BEGIN:VCALENDAR VERSION:2.0 PRODID:-//132.216.98.100//NONSGML kigkonsult.se iCalcreator 2.20.4// BEGIN:VEVENT UID:20260610T184500EDT-71776w7KVL@132.216.98.100 DTSTAMP:20260610T224500Z DESCRIPTION:Everyone is welcome to attend this CIVE 615 Environmental Engin eering Seminar (part of the Environmental & Water resource engineering sem inar series) given by Dr. Geoffrey I. Sunahara\, Group Leader\, Applied Ec otoxicology\, National Research Council Canada. Traditionally\, toxicity is associated with the concentration or the mass-based “dose-metric” expos ure to the chemical of concern. Dose-metrics are important in establishing a “cause-effect” relationship\, which is used in environmental risk asses sment to predict potential hazardous effects of environmental exposure at contaminated sites. Examples will be presented on how ecotoxicity data is generated and used for traditional environmental risk assessment. However\ , the current standard toxicity test guidelines and ecotoxicological risk assessment methods may not be sufficient to address the ecotoxicological c oncerns of engineered nanomaterials (ENM) that are being released into the environment. There is much uncertainty amongst nano-ecotoxicologists and environmental risk assessors regarding the choice and use of the dose-metr ic of ENM whose toxicity is determined by concentration\, as well as the n ano-size of the chemical. The possible adverse effects of exposure to ENM in the environment have attracted the concern of industry\, government reg ulators\, as well as the general public. For example\, what are the impact s of the release of ENM used in sunscreen lotions and cosmetics on the env ironment? Recent laboratory studies have shown that exposure to commercial uncoated nano-TiO2 particles can cause toxic effects in some aquatic and terrestrial organisms. This presentation will include some of our recent f indings describing nano-ecotoxicological responses using dose-metric analy sis of a widely-used model nano-toxicant such as nano-TiO2\, but whether t his or other engineered nano-contaminants have toxic effects in the enviro nment is not known. Geoffrey Sunahara has more than 25 years of experienc e in environmental and biochemical toxicology. He has published >80 resear ch articles in well-respected journals and >200 conference proceedings and book chapters. In 1994\, Dr. Sunahara established and was made responsibl e for the Applied Ecotoxicology group at the National Research Council of Canada. Fields of research include the ecotoxicological characterization o f recalcitrant soil contaminants such as the energetic substances (TNT\, R DX and HMX) and their metabolites using whole organisms and cultured cell approaches. Toxicological information generated by his laboratory is being used in the establishment of soil quality criteria for explosives-contami nated sites used by the Canadian land forces\, as well as those of other c ountries. Recent research interests include the ecotoxicology of nano-mate rials\, biodiesel and selected bioproducts. In his ecotoxicity studies\, a major focus is made upon innovation\, ecological relevance\, risk assessm ent\, and modes of toxicity. These achievements have led to international recognition\, as evidenced by the prestigious international 2010 TTCP Scie ntific Achievement Award. Dr. Sunahara has also collaborated with other ex perts to assemble and recently publish a comprehensive book on the Ecotoxi cology of Explosives (CRC Press). DTSTART:20131011T140000Z DTEND:20131011T152500Z LOCATION:Room 1050\, Wong Building\, CA\, QC\, Montreal\, H3A 0C5\, 3610 ru e University SUMMARY:The ecotoxicological problem of 'Dose': from explosives to little b its URL:https://www.mcgill.ca/tised/channels/event/ecotoxicological-problem-dos e-explosives-little-bits-230787 END:VEVENT END:VCALENDAR