Research by Dr Philippe Blondel, Senior Lecturer in the Department of Physics is featured in Water Active this month. The article describes why looking at algae and using sonar helps to study how underwater vegetation adapts to climate change, as the glaciers melt and bring fresh water and sediments into fragile ecosystems.
Water Active is the UK's leading water industry monthly magazine and has the highest number of readers in the water industry. This article continues the monthly series of features by researchers in the Water Innovation and Research Centre at the University of Bath (WIRC @ Bath).
Read the full article written by Dr Philippe Blondel on page 10 in the December issue of Water Active.
This November see the next talk in the monthly 'Water Colloquium' series organised by WIRC @ Bath exploring the breadth of water research being undertaken at the University of Bath.
Title: Blue water, green algae and dark threats - Acoustics outside the laboratory?
Speaker: Dr Philippe Blondel
When: Tuesday 17th November at 5.15pm
Where: Room 3.15, Chancellors' Building, University of Bath (Location and maps)
Abstract: Clean water is what we all want, from freshwater reservoirs to pipes, rivers and coastal ecosystems. But this can be threatened by algae. They can block pipes and reservoir inlets, affect natural water filtering, and even harm aquatic life through eutrophication. Algae large enough to see with the naked eye (macrophytes) can have positive sides, though, and they are increasingly used in the chemical, pharmaceutical and food industry. Kelps are the largest marine crop, with over 4 million tonnes harvested annually. As a source of ecosystem services and natural capital, macrophytes accounts for at least 11.4% of the worldwide value of all ecosystems. But algae are difficult to monitor regularly and accurately: they can be hidden from direct view (e.g. deep in large reservoirs or in water intake pipes), they can be few enough that they are not noticed in time (e.g. until warm weather or eutrophication) or they can be small enough that they are not easily detected (e.g. cyanobacteria). This is where acoustics can help, and this talk will present acoustic imaging in general, focusing on detecting and mapping algae in the field. Applications will be drawn from our own research and include kelp beds in British Columbia, and how they can be used by humans and grey whales, and algae in the Arctic, and how they evolve with glaciers melting and the dark threat of climate change.
Refreshments: Will be available in Room 3.11, Chancellors' Building from 4.45pm.
Contact: Please email Sarah Eliot if you need any further information.