New papers from the HoTRiverS team

The HoTRiverS team has recently published two new articles covering river temperature research.  The first of these two articles takes a look at how temperatures and heat exchange processes in streams are impacted by different types of riparian vegetation:

Dugdale, S.J., Malcolm, I.A., Kantola, K., & Hannah, D.M. (2018). Stream temperature under contrasting riparian forest cover: Understanding thermal dynamics and heat exchange processes. Science of The Total Environment, 610-611, 1375-1389

The second of these articles is a review of the current ‘state-of-the-art’ of process-based river temperature modelling, and will hopefully be useful for anyone looking to understand more about methods for stream temperature simulation:

Dugdale, S.J., Hannah, D.M., & Malcolm, I.A. (2017). River temperature modelling: A review of process-based approaches and future directions. Earth-Science Reviews, DOI: 10.1016/j.earscirev.2017.10.009

If you’d like a copy of either of the articles, please contact a member of the HoTRiverS team.

HoTRiverS project update

The intensive field season from spring – autumn 2017 is now almost over, and the time has come to start analysing our data.  Please watch this space for new updates from the HoTRiverS team.

ASCF/FCSA webinar on the remote sensing of river habitats

I was recently invited by the Atlantic Salmon Conservation Foundation / Fondation pour la conservation du saumon atlantique (Canada) to give a webinar on the use of remote sensing to map river habitats.  You can watch the video (in French only) here:

For more information about the ASCF / FCSA and the work they do, please visit their website.

Welcome to HoTRiverS, a Marie Skłodowska-Curie Actions Independent Fellowship hosted by the University of Birmingham and funded by the European Commission through the Horizon 2020 initiative, with support also from Marine Scotland Science.

msca_png     birmingham_png


The goal of HoTRiverS is to gain a better understanding of the processes driving temperature patterns in rivers.  River temperature is very important to a range of freshwater fish species which are highly intolerant of temperature extremes. However, the influence of climate change means that river organisms are increasingly threatened by high temperatures.  Despite this worrying trend, some rivers contain alternating patterns of cool and warm water (known as river temperature heterogeneity) which will enhance their resilience to climate change.  However, little is currently known about how river temperature heterogeneity varies through space or time.

The HoTRiverS project therefore aims to quantify temperature heterogeneity across key UK rivers and to identify the controls and processes that drive these patterns.  By providing new information on temperature patterns in UK rivers, we hope to help ensure the continued survival of freshwater ecosystems threatened by climate change.

In order to to this, the project will combine river temperature data from high resolution airborne thermal infrared imaging (using drones) with detailed meteorological observations to build computer models showing how and why river temperature varies through time and space.

The project team consists of Dr. Steve Dugdale, Research Fellow in the School of Geography, Earth and Environment Science at the University of Birmingham, Prof. David Hannah, Professor of Hydrology at the University of Birmingham and Dr. Iain Malcolm of the Freshwater Fisheries Laboratory at Marine Scotland Science.

This site will provide regular updates about the project, including:

  • Fieldwork and preliminary results
  • Publications (journal articles and reports)
  • Conference presentations
  • Photos, videos, maps and any other interesting info

This site will also serve as an outlet for sharing other research and information from the River Temperature team at the University of Birmingham…so please watch this space!