water@leeds is delighted to partner with the British Hydrological Society Pennines Group on an annual Christmas showcase of work by postgraduate researchers.
This year’s online event took place on 29 November, with presentations from Iain Johnston and Zora van Leeuwen who are both working on research projects related to flood impact.
Thanks to Martin Smith of the BHS Pennines Section who hosted the event, we can now share the presentations here:
Effects of flooding on the stability of rail embankments.
Iain Johnston, School of Earth and Environment
Although transport embankments are often not designed for flood retention, flooding behind linear infrastructure embankments is relatively common. Despite a well-developed understanding of the causes of slope failure, there remains a limited understanding of what happens to slopes impacted by the same processes which do not fail. The main focus of Iain’s research, and of this presentation, is considering how seepage through slopes caused by flooding causes changes in soil structure, and how these changes may cause lasting alterations to material properties and slope stability – in slopes which are affected by flooding but which do not fail.
A review of flood impacts on the stability of transportation embankments was undertaken, in which the types of flood which cause slope instability or failure, and the specific destabilisation processes which cause this instability, were identified based of a range of case studies in the UK and abroad. From this review, experimental programmes were undertaken to assess the magnitude and locations of property alterations in embankments following flooding – focussing on the effects of seepage induced internal erosion processes.
Opportunities and risks of leaky dams for flood risk management in upland streams
Zora van Leeuwen, School of Geography
Natural Flood Management is an increasingly popular tool used alongside engineered defences to combat rising flood risk around the world. In the UK, leaky dams which mimic the functions of naturally occurring in-stream wood have been widely implemented in both lowland and upland catchments for the purpose of flood risk management. Whilst leaky dams have been shown to delay flood peak timing, there is little quantitative evidence of their impacts on flood peak magnitude. Moreover, whilst concerns about maintenance and failure probability present a barrier to implementation of leaky dams, very few studies have addressed the resilience of these structures.
In this presentation Zora summarises the findings from a study in which three upland streams in a headwater catchment in North Yorkshire were monitored before and after the installation of leaky dams. The empirical data is used to quantify the stream scale impact of leaky dams on flood peak magnitude in upland rivers alongside a probabilistic analysis of structure resilience.
Our thanks to British Hydrological Society Pennines Group for their support of postgraduate research and for making this an annual event.