Managing Groundwater Beneath the Agricultural Landscape
Speaker: David L. Rudolph, 2013 NGWA Darcy Lecturer
Series: CEE Departmental Seminars
Location: Friend Center 008
Date/Time: Wednesday, April 3, 2013, 4:30 p.m. - 6:00 p.m.
Agricultural land use represents the largest nonpoint source threat togroundwater quality on a global scale. As a result of decades of fertilizer application and surface spreading of animal manure, chronic increases in nutrient concentrations have been documented in both private and municipal well systems. The occurrence of pathogenic microbes in groundwater supply wells has also been associated with agricultural practices at the land surface. Beneficial management practices (BMPs) designed to reduce the risk of groundwater quality impacts in agricultural environments are being implemented worldwide, yet very little data are available to assess the performance of these BMPs.
The complexities associated with variable mass loading to the water table will be explored, considering regional recharge distributions. The role of the vadose zone in controlling subsurface redistribution, and as an archive of past land-use activities, will also be considered relative to the legacy of agricultural impacts on groundwater quality. The performance of a regional-scale BMP program designed to reduce nutrient loading to the subsurface in the vicinity of an impacted municipal groundwater supply system will be evaluated based on more than a decade of field monitoring evidence. The utility of a targeted in situ denitrification approach designed as a remedial strategy to temporarily augment the BMP program in the vicinity of the municipal wells will be addressed based on the results of field experiments.
Finally, the potential influence of extreme climatic variability on the mobility of nutrients and microbial species in agricultural environments will be explored relative to aquifer and well vulnerability.
David L. Rudolph is a professor in the Department of Earth and Environmental Sciences at the University of Waterloo, with a cross-appointment in the Department of Civil and Environmental Engineering. He specializes and teaches in the areas of regional hydrogeology and groundwater protection and management, and recently served as executive director of the Water Institute at the University of Waterloo. Rudolph has also served as a member on NGWAs Scientists and Engineers Division Board and was the 2010 recipient of NGWAs M. King Hubbert Award for contributions to the field of hydrogeology.