Integrating Environmental Water Research Across Multi Scales and Disciplines
Water is our most precious natural resource. All human activities, from agriculture and industrial processes to domestic uses, depend on water of sufficient quantity and quality. This is also true for natural ecosystems. In contrast to highly visible water quantity stressors, such as flash floods and prolonged droughts, changes in water quality are often more gradual and more difficult to detect, and their cumulative impacts more difficult to predict and manage. Water quality deterioration, however, poses more pervasive and chronic risks to the economy, human health and the ecological life-support systems of the planet.
Water quality degradation is a global phenomenon. In Canada, for example, harmful and nuisance algal blooms are a persistent problem for many freshwater bodies, including the iconic Laurentian Great Lakes, while many of our First Nations communities still live under drinking water advisories. Globally, awareness is also growing that climate change adaptation must be an integral part of planning and implementing effective water management policies and practices.
For general inquires about the Ecohydrology Research Group, please email ecohydrology@uwaterloo.ca.
News
New low-cost portable biosensor to detect E. coli in water samples
A new paper entitled “Functionalized Microwave Biosensor for Rapid, Reagent-Free Detection of E. coli in Water Samples” was published in the journal Biosensors and Bioelectronics. It is the result of a collaboration between researchers at the University of Waterloo.
New paper on a machine learning model to predict microplastic concentration in urban stormwater
In a recent article in Scientific Reports, Amir Reshadi and coauthors present a machine learning model for the prediction of microplastic (MP) concentration in urban stormwater using an original dataset with a broad array of environmental and socioeconomic variables.
New paper on satellite monitoring of algal blooms in Western Lake Ontario
In a new paper published in Science of The Total Environment, Ali Reza Shahvaran and co‐authors demonstrate the power of Landsat 8 and 9 imagery for mapping chlorophyll‑a concentrations and tracking algal bloom dynamics in Western Lake Ontario over an 11‑year period.
Events
Ecohydrology Seminar Series
On March 27th Dr. Philippe Van Cappellen from the Department of Earth and Environmental Sciences will be presenting "Putting microbes in reactive transport modeling - Some of the things I learned over the years" as part of the Ecohydrology Seminar Series.
EARTH 652: Reactive Transport Modelling (e-RTM)
Join Dr. Van Cappellen and Dr. Rezanezhad for EARTH 652: Reactive Transport Modelling This May