ORGANISATION NAMECardiff University
ORGANISATION COUNTRYUnited Kingdom
RESEARCH FIELDNatural sciences
CAREER STAGEFirst Stage Researcher (R1) (Up to the point of PhD)
Previous work in Wales and elsewhere has identified the sensitivity of rivers to climate change.
Amongst all freshwater organisms, Brown trout Salmo trutta and Atlantic salmon Salmo salar are particularly vulnerable to extreme temperatures in both winter and summer, and potentially also to extreme flows. The geographical location of Wales at the South West edge of the European range for these two species means that populations here could be among the first to be seriously impacted or even extirpated should climatic tipping points be reached.
Apparently widespread impairment to salmonid spawning and/or recruitment occurred in Welsh rivers in 2015/16, manifest as dramatically reduced fry numbers during juvenile surveys during summer 2016. In some rivers, parr numbers were also reduced markedly. These patterns imply potential effects on two year classes and followed unusually high temperatures during periods critical to spawning (December 2015) as well as exceedingly high flows during December 2015.
Working hypotheses to explain these effects implicate:
- potential thermal effects on spawning and pre-spawning fish
- potential thermal effects on egg survival and development
- downstream washout or displacement of fry and/or parr.
Given the importance of salmonids in Wales, there is now an urgent need to:
- diagnose the reasons for the impairment to salmonid spawning and/or recruitment in winter 2015/2016, and to identify the processes involved
- assess future risks to Welsh salmonids under possible climate-change future
- guide possible management action.
This proposed project will inform these diagnostic and future planning needs by:
- examining long-term trends in fry and parr numbers from available sites in relation to putative climatic drivers of change
- modelling the spatial pattern of thermal conditions across affected rivers in both surface water and interstitial environments using available data to assess how thermal patterns in main channels, tributary networks and locations at different altitude might explain spatial patterns in spawning impairment
- mapping and modelling thermal conditions and salmonid habitat availability across key Welsh catchments under different future climate scenarios to identify important refuge habitats
- reviewing and evaluating potential management options to protect salmonids in Welsh rivers under future climates (including extremes) and to increase resilience.
Funding and eligibility
Tuition fee support Full UK/EU tuition fees
Maintenance stipend Doctoral stipend matching UK Research Council National Minimum
Residency UK Research Council eligibility conditions apply
Applicants for research PhDs at Cardiff University are expected to have one or both of the following:
a first degree, normally with class 2:1 or higher, or equivalent in a relevant subject
a relevant master's qualification or equivalent.
have a home or work address in the West Wales and the Valleys region at the time of your application for KESS funding and your enrolment for the course of study
have a legal right to live and work in the UK for the duration of the KESS2 support, and the right to take up paid work in the WWV region on completion of the scholarship
be classified as a ‘home’ or ‘EU’ student
meet the University's English language requirements.
The Convergence area covers West Wales and the Valleys, and is made up of the following 15 local authorities:
- Isle of Anglesey
- Neath Port Talbot
- Rhondda Cynon Taf
- Merthyr Tydfil
- Blaenau Gwent
You must also be prepared to provide proof of identity and income as part of the stipend assessment process. Further details are available from the KESS2 Office.
For further information on how to apply, please visit: https://www.cardiff.ac.uk/study/postgraduate/funding/view/phd-in-bioscie...