Your search keyword '"Baryluk S"' showing total 5 results

1. The Changing Climate of the Arctic

Author

Barber, D. G., Lukovich, J. V., Keogak, J., Baryluk, S., Fortier, L., and Henry, G. H. R.

Published

2008

2. The Changing Climate of the Arctic

Author

Barber, D. G., primary, Lukovich, J. V., additional, Keogak, J., additional, Baryluk, S., additional, Fortier, L., additional, and Henry, G.H.R., additional

Published

2009

3. Assessing the risk of climate maladaptation for Canadian polar bears.

Author

Rivkin LR, Richardson ES, Miller JM, Atwood TC, Baryluk S, Born EW, Davis C, Dyck M, de Greef E, Laidre KL, Lunn NJ, McCarthy S, Obbard ME, Owen MA, Pilfold NW, Roberto-Charron A, Wiig Ø, Wilder AP, and Garroway CJ

Subjects

Animals, Canada, Arctic Regions, Adaptation, Physiological, Ice Cover, Ecosystem, Temperature, Ursidae genetics, Climate Change

Abstract

The Arctic is warming four times faster than the rest of the world, threatening the persistence of many Arctic species. It is uncertain if Arctic wildlife will have sufficient time to adapt to such rapidly warming environments. We used genetic forecasting to measure the risk of maladaptation to warming temperatures and sea ice loss in polar bears (Ursus maritimus) sampled across the Canadian Arctic. We found evidence for local adaptation to sea ice conditions and temperature. Forecasting of genome-environment mismatches for predicted climate scenarios suggested that polar bears in the Canadian high Arctic had the greatest risk of becoming maladapted to climate warming. While Canadian high Arctic bears may be the most likely to become maladapted, all polar bears face potentially negative outcomes to climate change. Given the importance of the sea ice habitat to polar bears, we expect that maladaptation to future warming is already widespread across Canada., (© 2024 The Author(s). Ecology Letters published by John Wiley & Sons Ltd.)

Published

2024

4. Tissue Distribution and Toxicological Risk Assessment of Mercury and Other Elements in Northern Populations of Wolverine (Gulo gulo).

Author

Chételat J, Jung TS, Awan M, Baryluk S, Harrower W, Kukka PM, McClelland C, Mowat G, Pelletier N, Rodford C, and Stimmelmayr R

Subjects

Animals, Risk Assessment, Tissue Distribution, Environmental Monitoring, Kidney, Environmental Pollutants analysis, Trace Elements analysis, Liver chemistry, Mustelidae, Methylmercury Compounds analysis, Mercury analysis, Hair chemistry

Abstract

Wolverines are facultative scavengers that feed near the top of terrestrial food chains. We characterized concentrations of mercury and other trace elements in tissues of wolverine from a broad geographic area, representing much of their contemporary distribution in northwestern North America. We obtained tissues from 504 wolverines, from which mercury was measured on muscle (n = 448), kidney (n = 222), liver (n = 148), hair (n = 130), and brain (n = 52). In addition, methylmercury, seven trace elements (arsenic, cadmium, chromium, cobalt, lead, nickel, selenium), and arsenic compounds were measured on a subset of samples. Concentrations of mercury and other trace elements varied between tissues and were generally highest in kidney compared to brain, liver and muscle. Mercury was predominately as methylmercury in brain and muscle, but largely as inorganic mercury in liver and kidney. Mercury concentrations of hair were moderately correlated with those of internal tissues (Pearson r = 0.51-0.75, p ≤ 0.004), making hair a good non-lethal indicator of broad spatial or temporal differences in mercury exposure to wolverine. Arsenobetaine was the dominant arsenic compound identified in tissues, and arsenite, arsenocholine and dimethylarsinic acid were also detected. A preliminary risk assessment suggested the cadmium, lead, mercury, and selenium concentrations in our sample of wolverines were not likely to pose a risk of overt toxicological effects. This study generated a comprehensive dataset on mercury and other trace elements in wolverine, which will support future contaminants study of this northern terrestrial carnivore., (© 2024. Crown.)

Published

2024

5. Diet and landscape characteristics drive spatial patterns of mercury accumulation in a high-latitude terrestrial carnivore.

Author

Peraza I, Chételat J, Richardson M, Jung TS, Awan M, Baryluk S, Dastoor A, Harrower W, Kukka PM, McClelland C, Mowat G, Pelletier N, Rodford C, and Ryjkov A

Subjects

Animals, Environmental Monitoring, Carbon analysis, Soil, Diet, Food Chain, Nitrogen Isotopes analysis, Nitrogen analysis, Arctic Regions, Mercury analysis, Methylmercury Compounds, Water Pollutants, Chemical analysis, Mustelidae

Abstract

Limited information exists on mercury concentrations and environmental drivers of mercury bioaccumulation in high latitude terrestrial carnivores. Spatial patterns of mercury concentrations in wolverine (Gulo gulo, n = 419) were assessed across a 1,600,000 km2 study area in relation to landscape, climate, diet and biological factors in Arctic and boreal biomes of western Canada. Hydrogen stable isotope ratios were measured in wolverine hair from a subset of 80 animals to assess the spatial scale for characterizing environmental conditions of their habitat. Habitat characteristics were determined using GIS methods and raster datasets at two scales, the collection location point and a 150 km radius buffer, which was selected based on results of a correlation analysis between hydrogen stable isotopes in precipitation and wolverine hair. Total mercury concentrations in wolverine muscle ranged >2 orders of magnitude from 0.01 to 5.72 μg/g dry weight and varied geographically, with the highest concentrations in the Northwest Territories followed by Nunavut and Yukon. Regression models at both spatial scales indicated diet (based on nitrogen stable isotope ratios) was the strongest explanatory variable of mercury concentrations in wolverine, with smaller though statistically significant contributions from landscape variables (soil organic carbon, percent cover of wet area, percent cover of perennial snow-ice) and distance to the Arctic Ocean coast. The carbon and nitrogen stable isotope ratios of wolverine muscle suggested greater mercury bioaccumulation could be associated with feeding on marine biota in coastal habitats. Landscape variables identified in the modelling may reflect habitat conditions which support enhanced methylmercury transfer to terrestrial biota. Spatially-explicit estimates of wet atmospheric deposition were positively correlated with wolverine mercury concentrations but this variable was not selected in the final regression models. These landscape patterns provide a basis for further research on underlying processes enhancing methylmercury uptake in high latitude terrestrial food webs., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Peraza et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023