MRes
2021 start

Ecology and Environment

School of Biosciences, Faculty of Science

Further your understanding of how we maintain ecosystems in the face of environmental change with our uniquely research-focussed course.
APS student

Course description

Biodiversity is threatened by climate change and other consequences of the growing human population. To solve this, and some of the other global challenges facing humanity, we need researchers with an in-depth understanding of how we maintain ecosystems in the face of environmental change.

Our world-class research in this area spans topics including global change ecology, biodiversity science, tropical forest conservation, palaeoecology and palynology, urban ecology, environmental pollution, and agricultural ecology, giving students on this course the opportunity to carry out cutting-edge research in their chosen area.

Research experience

This research-focused course allows you to spend an academic year embedded in one of our research groups, working alongside students and staff who are at the forefront of their research field.

Throughout your course, you’ll develop your research skills, giving you the opportunity to contribute new knowledge in your chosen area.

Whether you complete your research in the field, the lab or in industry, in the UK or abroad, you’ll be provided with a research budget for your project. Previous students have conducted fieldwork in locations including Brazil, South Africa and Sweden as well as closer to home in the wonderful Peak District National Park on our doorstep.

Example research projects include:

  • Impacts of selective logging on the morphology of neotropical butterflies
  • A DNA-based assessment of Eurasian otter, Lutra lutra, numbers and seasonal movement in the Peak District
  • Partitioning the effects of vertical relief and refuge on coral reef fish community structure

How to apply

Because of the research-intensive nature of this course, we ask you to include a short supporting statement with your application. This should explain how your interests and experience relate to the ecology and environment research we do in the Department of Animal and Plant Sciences, including which particular supervisors or research groups you would be most interested in working with.

Please submit your application by 15th August if you require a student visa and by 31st August if you do not require a visa.

Potential supervisors

Choose a subject area:

Evolutionary ecology
  • Dr Deborah Dawson - Conservation genetics of otters and salmon; reproductive genetics and genomics; molecular ecology including eDNA analysis
  • Professor Charles H Wellman - Evolution of land plants over geological time, with emphasis on their origin and early diversification
  • Professor Andrew Beckerman - Structure, complexity and dynamics of food webs; ecology and evolution of phenotypic plasticity; distribution and abundance of organisms and the diversity and structure of communities; conservation and demography of endangered parrots. Combines mathematical modelling and lab and field experiments
  • Professor Roger K Butlin - Processes that lead to speciation and the genetic basis of barriers to gene exchange, using analysis of contact zones in Littorina snails and experimental evolution of rotifer populations
  • Dr Stuart Campbell - Plant chemical and molecular ecology; secondary metabolite diversity and function; plant-insect interactions in wild species and crops; mechanisms and consequences of self-incompatibility
  • Professor Ben J Hatchwell - Cooperative behaviour and social evolution, using long-term studies of birds to investigate the causes and consequences of sociality
  • Dr Helen Hipperson - Applying genomic techniques to answer questions in plant and soil biology, ecology, evolution, conservation and population genomics
  • Dr Nicola Nadeau - Genomic approaches to understand biodiversity, speciation and adaptation, with a particular focus on the tropical Heliconius butterflies
  • Professor Colin P Osborne - How evolution leads to physiological diversity in wild plants and the significance of physiological differences for ecological behaviour. Photosynthesis, growth, climate change and sustainability are central themes, as is the significance of physiological responses for ecosystems
Macroecology
  • Dr Chris Cooney - Processes structuring biodiversity over broad evolutionary timeframes and spatial scales; interactions between sexual selection and ecology in driving evolutionary dynamics. Combines computational and field based approaches, often focused on birds and other animal groups
  • Dr Gavin Thomas - How and why present day biodiversity has (i) arisen over time (macroevolution), and (ii) varies across geographic space (macroecology). Combines museum based data collection with citizen science and computational modelling to assess macroevolutionary and macroecological patterns and processes.
  • Professor Gareth K Phoenix - Impacts of climate change and pollution on biodiversity, biogeochemical cycling, and the consequences for ecosystem feedback to climate, particularly in Arctic, northern boreal and upland (mainly grassland) ecosystems.
  • Dr Tom Webb - Distribution and dynamics of marine biodiversity at large spatial scales: How does diversity differ through space? What causes diversity to change through time? Combines ecological and environmental data computationally with information on human activities to tackle questions in marine macroecology and conservation.
  • Professor David Edwards - Biodiversity conservation, tropical land-use and climate change, and environmental economics. Field-based approach to biodiversity and ecosystem functioning, incorporating environmental economics and policy frameworks impacting the global biodiversity extinction crisis
Ecological modelling
  • Dr Lyla Taylor - Process-based modelling of plant-mineral interactions at a variety of spatial and temporal scales
  • Dr Maria Val Martin - Atmospheric composition, air pollution and atmosphere-biosphere-climate interactions;  land-based CO2 strategies to mitigate climate change and reach net zero emissions
  • Dr Holly Croft - Remote sensing of terrestrial ecosystems, from the leaf to the globe. Drones; plant physiology and plant-environment interactions
  • Dr Dylan Childs - How demographic processes and environmental factors interact to shape population-level processes. Combines mathematical and statistical modelling with lab and field data population dynamics and natural selection in a wide range of laboratory and free-living animal and plant populations
  • Professor Rob Freckleton - My research focuses on modelling population and community dynamics. I am particularly interested in large scale population dynamics, although have a range of interests, including plant population ecology, evolutionary ecology, phylogenetic comparative methodology and theoretical ecology
Soil and microbial ecology
  • Professor Tim Daniell - Plant interaction with soil communities including mycorrhiza and impacts on soil nitrogen cycling.  Linking soil function and community dynamics
  • Professor Katie Field - Evolution, diversity and ecophysiology of plant-fungal symbioses (mycorrhizas) and responses to global change; applications in sustainable agriculture
  • Dr Ellie Harrison - Ecology and evolution of plant associated microbial communities. Specifically, how communities are shaped by mobile genetic elements and horizontal gene transfer
  • Dr Helen Hipperson - Applying genomic techniques to answer questions in plant and soil biology, ecology, evolution, conservation and population genomics
  • Professor Jonathan R Leake - Plant-soil functioning in sustainable agriculture, including management options to improve soil biology, soil structure, carbon sequestration and crop performance and guide agri-environmental policy for soil sustainability
Urban ecology
  • Dr Jill Edmondson - Soil and vegetation carbon budgeting including black carbon, urban soil quality, soil-to-crop pollutant transfer in urban agriculture, interactions between urban land management and ecosystem service delivery
  • Dr Deborah Dawson - Conservation genetics of otters and salmon; reproductive genetics and genomics; molecular ecology including eDNA analysis
  • Dr Karl Evans - Pathways through which human activity degrades ecosystems, their biodiversity and ecosystem services, and devising solutions. Interdisciplinary approach drawing on ecological and social sciences. Focused on urban systems, climate change, protected areas and the environmental impacts of development policies

Apply now

Modules

Core modules:

Research Project

Contact department for more information.

120 credits
Literature Review

The literature review requires the student to write a critical review of a biological topic of choice. The literature review will involve extensive reading of original research papers, reviews and books together with information extracted from other media. The student will be required to critically analyse hypotheses in the field and critically analyse the quality of the evidence used to support them. Where controversies exist the student should be prepared to indicate which side has the stronger case. The literature review should also identify gaps in our current knowledge and understanding and make suggestions for the future developments in the field.

15 credits
Scientific Skills and Project Management

This module provides training in the skills and approaches necessary to design, manage, conduct, analyse and present research in whole organism biology and environmental science. Generic skills involve designing and planning an effective and reproducible study, making best use of available resources; collecting and managing data to address study aims; conducting research in an ethical manner; and communicating results orally and in writing to different audiences. There are also workshops explaining key aspects of the research process, introducing peer review and describing the science funding landscape. The module also covers advanced principles of experimental design, data interpretation, and graphical presentation, introduced in the statistical computing environment R using a series of workshops and student-centred learning assignments to develop skills and proficiency.

30 credits
Science Communication for Researchers

This module provides training in the skills and approaches necessary to effectively communicate science. The module has three main components:
1. An intensive science communication workshop focusing on interactions with the print and broadcast media;
2. A poster presentation, where students design and produce a poster to communicate their research project to a target audience (e.g. general public,
research audience);
3. A formal oral presentation, where students present their research results to their peers.

15 credits

The content of our courses is reviewed annually to make sure it's up-to-date and relevant. Individual modules are occasionally updated or withdrawn. This is in response to discoveries through our world-leading research; funding changes; professional accreditation requirements; student or employer feedback; outcomes of reviews; and variations in staff or student numbers. In the event of any change we'll consult and inform students in good time and take reasonable steps to minimise disruption. We are no longer offering unrestricted module choice. If your course included unrestricted modules, your department will provide a list of modules from their own and other subject areas that you can choose from.

Teaching

You’ll learn through a mixture of working in a research laboratory or on a field-based research project, tutorials, discussion groups, seminars, and statistics and other workshops.

Assessment

Assessment includes, but is not limited to, a project report, literature review, critiques, short reports and essays and oral presentations.

Duration

1 academic year full-time

Your career

This degree provides an ideal springboard for a research career in your chosen field, including crop and soil science, evolutionary and behavioural research, genomics and related technologies, and ecological and environmental research. Past students have gone on to study for PhDs, as well as taking up positions in government science, environmental consultancy, and industry.

Student profiles

APS student

“My specific project is investigating the impact of skid roads in Rondônia, Brazil, on young tree diversity and mortality, helping to gauge the sustainability of the operation and offer guidance on how to improve it in partnership with a sustainable logging company.”

Tom Pearson
MRes Ecology and Environment

Entry requirements

A 2:1 BSc honours degree, or equivalent, in biology or a closely related quantitative subject. In addition, you should be able to demonstrate evidence of aptitude and enthusiasm for research eg an undergraduate research project.

Overall IELTS score of 6.5 with a minimum of 6.0 in each component, or equivalent.

We also accept a range of other UK qualifications and other EU/international qualifications.

If you have any questions about entry requirements, please contact the department.

Fees and funding

Fieldwork

The cost of all core fieldwork and practical project work is included in your tuition fees, this includes both one day field trips and compulsory field courses as well as obligatory safety equipment. Travel to field sites for project work may incur additional costs.

Apply

Because of the research-intensive nature of this course, we ask you to include a short supporting statement with your application. Please see the course description above for more details.

Apply now

Any supervisors and research areas listed are indicative and may change before the start of the course.

Our student protection plan

Recognition of professional qualifications: from 1 January 2021, in order to have any UK professional qualifications recognised for work in an EU country across a number of regulated and other professions you need to apply to the host country for recognition. Read information from the UK government and the EU Regulated Professions Database.

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