Canada: projects/activities

Directory entires that have specified Canada as the primary or lead country for the project/activity and are included in the AMAP, ENVINET, SAON and SEARCH directories. To see the full list of countries, see the countries list. The specified country may not be the geographic region where the activity is taking place - to select a geographic region, see the list of regions.

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Displaying: 1 - 7 of 7
1. Quantifying and reducing uncertainty in model calculations of global pollution fate

The main objective of the project is to describe quantitatively with model calculations the global distribution behaviour of persistent organic contaminants, and to establish credibility in the results of these simulations.

Arctic Contaminant transport Exposure Long-range transport Modelling PCBs Persistent organic pollutants (POPs) Pesticides Pollution sources Spatial trends Temporal trends
2. Spatial and long-term trends in organic contaminants and metals in fish species important to the commercial, sports, and domestic fisheries of Great Slave Lake and the Slave River ecosystem.

i. Determine mercury, metals and persistent organic contaminant pollutants (POPs) concentrations in lake trout harvested from two locations (West Basin near Hay River, East Arm at Lutsel K’e) and burbot harvested from one location (West Basin at Fort Resolution) in 2015 to further extend the long-term (1993-2013 (POPs) and 1993-2014 (mercury)) database. ii. Determine POPs trends in lake trout and burbot using our 1993-2014 data base. iii. Continue our investigations of mercury trends in predatory fish to include lakes in the Deh Cho, Great Bear Lake, and other lakes as opportunities arise. iv. Participate in and contribute information to AMAP expert work groups for trend monitoring for POPs and mercury. v. Integrate our mercury trend assessments with studies we are conducting in the western provinces as part of Canada’s Clear Air Regularly Agenda for its Mercury Science Assessment. vi. Work with communities in capacity building and training.

Slave River biomagnification Catchment studies Pollution sources Contaminant transport Dioxins/furans Pesticides Human intake Pathways Biology Organochlorines Mackenzie River Basin PCBs Heavy metals Fish Indigenous people Long-range transport Spatial trends Environmental management Climate change Emissions Persistent organic pollutants (POPs) Food webs Atmosphere Temporal trends Ecosystems Great Slave Lake
3. Yukon Traditional Foods Monitoring Program

Short Term i) to provide additional information for use in updating health advisories. Long Term i)to investigate the fate and effects of contaminant deposition and transport to the Yukon, allowing Northerners to better manage the issue of contaminants. ii)to determine levels of contaminants for use in long term trend monitoring.

Biological effects Pollution sources Contaminant transport Caribou Dioxins/furans Pesticides Human intake Pathways Biology Populations Organochlorines PCBs Heavy metals Fish Indigenous people PAHs Long-range transport Spatial trends Petroleum hydrocarbons Terrestrial mammals Persistent organic pollutants (POPs) Local pollution Food webs Data management Diet Temporal trends Human health Ecosystems
4. An investigation of factors affecting high mercury concentrations in predatory fish in the Mackenzie River Basin.

1. Continue to investigate spatial and temporal patterns in mercury concentrations in fish in lakes in the Mackenzie River Basin with a focus on predatory fish in smaller lakes near Fort Simpson but also including Great Bear Lake 2. Assess temporal trends in mercury concentrations and influencing factors, e.g., climate change 3. Conduct sediment core studies as opportunities allow to characterize long-term trends in mercury deposition and productivity 4. Integrate the findings of this study with our mercury trend monitoring in Great Slave Lake and the western provinces.

Pathways Sources Biology Organochlorines Mackenzie River Basin Soils Catchment studies Mercury Heavy metals Fish Indigenous people Pollution sources Environmental management Contaminant transport Food webs Sediments Atmosphere Human health Ecosystems
5. Effects and Trends of POPs on Polar Bears

LONG TERM: Determine the effects, at the individual and population level, of persistent organic pollutants (POPs) and their metabolites in the polar bear; determine trend of POPs in the Arctic marine environment using polar bear tissues as a biomonitor. SHORT TERM: a. Determine 10-year temporal trends of POPs in the Hudson Bay Sub-Arctic Ecosystem from 1990-1989 by analysis of archived polar bear biopsy samples, including changes in enantiomeric composition of -HCH and chlordane compounds and ratio of -HCH/-HCH (cross-referenced to separate proposal on HCHs). b. Determine if there is selective tissue distribution of the enantiomers of chiral contaminants in polar bears, which may influence target organ toxicity, by analysis of archived polar bear samples. c. Determine the endocrine disrupting effect of POPs on testosterone and PCB metabolite profiles by in vitro metabolism studies using polar bear liver microsomes. d. In collaboration with CWS P&N Region, the Norwegian Polar Institute and the Norwegian Veterinary Institute, determine the immunotoxic effects of PCBs and other organochlorines in polar bears throughout a gradient of exposure (Hudson Bay, low; Svalbard, high). e. Determine the effects of hydroxy-PCBs on circulating thyroid hormone and vitamin A concentrations.

Biological effects Organochlorines PCBs Long-range transport Spatial trends Pollution sources Terrestrial mammals Polar bear Exposure Arctic Persistent organic pollutants (POPs) Dioxins/furans Temporal trends Marine mammals
6. New Persistent Chemicals in the Arctic Environment

The objectives of this project are A) to determine coplanar polychlorinated biphenyls (PCBs), polychlorinated naphthalenes (PCNs), brominated diphenyl ethers (BDPEs), chlorophenolic compounds and chloroparaffins in air from arctic monitoring stations; and B) to search for other "new" chemicals in the arctic environment, not currently monitored by Canada's Northern Contaminants Program (NCP) but of potential concern based on known persistence, extent of usage and toxicology.

Sources PCAs BDPEs Pollution sources Exposure monitoring chloroparaffins Sediments Pesticides SCCPs Human intake Marine mammals new chemicals polychlorinated naphthalenes Pathways Organochlorines PCBs chlorinated paraffins Long-range transport brominated diphenyl ethers Spatial trends HAAs Arctic PCNs Persistent organic pollutants (POPs) synthetic musks haloacetic acids Atmosphere polychlorinated alkanes
7. Global Gridded gamma-HCH and Endosulfan Emission Inventories

The aim of this project is to compile information and create a computerized database of historical and present global lindane and endosulfan usage data as well as emission data for gamma-hexachlorocyclohexane (gamma-HCH) and endosulfan with 1 degree x 1 degree lat/long resolution. The objectives of this project are: A) to create global gridded g-HCH and endosulfan emission inventories; B) to study the linkage between global g-HCH and endosulfan use trends and g-HCH and endosulfan concentration trends in the Arctic; and C) to assist in comparing concentrations and ratios of different HCH isomers in the Arctic biotic and abiotic environments.

Sources emission inventory b-HCH alpha-HCH Pollution sources Contaminant transport Modelling GIS a-HCH hexachlorocyclohexane Pesticides endosulfan beta-HCH Organochlorines Mapping lindane ß-HCH Long-range transport Discharges Spatial trends gamma-HCH gridded Emissions HCH Arctic Persistent organic pollutants (POPs) g-HCH Data management Atmosphere Temporal trends