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The AMR Seminar + Social Series is a way for the AMR community to regularly meet and learn about the latest work in the AMR field.
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March 25th - Jim Nicell, Bernhard Lehner, Heloisa EhaltÌýMacedo
Seminar + Social Series
Co-hosted with Brace Water Centre
Wednesday, March 25, 2026 | 3:00pm - 5:00 pmÌý
Hybrid event - registration required
Free In-person:ÌýMechanical Engineering seminar room 267Ìý()
817 Sherbrooke St West, Montreal
Online:ÌýZoom link sent to registered participants
Discussion panel to follow
Networking ReceptionÌýpost seminar
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"Modeling the risk of antibiotics in river systems"Ìý
Jim A. Nicell, PhD, (Engineering),Ìý
Bernhard Lehner, PhD and Heloisa Ehalt Macedo, PhD (Geography)Ìý
91Ë¿¹ÏÊÓƵÌý
Panel Discussion:
- Susanne Kraemer PhD, Environment and Climate Change Canada
- Sigrun Kullik PhD, Public Health Agency of Canada
- Jennifer Ronholm, PhD Faculty of Agricultural and Environmental Sciences, 91Ë¿¹ÏÊÓƵ
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Antimicrobial resistance (AMR) in freshwater systems is an emerging global concern. Because antibiotics act as environmental selective pressures that drive the emergence and spread of AMR, modeling their environmental concentrations is fundamental to understanding AMR pathways and identifying riverine hotspots. This talk presents HydroFATE, a global contaminant fate model designed to simulate contaminant concentrations across river networks worldwide. HydroFATE integrates geospatial datasets, wastewater treatment plants as sources, chemical characteristics, and downstream transport processes to estimate risks to aquatic ecosystems and human population that depend on these waters. As part of an ongoing effort to expand HydroFATE’s capabilities, this work exploresÌý preliminary approaches for representing additional AMR‑related pathways and assessing how human, agricultural, and industrial activities shape antibiotic loads in rivers. Our results highlight hotspots, key data gaps, methodological challenges, and promising directions for advancing the modeling of antibiotic concentrations at large scales. ByÌý developing tools that generate policy‑relevant, data‑driven insights, this work aims to support efforts to protect freshwater ecosystems and human health from AMR within a One Health context.
About our speakers:
Professor Jim A Nicell joined 91Ë¿¹ÏÊÓƵ’s Department of Civil Engineering in 1992 and is a licensed professional engineer specializing in the field of environmental engineering. His areas of research are mainly focused on the development of impact assessment methods for industrial and municipal pollutants, on their mitigation through waste treatment, and their prevention through the design of green chemicals that are renewably sourced. He has authored over 100 peer-reviewed publications and has directly contributed to the development of regulations and policies at the Canadian and provincial levels. While at 91Ë¿¹ÏÊÓƵ, he has served in numerous leadership and administrative capacities including six years as 91Ë¿¹ÏÊÓƵ’s Associate Vice-Principal (University Services) and a decade as Dean of Engineering. He has served on numerous boards of various industry, scholarly and non-profit organizations. In 2018, he was elected as a Fellow of the Canadian Academy of Engineering and in 2024 as a Fellow of the Canadian Society of Senior Engineers.
Dr Bernhard Lehner joined the Department of Geography at 91Ë¿¹ÏÊÓƵ in 2006 as a professor in global hydrology and a faculty member of 91Ë¿¹ÏÊÓƵ’s Earth System Science program. His main research themes are large-scale hydrology, hydrographic mapping and modeling, and freshwater conservation. Dr. Lehner’s research projects include the design and development of novel global databases and maps related to rivers, watersheds, lakes, reservoirs, and wetlands, as well as their environmental and ecological characterizations. The goal of these projects is to generate basic data and information in support of regional and global eco-hydrological modeling, watershed analyses, and freshwater conservation planning at a quality, resolution and extent that have previously been unachievable. His research involves the novel design of Geographic Information Science techniques and interpretation Remote Sensing imagery. Dr. Lehner’s own applications of these datasets span multiple scales from national to global and cover a broad variety of topics, ranging from global climate and environmental change studies to assessments of the fate of human-caused contaminants in river systems, the eco-hydrological effects of dam constructions, environmental flow requirements, and integrated freshwater management and protection strategies.
Dr Heloisa Ehalt Macedo is an environmental scientist with a PhD in Geography from 91Ë¿¹ÏÊÓƵ and a master’s degree in environmental engineering from Northeastern University. Her research focuses on the fate of emerging contaminants in freshwater systems at the global scale. She integrates geospatial data, environmental modeling, and risk assessment to generate actionable evidence for decision‑makers.
About our panelists:
Dr Susanne Kraemer studied at Westfaelische Wilhelms Universitaet and the Max Planck Institute for Developmental Biology. She completed her PhD on the social life of soil bacteria at Indiana University before moving to Canada (University of Ottawa), Scotland (University of Edinburgh) and Canada again (Concordia University and 91Ë¿¹ÏÊÓƵ) to conduct postdoctoral work on the evolution and ecology of microbes with a special interest in the flow of antibiotic resistance genes in environmental reservoirs. She currently works as a scientist for Environment and Climate Change Canada in the Aquatic Contaminants Research Division.
Dr Sigrun Kullik joined the Public Health Agency of Canada (PHAC) in 2022, where she contributes to the Canadian Antimicrobial Resistance Surveillance System (CARSS) as the surveillance lead for AMR in built and natural environments. She holds a Ph.D. from the University of Guelph in Environmental Biology and has contributed to diverse initiatives across the federal government, including integrated risk management, program evaluation, and the environmental assessment of pharmaceuticals and veterinary drugs. Most recently, she led the development of PHAC’s Environmental Surveillance Strategic Framework (ESSF), which provides guidance on increasing access to data and evidence for the environmental dimensions of AMR.
Dr Jennifer Ronholm is a Canadian academic and researcher specializing in food safety, microbiology, and public health. Her work focuses on antimicrobial resistance, pathogen surveillance, and evidence-based policy. She is dedicated to teaching, mentorship, and advancing One Health approaches that connect human, animal, and environmental health through integrated interdisciplinary research initiatives.
