Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Detection Methods Environmental Sources Human Health Effects Marine & Wildlife Sign in to save

Microplastics and anthropogenic microparticles in surface waters from Yellowknife Bay, Great Slave Lake, Northwest Territories, Canada

Journal of Great Lakes Research 2024 6 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Madelaine P.T. Bourdages, Jennifer F. Provencher, Madelaine P.T. Bourdages, Jennifer F. Provencher, Jesse C. Vermaire Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Madelaine P.T. Bourdages, Jennifer F. Provencher, Madelaine P.T. Bourdages, Jesse C. Vermaire Jesse C. Vermaire Jennifer F. Provencher, Jesse C. Vermaire Jennifer F. Provencher, Madelaine P.T. Bourdages, Madelaine P.T. Bourdages, Jennifer F. Provencher, Madelaine P.T. Bourdages, Jennifer F. Provencher, Madelaine P.T. Bourdages, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jessica L. Hurtubise, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jennifer F. Provencher, Jessica L. Hurtubise, Madelaine P.T. Bourdages, Madelaine P.T. Bourdages, Madelaine P.T. Bourdages, Jennifer F. Provencher, Noah Johnson, Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jesse C. Vermaire Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Madelaine P.T. Bourdages, Noah Johnson, Jennifer F. Provencher, Jesse C. Vermaire Jennifer F. Provencher, Jesse C. Vermaire Jesse C. Vermaire Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jesse C. Vermaire Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Madelaine P.T. Bourdages, Jesse C. Vermaire Jennifer F. Provencher, Jennifer F. Provencher, Madelaine P.T. Bourdages, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jesse C. Vermaire Jesse C. Vermaire Jennifer F. Provencher, Madelaine P.T. Bourdages, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jesse C. Vermaire Madelaine P.T. Bourdages, Jesse C. Vermaire Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jesse C. Vermaire Jennifer F. Provencher, Jesse C. Vermaire Jennifer F. Provencher, Jennifer F. Provencher, Jesse C. Vermaire Jennifer F. Provencher, Jennifer F. Provencher, Jesse C. Vermaire

Summary

Scientists collected surface water samples from Yellowknife Bay in Canada's Great Slave Lake to measure microplastic and other human-made microparticle contamination. They found anthropogenic microparticles present in this sub-Arctic freshwater system, contributing some of the first data on microplastic pollution in northern Canadian lakes. The study highlights the importance of monitoring freshwater systems in remote regions, given their connections to Arctic marine environments.

Study Type Environmental

Recent studies have identified the presence of microplastics and other anthropogenic microparticles in Arctic marine environments, but very little is known about anthropogenic microparticles in Arctic and sub-Arctic freshwater systems. Given the importance of freshwater systems to the health of northern communities, and their large input of water to the Arctic Ocean, circumpolar rivers and lakes should be considered within the context of anthropogenic microparticles in the region. Sample collections for this study were conducted in July and August of 2021 via a collaborative community-based approach. Thirty surface water samples were collected using a 300 µm Manta trawl from three sampling areas, the Yellowknife River (n = 10), Yellowknife Back Bay (n = 10), and Yellowknife Outer Bay (n = 10), to assess concentrations and transport of microplastics and other anthropogenic microparticles to Great Slave Lake, Northwest Territories. Each trawl was towed for 20-minutes, resulting in 16 to 233 m3 of water filtered per sample. Suspected anthropogenic microparticles were found in all samples, with concentrations ranging from 0.03–2.04 particles m−3, however, there were no significant differences in microparticle concentrations between sampling areas. A wide range of microparticle morphologies and colours were observed in the samples. A total of 1012 suspected anthropogenic microparticles were extracted from the surface water samples, of which fibres accounted for 87 % (n = 883), followed by fragments (11 %, n = 112), films (1 %, n = 7), and foams (1 %, n = 10). Our results indicate a widespread occurrence of microplastics and other anthropogenic microparticles in the surface waters surrounding Yellowknife, Northwest Territories.

Read via DOI Download PDF

Share this paper

Post Share Share Pin Email