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
Ecohydrology Research Presented at EGU 2021
Ecohydrology researchers presented virtually at this year's European Geosciences Union (EGU), which was held from April 19th to 30th. The following works have been presented:
A. Rafat, F. Rezanezhad, W. L. Quinton, E. R. Humphreys4, K. Webster, P. Van Cappellen. Predicting Non-growing Season Net Ecosystem Exchanges of CO2 from a Canadian Peatlands. Geophysical Research Abstracts, European Geosciences Union General Assembly, EGU21-3348, Gather Online, 19-30 April, 2021.
Ecohydrology Research Attended GWF 2021
Members of ecohydrology research group attended the 2021 GWF virtual confernce on May 17-19 2021!
Day 1 Poster Session:
Bowen Zhou: Climatic controls on phosphorus fluxes from a bioretention facility in a heavily urbanized catchment using a process-based eco-hydrological model –Poster ID: 13
Check out the special report about our Biogeophysics research
Innovation News Network has published a special report about our work on using spectral induced polarization, a geophysical method, to monitor microbial activity and nanoparticles in real-time in earth's subsurface. Read the special report by clicking here. The report summarizes the research led by Dr.