Tom Gleeson

Tom Gleeson

Associate Professor  

PhD, Queen's University, Eng.L 

Contact Information

ECS Room  316
Fax: 250-721-6051
Email: tgleesonATuvicDOTca 

I am a hydrogeologist interested in groundwater sustainability, regional- to continental-scale groundwater systems, groundwater-surface water interactions and fluid flow around geologic structures. I address these varied research interests by integrating disciplines that are not often combined: field methods, numerical modeling, environmental chemistry, structural geology, GIS and policy studies. I love new ideas and experiences, food and yoga, and helping people and the world. I grew up building forts in Ontario, moved west to climb mountains, study geology and work as a consulting hydrogeologist, and zigzagged across Canada for a doctorate at Queen’s, postdoc at UBC, and first faculty position at McGill. I am thrilled to be part of the new Civil program at UVic and living in Victoria.

Research Interests

Groundwater footprints and sustainability
Can groundwater development be sustainable in different hydrologic and political settings? Sustainable development of groundwater resources is a crucial and significant societal challenge. This interdisciplinary research strand integrates recent hydrogeologic research with cutting-edge sustainability concepts such as strong sustainability, backcasting, multi-generational goal setting and adaptive management.
Mega-scale groundwater systems
Are regional- to continental-scale groundwater processes different from local-scale processes? Both groundwater management and science are generally limited to the scale of small watersheds, and yet better understanding and management of large-scale groundwater resources is also critical.
Groundwater recharge and discharge
How does water cross the land surface in diverse hydrologic settings? Recharge and discharge processes are a critical connection between the hydrosphere and geosphere and are vital to groundwater sustainability and surface water ecology.
Fluid flow around geologic structures
How do faults and fractures impact fluid flow? Feedbacks between fluid flow and faults are critical to problems such as earthquakes, carbon sequestration and the safety of shale gas development.