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Assessment of the significance of direct and indirect pollution inputs to a major salmon‐producing river using polyethylene membrane devices
Author(s) -
Moles Adam,
Holland Larry,
Andersson Ole
Publication year - 2006
Publication title -
environmental toxicology and chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.1
H-Index - 171
eISSN - 1552-8618
pISSN - 0730-7268
DOI - 10.1897/05-654r.1
Subject(s) - environmental science , watershed , pollution , hydrology (agriculture) , streams , nonpoint source pollution , sampling (signal processing) , water pollution , dilution , environmental engineering , environmental chemistry , ecology , chemistry , computer network , physics , geotechnical engineering , filter (signal processing) , machine learning , computer science , engineering , computer vision , biology , thermodynamics
Conventional passive sampling devices for monitoring pollution input often prove to be cost‐prohibitive when assessing large spatial and temporal scales. The Kenai River, a major salmon‐producing river in Alaska (USA), served as the perfect laboratory to test the utility of polyethylene membrane devices for assessing chronic nonpoint‐source inputs to a large riverine watershed. Comparison of the relative levels of polycyclic aromatic hydrocarbons (PAHs) at a large number of locations over time allowed us to assess the significance and potential source of these compounds in the river. Concentrations of PAH were greatest near urban areas and peaked during the late winter, when streams flows and dilution were low. Vessel activity and PAH levels peaked in July and were heaviest in the lower 16 km of the river, where fishing activity was concentrated. Nearly one‐third of the vessels observed on the river were powered by two‐stroke engines, which release a higher proportion of unburned fuel into the water than the cleaner burning four‐stroke engines. The low concentrations of hydrocarbons upriver of the boat traffic suggest very little remote delivery of these contaminants to the watershed. Polyethylene strips proved to be an excellent, low‐cost tool for determining the PAH patterns in a large watershed.

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