PhD: Beyond the peak – towards improved understanding of flood signatures, their drivers and trends

About the project

This project will exploit a novel dataset that captures detailed information on flood signatures and rainfall characteristics, including duration, volume and rate-of-rise, from 1200 catchments, to identify trends in flood signatures, like duration, total volume and rate-of-rise, through non-stationary statistical methods, disentangling the separate effects of climate and land-use change.

Flood risk is becoming an increasing concern as studies suggest that flood frequency and magnitude are changing over time in the UK, with events that would have been rare in the recent past seeming less rare now. While the major UK flood episode in late 2023/early 2024 saw some extreme peak flows, it was remarkable for its repeated nature (with a relentless series of extreme storms), spatial extent, and duration. Other recent episodes have also seen repeated flooding and wide spatial footprints. 

Traditional assessments of flood severity and long-term trend are based on peak flow magnitude, but there is a need to better understand other flood signatures like duration, total volume and spatial extent, how they are changing, and why. Capturing the likelihood of simultaneous flooding events is also crucial for resource allocation in emergency response to flooding. 

This project will exploit a novel dataset that captures detailed information on flood signatures and rainfall characteristics, including duration, volume and rate-of-rise, from 1200 catchments. Trends in flood signatures will be identified through non-stationary statistical methods such as GAMLSS models, after grouping events into similar families (e.g. intense convective storms in urban catchments). 

Co-occurrence of trends will be investigated, applying spatial clustering to identify locations with similar trends. Rainfall, land-use change, and atmospheric circulation indices will be investigated as covariates, disentangling land-use change and regional climatic change impacts, and offering a huge advance on current approaches that largely focus on changes in peak flows only.

Supervisors

As well as Dr Gianni Vesuviano from the UK Centre for Ecology & Hydrology (UKCEH): giaves@ceh.ac.uk (lead supervisor) and Professor Justin Sheffield from the University of Southampton, you will also receive supervision from: 

• Dr Gemma Coxon: gemma.coxon@bristol.ac.uk, from the University of Bristol.
• Dr Adam Griffin: adagri@ceh.ac.uk, from the UK Centre for Ecology & Hydrology (UKCEH).
• Dr Sean Longfield: sean.longfield@environment-agency.gov.uk, from the Environment Agency.

Please contact the lead supervisor if you require further information about the project. 

References

Griffin, A., Vesuviano, G., Wilson, D., Sefton, C., Turner, S., Armitage, R. and Suman, G. (2025), Putting the English Flooding of 2019–2021 in the Context of Antecedent Conditions. Journal of Flood Risk Management, 18: e70016. 

Zheng, Y., Coxon, G., Woods, R., Li, J. and Feng, P. (2023). Controls on the spatial and temporal patterns of rainfall-runoff event characteristics‐a large sample of catchments across Great Britain. Water Resources Research, e2022WR033226.

Griffin, A., Vesuviano, G. and Stewart, E. (2019). Have trends changed over time? A study of UK peak flow data and sensitivity to observation period. Natural Hazards and Earth System Sciences 19, 2157-2167.

Potential supervisors

Lead supervisor

Professor Justin Sheffield

Head of School

Research interests

• Large-scale hydrology and its interactions with climate variability and change.
• Hydrological extremes, climate change, and hydrological processes from catchment to global scale.
• The application of fundamental research to natural hazards impacts reduction, including monitoring and prediction systems.

Entry requirements

You must have a UK 2:1 honours degree or higher in a relevant subject. You can also have its international equivalent.

We are looking for:

• Interest (essential) or experience (desirable) in handling and analysing large datasets
• Experience programming in R (desirable)

If English is not your first language, you will need an International English Language Testing System (IELTS) overall score of 6.5, with a minimum of 6.0 in all components. Visit our English language proficiency pages to find out about other qualifications we accept.

Fees and funding

For UK students, the studentship covers UK fees, plus a stipend of £20,780 (UKRI Standard rate) tax-free per annum for up to 3.5 years.

How to apply

Apply for full-time study

Apply for part-time study

 You need to:

• add the project title under ‘Topic or field of research proposed’
• add your supervisor in section 2

 Applications should include:

• 1 page statement of your research interests in flooding and FLOOD-CDT and your rationale for your choice of project
• CV (resumé) giving details of your academic record and stating your research interests
• two current academic referees together with institutional email addresses
• academic transcripts and d​egree certificates (translated if not in English) – if you have completed both a BSc and an MSc, we require both.
• English language qualification (if applicable)

Contact us

Faculty of Environmental and Life Sciences

If you have a general question, email our doctoral college: fels-pgr-apply@soton.ac.uk.

Project leader

For project specific queries, email the lead supervisor Dr Gianni Vesuviano: giaves@ceh.ac.uk.