Polycyclic aromatic compounds in a northern freshwater ecosystem: patterns, sources, and the influences of environmental factors.

Polycyclic aromatic compounds (PACs) - a large group of organic chemicals naturally present in petroleum deposits (i.e., petrogenic) or released into the environment by incomplete combustion of organic materials (i.e., pyrogenic) - represent a potential risk to the health of aquatic ecosystems. In h...

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Bibliographic Details
Published in:Environmental Pollution
Main Authors: Stalwick, Jordyn A, Eccles, Kristin M, Somers, Gila, Thomas, Philippe J, Gurney, Kirsty
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier Science 2024
Subjects:
Northwest Territories
fire
lotic ecosystems
oil wells
snow
water contaminants
Mackenzie River
Norman Wells
Mackenzie river
Online Access:https://doi.org/10.1016/j.envpol.2024.123962
https://pubmed.ncbi.nlm.nih.gov/38614424
Description
Summary:Polycyclic aromatic compounds (PACs) - a large group of organic chemicals naturally present in petroleum deposits (i.e., petrogenic) or released into the environment by incomplete combustion of organic materials (i.e., pyrogenic) - represent a potential risk to the health of aquatic ecosystems. In high latitude freshwater ecosystems, concentrations of PACs may be increasing, yet there are limited studies in such systems to assess change and to understand threats. Using 10 years of contemporary data from passive samplers deployed across five regions (n = 43 sites) in the Mackenzie River Basin, we (i) describe baseline levels of PACs, (ii) assess spatiotemporal patterns, and (ii) evaluate the extent to which environmental factors (fire, snowmelt, and proximity to oil infrastructure) influence concentrations in this system. Measured concentrations were low, relative to those in more southern systems, with mixtures primarily being dominated by non-alkylated, low molecular weight compounds. Concentrations were spatially consistent, except for two sites near Norman Wells (an area of active oil extraction) with increased levels. Similarly, observed annual variation was minimal, with 2014 having generally higher levels of PACs. We did not detect effects of fire, snowmelt, or oil infrastructure on concentrations. Taken together, our findings suggest that PACs in the Mackenzie River are currently at low levels and are primarily petrogenic in origin. They further indicate that ongoing monitoring and testing of environmental drivers (especially at finer spatial scales) are needed to better predict how ecosystem change will influence PACs levels in the Basin and in other northern systems.

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