Algae and/or cyanobacteria blooms are increasingly invading Quebec’s waters, with some 500 bodies of water affected in the past ten years. Methods for tracking these microorganisms are costly and labour-intensive, but satellite imaging has shown real promise as a way to monitor their development. However, detecting blooms in fresh water the moment they appear is a challenge. A research team led by INRS professor Karem Chokmani is working to overcome this challenge by developing an approach for monitoring algae blooms near the shores of freshwater lakes that pose the biggest threat of cyanobacteria contamination for the population.
The researchers will combine data from the Sentinel-2 satellite with the hyperspectral data acquired using INRS drones. They will also develop a methodology based on MODIS data and transfer it to the higher spatial resolution data captured by the Sentinal-2 satellite. This approach, based on ensemble methods applied to MODIS data, makes it possible to detect and track small algae blooms even in low concentrations. However, given the spatial resolution quality of MODIS data, it was impossible to monitor the status and evolution of the blooms at the edges of lakes.
This approach builds on existing methods to deliver a number of advantages:
“This new tool for monitoring algae blooms will help us better understand the geo-environmental factors, both in terms of climate and weather and supply of nutrients, that lead to the appearance of these microorganisms along the edges of freshwater lakes in southern Quebec”Professor Chokmani, head of the laboratory for environmental remote sensing by drone.
This research, which falls under the Theia project, is a collaborative effort, with management and technical execution of the research conducted jointly by Professor Karem Chokmani, INRS professor Isabelle Laurion, and researcher Jean-Pierre Dedieu of the Institut des Géosciences de l’Environnement (IGE), Grenoble, France. Groupe Hémisphères, specialized in the management of aquatic, shoreline, and land environments, is also a partner in this project and will be the main user of the maps produced. The project is funded by the Canadian Space Agency’s Earth Observation Application Development Program (EOADP) as part of an initiative to explore the advantages of the combined use of satellites and drones. ♦
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