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1. Modeling historical budget for β-Hexachlorocyclohexane (HCH) in the Arctic Ocean: A contrast to α-HCH

Author

Pu-Fei Yang, Robie W. Macdonald, Hayley Hung, Derek C.G. Muir, Roland Kallenborn, Anatoly N. Nikolaev, Wan-Li Ma, Li-Yan Liu, and Yi-Fan Li

Subjects
β-Hexachlorocyclohexane, Arctic Ocean, Mass balance model, Budget, Air-water exchange, Environmental sciences, GE1-350, Environmental technology. Sanitary engineering, TD1-1066
Abstract

The historical annual loading to, removal from, and cumulative burden in the Arctic Ocean for β-hexachlorocyclohexane (β-HCH), an isomer comprising 5–12% of technical HCH, is investigated using a mass balance box model from 1945 to 2020. Over the 76 years, loading occurred predominantly through ocean currents and river inflow (83%) and only a small portion via atmospheric transport (16%). β-HCH started to accumulate in the Arctic Ocean in the late 1940s, reached a peak of 810 t in 1986, and decreased to 87 t in 2020, when its concentrations in the Arctic water and air were ∼30 ng m−3 and ∼0.02 pg m−3, respectively. Even though β-HCH and α-HCH (60–70% of technical HCH) are both the isomers of HCHs with almost identical temporal and spatial emission patterns, these two chemicals have shown different major pathways entering the Arctic. Different from α-HCH with the long-range atmospheric transport (LRAT) as its major transport pathway, β-HCH reached the Arctic mainly through long-range oceanic transport (LROT). The much higher tendency of β-HCH to partition into the water, mainly due to its much lower Henry's Law Constant than α-HCH, produced an exceptionally strong pathway divergence with β-HCH favoring slow transport in water and α-HCH favoring rapid transport in air. The concentration and burden of β-HCH in the Arctic Ocean are also predicted for the year 2050 when only 4.4–5.3 t will remain in the Arctic Ocean under the influence of climate change.

Published
2023
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2. Bioaccumulation and translocation of tetrabromobisphenol A and hexabromocyclododecanes in mangrove plants from a national nature reserve of Shenzhen City, South China

Author

Huawei Li, Yongxia Hu, Yuxin Sun, Amila O. De Silva, Derek C.G. Muir, Weiwei Wang, Jinli Xie, Xiangrong Xu, Nancai Pei, Yanmei Xiong, Xiaojun Luo, and Bixian Mai

Subjects
Environmental sciences, GE1-350
Abstract

Brominated flame retardants (BFRs) such as tetrabromobisphenol A (TBBPA) and hexabromocyclododecanes (HBCDs) are of ecological concern due to their ubiquitous presence and adverse effects. There is a paucity of data on environmental fate of such compounds in mangrove wetlands, which are unique ecosystems in coastal intertidal areas and act as natural sinks for many pollutants. In this study, mangrove plants and sediments were collected from an urban nature reserve in South China to investigate bioaccumulation and translocation of TBBPA and HBCDs. The mean (range) concentrations of TBBPA and ΣHBCD in roots, stems and leaves were 67 (

Published
2019
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3. Assessing the utility of sulfur isotope values for understanding mercury concentrations in water and biota from high Arctic lakes

Author

Gretchen L. Lescord, Meredith G. Clayden, Karen A. Kidd, Jane L. Kirk, Xiaowa Wang, Nelson J. O’Driscoll, and Derek C.G. Muir

Subjects
sulfate, food webs, methylmercury, oligotrophic, bioaccumulation, Environmental sciences, GE1-350, Environmental engineering, TA170-171
Abstract

Methylmercury (MeHg) biomagnifies through aquatic food webs resulting in elevated concentrations in fish globally. Stable carbon and nitrogen isotopes are frequently used to determine dietary sources of MeHg and to model its biomagnification. However, given the strong links between MeHg and sulfur cycling, we investigated whether sulfur isotopes (δ34S) would improve our understanding of MeHg concentrations ([MeHg]) in Arctic lacustrine food webs. Delta34S values and total mercury (THg) or MeHg were measured in water, sediments, and biota from six lakes near Resolute Bay, NU, Canada. In two lakes impacted by historical eutrophication, aqueous sulfate δ34S was ∼8‰ more positive than sedimentary δ34S, suggestive of bacterial sulfate reduction in the sediment. In addition, aqueous δ34S showed a significant positive relationship with aqueous [MeHg] across lakes. Within taxa across lakes, [THg] in Arctic char muscle and [MeHg] in their main prey, chironomids, were positively related to their δ34S values across lakes, but inconsistent relationships were found across entire food webs among lakes. Across lakes, nitrogen isotopes were better predictors of biotic [THg] and [MeHg] than δ34S within this dataset. Our results suggest some linkages between Hg and S biogeochemistry in high Arctic lakes, which is an important consideration given anticipated climate-mediated changes in nutrient cycling.

Published
2019
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4. Sources and environmental fate of pyrogenic polycyclic aromatic hydrocarbons (PAHs) in the Arctic

Author

Jennifer E. Balmer, Hayley Hung, Yong Yu, Robert J. Letcher, and Derek C.G. Muir

Subjects
Environmental pollution, TD172-193.5
Abstract

Polycyclic aromatic hydrocarbons (PAHs) are large class of hydrophobic, semi-volatile organic contaminants that may enter the environment from both natural sources and anthropogenic activities. Pyrogenic PAHs arise from the incomplete combustion of fossil fuels and organic matter and following dispersal via long-range transport and may subsequently deposit in surface waters, soils and sediments of remote regions, including the Arctic. The current review summarizes and discusses Arctic data that is available for combustion-derived PAHs between 2004 and early 2018, focusing largely on data collected from remote, unexploited Arctic regions and from studies that provide some evidence of a pyrogenic origin. The increasing use of attribution ratios, which aid in discriminating PAHs from petrogenic or pyrogenic sources, suggest PAHs found in Arctic marine waters and sediment predominantly originate from natural underwater seeps, while those measured in air, freshwater, and terrestrial environments are likely to have originated from atmospheric and combustion-derived sources. Modeling efforts indicate that atmospheric PAHs in the Canadian and Norwegian Arctic are likely to have originated in the northern hemisphere – predominantly from Western Russia, northern Europe, and North America. East Asia appears to be a minor source of PAHs to the Arctic, despite contributing more than 50% of global PAH emissions. In comparison to the growing data for atmospheric PAHs, environmental data for these compounds in terrestrial and freshwater environments remain scarce. PAHs have been detected in Arctic biota from terrestrial, freshwater and marine environments, indicating exposure, however, levels are generally low, as most organisms efficiently metabolize parent PAHs. Globally, PAH emissions are expected to decline in the future, however models suggest the Arctic may not experience the same magnitude of decline projected for other world regions. Furthermore, future changes in climate may contribute to a re-volatilization of environmental PAHs, providing a source of secondary emissions to the Arctic atmosphere, emphasizing the importance of future monitoring for understanding the sources, fate and impacts of PAHs in the Arctic. Keywords: Contaminants, Air, Biota, Pyrogenic, Petrogenic, Review

Published
2019
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5. Hexachlorobutadiene (HCBD) contamination in the Arctic environment: A review

Author

Jennifer E. Balmer, Hayley Hung, Katrin Vorkamp, Robert J. Letcher, and Derek C.G. Muir

Subjects
Environmental pollution, TD172-193.5
Abstract

Hexachlorobutadiene (HCBD) is a halogenated hydrocarbon that is primarily produced as an unintentional byproduct in the manufacture of chlorinated solvents. Similarities between HCBD and other persistent organic pollutants (POPs) led to its listing in 2015 for global regulation under the Stockholm Convention on POPs. HCBD's toxicity and propensity for long-range transport means there is special concern for its potential impacts on Arctic ecosystems. The present review comprehensively summarizes all available information of the occurrence of HCBD in the Arctic environment, including its atmospheric, terrestrial, freshwater and marine ecosystems and biota. Overall, reports of HCBD in Arctic environmental media are scarce. HCBD has been measured in Arctic air collected from monitoring stations in Finland and Canada, yet there is a dearth of data for other abiotic matrices (i.e. soils, sediments, glacier ice, freshwaters and seawater). Low HCBD concentrations have been measured in Arctic terrestrial and marine biota, which is consistent with laboratory studies that indicate that HCBD has the potential to bioaccumulate, but not to biomagnify. Available data for Arctic biota suggest that terrestrial birds and mammals and seabirds, have comparatively higher HCBD concentrations than fish and marine mammals, warranting additional research. Although spatial and temporal trends in HCBD concentrations in the Arctic are currently limited, future monitoring of HCBD in the Arctic will be important for assessing the impact of global regulations newly-imposed by the Stockholm Convention on POPs. Keywords: POPs, Air, Biota, Contaminants, Long-range transport, Review

Published
2019
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6. Levels and trends of current-use pesticides (CUPs) in the arctic: An updated review, 2010–2018

Author

Jennifer E. Balmer, Adam D. Morris, Hayley Hung, Liisa Jantunen, Katrin Vorkamp, Frank Rigét, Marlene Evans, Magali Houde, and Derek C.G. Muir

Subjects
Environmental pollution, TD172-193.5
Abstract

Global regulations and many regional and national controls restrict the use of substances that exhibit the potential for environmental persistence and long-range transport. Nevertheless, many current-use pesticides (CUPs) continue to be newly discovered in remote regions, including the Arctic. The present review serves as an update, summarizing newly available information for CUPs in the Arctic environment and biota published from 2010 to 2018. Since 2010, at least seven new CUPs have been measured in Arctic media: 2-methyl-4- chlorophenoxyacetic acid (MCPA), metribuzin, pendimethalin, phosalone, quizalofop-ethyl, tefluthrin and triallate. Considering the large number of pesticides in current use, the number measured in the Arctic is very limited, however, modelling studies have identified additional CUPs as potential Arctic contaminants that have yet to be investigated in the Arctic. Owing to their recent detection, reports of CUPs in the Arctic are limited, but growing. CUPs have been reported in a wide range of abiotic Arctic matrices, including air, snow, ice, freshwater and seawater, indicating their capacity for long-range atmospheric transport, however, concentrations are generally low in comparison to legacy pesticides and other persistent organic pollutants (POPs). Recent food-web studies indicate CUPs can enter Arctic terrestrial and marine food chains, however, in contrast to POPs, the highest concentrations of many CUPs were found in lower trophic-level organisms, and the lowest concentrations detected in animals at the highest trophic levels (i.e, ringed seals, polar bear, caribou, and wolves) indicating significant trophic dilution. The detection of CUPs in the remote Arctic ecosystem reinforces the need for continued monitoring of both known and potential Arctic pollutants to prevent impacts on human and environmental health as the global arsenal of pesticides used in agriculture continuously changes. Keywords: POPs, Contaminants, Air, Biota, Long-range transport, Persistence

Published
2019
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7. Can traditional methods of selecting food accurately assess fish health?

Author

Peter A. Cott, Amy L. Amos, Matthew M. Guzzo, Louise Chavarie, Cameron P. Goater, Derek C.G. Muir, and Marlene S. Evans

Subjects
lota lota, contaminant, mackenzie river, parasite, traditional knowledge, Environmental sciences, GE1-350, Environmental engineering, TA170-171
Abstract

Indigenous peoples living in Canada’s north have long-valued the livers of Burbot (Lota lota) as a traditional food source; however, there has been concern relating to liver quality and potential contaminants. In this study, livers of Burbot collected in lower Mackenzie River were ranked using a traditional appearance-based assessment. These rankings were compared to a variety of biological and contaminant metrics. Livers ranked “most palatable” had a significantly higher mass and lipid content and were from younger fish with greater hepatosomatic index and total mass and had lower parasite intensities. There were no differences in the concentrations of persistent organic pollutants or metals, except copper, which although still well below consumption guidelines, was significantly higher in fish with livers that appeared most palatable. The results of this study demonstrated that traditional methods effectively assessed the quality of livers by selecting for the most nutritious (high lipid levels) and safest (low parasite loading) food. This method could be incorporated into a community-based monitoring framework as a rough index of overall fish and ecosystem health; however, would not be effective in screening food for anthropogenic contaminants. This study highlights the importance and value of linking traditional knowledge into scientific studies.

Published
2018
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8. Compositional space: A guide for environmental chemists on the identification of persistent and bioaccumulative organics using mass spectrometry

Author

Xianming Zhang, Robert A. Di Lorenzo, Paul A. Helm, Eric J. Reiner, Philip H. Howard, Derek C.G. Muir, John G. Sled, and Karl J. Jobst

Subjects
Environmental sciences, GE1-350
Abstract

Since 2001, twenty-eight halogenated groups of persistent organic pollutants (POPs) have been banned or restricted by the Stockholm Convention. Identifying new POPs among the hundreds of thousands of anthropogenic chemicals is a major challenge that is increasingly being met by state-of-the-art mass spectrometry (MS). The first step to identification of a contaminant molecule (M) is the determination of the type and number of its constituent elements, viz. its elemental composition, from mass-to-charge (m/z) measurements and ratios of isotopic peaks (M + 1, M + 2 etc.). Not every combination of elements is possible. Boundaries exist in compositional space that divides feasible and improbable compositions as well as different chemical classes. This study explores the compositional space boundaries of persistent and bioaccumulative organics. A set of ~305,134 compounds (PubChem) was used to visualize the compositional space occupied by F, Cl, and Br compounds, as defined by m/z and isotope ratios. Persistent bioaccumulative organics, identified by in silico screening of 22,049 commercial chemicals, reside in more constrained regions characterized by a higher degree of halogenation. In contrast, boundaries surrounding non-halogenated chemicals could not be defined. Finally, a script tool (R code) was developed to select potential POPs from high resolution MS data. When applied to household dust (SRM 2585), this approach resulted in the discovery of previously unknown chlorofluoro flame retardants. Keywords: Persistent organic pollutants, Nontargeted screening, Environmental mass spectrometry, Flame retardants, Chemical space

Published
2019
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9. Perfluoroalkyl substances and extractable organic fluorine in surface sediments and cores from Lake Ontario

Author

Leo W.Y. Yeung, Amila O. De Silva, Eva I.H. Loi, Chris H. Marvin, Sachi Taniyasu, Nobuyoshi Yamashita, Scott A. Mabury, Derek C.G. Muir, and Paul K.S. Lam

Subjects
Environmental sciences, GE1-350
Abstract

Fourteen perfluoroalkyl substances (PFASs) including short-chain perfluorocarboxylates (PFCAs, C4–C6) and perfluoroalkane sulfonates (PFSAs, C4 and C6) were measured in surface sediment samples from 26 stations collected in 2008 and sediment core samples from three stations (Niagara, Mississauga, and Rochester basins) collected in 2006 in Lake Ontario. Perfluorooctanesulfonate (PFOS), perfluorooctanoate (PFOA), perfluorononanoate (PFNA), perfluorodecanoate (PFDA), and perfluoroundecanoate (PFUnDA) were detected in all 26 surface sediment samples, whereas perfluorohexane sulfonate (PFHxS), perfluorooctane sulfonamide (FOSA), perfluorododecanoate (PFDoDA) and perfluorobutanoate (PFBA) were detected in over 70% of the surface sediment samples. PFOS was detected in all of the sediment core samples (range: 0.492–30.1 ng g−1 d.w.) over the period 1952–2005. The C8 to C11 PFCAs, FOSA, and PFBA increased in early 1970s. An overall increasing trend in sediment PFAS concentrations/fluxes from older to more recently deposited sediments was evident in the three sediment cores. The known PFCAs and PFSAs accounted for 2–44% of the anionic fraction of the extractable organic fluorine in surface sediment, suggesting that a large proportion of fluorine in this fraction remained unknown. Sediment core samples collected from Niagara basin showed an increase in unidentified organic fluorine in recent years (1995–2006). These results suggest that the use and manufacture of fluorinated organic compounds other than known PFCAs and PFSAs has diversified and increased. Keywords: Sediment, Core, Flux, PFAS, PFOS, Unidentified fluorine

Published
2013
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10. Three decades (1983–2010) of contaminant trends in East Greenland polar bears (Ursus maritimus). Part 2: Brominated flame retardants

Author

Rune Dietz, Frank F. Rigét, Christian Sonne, Erik W. Born, Thea Bechshøft, Melissa A. McKinney, Robert J. Drimmie, Derek C.G. Muir, and Robert J. Letcher

Subjects
Environmental sciences, GE1-350
Abstract

Brominated flame retardants were determined in adipose tissues from 294 polar bears (Ursus maritimus) sampled in East Greenland in 23 of the 28 years between 1983 and 2010. Significant linear increases were found for sum polybrominated diphenyl ether (ΣPBDE), BDE100, BDE153, and hexabromocyclododecane (HBCD). Average increases of 5.0% per year (range: 2.9–7.6%/year) were found for the subadult polar bears. BDE47 and BDE99 concentrations did not show a significant linear trend over time, but rather a significant non-linear trend peaking between 2000 and 2004. The average ΣPBDE concentrations increased 2.3 fold from 25.0 ng/g lw (95% C.I.: 15.3–34.7 ng/g lw) in 1983–1986 to 58.5 ng/g lw (95% C.I.: 43.6–73.4 ng/g lw) in 2006–2010. Similar but fewer statistically significant trends were found for adult females and adult males likely due to smaller sample size and years. Analyses of δ15N and δ13C stable isotopes in hair revealed no clear linear temporal trends in trophic level or carbon source, respectively, and non-linear trends differed among sex and age groups. These increasing concentrations of organobromine contaminants contribute to complex organohalogen mixture, already causing health effects to the East Greenland polar bears. Keywords: Polar bear (Ursus maritimus), Brominated flame retardants, HBCD, PBDE, Temporal trends

Published
2013
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11. Levels and trends of persistent organic pollutants in ringed seals (Phoca hispida) from Central West Greenland, with particular focus on polybrominated diphenyl ethers (PBDEs)

Author

Katrin Vorkamp, Frank F. Rigét, Marianne Glasius, Derek C.G. Muir, and Rune Dietz

Subjects
Environmental sciences, GE1-350
Abstract

Polybrominated diphenyl ethers (PBDEs) and the organochlorine compounds polychlorinated biphenyls (PCBs), DDTs, HCB, chlordane-related pesticides, HCH and toxaphene were analysed in blubber of juvenile ringed seals from Central West Greenland collected between 1982 and 2006. The longest time series could be established for PBDEs, partly based on archived material, while PCBs and DDTs covered a study period from 1994–2006. All organochlorines showed decreasing trends, most pronounced for DDT and HCH with an annual change of 8%. BDE-47 had a significantly increasing trend of 5% annually. It was the only BDE congener consistently above the detection limit, with annual median concentrations between 0.78 ng/g lw to 3.54 ng/g lw, i.e. about 10 times lower than values from East Greenland observed in a similar time trend study on ringed seal blubber [Rigét F, Vorkamp K, Dietz R, Rastogi SC. Temporal trend studies on polybrominated diphenyl ethers (PBDEs) and polychlorinated biphenyls (PCBs) in ringed seals from East Greenland. J Environ Monit 2006; 8: 1000–5]. A clear East>West difference was also found for PCBs and DDTs, but not for chlordanes, toxaphene or HCHs. Σ10-PCB, ΣDDT and ΣChlordanes had similar annual median concentrations, typically exceeding ΣPBDE by two orders of magnitude. The concentrations of HCH and toxaphene were in an intermediate group, with highest annual median concentrations of 135 ng/g lw and 20 ng/g lw, respectively. For most compound groups, the circumpolar trend previously established under for example the Arctic Monitoring and Assessment Programme was confirmed, but apparently, more data are needed for chlordane-related compounds and toxaphene. Statistical analyses of the compound patterns in the ringed seal samples revealed significantly greater differences between seals from East and West than between different sampling years. Higher proportions of PCBs and DDTs and lower proportions of chlordanes and HCHs were found in seals from East Greenland than in those from West Greenland. Based on principal component analysis of individual congener and compounds, seals from East Greenland were found to contain higher proportions of the higher chlorinated CB congeners. Varying patterns between sampling locations may be caused by different exposure situations related to contaminant emissions and transport, but different feeding habits may also affect the contaminant composition. Keywords: Arctic, Compound patterns, Hexachlorobenzene (HCB), Hexachlorocyclohexane (HCH), Organochlorine pesticides, Polybrominated diphenyl ethers (PBDEs), Polychlorinated biphenyls (PCBs), Geographical trend, Time trend, Toxaphene

Published
2008
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12. Limnological characteristics of 56 lakes in the Central Canadian Arctic Treeline Region

Author

John P. SMOL, Xiaowa WANG, Derek C.G. MUIR, and Kathleen M. RÜHLAND

Subjects
arctic treeline, climatic change, dissolved inorganic carbon, dissolved organic carbon, major ions, nutrients, Geography. Anthropology. Recreation, Physical geography, GB3-5030, Environmental sciences, GE1-350
Abstract

Measured environmental variables from 56 lakes across the Central Canadian Treeline Region exhibited clear limnological differences among subpolar ecozones, reflecting strong latitudinal changes in biome characteristics (e.g. vegetation, permafrost, climate). Principal Components Analysis (PCA) clearly separated forested sites from tundra sites based on distinct differences in limnological characteristics. Increases in major ions and related variables (e.g. dissolved inorganic carbon, DIC) were higher in boreal forest sites in comparison to arctic tundra sites. The higher values recorded in the boreal forest lakes may be indirectly related to differences in climatic factors in these zones, such as the degree of permafrost development, higher precipitation and runoff, duration of ice-cover on the lakes, and thicker and better soil development. Similar to trends observed in DIC, substantially higher values for dissolved organic carbon (DOC) were measured in boreal forest lakes than in arctic tundra lakes. This was likely due to higher amounts of catchment-derived DOC entering the lakes from coniferous leaf litter sources. Relative to arctic tundra lakes, boreal forest lakes had higher nutrient concentrations, particularly total nitrogen (TN), likely due to warmer conditions, a longer growing season, and higher precipitation, which would enhance nutrient cycling and primary productivity. Results suggest that modern aquatic environments at opposite sides of the central Canadian arctic treeline (i.e. boreal forest and arctic tundra) exhibit distinct differences in water chemistry and physical conditions. These limnological trends may provide important information on possible future changes with additional warming.

Published
2003
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13. Why do we monitor? Using seabird eggs to track trends in Arctic environmental contamination

Author

Kristin Bianchini, Mark L. Mallory, Birgit M. Braune, Derek C.G. Muir, and Jennifer F. Provencher

Subjects
parasitic diseases, fungi, geographic locations, General Environmental Science
Abstract

Contaminant levels and trends have been monitored in the eggs of seabirds from the Canadian Arctic since 1975. Nearly 50 years of monitoring have provided key information regarding the temporal and spatial variation of various contaminant classes in different seabird species. However, previous work has primarily assessed individual or related contaminant classes in isolation. There is therefore a need to collectively consider all of the contaminants monitored in seabird eggs to determine where monitoring has been successful, to find areas for improvement, and to identify opportunities for future research. In this review, we evaluated monitoring data for the major legacy and emerging contaminants of concern in five seabird species from three High Arctic and three Low Arctic colonies in Canada. We review the history of Canada’s Arctic seabird egg monitoring program and discuss how monitoring efforts have changed over time; we summarize temporal, spatial, and interspecies variations in Arctic seabird egg contamination and identify important knowledge gaps; and, we discuss future directions for ecotoxicology research using seabird eggs in Arctic Canada. Ultimately, this paper provides a high-level overview of the egg contaminant monitoring program and underscores the importance of long-term and continued seabird contaminant monitoring in Arctic Canada.

Published
2022
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14. Modeling historical budget for β-Hexachlorocyclohexane (HCH) in the Arctic Ocean: A contrast to α-HCH

Author

Pu-Fei Yang, Robie W. Macdonald, Hayley Hung, Derek C.G. Muir, Roland Kallenborn, Anatoly N. Nikolaev, Wan-Li Ma, Li-Yan Liu, and Yi-Fan Li

Subjects
Environmental Engineering, Ecology, Environmental Science (miscellaneous)
Abstract

The historical annual loading to, removal from, and cumulative burden in the Arctic Ocean for β-hexachlorocyclohexane (β-HCH), an isomer comprising 5-12% of technical HCH, is investigated using a mass balance box model from 1945 to 2020. Over the 76 years, loading occurred predominantly through ocean currents and river inflow (83%) and only a small portion via atmospheric transport (16%). β-HCH started to accumulate in the Arctic Ocean in the late 1940s, reached a peak of 810 t in 1986, and decreased to 87 t in 2020, when its concentrations in the Arctic water and air were ∼30 ng m

Published
2022

15. Feeding and contaminant patterns of sub-arctic and arctic ringed seals: Potential insight into climate change-contaminant interactions

Author

Nadia Facciola, Magali Houde, Derek C.G. Muir, Steven H. Ferguson, and Melissa A. McKinney

Subjects
Canada, Fluorocarbons, Climate Change, Health, Toxicology and Mutagenesis, Fatty Acids, Mercury, Phoca, General Medicine, Toxicology, Pollution, Persistent Organic Pollutants, Metals, Heavy, Halogenated Diphenyl Ethers, Animals
Abstract

To provide insight into how climate-driven diet shifts may impact contaminant exposures of Arctic species, we compared feeding ecology and contaminant concentrations in ringed seals (Pusa hispida) from two Canadian sub-Arctic (Nain at 56.5°N, Arviat at 61.1°N) and two Arctic sites (Sachs Harbour at 72.0 °N, Resolute Bay at 74.7 °N). In the sub-Arctic, empirical evidence of changing prey fish communities has been documented, while less community change has been reported in the Arctic to date, suggesting current sub-Arctic conditions may be a harbinger of future Arctic conditions. Here, Indigenous partners collected tissues from subsistence-harvested ringed seals in 2018. Blubber fatty acids (FAs) and muscle stable isotopes (δ

Published
2022
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16. Climate change and mercury in the Arctic: Biotic interactions

Author

Melissa A. McKinney, John Chételat, Samantha M. Burke, Kyle H. Elliott, Kim J. Fernie, Magali Houde, Kimmo K. Kahilainen, Robert J. Letcher, Adam D. Morris, Derek C.G. Muir, Heli Routti, and David J. Yurkowski

Subjects
Mammals, Lakes, Environmental Engineering, Arctic Regions, Climate Change, Animals, Environmental Chemistry, Mercury, Pollution, Waste Management and Disposal, Ecosystem, Environmental Monitoring
Abstract

Global climate change has led to profound alterations of the Arctic environment and ecosystems, with potential secondary effects on mercury (Hg) within Arctic biota. This review presents the current scientific evidence for impacts of direct physical climate change and indirect ecosystem change on Hg exposure and accumulation in Arctic terrestrial, freshwater, and marine organisms. As the marine environment is elevated in Hg compared to the terrestrial environment, terrestrial herbivores that now exploit coastal/marine foods when terrestrial plants are iced over may be exposed to higher Hg concentrations. Conversely, certain populations of predators, including Arctic foxes and polar bears, have shown lower Hg concentrations related to reduced sea ice-based foraging and increased land-based foraging. How climate change influences Hg in Arctic freshwater fishes is not clear, but for lacustrine populations it may depend on lake-specific conditions, including interrelated alterations in lake ice duration, turbidity, food web length and energy sources (benthic to pelagic), and growth dilution. In several marine mammal and seabird species, tissue Hg concentrations have shown correlations with climate and weather variables, including climate oscillation indices and sea ice trends; these findings suggest that wind, precipitation, and cryosphere changes that alter Hg transport and deposition are impacting Hg concentrations in Arctic marine organisms. Ecological changes, including northward range shifts of sub-Arctic species and altered body condition, have also been shown to affect Hg levels in some populations of Arctic marine species. Given the limited number of populations and species studied to date, especially within Arctic terrestrial and freshwater systems, further research is needed on climate-driven processes influencing Hg concentrations in Arctic ecosystems and their net effects. Long-term pan-Arctic monitoring programs should consider ancillary datasets on climate, weather, organism ecology and physiology to improve interpretation of spatial variation and time trends of Hg in Arctic biota.

Published
2022
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17. Metal contamination in alkaline Phantom Lake (Flin Flon, Manitoba, Canada) generates strong responses in multiple paleolimnological proxies

Author

Brigitte Simmatis, Kathleen M. Rühland, Marlene Evans, Carsten Meyer-Jacob, Jane Kirk, Derek C.G. Muir, and John P. Smol

Subjects
0106 biological sciences, Canada, Geologic Sediments, Environmental Engineering, Chlorophyll A, 010604 marine biology & hydrobiology, Manitoba, 010501 environmental sciences, 01 natural sciences, Pollution, Lakes, Environmental Chemistry, Waste Management and Disposal, Ecosystem, Water Pollutants, Chemical, Environmental Monitoring, 0105 earth and related environmental sciences
Abstract

The copper-zinc smelter at Flin Flon (Manitoba) operated between 1930 and 2010 and emitted large amounts of metal(loid)s and sulphur dioxide into the atmosphere, damaging the surrounding terrestrial landscapes and depositing airborne industrial pollutants into aquatic ecosystems. However, the extent of biological impairment in regional lakes is largely unknown. Here, we analysed biological and geochemical proxies preserved in a dated sediment core from Phantom Lake, collected seven years after the smelter closed in 2010. Our objectives were to determine how smelting history affected long-term trends in (1) sedimentary elements, (2) biota across multiple trophic levels, and (3) spectrally-inferred chlorophyll a and lake-water total organic carbon. The effects of smelting activities were clearest in the diatom record, in concordance with modest responses in chironomid and cladoceran assemblages. Several metal(loid)s were naturally high and exceeded sediment quality guidelines during the pre-smelting era. With the opening of the smelter, metal(loid) concentrations in sediments increased through the 1930s, peaked in the 1960s, and declined thereafter with technological improvements but remained above background to this day. Although modest declines in inferred lake-water total organic carbon indicate reduced terrestrial carbon supply following sulphate deposition in the catchment, the diatom record showed no evidence of acidification as the lake was and remained well-buffered. Pre-smelting diatom and invertebrate assemblages were diverse and indicated oligo-mesotrophic conditions. Smelting was associated with the loss of metal-sensitive biological indicators and the emergence of assemblages dominated by metal-tolerant, generalist taxa. Diatoms tracked substantial reductions in aerial emissions since the 1990s, particularly after the smelter closed, but also indicated that the biological effects of metal pollution persist in Phantom Lake. Examining the effects of a base metal smelter on a well-buffered lake offered insights into multi-trophic level responses to severe metal contamination and potential recovery without the confounding effects of concurrent changes in lake acidity.

Published
2022
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18. Activity concentration measurements of selected radionuclides in seals from Canadian Arctic

Author

Jing Chen, Baki Sadi, Derek C.G. Muir, Xiaowa Wang, and Weihua Zhang

Subjects
0106 biological sciences, Canada, Water Pollutants, Radioactive, Insufficient Sample, Seals, Earless, Health, Toxicology and Mutagenesis, 010501 environmental sciences, 01 natural sciences, Animal science, Radiation Monitoring, Blubber, Activity concentration, Animals, Environmental Chemistry, Ingestion, Waste Management and Disposal, Isotopes of caesium, 0105 earth and related environmental sciences, Radionuclide, Arctic Regions, Chemistry, 010604 marine biology & hydrobiology, Fresh weight, General Medicine, Pollution, Radiochemical analysis, Nuclear chemistry
Abstract

The activity concentrations of naturally occurring radionuclides (such as 226Ra, 210Pb and 210Po) and long lived 137Cs were measured in a total of 119 tissue samples (43 blubber, 43 liver, and 33 muscle samples) from 40 ringed seals and 4 bearded seals collected in the Arviat area of Canada during the fall of 2014. Activity concentration of 210Po was measured in all seal liver and muscle samples individually. The average 210Po activity concentrations were 25 ± 7.6 Bq/kg fresh weight (fw) in muscle and 211 ± 58 Bq/kg fw in liver for ringed seals, and 20 ± 6.1 Bq/kg fw in muscle and 231 ± 150 Bq/kg fw in liver for bearded seals. Due to insufficient sample material for most samples collected, gamma counting for radioactive caesium and radiochemical analysis for 226Ra and 210Pb were performed for pooled samples. Activity concentrations of 210Pb and 226Ra were generally below detection limits. While 134Cs activity concentration was not detectable, 137Cs activity concentration was detected in muscle and liver samples. On average, the 137Cs activity concentrations were 0.25 ± 0.05 and 0.12 ± 0.04 Bq/kg fw in muscle and liver samples of ringed seals, and 0.11 ± 0.02 and 0.10 ± 0.03 Bq/kg fw in muscle and liver samples of bearded seals, respectively. Neither 210Po nor 137Cs were detected in the blubber samples. This study confirmed that 210Po is the dominant contributor to radiation doses resulting from seal consumption. Man-made contaminant 137Cs only contributes less than 0.01% of the total ingestion dose obtained from Arviat seals.

Published
2017
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22. Increased accumulation of sulfur in lake sediments of the high Arctic

Author

Donald E. Canfield, Neil L. Rose, Paul E. Drevnick, John Boyle, Martin J. Horgan, Derek C.G. Muir, and Carl H. Lamborg

Subjects
Canada, Geologic Sediments, Biogeochemical cycle, Sulfide, Biochemical Phenomena, Climate Change, chemistry.chemical_element, Fresh Water, chemistry.chemical_compound, Water Pollution, Chemical, Environmental Chemistry, Sulfate, Sulfate-reducing bacteria, chemistry.chemical_classification, Arctic Regions, Norway, fungi, Biogeochemistry, Sulfur cycle, Sediment, General Chemistry, Sulfur, Carbon, Oceanography, chemistry, Water Pollutants, Chemical, Geology, Environmental Monitoring
Abstract

We report a synchronous increase in accumulation of reduced inorganic sulfur since c. 1980 in sediment cores from eight of nine lakes studied in the Canadian Arctic and Svalbard (Norway). Sediment incubations and detailed analyses of sediment profiles from two of the lakes indicate that increases in sulfur accumulation may be due ultimately to a changing climate. Warming-induced lengthening of the ice-free season is resulting in well-documented increases in algal production and sedimentation of the resulting detrital matter. Algal detritus is a rich source of labile carbon, which in these sediments stimulates dissimilatory sulfate reduction. The sulfide produced is stored in sediment (as acid volatile sulfide), converted to other forms of sulfur, or reoxidized to sulfate and lost to the water column. An acceleration of the sulfur cycle in Arctic lakes could have profound effects on important biogeochemical processes, such as carbon burial and mercury methylation. We report a synchronous increase in accumulation of reduced inorganic sulfur since c. 1980 in sediment cores from eight of nine lakes studied in the Canadian Arctic and Svalbard (Norway). Sediment incubations and detailed analyses of sediment profiles from two of the lakes indicate that increases in sulfur accumulation may be due ultimately to a changing climate. Warming-induced lengthening of the ice-free season is resulting in well-documented increases in algal production and sedimentation of the resulting detrital matter. Algal detritus is a rich source of labile carbon, which in these sediments stimulates dissimilatory sulfate reduction. The sulfide produced is stored in sediment (as acid volatile sulfide), converted to other forms of sulfur, or reoxidized to sulfate and lost to the water column. An acceleration of the sulfur cycle in Arctic lakes could have profound effects on important biogeochemical processes, such as carbon burial and mercury methylation.

Published
2010
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24. Preface

Author

Terry F. Bidleman and Derek C.G. Muir

Subjects
Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, General Medicine, General Chemistry, Pollution
Published
1993
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