Title

Levels, patterns, trends and significance of polychlorinated naphthalenes (PCNs) in Great Lakes fish

Document Type

Article

Publication Date

5-15-2018

Publication Title

Science of The Total Environment

Volume

624

First Page

499

Last Page

508

DOI

10.1016/j.scitotenv.2017.11.332

Keywords

Polychlorinated naphthalene PCN, Great Lakes, Fish consumption, Spatial and temporal trends

Abstract

Polychlorinated naphthalenes (PCNs) were introduced to market about a century ago and their production is thought to have ceased by the early 1980s. However, relatively limited knowledge exists on their abundance in the edible portion of a variety of Great Lakes fish to aid in understanding their potential risk to human consumers. We studied levels, patterns, trends and significance of PCNs in a total 470 fillet samples of 18 fish species collected from the Canadian waters of the Great Lakes between 2006 and 2013. A limited comparison of fillet and wholebody concentrations in Carp and Bullhead was also conducted. The ∑ PCN ranged from 0.006–6.7 ng/g wet weight (ww) and 0.15–190 ng/g lipid weight (lw) with the dominant congeners being PCN-52/60 (34%), -42 (21%) and -66/67 (15%). The concentrations spatially varied in the order of the Detroit River > Lakes Erie > Ontario > Huron > Superior. PCN-66/67 was the dominating congener contributing on average 76–80% of toxic equivalent concentration (TEQPCN). Contribution of TEQPCN to TEQTotal (TEQDioxins + Furans + dioxin-likePCBs + PCNs) was mostly < 15%, especially at higher TEQTotal, and PCB-126 remains the major congener contributing to TEQTotal. The congener pattern suggests that impurities in PCB formulations and thereby historical PCB contamination, instead of unintentional releases from industrial thermal processes, could be an important source of PCNs in Great Lakes fish. A limited temporal change analysis indicated declines in the levels of PCN-66/67 between 2006 and 2012, complemented by previously reported decrease in PCNs in Lake Ontario Lake Trout between 1979 and 2004. The whole body concentrations were 1.4–3.2 fold higher than the corresponding fillets of Carp and Bullhead. Overall, the study results suggest that only targeted monitoring of PCNs in Great Lakes fish, especially at the Detroit River, Lake Erie and Lake Ontario, is necessary to assess continued future improvements of this group of contaminants of concern.

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