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Groundwater Residence Times for Peatland Restoration

School of Natural and Built Environment | PHD
Funding
Funded
Reference Number
NBE/2024/RF3
Application Deadline
30 June 2024
Start Date
1 October 2024

Overview

Upland areas, covered by blanket bog, form the principal source of water for many towns and cities across Britain and Ireland, with approximately 85% of all drinking water derived from peatlands worldwide consumed in here1. Recent surveys have revealed that almost all catchment areas providing this water are degraded by human activity and now provide raw (untreated) water with elevated levels of dissolved organic carbon (DOC)2. The cost of DOC removal has led water companies to use peatland restoration to improve raw water quality. Despite this, the benefits of many restoration programmes have proven questionable, while the reasons for contrasting levels of restoration remain poorly understood. This research project will investigate how better knowledge of peatland hydrology and hydrogeology can be used to develop more effective restoration strategies to improve water quality in blanket bog covered catchments. Multidisciplinary research, within a team of hydrologists, ecologists and environmental scientists at world-class blanket bog hydrological research facilities in Northern Ireland and the Republic Ireland, will aim to better determine how water flows through peat and how long it takes for restoration measures to prove effective. Research will be jointly supervised by academic staff at Queen’s University Belfast and Trinity College Dublin.

The British and Irish governments view peatland restoration as a key part of their transition to a sustainable economy, with hundreds of millions of pounds / euros proposed for investment in coming years. Anticipated benefits from restoration include improved drinking water resources, reduced greenhouse gas emissions /carbon capture, improved biodiversity and stabilised stream flow / reduced flood risk4.

Despite the considerable resources proposed, the challenges faced in peatland restoration are considerable, with programmes completed so far generating variable benefits. The reasons for this remain poorly defined.

More knowledge is needed to understand how to best implement peatland restoration programmes. This requires a scientific evidence base for development of the conceptual models that underpin suitable measures and quantify the time over which they may be expected to become effective. A multidisciplinary framework for understanding how blanket bogs respond to environmental changes is necessary for generating evidence.

Previous blanket bog investigations have highlighted the pivotal role played by water level fluctuations in influencing changes in carbon emissions5 and degradation in water quality5,6. Despite this, how water flows through peat remains poorly defined. This is made all the more challenging by the fact that benefits from changes in hydrological regimes and water quality, arising from restoration, take time to express themselves.

This PhD research will investigate groundwater residence times in blanket bogs, to improve current understanding of how water flows through bogs, and quantify times between the implementation of restoration measures and the when benefits to stream flow & water quality may be expected. Research will focus on three state-of-the-art blanket peat-covered hydrological research sites, in the Republic of Ireland and Northern Ireland, which have existing integrated hydrological instrumentation and monitoring data sets. Activities will aim to characterise groundwater flow regimes in peat, while also monitoring artificial and environmental tracers to determine groundwater residence times. Field studies completed at plot size will be up-scaled to catchment scale through remote sensing /GIS modelling to compare results with hydrological and water quality responses observed at catchment outlets.

Work completed will form part of a wider programme of multidisciplinary research involving ecologists, hydrologists, environmental scientists and policy makers. Research supervisors at Queen’s University Belfast and Trinity College Dublin will provide opportunities for wider multidisciplinary collaboration and training with researchers at the Co-Centre for Climate+Biodiversity+Water.

Research Activity

This research provides an opportunity for candidates keen to develop highly sought after expertise in peatland science and engineering. Findings will play a key role in determining measures aimed at sustainable water resource management and understanding the wider impact of peatlands on the environment and society in the coming decades.

This investigation will provide a baseline for assessing the impact of peatland restoration programmes on drinking water resources and water quality. Activity will focus on the use of conventional hydrogeological methods and the development of innovative techniques to characterise groundwater flow through peat and how responses may be up scaled for comparison with catchment level responses, observed at the hydrological monitoring sites. Activities will include:
1. A review of existing research and data investigating blanket bog hydrology and hydrogeology.
2. Measurement of peat hydrogeological parameters and characterisation of groundwater flow regimes in the field.
3. Monitoring of groundwater and surface quality using major ion and isotopic methods to better characterise groundwater residence times in peat.
4. Application of artificial tracer testing techniques to determine plot scale mass transport rates.
5. Upscaling of plot scale findings using GIS modelling and remote sensing to compare integrated plot scale measurements with catchment outlet responses.
6. Integration of findings to develop conceptual models of groundwater flow and residence times in blanket peats, with particular emphasis on quantifying lag times between the implementation of measures and their impact.
Field-based research will be carried out at existing blanket bog test catchments, instrumented through existing Irish EPA and DAERA-supported research programmes. Researchers will avail of state-of-the-art research network and resources, including existing high resolution topographic (LIDAR) and ecological survey data, along with access to extensive integrated hydrological (groundwater and surface water) physical and water quality monitoring datasets. Further analytical facilities for isotopic and major ion analysis for groundwater analyses will be provided through DAERA support.

References

1. United Nations Sustainable Development Goals. https://sdgs.un.org/goals
2. Xu, J., Morris, P.J., Liu, J. and Holden, J., 2018. Hotspots of peatland-derived potable water use identified by global analysis. Nature Sustainability, 1(5), pp.246-253.
3. Williamson, J., Evans, C., Spears, B., Pickard, A., Chapman, P.J., Feuchtmayr, H., Leith, F. and Monteith, D., 2020. Will UK peatland restoration reduce dissolved organic matter concentrations in upland drinking water supplies?. Hydrology and Earth System Sciences Discussions, 2020, pp.1-21.
4. Flynn, R., Mackin, F. and Renou-Wilson, F., 2021. Towards the quantification of blanket bog ecosystem services to water. Environmental Protection Agency (EPA), Co., Wexford, Ireland.
5. Evans, C.D., Peacock, M., Baird, A.J., Artz, R.R.E., Burden, A., Callaghan, N., Chapman, P.J., Cooper, H.M., Coyle, M., Craig, E. and Cumming, A., 2021. Overriding water table control on managed peatland greenhouse gas emissions. Nature, 593(7860), pp.548-552.
6. Flynn, R., Mackin, F., McVeigh, C. and Renou‐Wilson, F., 2022. Impacts of a mature forestry plantation on blanket peatland runoff regime and water quality. Hydrological Processes, 36(2), p.e14494.

ESSENTIAL BACKGROUND OF CANDIDATE

Minimum of a strong upper second class (2.1) honours degree (completed, or in the final stages of completion) in Candidates should have a background in Earth Science. Environmental Science, Civil Engineering, Environmental Engineering or equivalent. Candidates should be prepared to carry out field work in mountainous areas and should have a full driving licence. Candidates with industrial / military experience are encouraged to apply.

RESEARCH PROPOSAL - INSTRUCTIONS FOR APPLICANTS

Please note that applicants are not required to upload a research proposal as part of the application. Instead, interested candidates should upload a copy of their CV and a covering letter outlining their motivation to undertake a PhD on this theme, and describing any relevant experience in Environmental Science, Civil Engineering, Environmental Engineering or equivalent.

APPLICATION PROCEDURE

• To apply, visit https://dap.qub.ac.uk/portal/user/u_login.php (link to the QUB Direct Application Portal)
• Apply for Degree of Doctor of Philosophy in ‘Civil Engineering’ at Queen's University Belfast, School of Natural and Built Environment.
• State name of lead supervisor on application form ‘Dr. Ray Flynn’.
• State the intended source of funding on your application as EPSRC.
• Include your CV and a covering letter.

Funding Information

PLEASE NOTE: These EPSRC studentships are open only to candidates who are classed Home, UK or Republic of Ireland and candidates with settled status or ILTR. International candidates are not eligible. The value of an award includes the cost of approved fees as well as maintenance support (stipend). As an indicator, the level for 2023/2024 is currently £18,622.

Please note that this research project is one of several advertised projects at Queen’s which are in competition for funding. The selection will be based on the projects which receive the best application.

Project Summary
Supervisor

Dr Raymond Flynn

More Information

r.flynn@qub.ac.uk

Research Profile


Mode of Study

Full-time: 3.5 years


Funding Body
EPSRC
Apply now Register your interest

Civil Engineering overview

The research centre will address the topical grand challenges in civil engineering field, building on existing and developing new international collaborations. Financial support to meet these challenges will be acquired through both internal University initiatives (for enhanced infrastructure and facilities) and external funding from government grants, charities and direct industrial support.

Research will address the grand challenges of energy, carbon, clean water, infrastructure; exploring extremes and defining new limits. Key research areas include:

Marine renewable energy
Groundwater and environmental systems
Geotechnics
Intelligent infrastructure and high performance structures
Energy efficient materials

Mode of study / duration

Registration is on a full-time or part-time basis, under the direction of a supervisory team appointed by the University. You will be expected to submit your thesis at the end of three years of full-time registration for PhD, or two years for MPhil (or part-time equivalent).

Civil Engineering Highlights
Global Opportunities
  • Civil Engineering brings together researchers from spatial planning, architecture, geography, paleoecology and civil engineering to tackle some of the world's most pressing urban and environmental challenges.
    https://www.qub.ac.uk/schools/NBE/Research/
Industry Links
  • Civil Engineering is led by a Head of Discipline supported by team leaders with responsibility for maintaining excellence in its research groups. One of these, the Intelligent and Sustainable Infrastructure Group (ISIG - including low carbon structural materials) has several joint projects with international Centres of Excellence. Further information about our research groups can be found on the School website.
    https://www.qub.ac.uk/schools/NBE/Disciplines/civil-and-structural-engineering/
World Class Facilities
  • The School of Natural and Built Environment has a range of state-of-the-art facilities to support our outstanding students and staff conducting leading-edge research and teaching. These include a heavy structures laboratory, rheology laboratory, the Belfast Wave Flume and the Portaferry coastal wave basin.
    https://www.qub.ac.uk/schools/NBE/Research/facilities-infrastructure/
Student Experience
  • Postgraduates form an intrinsic part of our research community and are actively involved in the School's cross-disciplinary Research Groups, enabling the creation of synergies in areas such as sustainability, infrastructure, culture, design and heritage. The School is engaged with major research themes such as urbanism, community, heritage, population and climate change which contributes to the development of policy and practice both locally and globally. Visit our School website and read about the exciting research being undertaken by our current PhD students:
    https://www.qub.ac.uk/schools/NBE/Study/PostgraduateResearch/
Key Facts

Civil Engineering at Queens is in the Top 200 in the World QS Rankings (2022).

  • Civil Engineering is ranked 20th in the UK (Times and Sunday Times Good University Guide 2022).

Course content

Research Information

Associated Research
The dynamic nature of this research has been key to the our success in attracting significant funding from UK research councils, government departments and agencies.
The Civil Engineering Research Centre (CERC) is a leading international, interdisciplinary centre that enables scientists and engineers from all areas of civil engineering investigation to work on diverse, yet complementary research.
A special feature of the CERC is the extensive and diverse range of research topics being researched by students and staff in the Centre.

Career Prospects

Introduction
Many of our PhD graduates have moved into academic and research roles in Higher Education while others go on to play leading roles in educational practice, the public sector or within NGO’s. Queen's postgraduates reap exceptional benefits. Unique initiatives, such as Degree Plus and Researcher Plus bolster our commitment to employability. For further information on career opportunities at PhD level please contact the Faculty of Engineering and Physical Sciences Student Recruitment Team on askEPS@qub.ac.uk. Our advisors - in consultation with the School - will be happy to provide further information on your research area, possible career prospects and your research application.

People teaching you

Dr David Hester
Senior Lecturer
Natural and Built Environment

Dr Faris Elghaish
Lecturer
Natural and Built Environment

Dr Giuseppina Amato
Senior Lecturer
Natural and Built Environment

Dr Madjid Karimirad
Senior Lecturer
Natural and Built Environment

Dr Mohammed Sonebi
Professor
Natural and Built Environment

Dr Nipuni Odara Merenchi Galappaththige
Lecturer
Natural and Built Environment

Dr Raymond Flynn
Senior Lecturer
Natural and Built Environment

Dr Rory Doherty
Senior Lecturer
Natural and Built Environment

Dr Saed Hasan
Lecturer
Natural and Built Environment

Dr Siobhan Cox
Senior Lecturer
Natural and Built Environment

Dr Sree Nanukuttan
Senior Lecturer
Natural and Built Environment

Dr Stephen McIlwaine
Senior Lecturer
Natural and Built Environment

Dr Tara Brooks
Senior Lecturer
Natural and Built Environment

Dr Ulrich Ofterdinger
Reader
Natural and Built Environment

Dr Xianhai Meng
Senior Lecturer
Natural and Built Environment

Professor G Hamill
Professor
Natural and Built Environment

Professor Marios Soutsos
Professor
Natural and Built Environment

Professor Wei Sha
Professor
Natural and Built Environment

Learning Outcomes
A research degree offers students an opportunity to foster their capacity for independent research and critical thought. It also allows students to explore an area of interest and so understand and solve theoretical and practical problems within the field.

Undertaking a research degree also enhances a student’s written and oral communication skills, and a PhD is almost always a formal requirement for an academic post.
Course structure
You will carry out original research under the guidance of your supervisory team. There is no specific course content as such. This independent research is complemented by postgraduate skills training organised by Queen’s Graduate School, and other internal and external training courses organised through your supervisor.

You will normally register, in the first instance, as an ‘undifferentiated PhD student’ which means that you have satisfied staff that you are capable of undertaking a research degree. The decision as to whether you should undertake an MPhil or a PhD is delayed until you have completed ‘differentiation’.

Differentiation takes place about 9-12 months after registration for full time students and about 18-30 months for part time students: You are normally asked to submit work to a panel of up two academics and this is followed up with a formal meeting with the ‘Differentiation Panel’. The Panel then make a judgement about your capacity to continue with your study. Sometimes students are advised to revise their research objectives or to consider submitting their work for an MPhil qualification rather than a doctoral qualification.

To complete with a doctoral qualification you will be required to submit a thesis of no more than 80,000 words and you will be required to attend a viva voce [oral examination] with an external and internal examiner to defend your thesis.

A PhD programme runs for 3-4 years full-time or 6-8 years part-time. Students can apply for a writing up year should it be required.

The PhD is open to both full and part time candidates and is often a useful preparation for a career within academia or consultancy.

Full time students are often attracted to research degree programmes because they offer an opportunity to pursue in some depth an area of academic interest.

The part time route is a suitable option for those unable to study for a PhD full time. This may be due to family commitments or those already in employment. On the former, studying part time for a PhD can be very accommodating in juggling different responsibilities. On the latter, part time candidates often choose to research an area that is related to their professional responsibilities.

If you meet the Entry Requirements, the next step is to check whether we can supervise research in your chosen area. We only take students to whom we can offer expert research supervision from one of our academic staff. Therefore, your research question needs to engage with the research interests of one of our staff.

Application Process
Please review the eligibility criteria on the webpages. If you believe that you meet these criteria then follow the steps below:

Select ONE potential supervisor from our list of Academic Staff (https://www.qub.ac.uk/schools/NBE/OurPeople/AcademicandResearchStaff/) and send an email containing:

a brief CV (1-2 pages maximum)
a concise statement that you are interested in studying for a PhD, stating when you would start, and how you would plan to fund the research
a brief statement of the research question or interest, and how you think the question could be investigated

Our academic staff welcome approaches from prospective students; staff can liaise with applicants to develop a research proposal of mutual interest. The potential supervisor should get back to you within a couple of weeks. They may invite you to meet with them or they may invite you to apply formally.

If you have difficulty identifying or contacting an appropriate supervisor, please contact Catherine Boone (email: pgr.snbe@qub.ac.uk) who will be happy to help.

For part-time study – the closing date for this option is 31st August each year.

For full-time study (self-funding) – for those full time candidates who do not wish to compete for a studentship or who are not eligible to compete for a studentship the closing date is 31st August each year.

For full-time study and application for a studentship/award; please be aware that awards are only available to full time students. Candidates wishing to apply for studentships available within the School must apply for full-time study at the same time. Available studentships and closing dates are detailed on the School's studentships web page: https://www.qub.ac.uk/schools/NBE/Study/PostgraduateResearch/ResearchStudentships/
Assessment

Assessment processes for the research degree differ from taught degrees. Students will be expected to present drafts of their work at regular intervals to their supervisor who will provide written and oral feedback; a formal assessment process takes place annually.

This Annual Progress Review requires students to present their work in writing and orally to a panel of academics from within the School. Successful completion of this process will allow students to register for the next academic year.

The final assessment of the doctoral degree is both oral and written. Students will submit their thesis to an internal and external examining team who will review the written thesis before inviting the student to orally defend their work at a Viva Voce.

Feedback

Supervisors will offer feedback on draft work at regular intervals throughout the period of registration on the degree.

Entrance requirements

Graduate
The minimum academic requirement for admission to a research degree programme is normally an Upper Second Class Honours degree from a UK or ROI HE provider, or an equivalent qualification acceptable to the University. Further information can be obtained by contacting the School.

International Students

For information on international qualification equivalents, please check the specific information for your country.

English Language Requirements

Evidence of an IELTS* score of 6.5, with not less than 5.5 in any component, or an equivalent qualification acceptable to the University is required. *Taken within the last 2 years.

International students wishing to apply to Queen's University Belfast (and for whom English is not their first language), must be able to demonstrate their proficiency in English in order to benefit fully from their course of study or research. Non-EEA nationals must also satisfy UK Visas and Immigration (UKVI) immigration requirements for English language for visa purposes.

For more information on English Language requirements for EEA and non-EEA nationals see: www.qub.ac.uk/EnglishLanguageReqs.

If you need to improve your English language skills before you enter this degree programme, INTO Queen's University Belfast offers a range of English language courses. These intensive and flexible courses are designed to improve your English ability for admission to this degree.

Tuition Fees

Northern Ireland (NI) 1 TBC
Republic of Ireland (ROI) 2 TBC
England, Scotland or Wales (GB) 1 TBC
EU Other 3 £25,600
International £25,600

1 EU citizens in the EU Settlement Scheme, with settled or pre-settled status, are expected to be charged the NI or GB tuition fee based on where they are ordinarily resident, however this is provisional and subject to the publication of the Northern Ireland Assembly Student Fees Regulations. Students who are ROI nationals resident in GB are expected to be charged the GB fee, however this is provisional and subject to the publication of the Northern Ireland Assembly student fees Regulations.

2 It is expected that EU students who are ROI nationals resident in ROI will be eligible for NI tuition fees. The tuition fee set out above is provisional and subject to the publication of the Northern Ireland Assembly student fees Regulations.

3 EU Other students (excludes Republic of Ireland nationals living in GB, NI or ROI) are charged tuition fees in line with international fees.

All tuition fees quoted are for the academic year 2021-22, and relate to a single year of study unless stated otherwise. Tuition fees will be subject to an annual inflationary increase, unless explicitly stated otherwise.

More information on postgraduate tuition fees.

Civil Engineering costs

There are no specific additional course costs associated with this programme.

Additional course costs

All Students

Depending on the programme of study, there may also be other extra costs which are not covered by tuition fees, which students will need to consider when planning their studies . Students can borrow books and access online learning resources from any Queen's library. If students wish to purchase recommended texts, rather than borrow them from the University Library, prices per text can range from £30 to £100. Students should also budget between £30 to £100 per year for photocopying, memory sticks and printing charges. Students may wish to consider purchasing an electronic device; costs will vary depending on the specification of the model chosen. There are also additional charges for graduation ceremonies, and library fines. In undertaking a research project students may incur costs associated with transport and/or materials, and there will also be additional costs for printing and binding the thesis. There may also be individually tailored research project expenses and students should consult directly with the School for further information.

Bench fees

Some research programmes incur an additional annual charge on top of the tuition fees, often referred to as a bench fee. Bench fees are charged when a programme (or a specific project) incurs extra costs such as those involved with specialist laboratory or field work. If you are required to pay bench fees they will be detailed on your offer letter. If you have any questions about Bench Fees these should be raised with your School at the application stage. Please note that, if you are being funded you will need to ensure your sponsor is aware of and has agreed to fund these additional costs before accepting your place.

How do I fund my study?

1.PhD Opportunities

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4.International Scholarships

Information on Postgraduate Research scholarships for international students.

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How to Apply

Apply using our online Postgraduate Applications Portal and follow the step-by-step instructions on how to apply.

Find a supervisor

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To find a potential supervisor aligned with your area of interest, or if you are unsure of who to contact, look through the staff profiles linked here.

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