transferable skills you acquire during the course. You’ll also benefit from a flexible and adaptable degree programme, where conventional subject boundaries are dissolved to give you an integrated learning experience.

Course Structure

In your first three years, you’ll follow the same course as the BSc Geology with Geography. In your final year you’ll study a range of Master’s level modules, as well as completing a substantial piece of independent research in a topic that matches your interests.

Year 1

In your first year you’ll build a strong foundation of knowledge through compulsory modules in Understanding the Dynamic Planet, Physical and Chemical processes in the Earth system, and Research and Field Skills. You’re likely to come across new subjects – sparking interests that may shape your studies over the next three years. 

Year 2

In your second year you’ll take modules on Geology Skills, Global Tectonics and Earth Surface Processes. Alongside these you’ll have the freedom to tailor your course with optional subjects from a wide range of specialist modules, including subjects such as GIS, applied geophysics and hydrogeology. 

Year 3

In your third year you’ll spend a substantial amount of time on your Independent Project, giving you the chance to investigate an area of interest in depth and put everything you’ve learnt throughout your degree into practice. You will also have the opportunity to select from a range of optional modules – including topics covering geophysical hazards, paleoclimatology and an overseas geosciences field course.

Year 4

In your final year you’ll carry out a substantial piece of independent research in a topic that matches your interests. Alongside this you’ll study advanced level subjects chosen from a wide range of optional modules, such as research topics in Earth sciences, stable isotope geochemistry and geophysical hazards,

Teaching and Learning

ou will be taught by leading geologists, geographers and environmental scientists. You will have around 15–18 hours of contact time a week in a mix of formats including lectures, seminars, workshops, laboratory sessions and fieldwork on- and off-campus. We are working to deliver all key laboratory session and on-campus fieldwork teaching safely and are staying up-to-date with guidance to enable our full offer of field trips and residential courses as soon as possible. 

Student-led learning comes in various forms too, from peer-to-peer learning through oral presentations, and presentations in class. You’ll work in small groups to solve problems, debate important topics, learn to critique and defend theories in geography and geology, develop ideas and create new solutions to real-world problems. 

Field learning 

Field experience is integral to this degree – in fact, the whole world is your laboratory. We are working with the latest guidance to offer field opportunities including residential courses as soon as we can do so safely. Our aim is for students to encounter a wide variety of geological settings and phenomena and learn practical techniques using specialist equipment. Your first year includes a fully funded multidisciplinary field course, and field course options in the second and third years may include destinations including Scotland, the Lake District, Ireland, Spain, Greece and Kenya. Many modules offer local field visits too, taking full advantage of the nearby Broads, Breckland and North Norfolk coast, and we also make use of our own campus to help you build field skills in a range of ways. 

Independent study

You’ll spend time carrying out independent study, researching in UEA’s state-of-the-art library, writing essays or carrying out practical work or projects.

This course will give you an excellent balance of independent thinking and study skills, helping you grow into a self-motivated learner, an expert researcher and analytical thinker. You will develop accuracy and precision in your written work through evidence-based analysis. And you’ll become well versed in time management and organisation through self-directed study. Throughout your degree you will be given guidance on your work and constructive feedback to help you improve.

Academic support

To make sure you get the most from your studies and help you reach your full potential our Learning Enhancement team, based in the Student Services are on hand to help in the following areas:

  • Study skills (including reading, note-taking and presentation skills) 
  • Writing skills (including punctuation and grammatical accuracy)
  • Academic writing (including how to reference)
  • Research skills (including how to use the library) 
  • Critical thinking and understanding arguments 
  • Revision, assessment and examination skills (including time management)

If you have additional needs due to disabilities such as sensory impairment or learning difficulties such as dyslexia please talk to our Student Support Services about how we can help.

Assessment

Each year, you will be assessed on the basis of coursework and, for some modules, project and examination results. The balance of assessment by coursework and exam depends on the modules you choose.

For each module you will have the chance to test your skills with one or two pieces of practice or ‘formative’ assignments. That assignment might be a coursework essay, project or an exam.

You will get feedback on your practice assignments from your tutors, helping you improve your work before your final ‘summative’ assessment. We encourage you to discuss your feedback with your teachers to help you put it into practice.

Study abroad or Placement Year

We also offer the MSci Geology with Geography with a Year Abroad course which gives you the chance to live and study abroad – gaining invaluable knowledge, experience and contacts.

You could also choose the BSc Geology with Geography with a Year in Industry. On this course you’ll spend your third year on an industrial work placement before returning to UEA for a final fourth year.

After the course

Geology with Geography graduates go on to a very wide range of careers and have a high rate of employment. You could work for national and international agencies, private sector or governments, in the areas of geological resource management, economic and social development, planning, or policy making.  Alternatively, you may pursue a PhD in geology or geography.

During your studies you’ll meet potential employers during internships and our annual Careers Fair, which attracts a wide range of employers interested in graduates with geographical and geological skills.

Career destinations

Examples of careers that you could enter include;

  • Geoscientist
  • Engineering geologist
  • Geological consultant
  • Earth Sciences technician
  • Cartographer

Course related costs

Field courses are an important part of our teaching. We fully subsidise the cost of your first year local field course – the others are 50% subsidised and carry a cost of around £250-£900 depending on destination and duration. These costs cover a contribution to accommodation, meals and transport. 

You can find out more about the field courses in the module information.

Please see Additional Course Fees for details of other course-related costs.

Accreditation

This course has been accredited by The Geological Society of London. This accreditation status provides added assurance to prospective students that the course content and structure has been approved by an independent body of academics and industrialists and that the teaching is of the highest quality. An accredited degree will reduce the amount of post-graduation experience required for applications for Chartered Geologist and Chartered Scientist. A professional geoscientist holding an accredited degree is eligible to apply for Chartered status one year earlier than those with unaccredited degrees. Those holding two accredited degrees (e.g. BSc and MSc) can apply two years earlier.

In order to receive the award of an accredited degree, students are required to follow an accredited pathway – this is something that your advisor and course director will be able to advise you on. The accredited pathway requires students to take some particular modules and also requires the student to undertake a certain amount of field work (partly achieved by taking the required modules and partly by undertaking some fieldwork for the final year project).

The current period of accreditation is for a six-year period, from April 2018. We would expect to apply for renewal of accreditation at the end of this period. For more information about the Geological Society, accreditation and Chartered status see the Geological Society Web pages http://www.geolsoc.org.uk/.

Course Modules 2020/1

Students must study the following modules for 100 credits:

Name Code Credits

ATMOSPHERE and OCEANS

The habitability of planet Earth depends on physical and chemical systems that control everything from the weather and climate to the growth of all living organisms. This module introduces you to some of these key cycles and the ways in which physical and chemical scientists investigate and interpret them. It leads naturally to second and third year study of these systems in more detail, but even if you choose to study other aspects of environmental sciences, a basic knowledge of these systems is central to understanding our planet and how it responds to human pressures. The module is made up of two distinct components. One focuses on the physical study of the environment (Physical Processes: e.g. weather, climate, ocean circulation, etc.) The other focuses on the chemical study (Chemical Processes: weathering, atmospheric pollution, ocean productivity, etc.). Interrelationships between these components are explored throughout. Teaching of this module is through a mix of lectures, laboratory practical classes, workshops and a half-day field trip. This module provides a Basic Chemistry introduction for those students who have little or no background in chemistry prior to joining UEA.

ENV-4007B

20

GLOBAL ENVIRONMENTAL CHALLENGES

What are the most pressing environmental challenges facing the world today? How do we understand these problems through cutting-edge environmental science research? What are the possibilities for building sustainable solutions to address them in policy and society? In this module, you will tackle these questions by taking an interdisciplinary approach to consider challenges relating to climate change, biodiversity, water resources, natural hazards and technological risks. In doing so you will gain an insight into environmental science research 'in action' and develop essential academic study skills needed to explore these issues.

ENV-4001A

20

RESEARCH AND FIELD SKILLS

You will gain a range of transferable skills, tools and resources that are widely used in research across the Environmental Sciences and Geography. It aims to provide a broad understanding of the research process through activities that involve formulating research questions, collecting data using appropriate sources and techniques, collating and evaluating information and presenting results. Lectures and practical classes will be taught during Semester 1, whilst a week-long residential field course applies field, lab and other skills to a variety of Environmental Science and Geography topics in Semester 2. Depending on the size of the cohort, students on selected degree programmes may be offered the option of an alternative field course arrangement.

ENV-4004Y

20

BIODIVERSITY AND SUSTAINABILITY

This module focuses on exploring and understanding the evolving relationships between human development and the natural environment from ecological perspectives with some context from social sciences. The module is intended to give you a flavour of the issues, themes and considerations relating to biodiversity at different scales of biological organization, ecosystem services and sustainable development. The module (1) examines practical and theoretical considerations of sustainable development; (2) explores the options advanced for establishing a sustainable balance between human needs and those of natural systems and ecosystems; (3) investigates how the growing human enterprise and human resource use has affected biodiversity and the biosphere and (4) considers the scales of biodiversity loss, from the biosphere to biomes, ecosystems, ecological communities, populations, individuals, and genes. The module comprises 12 weeks of lectures and practicals. You will attend two lectures and one practical session in most weeks. The lectures introduce, review and critique particular concepts and perspectives. The practicals provide opportunities to examine in more detail some of the issues raised during the lectures, accompanied by practical exercises. Identical practical sessions will be run each week, on Tuesday and Thursday mornings. You will be notified in which group and on which day you are expected to take part in the practical. The beginning of the module revolves around sustainable development, the human footprint and examine sustainable development in relation to human resource use and ecosystem services. Lectures consider interactions between human societies and the composition and structure of natural (terrestrial, freshwater and marine) ecosystems, anthropocentric impacts on biomes, ecosystems, communities, populations, and the genetic diversity of individuals. They introduce some approaches and ideas fundamental to modern quantitative conservation ecology. The practicals will introduce ecological communities, there will be some elementary statistical analysis and if Government advice at the time allows, there will be a field trip to a nature reserve. The slides of the lectures will be posted every week on the Blackboard pages of this module. You can download or print them off for yourself as and when required. These are not a substitute for taking part in the lectures. For each lecture and practical, you will be pointed to additional readings to explore some of the issues raised in more depth. These are found on the module Talis reading list and reading lists at the end of each lecture. These will be useful for your assignments.

ENV-4006B

20

UNDERSTANDING THE DYNAMIC PLANET

Understanding of natural systems is underpinned by physical laws and processes. You will explore the energy, mechanics, and physical properties of Earth materials and their relevance to environmental science using examples from across the Earth's differing systems. The formation, subsequent evolution and current state of our planet are considered through its structure and behaviour - from the planetary interior to the dynamic surface and into the atmosphere. You will study Plate Tectonics to explain Earth's physiographic features - such as mountain belts and volcanoes - and how the processes of erosion and deposition modify them. The distribution of land masses is tied to global patterns of rock, ice and soil distribution and to atmospheric and ocean circulation. You will also explore geological time - the 4.6 billion year record of changing conditions on the planet - and how geological maps can be used to understand Earth history. This course provides you with an introduction to geological materials - rocks, minerals and sediments - and to geological resources and natural hazards.

ENV-4005A

20

Students will select 20 credits from the following modules:

Name Code Credits

MATHEMATICS FOR SCIENTISTS A

You will cover differentiation, integration, vectors, partial differentiation, ordinary differential equations, further integrals, power series expansions, complex numbers and statistical methods as part of this module. In addition to the theoretical background there is an emphasis on applied examples. Previous knowledge of calculus is assumed. This module is the first in a series of three maths modules for those across the Faculty of Science that provide a solid undergraduate mathematical training. The follow-on modules are Mathematics for Scientists B and C. Recommended if you have grade A*-C at A-level Mathematics, or equivalent.

ENV-4015Y

20

QUANTITATIVE SKILLS I

We will explore how quantitative skills can solve a range of environmental and geographical problems. We will think critically about numbers in the media and learn how scientists use numbers. Our workshops will focus on the practical use of Maths through physical equations and mathematical models. Designed primarily for students who have no AS/A-Level Maths qualification (or equivalent), you will also receive statistical training, learning about summarising data using both numerical summaries and graphs, testing hypotheses and carrying out these analyses on computers.

ENV-4013Y

20

QUANTITATIVE SKILLS II

Mathematical and statistical skills are key to all brands of Environmental Sciences and Geography. This module will strengthen these skills and will consolidate your Mathematics knowledge from GCSE level, introducing you to differentiation and integration. You'll learn to recognise the purpose of simple statistical methods, to choose the appropriate methods to test hypotheses and to summarise data using tables and graphs. You'll apply these quantitative skills to contemporary environmental and geographical problems, inspired by research in the School of Environmental Sciences. Assessment is through an online course test and an exam. This module will widen the range of Science modules that you can take during your studies in Geography and Environmental Sciences. Upon successful completion of the module, you'll have acquired skills in applying a range of mathematical and statistical methods to problems in Environmental Sciences and Geography.

ENV-4014Y

20

Students must study the following modules for 60 credits:

Name Code Credits

EARTH SCIENCE SKILLS

This module is designed to develop good observational, descriptive and analytical skills and is particularly suitable for students with interest in Geology, Earth and Geophysical Sciences. It will cover generic geological skills, together with some geophysical and physical geography skills that will be of use when carrying out independent projects. The module will include: (i) observing, describing and recording of characteristics of geological materials (minerals, soils, sediments, rocks and fossils) in the field, in hand specimen and under the microscope; (ii) measuring and recording of spatial and 3D structural data on maps, stereographic and rose diagram projections, reading geological maps and basic geological mapping, and (iii) an introduction to applied geophysical techniques. The module includes a week-long residential fieldwork component in the Easter vacation which has an added cost implication in the region of GBP300. There will be an alternative arrangement for students who for whatever reason are unable to undertake the residential fieldwork. There is a co-requisite or pre-requisite of 20 or more credits from the modules: Earth Surface Processes, Global Tectonics or Exploring the Earth's Subsurface. Students who have previously taken ENV-5030B Geology Skills, or ENV-5029B Geology Lab Skills cannot take this module. They will, however, have an opportunity to take part in the residential field course.

ENV-5030B

20

EARTH SURFACE PROCESSES

This module draws upon on a range of scientific disciplines including geomorphology, sedimentology, soil science and eco-geomorphology. The module overviews a variety of Earth's surface environments and the processes that lead to expression in landforms, soil evolution, sediment accumulation and ultimately, the formation of sedimentary rocks. The environments covered include deep and marginal marine, intertidal, aeolian, glacial and fluvial. The approach will be both descriptive and quantitative, based on understanding of erosion, transport, deposition, accumulation and burial and the evolution of soils. East Anglian case studies will be used to illustrate and explain eco-geomorphology and coastal processes, dovetailed with soil evolution. Geomorphological expression will be linked to sedimentary processes and sedimentary rock. There will be an introduction to the methods and different types of evidence used by geologists, physical geographers and other earth scientists.

ENV-5042A

20

GLOBAL TECTONICS

Processes in the Earth's interior exert a profound influence on all aspects of the Earth's system and have done so throughout geological time. This module is designed to explore all aspects of those processes from the creation and destruction of tectonic plates to the structure of the Earth's interior and the distribution and dissipation of energy within it. This will include: the theory and mechanisms of plate tectonics, the generation of magma and volcanism; the mechanisms behind earthquakes. The geological record of this activity, its evolution and impacts on the Earth will also be discussed.

ENV-5018A

20

INDEPENDENT PROJECT - PROPOSAL

With guidance from a supervisor, you will choose a topic, design the research and collect, analyse and interpret data. You will report on progress at various stages: in the selection of a topic, the detailed plan, an interim report and an oral presentation. A final report in the form of a dissertation not exceeding 10,000 words is required. When planning the project and again after completing the report, you will reflect on the range of subject-specific and generic skills acquired through your degree and how you are reinforced and complemented by the skills acquired through your project. A final item of summative work assesses the clarity by which you communicate and evidence your range of skills in the form of a covering letter and cv for a potential job application. To further support the transition to employment, you can present a formative research poster that summarises the main aspects of the work to prospective employers.

ENV-6021B

0

Students will select 20 - 40 credits from the following modules:

Note that no more than one module with the same timetable slot can be taken in one semester. Students must submit a request to the School for a place on fieldcourses.

Name Code Credits

ENERGY TRANSITIONS

This module examines the complexities of the transition to low carbon energy systems. It draws on a range of disciplines, theories and perspectives to critically examine many of the key challenges. It begins by exploring how we can understand energy systems and how they differ across space and time. The module draws on historical analyses to understand how energy systems have evolved in the past, as well as examining the different ways in which we can imagine the future of energy. Students will gain an in-depth understanding of the complexities of changing energy systems, enabling them to critically engage with debates around future "energy transitions", the role that innovation and emergent technologies might play, and the various challenges of shifting towards renewable based energy systems.

ENV-5022B

20

EXPLORING THE EARTH'S SUBSURFACE

In this module you will learn about the processes that shape the Earth's shallow subsurface, and how to detect and map subsurface structures and resources. Physical properties of solid materials and subsurface fluids will be explored, including how fluid movement affects these properties. Methods to image the subsurface will be introduced using real datasets, collected by the class where possible. We will apply the theory to real-life problems including risk mitigation, engineering and resource exploration. This module will include fieldwork on campus where possible, specialist computer software, and some light mathematical analysis (trigonometry, rearranging linear equations, logarithms).

ENV-5004B

20

GIS SKILLS FOR PROJECT WORK

This module focuses on developing practical skills to support independent use of spatial analysis and digital mapping in a Geographical Information System. It covers ways to obtain data, integrate it, undertake analysis to address research questions, and present the results. Weekly teaching will consist of both lecture material to cover underlying concepts, and a three-hour practical exercise focusing on a particular aspect of GIS data and/or analysis. At the time of writing this module description (May 2020) we cannot guarantee there will be continuous access to UEA's IT labs during the module - Government advice may mean that we must all work remotely, or that lab capacity is reduced due to social distancing. If working remotely it would be essential to have access to a Windows PC/laptop that can run ArcGIS Pro, or to very good (fast and reliable) broadband. Specifications for the software are available via Blackboard under UEA Software and Support (below your list of modules). Please contact the MO if you have any questions.

ENV-5028B

20

SHELF SEA DYNAMICS AND COASTAL PROCESSES

The shallow shelf seas that surround the continents are the oceans that we most interact with. They contribute a disproportionate amount to global marine primary production and CO2 drawdown into the ocean, and are important economically through commercial fisheries, offshore oil and gas exploration, and renewable energy developments (e.g. offshore wind farms). You will explore the physical processes that occur in shelf seas and coastal waters, their effect on biological, chemical and sedimentary processes, and how they can be harnessed to generate renewable energy. You will develop new skills during this module that will support careers in the offshore oil and gas industry, renewable energy industry, environmental consultancy, government laboratories (e.g. Cefas) and academia. The level of mathematical ability required to take this module is similar to Ocean Circulation and Meteorology I. You should be familiar with radians, rearranging equations and plotting functions.

ENV-5017B

20

Students will select 0 - 40 credits from the following modules:

Students must ensure that a module chosen from this range does not have a timetable clash with modules selected in another options range. Note that students must submit a request to the School for a place on fieldcourses

Name Code Credits

AQUATIC BIOGEOCHEMISTRY

The Earth's terrestrial and marine water bodies support life and play a major role in regulating the planet's climate. This module will train you to make accurate measurements of the chemical composition of the aquatic environment. In lectures and in the lab you will explore important chemical interactions between life, fresh and marine waters and climate, looking at nutrient cycles, dissolved oxygen, trace metals, carbonate chemistry and chemical exchange with the atmosphere. Students taking this module are expected to be familiar with basic chemical concepts and molar concentration units. This module makes a good combination with Aquatic Ecology.

ENV-5039B

20

AQUATIC ECOLOGY

Explore how chemical, physical and biological influences shape the biological communities of rivers, lakes and estuaries in temperate and tropical regions. Three field visits and laboratory work, usually using microscopes and sometimes analysing water quality, provide an important practical component to this module. A good complement to other ecology modules, final-year Catchment Water Resources and modules in development studies or geography, it can also be taken alongside Aquatic Biogeochemistry or other geochemical and hydrology modules. Students selecting this module must have a background in basic statistical analysis of data.

ENV-5041A

20

ATMOSPHERIC CHEMISTRY AND GLOBAL CHANGE

Atmospheric chemistry and global change are in the news. Stratospheric ozone depletion, acid rain, greenhouse gases, and global scale air pollution are among the most significant environmental problems of our age. Chemical composition and transformations underlie these issues and drive many important atmospheric processes. This module covers the fundamental chemical principles and processes in the atmosphere, from the Earth's surface to the stratosphere, and considers current issues of atmospheric chemical change through a series of lectures, problem-solving classes, seminars, experimental and computing labs, as well as a field trip to UEA's own atmospheric observatory in Weybourne/North Norfolk.

ENV-5015A

20

CLIMATE CHANGE: SCIENCE AND POLICY

You will develop your skills and understanding in the integrated analysis of global climate change, using perspectives from both the natural sciences and the social sciences. You will gain a grounding in the basics of climate change science, impacts, adaptation, mitigation and their influence on and by policy decisions. This module also offers you a historical perspective on how climate policy has developed, culminating in the December 2015 Paris Agreement. Finally, it considers what will be required to meet the goal of the Paris Agreement to limit global warming to well below 2 #C above pre-industrial levels.

ENV-5003A

20

COMMUNITY, ECOSYSTEM AND MACRO-ECOLOGY

This module introduces you to major concepts and definitions in community ecology, macro-ecology and biogeography. You will use these to explore how communities are structured in relation to local-scale to regional-scale processes, how they function and respond to perturbations at different scales, and result in emergent macro- to global-scale patterns of biodiversity distribution. Throughout the module, there is an emphasis on the relevance of theory and fundamental science to understanding the current environmental and biodiversity crisis. Anthropogenic impacts on natural communities through land-use, species exploitation, non-native species, and climate change, are a recurrent theme underpinning the examples you will draw upon.

BIO-5014B

20

ENVIRONMENTAL POLITICS AND POLICY MAKING

The most significant obstacles to problem solving are often political, not scientific or technological. This module examines the emergence and processes of environmental politics. It analyses these from different theoretical perspectives, particularly theories of power and public policy making. The module is focused on contemporary examples of politics and policy making at UK, EU and international levels. The module supports student-led learning by enabling students to select (and develop their own theoretical interpretations of) 'real world' examples of politics. Assessment is via seminar slides and a case study essay. The module assumes no prior knowledge of politics.

ENV-5002B

20

MATHEMATICS FOR SCIENTISTS B

This module serves as a further introduction to general mathematics for scientists

MTHB5009A

20

MATHEMATICS FOR SCIENTISTS C

This module is the third in a series of three mathematical units for students across the Faculty of Science. It covers matrix algebra and numerical methods, partial differential equations and solid mechanics. There is a continuing emphasis on applied examples, and the use of numerical computing software (Matlab) is extended with a dedicated programming component. The module is taught by mathematicians with considerable expertise in the use of mathematics in the natural/environmental sciences and is largely designed to equip students with the tools necessary for advanced second and third level modules, particularly those in the physical sciences.

MTHB5007B

20

POPULATION ECOLOGY AND MANAGEMENT

We live in a human dominated era recently designated "the Anthropocene". Humans harvest more than half of the primary productivity of the planet, many resources are over-exploited or depleted (e.g. fisheries) - never before has it been so important to correctly manage natural resources for an exponentially growing human population. It is fundamental to predict where other species occur and the sizes of their populations (abundance). Population Ecology is an area dedicated to the dynamics of population development. In this module we will look closely at how populations are regulated, from within through density dependent factors and from external density independent factors. We start the module with a global environmental change perspective to the management of populations and the factors that affect the population size. We then extend these ideas to help us understand population properties and processes both intra-specifically and inter-specifically. Finally we examine several management applications where we show that a good understanding of the population modelling is essential to correctly manage natural resources on the planet. Practicals include learning to survey butterflies and birds using citizen science monitoring projects and will be focused on delivering statistical analyses of "Big data" using the programme R-studio. The projects will provide a strong training in both subject specific and transferable skills.

ENV-5014A

20

WEATHER

The weather affects everyone and influences decisions that are made continuously around the world. From designing and siting a wind farm to assessing flood risk and public safety, weather plays a vital role. Have you ever wondered what actually causes the weather we experience, for example why large storms are so frequent across north western Europe, especially in Winter? In this module you will learn the fundamentals of the science of meteorology. We will concentrate on the physical processes that underpin the radiation balance, thermodynamics, wind-flow, atmospheric stability, weather systems and the water cycle. We will link these to renewable energy and the weather we experience throughout the Semester. Assessment will be based entirely on a set of practical reports that you will submit, helping you to spread your work evenly through the semester. You will learn how Weather is a rich fusion of descriptive and numerical elements and you will be able to draw effectively on your own skill strengths while practising and developing others, guided by Weatherquest's Meteorologists.

ENV-5043A

20

Students must study the following modules for 40 credits:

Name Code Credits

INDEPENDENT PROJECT

With guidance from a supervisor, you will choose a topic, design the research and collect, analyse and interpret data. You will report on progress at various stages: in the selection of a topic, the detailed plan, an interim report and an oral presentation. A final report in the form of a dissertation not exceeding 10,000 words is required. When planning the project and again after completing the report, you will reflect on the range of subject-specific and generic skills acquired through your degree and how these are reinforced and complemented by skills acquired through your project. A final item of summative work assesses the clarity by which you communicate and evidences your range of skills in the form of a covering letter and CV for a potential job application. To further support the transition to employment you can present a formative research poster that summarises the main aspects of the work to prospective employers.

ENV-6021Y

40

Students will select 40 - 80 credits from the following modules:

Name Code Credits

LAND AND WATER PROCESSES AND MANAGEMENT

In this module, you will adopt an integrated approach to studying surface water and groundwater resources in river basins. You will address the fundamental requirement for an interdisciplinary catchment-based approach to managing and protecting water resources that includes an understanding of land use and its management. The module content includes the design of catchment monitoring programmes, nutrient mass balance calculations, river restoration techniques, an overview of UK and European agri-environmental policy and approaches to assessing and mitigating catchment flooding.

ENV-6018B

20

FOSSIL FUELS

You will be introduced to geological, economic and political aspects of fossil fuels (oil, natural gas and coal). These are used to discuss environmental concerns arising from the use of fossil fuels and the potentially profound implications of future fuel scarcity on society. Some knowledge of Earth science and basic Chemistry will be expected.

ENV-6009A

20

GEOPHYSICAL HAZARDS

Geophysical hazards such as earthquakes, volcanic eruptions, tsunamis and landslides have significant environmental and societal impacts. This module focuses on the physical basis and analysis of each hazard, their global range of occurrence, probability of occurrence and their local and global impact. You will address matters such as hazard monitoring, modelling and assessment, and consider approaches towards risk mitigation and the reduction of vulnerability (individual and societal), with an emphasis on their practical implementation. Scenarios and probabilities of mega-disasters are also investigated. All the teaching faculty involved have practical experience of supplying professional advice on these hazards (and related risks) in addition to their own research involvement. A basic knowledge of physical science and of mathematics is assumed e.g. use of logs, exponentials, powers, cosines, rearrangement of equations.

ENV-6001B

20

PALAEOCLIMATOLOGY

This module examines the geological evidence for climatic change through the Quaternary Period (the last 2.6 million years) and the longer-term evolution of climate through the Cenozoic Era (the last 65 million years). You will explore the interpretation and causal mechanisms behind these major global environmental changes using a diverse range of approaches - isotope geochemistry, sedimentology, palaeoecology and organic geochemistry. We will focus on the geochemical, biological and sedimentological information that can be obtained from marine sediments, ice cores, and terrestrial environments and use these records to reconstruct the timing extent and magnitude of selected climatic events in the geological record.

ENV-6017B

20

Students will select 0 - 20 credits from the following modules:

Name Code Credits

EXPLORING THE EARTH'S SUBSURFACE

In this module you will learn about the processes that shape the Earth's shallow subsurface, and how to detect and map subsurface structures and resources. Physical properties of solid materials and subsurface fluids will be explored, including how fluid movement affects these properties. Methods to image the subsurface will be introduced using real datasets, collected by the class where possible. We will apply the theory to real-life problems including risk mitigation, engineering and resource exploration. This module will include fieldwork on campus where possible, specialist computer software, and some light mathematical analysis (trigonometry, rearranging linear equations, logarithms).

ENV-5004B

20

GIS SKILLS FOR PROJECT WORK

This module focuses on developing practical skills to support independent use of spatial analysis and digital mapping in a Geographical Information System. It covers ways to obtain data, integrate it, undertake analysis to address research questions, and present the results. Weekly teaching will consist of both lecture material to cover underlying concepts, and a three-hour practical exercise focusing on a particular aspect of GIS data and/or analysis. At the time of writing this module description (May 2020) we cannot guarantee there will be continuous access to UEA's IT labs during the module - Government advice may mean that we must all work remotely, or that lab capacity is reduced due to social distancing. If working remotely it would be essential to have access to a Windows PC/laptop that can run ArcGIS Pro, or to very good (fast and reliable) broadband. Specifications for the software are available via Blackboard under UEA Software and Support (below your list of modules). Please contact the MO if you have any questions.

ENV-5028B

20

Students will select 0 - 20 credits from the following modules:

Name Code Credits

BIODIVERSITY CONSERVATION AND HUMAN SOCIETY

The global biodiversity crisis threatens mass species loss. What are the implications for society? How can communities solve this problem in a world that is facing other challenges of climate change, food security, environmental and social justice? In this inter-disciplinary module, (designed for students of Geography, Environmental Science, Ecology and International Development who have an interest in biodiversity and its conservation), you will focus on the interactions between biodiversity and human societies. The module adopts a rigorous evidence-based approach. You will first critically examine the human drivers of biodiversity loss and the importance of biodiversity to human society, to understand how underlying perspectives and motivations influence approaches to conservation. You will then examine conflicts between human society and conservation and how these potentially can be resolved, reviewing institutions and potential instruments for biodiversity conservation in both Europe and developing countries. Coursework is inter-disciplinary and will require you to evaluate and communicate the quality of evidence showing effectiveness of conservation interventions and approaches.

ENV-6006A

20

ENERGY AND PEOPLE

Modern everyday life rests fundamentally on the availability of energy. Since the 1970s, however, serious concerns have been raised about the sustainability of current energy systems. Traditionally, these problems have been analysed (and solutions proposed) from within the engineering and physical sciences. Understanding, managing and attempting to solve energy problems, however, demands a thorough appreciation of how people, at a range of scales, engage with energy in the course of their daily lives. This is a critical challenge for the social sciences, and will be the core focus of this module. Through this module, you will discover and explore a range of social science perspectives on the inter-relationships between energy and people. You will learn how to apply these ideas to contemporary energy problems and use them to generate your own visions for a sustainable energy future. You'll also be given the chance to work as part of a team and to communicate your ideas through both written and oral presentation. You'll begin by tracing the history and development of energy intensive societies and everyday lives as a means of understanding how energy has emerged as a key sustainability problem. You'll then go into more depth around different theories of social and technical change before exploring how these can be used to critically analyse a range of people-based solutions to energy problems that are currently being tried and tested around the world. You'll learn through a combination of lectures and seminars involving interactive group projects, class debates, practical exercises and student-led learning. At the end of the module, you will have developed the knowledge, skills and experience necessary to allow you to apply theories of social and technical change to a range of real-world energy problems. You'll be able to develop and critically analyse your own (and already existing) visions of a sustainable energy future, and you'll be able to creatively communicate these ideas to a range of different audiences.

ENV-6026B

20

MODELLING ENVIRONMENTAL PROCESSES

Our aim is to show how environmental problems may be solved from the initial problem, to mathematical formulation and numerical solution. Problems will be described conceptually, then defined mathematically, then solved numerically via computer programming. The module consists of lectures on numerical methods and computing practicals, the practicals being designed to illustrate the solution of problems using the methods covered in lectures. We will guide you through the solution of a model of an environmental process of your own choosing. The skills developed in this module are highly valued by prospective employers.

ENV-6004A

20

SCIENCE COMMUNICATION

You will gain an understanding of how science is disseminated to the public and explore the theories surrounding learning and communication. You will investigate science as a culture and how this culture interfaces with the public. Examining case studies in a variety of different scientific areas, alongside looking at how information is released in scientific literature and subsequently picked up by the public press, will give you an understanding of science communication. You will gain an appreciation of how science information can be used to change public perception and how it can sometimes be misinterpreted. You will also learn practical skills by designing, running and evaluating a public outreach event at a school or in a public area. If you wish to take this module you will be required to write a statement of selection. These statements will be assessed and students will be allocated to the module accordingly.

BIO-6018Y

20

THE CARBON CYCLE AND CLIMATE CHANGE

What do you know about the drivers of climate change? Carbon dioxide (CO2) is the greenhouse gas that has, by far, the greatest impact on climate change, but how carbon cycles through the Earth is complex and not fully understood. Predicting future climate or defining 'dangerous' climate change is therefore challenging. In this module you will learn about the atmosphere, ocean and land components of the carbon cycle. We cover urgent global issues such as ocean acidification and how to get off our fossil fuel 'addiction', as well as how to deal with climate denialists.

ENV-6008A

20

Students will select 0 - 20 credits from the following modules:

You are not permitted to take more than 20 credits of Level 5 modules, thus if you have selected a Level 5 module in Option Range B you may not take any modules from option Range D. Note that students must submit a request to the School for a place on field courses.

Name Code Credits

AQUATIC BIOGEOCHEMISTRY

The Earth's terrestrial and marine water bodies support life and play a major role in regulating the planet's climate. This module will train you to make accurate measurements of the chemical composition of the aquatic environment. In lectures and in the lab you will explore important chemical interactions between life, fresh and marine waters and climate, looking at nutrient cycles, dissolved oxygen, trace metals, carbonate chemistry and chemical exchange with the atmosphere. Students taking this module are expected to be familiar with basic chemical concepts and molar concentration units. This module makes a good combination with Aquatic Ecology.

ENV-5039B

20

AQUATIC ECOLOGY

Explore how chemical, physical and biological influences shape the biological communities of rivers, lakes and estuaries in temperate and tropical regions. Three field visits and laboratory work, usually using microscopes and sometimes analysing water quality, provide an important practical component to this module. A good complement to other ecology modules, final-year Catchment Water Resources and modules in development studies or geography, it can also be taken alongside Aquatic Biogeochemistry or other geochemical and hydrology modules. Students selecting this module must have a background in basic statistical analysis of data.

ENV-5041A

20

ATMOSPHERIC CHEMISTRY AND GLOBAL CHANGE

Atmospheric chemistry and global change are in the news. Stratospheric ozone depletion, acid rain, greenhouse gases, and global scale air pollution are among the most significant environmental problems of our age. Chemical composition and transformations underlie these issues and drive many important atmospheric processes. This module covers the fundamental chemical principles and processes in the atmosphere, from the Earth's surface to the stratosphere, and considers current issues of atmospheric chemical change through a series of lectures, problem-solving classes, seminars, experimental and computing labs, as well as a field trip to UEA's own atmospheric observatory in Weybourne/North Norfolk.

ENV-5015A

20

CLIMATE CHANGE: SCIENCE AND POLICY

You will develop your skills and understanding in the integrated analysis of global climate change, using perspectives from both the natural sciences and the social sciences. You will gain a grounding in the basics of climate change science, impacts, adaptation, mitigation and their influence on and by policy decisions. This module also offers you a historical perspective on how climate policy has developed, culminating in the December 2015 Paris Agreement. Finally, it considers what will be required to meet the goal of the Paris Agreement to limit global warming to well below 2 #C above pre-industrial levels.

ENV-5003A

20

COMMUNITY, ECOSYSTEM AND MACRO-ECOLOGY

This module introduces you to major concepts and definitions in community ecology, macro-ecology and biogeography. You will use these to explore how communities are structured in relation to local-scale to regional-scale processes, how they function and respond to perturbations at different scales, and result in emergent macro- to global-scale patterns of biodiversity distribution. Throughout the module, there is an emphasis on the relevance of theory and fundamental science to understanding the current environmental and biodiversity crisis. Anthropogenic impacts on natural communities through land-use, species exploitation, non-native species, and climate change, are a recurrent theme underpinning the examples you will draw upon.

BIO-5014B

20

ENERGY TRANSITIONS

This module examines the complexities of the transition to low carbon energy systems. It draws on a range of disciplines, theories and perspectives to critically examine many of the key challenges. It begins by exploring how we can understand energy systems and how they differ across space and time. The module draws on historical analyses to understand how energy systems have evolved in the past, as well as examining the different ways in which we can imagine the future of energy. Students will gain an in-depth understanding of the complexities of changing energy systems, enabling them to critically engage with debates around future "energy transitions", the role that innovation and emergent technologies might play, and the various challenges of shifting towards renewable based energy systems.

ENV-5022B

20

ENVIRONMENTAL POLITICS AND POLICY MAKING

The most significant obstacles to problem solving are often political, not scientific or technological. This module examines the emergence and processes of environmental politics. It analyses these from different theoretical perspectives, particularly theories of power and public policy making. The module is focused on contemporary examples of politics and policy making at UK, EU and international levels. The module supports student-led learning by enabling students to select (and develop their own theoretical interpretations of) 'real world' examples of politics. Assessment is via seminar slides and a case study essay. The module assumes no prior knowledge of politics.

ENV-5002B

20

POPULATION ECOLOGY AND MANAGEMENT

We live in a human dominated era recently designated "the Anthropocene". Humans harvest more than half of the primary productivity of the planet, many resources are over-exploited or depleted (e.g. fisheries) - never before has it been so important to correctly manage natural resources for an exponentially growing human population. It is fundamental to predict where other species occur and the sizes of their populations (abundance). Population Ecology is an area dedicated to the dynamics of population development. In this module we will look closely at how populations are regulated, from within through density dependent factors and from external density independent factors. We start the module with a global environmental change perspective to the management of populations and the factors that affect the population size. We then extend these ideas to help us understand population properties and processes both intra-specifically and inter-specifically. Finally we examine several management applications where we show that a good understanding of the population modelling is essential to correctly manage natural resources on the planet. Practicals include learning to survey butterflies and birds using citizen science monitoring projects and will be focused on delivering statistical analyses of "Big data" using the programme R-studio. The projects will provide a strong training in both subject specific and transferable skills.

ENV-5014A

20

SHELF SEA DYNAMICS AND COASTAL PROCESSES

The shallow shelf seas that surround the continents are the oceans that we most interact with. They contribute a disproportionate amount to global marine primary production and CO2 drawdown into the ocean, and are important economically through commercial fisheries, offshore oil and gas exploration, and renewable energy developments (e.g. offshore wind farms). You will explore the physical processes that occur in shelf seas and coastal waters, their effect on biological, chemical and sedimentary processes, and how they can be harnessed to generate renewable energy. You will develop new skills during this module that will support careers in the offshore oil and gas industry, renewable energy industry, environmental consultancy, government laboratories (e.g. Cefas) and academia. The level of mathematical ability required to take this module is similar to Ocean Circulation and Meteorology I. You should be familiar with radians, rearranging equations and plotting functions.

ENV-5017B

20

WEATHER

The weather affects everyone and influences decisions that are made continuously around the world. From designing and siting a wind farm to assessing flood risk and public safety, weather plays a vital role. Have you ever wondered what actually causes the weather we experience, for example why large storms are so frequent across north western Europe, especially in Winter? In this module you will learn the fundamentals of the science of meteorology. We will concentrate on the physical processes that underpin the radiation balance, thermodynamics, wind-flow, atmospheric stability, weather systems and the water cycle. We will link these to renewable energy and the weather we experience throughout the Semester. Assessment will be based entirely on a set of practical reports that you will submit, helping you to spread your work evenly through the semester. You will learn how Weather is a rich fusion of descriptive and numerical elements and you will be able to draw effectively on your own skill strengths while practising and developing others, guided by Weatherquest's Meteorologists.

ENV-5043A

20

WEATHER APPLICATIONS

ENV-5009B

20

WEATHER APPLICATIONS WITH FIELDCOURSE

Weather is one of the most popular topics of conversation. But how, specifically, does it present risks and opportunities, to people, organisations and to the wider environment? In this module you will develop a clear understanding of these linkages and an evidence base to draw on in future roles in which weather is a factor. You'll learn how to confidently source a diverse range of real-time weather information and you'll practice analysing such data, leading subsequently to successful interpretation and effective communication, both written and in front of the camera. You'll see, first hand, how meteorology depends upon computer systems for the efficient sharing, processing and visualisation of weather information. Being taught by weather practitioners with long experience of providing weather services to users, you will get the inside track on what it's like to work in weather. Weather Forecasting is one central theme and application which will provide a focus for learning. How are forecasts made and delivered, who uses forecasts and what are their distinctive needs? Success in forecasting depends in part on a good physical understanding of atmospheric processes - through practical work, we'll study those processes and use real examples of weather systems and events to reinforce the learning. At the end of the module, through an embedded week-long Easter residential fieldcourse, you'll apply your enhanced process understanding and forecasting knowledge in a hands-on way to design and implement meteorological field experiments, testing hypotheses through the collection and interpretation of field data collected using weather sensors. You'll write up your choice of fieldcourse experiment for assessment, after first receiving informal feedback on a related poster presentation.

ENV-5010K

20

Students must study the following modules for 60 credits:

Name Code Credits

RESEARCH TRAINING PROJECT

This year long module involves you carrying out individual research in the Environmental Sciences, with the topic suggested by and closely directed by a supervisor. The work will develop your research skills through learning by doing. You will present your results as a seminar and in the form of a research paper. The project differs from Year 3 project in requiring greater time and higher expected standards of research design and application of data. This module is restricted to UG students on the MSci programme only.

ENV-7026Y

60

Students will select 0 - 40 credits from the following modules:

Students must select a minimum of 40 credits across Option Ranges A and B

Name Code Credits

GEOPHYSICAL HAZARDS

Geophysical hazards such as earthquakes, volcanic eruptions, tsunamis and landslides have significant environmental and societal impacts. This module focuses on the physical basis and analysis of each hazard, their global range of occurrence, probability of occurrence and their local and global impact. You will address matters such as hazard monitoring, modelling and assessment, and consider approaches towards risk mitigation and the reduction of vulnerability (individual and societal), with an emphasis on their practical implementation. Scenarios and probabilities of mega-disasters are also investigated. All the teaching faculty involved have practical experience of supplying professional advice on these hazards (and related risks) in addition to their own research involvement. A basic knowledge of physical science and of mathematics is assumed e.g. use of logs, exponentials, powers, cosines, rearrangement of equations.

ENV-7042B

20

OIL AND GAS ENGINEERING

The aim of this module is to expose you to the technical and commercial realities of the oil and gas industry. An overview of the subject leads to a number of specific case studies provided by practising engineers. A number of assessment techniques are used, from individual presentations to analysis of reserves or research for a briefing document addressing issues of health and safety risk management. Each year the case studies will reflect the expertise of the visiting practising engineers. Although there are no pre-requisites this module is a good follow on to the Fossil Fuels module.

ENG-7012A

20

Students will select 0 - 20 credits from the following modules:

Students must select a minimum of 40 credits across Option Ranges A and B. Students must also submit a request to the School for a place on fieldcourses.

Name Code Credits

Students will select 0 - 60 credits from the following modules:

Name Code Credits

CLIMATE CHANGE: PHYSICAL SCIENCE BASIS

Climate change and variability have played major roles in shaping human history and the prospect of human-caused global warming is a pressing challenge for society. But how and why has climate changed, how do we predict future climate and how do our choices affect future climate? Throughout this module, you will learn how climate science can answer these questions. Discover the approaches, methods and techniques for understanding the history of climate change and for developing climate projections for the next 100 years. You'll also explore the scientific evidence about climate change and where the uncertainties lie. Starting with an introduction to the changing climate and the main themes in current climate research, your study will be structured around three topics. (1) Fundamentals of the changing climate. (2) Research methods. (3) Climate change and causal mechanisms. Studying the physical science basis of climate change will enable you to understand what controls our climate, to explain the causes of the changes we have observed, and to interpret projections of future climate change.

ENV-7014A

20

ENERGY AND CLIMATE CHANGE

In this module you will also consider climate change from the viewpoint of energy generation and usage. You will learn about the key relationships between energy, fossil fuels and the economy. The module draws on historical analyses to understand how energy systems have evolved in the past, as well as examining the role that scenarios play in exploring energy futures. You will gain an in-depth understanding of the complexities of changing energy systems, enabling you critically engage with debates around future "energy transitions", the role that innovation and emergent technologies might play, and the various challenges of shifting towards renewable based energy systems.

ENV-7029B

20

ENVIRONMENTAL ASSESSMENT EFFECTIVENESS

Environmental Assessment is considered to be more effective when conducted at strategic levels of decision making and is usually perceived to have a goal of achieving sustainable development. This module provides experience of conducting a particular form of strategic assessment, Sustainability Appraisal (SA), which incorporates environmental, social and economic considerations into plan making. Through practice of SA, a field course involving hands-on application of environmental assessment techniques and consideration of effectiveness theory, this module will examine what makes assessment effective. Please note that there will be a charge for attending this field course (in the range of GBP300-GBP400) to cover attendance.

ENV-7021K

20

GEOENGINEERING THE CLIMATE: SCIENCE AND POLICY

This module studies a set of different proposed techniques, called geoengineering, that seek to modify the Earth's climate by reducing the degree of anthropogenic radiative forcing, either by reflecting more sunlight back to space or by removing carbon dioxide from the atmosphere. This is a complex, controversial and highly uncertain area of science that requires a strongly interdisciplinary approach. The potential role of geoengineering techniques as a complement to mitigation and adaptation in tackling future climate change raises a number of important questions, not least for international policy making.

ENV-7031A

20

GIS AND ITS APPLICATIONS FOR MODELLING ECOLOGICAL AND ENVIRONMENTAL CHANGE

This module will provide essential GIS tools and principles that will be applied to modelling ecological and environmental change. This module includes two parts, the first part delivers core GIS skills. The second part examines recent ecological and environmental changes with particular emphasis to climate change. Students will learn to identify, extract and analyse data from national and global databases. GIS analyses will include the manipulation of such files. Particular attention will be paid to using the data to understand and model the consequences of environmental change. These skills are important in many areas of ecological and environmental research.

ENV-7034A

20

MODELLING ENVIRONMENTAL PROCESSES

Our aim is to show how environmental problems may be solved from the initial problem, to mathematical formulation and numerical solution. Problems will be described conceptually, then defined mathematically, then solved numerically via computer programming. The module consists of lectures on numerical methods and computing practicals, the practicals being designed to illustrate the solution of problems using the methods covered in lectures. We will guide students through the solution of a model of an environmental process of their own choosing. The skills developed in this module are highly valued by prospective employers.

ENV-7003A

20

NATURAL RESOURCES AND ENVIRONMENTAL ECONOMICS

Environmental economics provides a set of tools and principles which can be useful in understanding natural resource management issues. This module introduces you to key principles and tools of environmental economics for students who have not studied the subject previously. It then explores how these principles can be applied to address a number of complex economy-environment problems including climate change, over-fishing and water resources management. In this module you will have the opportunity to practically apply cost-benefit analysis as a framework for decision-making and will gain knowledge on the key non-market valuation techniques that are used to monetarily value environmental goods and services. At the end of the module you will have gained insights into how environmental economics is used in developing natural resource management policy as well as some of the challenges in using environmental economics in policy-making.

ENV-7116B

20

STATISTICS AND MODELLING FOR SCIENTISTS USING R

How do you test a hypothesis? How do you compare biological traits between wild populations? How do you best test and visualise differences between samples? Scientists use a wide array of methods for statistical analysis and plotting data, and increasingly, these tasks are carried out using R. R is a free programming language for statistical computing and graphics, including general and generalised linear models, time-series analysis, and community analysis and also specialised analyses in many scientific subfields. Learning R will equip you with a flexible statistical, modelling and graphics tool. Learning the basics of running R in the RStudio programming environment, you'll spend most of your time on general and generalised linear models, which unify the range of statistical tests that are classically taught separately: t-test, ANOVA, regression, logistic regression and chi-square, plus residuals analysis. Additionally, you'll learn how to use R to write simple programs and carry out community analyses such as principal components analysis. Finally, throughout the class, you'll learn R methods for data formatting, graphics, and documentation. On successful completion of this module you'll be able to use R to carry out and present results from the most widely used statistical tests in current scientific practice, giving you sufficient knowledge to continue learning statistical analysis on your own. A pre-requisite of first and/or second year statistical modules is required.

ENV-7033B

20

SUSTAINABLE CONSUMPTION

If everyone on Earth lived like a typical UK citizen, we'd need three planets-worth of resources. But we only have one. Why do we consume the way we do? What drives our behaviour and how might we persuade people to live more sustainably? What do we mean by a sustainable lifestyle, anyway? These are questions academics, business people, campaigners and policy makers struggle with every day and there are no easy answers. In this module you'll get to grips with competing visions about what sustainable consumption is. You'll gain an understanding of a range of theoretical approaches to understanding consumption behaviour and you'll learn how to apply these theories to develop strategies for achieving sustainable consumption. You'll begin by examining the impacts of western-style consumerism on the Earth's social, economic and environmental systems. Drawing on interdisciplinary social science theories from economics, psychology, sociology and ethnography, you'll go on to investigate a range of strategies for achieving change. You'll get hands-on experience testing and applying these ideas yourselves, in participative workshops, alongside award-winning innovative teaching methods. In lectures, you'll learn about topics such as Ethical Consumption, Limits to Growth, Collaborative Consumption, Community-based initiatives, Life Cycle Analysis and Behaviour-change campaigns. Understanding the theoretical debates behind everyday actions for sustainability will make you better able to design and implement sustainability strategies in the workplace - whether in the public or private sector, or civil society. You'll be able to identify the strengths and weaknesses in sustainable consumption campaigns and policies and offer theoretically-informed solutions.

ENV-7025A

20

THEORY OF ENVIRONMENTAL ASSESSMENT

Environmental assessment is a term used to describe procedures for evaluating the potential environmental consequences of policies, programmes, plans and projects. It is a well established tool for environmental policy integration, being routinely employed in more than 100 nations and by many international aid and funding agencies. This multidisciplinary module focuses on the theory and methods of environmental assessment and the decision-making contexts in which they are employed. It explains the procedural stages of, and selected methodologies for, environmental assessment and provides practical experience in applying them.

ENV-7020A

20

Important Information

The University makes every effort to ensure that the information within its course finder is accurate and up-to-date. Occasionally it can be necessary to make changes, for example to courses, facilities or fees. Examples of such reasons might include a change of law or regulatory requirements, industrial action, lack of demand, departure of key personnel, change in government policy, or withdrawal/reduction of funding. Changes may for example consist of variations to the content and method of delivery of programmes, courses and other services, to discontinue programmes, courses and other services and to merge or combine programmes or courses. The University will endeavour to keep such changes to a minimum, informing students and will also keep prospective students informed appropriately by updating our course information within our course finder.

In light of the current situation relating to Covid-19, we are in the process of reviewing all courses for 2020 entry with adjustments to course information being made where required to ensure the safety of students and staff, and to meet government guidance.

Further Reading

  • celebrate 50 years

    Find out about the impact UEA has made over the past 50 years

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  • Ask a Student

    This is your chance to ask UEA's students about UEA, university life, Norwich and anything else you would like an answer to.

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  • TOP 12 FACTS ABOUT THE SCHOOL

    Twelve things you need to know about the School of Environmental Sciences.

    Read it TOP 12 FACTS ABOUT THE SCHOOL
  • University Taster Events

    Come to one of our taster events and experience university life for yourself. Book now.

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  • UEA Award

    Develop your skills, build a strong CV and focus your extra-curricular activities while studying with our employer-valued UEA award.

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  • HEAR FROM OUR STUDENTS

    Find out what it’s like to be a part of the School of Environmental Sciences at UEA.

    Read it HEAR FROM OUR STUDENTS

Entry Requirements

  • A Level AAB including one from Geography, Geology, Maths, Economics, Biology, Chemistry, Environmental Science or Physics, or ABB including one from Geography, Geology, Maths, Economics, Biology, Chemistry, Environmental Science or Physics with an A in the Extended Project. All Sciece A-Levels must include a Pass in the practical element
  • International Baccalaureate 33 points including including HL5 in either Geography, Maths, Economics, Biology, Chemistry or Physics
  • Scottish Highers AAAAA including one from Geography, Geology, Maths, Economics, Biology, Chemistry, Environmental Science or Physics
  • Scottish Advanced Highers BBC including one from Geography, Geology, Maths, Economics, Biology, Chemistry, Environmental Science or Physics
  • Irish Leaving Certificate 2 subjects at H2, 4 subjects at H3 including one from Geography, Geology, Maths, Economics, Biology, Chemistry, Environmental Science or Physics
  • Access Course Pass Access to HE Diploma with Distinction in 36 credits at Level 3 and Merit in 9 credits at Level 3, including 12 credits in either Geography, Geology, Maths, Economics, Biology, Chemistry, Environmental Science or Physics
  • BTEC DDD in Applied Science, Applied Science (Medical Science), Environmental Sustainability or Countryside Management
  • European Baccalaureate 80% overall including 70% in one from Geography, Geology, Maths, Economics, Biology, Chemistry, Environmental Science or Physics

Entry Requirement

A-Level General Studies and Critical Thinking are not accepted.

If you do not meet the academic requirements for direct entry, you may be interested in one of our Foundation Year programmes

Students for whom English is a Foreign language

We welcome applications from students from all academic backgrounds. We require evidence of proficiency in English (including speaking, listening, reading and writing) at the following level:

IELTS: 6.5 overall (minimum 5.5 in any component)

We will also accept a number of other English language qualifications. Review our English Language Equivalences here.

INTO University of East Anglia 

If you do not meet the academic and/or English language requirements for this course, our partner INTO UEA offers guaranteed progression on to this undergraduate degree upon successful completion of a foundation programme. Depending on your interests and your qualifications you can take a variety of routes to this degree:

International Foundation in Pharmacy, Health and Life Sciences

International Foundation in Physical Sciences and Engineering

International Foundation in Mathematics and Actuarial Sciences

INTO UEA also offer a variety of English language programmes which are designed to help you develop the English skills necessary for successful undergraduate study:

Pre-sessional English at INTO UEA
English for University Study at INTO UEA

Interviews

The majority of candidates will not be called for an interview and a decision will be made via UCAS Track. However, for some students an interview will be requested. Where an interview is required the Admissions Service will contact you directly to arrange a time.

Gap Year

We welcome applications from students who have already taken or intend to take a gap year.  We believe that a year between school and university can be of substantial benefit. You are advised to indicate your reason for wishing to defer entry in your UCAS application.

Intakes

The annual intake is in September each year. 

Alternative Qualifications

UEA recognises that some students take a mixture of International Baccalaureate IB or International Baccalaureate Career-related Programme IBCP study rather than the full diploma, taking Higher levels in addition to A levels and/or BTEC qualifications. At UEA we do consider a combination of qualifications for entry, provided a minimum of three qualifications are taken at a higher Level. In addition, some degree programmes require specific subjects at a higher level. 

GCSE Offer

You are required to have Mathematics and English Language at a minimum of Grade C or Grade 4 or above at GCSE.

Course Open To

UK and overseas applicants. 
  • A Level ABB or BBB with an A in the Extended Project, including one from Geography, Geology, Mathematics, Economics, Biology, Chemistry, Environmental Science or Physics. Science A-Levels must include a pass in the practical element.
  • International Baccalaureate 32 points including Higher Level 5 in either Geography, Mathematics, Economics, Biology, Chemistry or Physics.
  • Scottish Highers AAABB including grade A in one from Geography, Geology, Mathematics, Economics, Biology, Chemistry, Environmental Science or Physics.
  • Scottish Advanced Highers BCC including one from Geography, Geology, Mathematics, Economics, Biology, Chemistry, Environmental Science or Physics.
  • Irish Leaving Certificate 3 subjects at H2, 3 subjects at H3 including one from Geography, Geology, Mathematics, Economics, Biology, Chemistry, Environmental Science or Physics.
  • Access Course Pass Access to HE Diploma with Distinction in 30 credits at Level 3 and Merit in 15 credits at Level 3, including 12 Level 3 credits in either Geography, Mathematics, Economics, Biology, Chemistry or Physics.
  • BTEC DDM in Applied Science, Applied Science (Medical Science), Environmental Sustainability or Countryside Management. Excludes BTEC Public Services, BTEC Uniformed Services, BTEC Business Administration and BTEC Forensic Science.
  • European Baccalaureate 75% overall including 70% in one from Geography, Geology, Mathematics, Economics, Biology, Chemistry, Environmental Science or Physics.

Entry Requirement

General Studies and Critical Thinking are not accepted.

If you do not meet the academic requirements for direct entry, you may be interested in one of our Foundation Year programmes:

Environmental Sciences with a Foundation Year

Students for whom English is a Foreign language

Applications from students whose first language is not English are welcome. We require evidence of proficiency in English (including writing, speaking, listening and reading):

  • IELTS: 6.5 overall (minimum 5.5 in all components)

We also accept a number of other English language tests. Please click here to see our full list.

INTO University of East Anglia 

If you do not yet meet the English language requirements for this course, INTO UEA offer a variety of English language programmes which are designed to help you develop the English skills necessary for successful undergraduate study:

If you do not meet the academic and or English requirements for direct entry our partner, INTO University of East Anglia offers guaranteed progression on to this undergraduate degree upon successful completion of a preparation programme. Depending on your interests, and your qualifications you can take a variety of routes to this degree:

Interviews

Most applicants will not be called for an interview and a decision will be made via UCAS Track. However, for some applicants an interview will be requested. Where an interview is required the Admissions Service will contact you directly to arrange a time.

Gap Year

We welcome applications from students who have already taken or intend to take a gap year.  We believe that a year between school and university can be of substantial benefit. You are advised to indicate your reason for wishing to defer entry on your UCAS application.

Intakes

The annual intake is in September each year

Alternative Qualifications

UEA recognises that some students take a mixture of International Baccalaureate IB or International Baccalaureate Career-related Programme IBCP study rather than the full diploma, taking Higher levels in addition to A levels and/or BTEC qualifications. At UEA we do consider a combination of qualifications for entry, provided a minimum of three qualifications are taken at a higher Level. In addition some degree programmes require specific subjects at a higher level.

GCSE Offer

You are required to have Mathematics and English Language at a minimum of Grade C or Grade 4 or above at GCSE.

Course Open To

UK and overseas applicants.

Fees and Funding

Undergraduate University Fees and Financial Support

Tuition Fees

Information on tuition fees can be found here: 

 

Scholarships and Bursaries

We are committed to ensuring that costs do not act as a barrier to those aspiring to come to a world leading university and have developed a funding package to reward those with excellent qualifications and assist those from lower income backgrounds.  

 

The University of East Anglia offers a range of Scholarships; please click the link for eligibility, details of how to apply and closing dates. 

How to Apply

Applications need to be made via the Universities Colleges and Admissions Services (UCAS), using the UCAS Apply option. 

UCAS Apply is a secure online application system that allows you to apply for full-time Undergraduate courses at universities and colleges in the United Kingdom. It is made up of different sections that you need to complete. Your application does not have to be completed all at once. The application allows you to leave a section partially completed so you can return to it later and add to or edit any information you have entered. Once your application is complete, it is sent to UCAS so that they can process it and send it to your chosen universities and colleges. 

The Institution code for the University of East Anglia is E14. 

Further Information

Please complete our Online Enquiry Form to request a prospectus and to be kept up to date with news and events at the University.  

Tel: +44 (0)1603 591515 

    Next Steps

    We can’t wait to hear from you. Just pop any questions about this course into the form below and our enquiries team will answer as soon as they can.

    Admissions enquiries:
    admissions@uea.ac.uk or
    telephone +44 (0)1603 591515