Open AccessEffects of acidification on metal availability to aquatic biota, with special reference to filamentous algae.
Author(s) -
P. M. Stokes,
Robert C. Bailey,
GillesR. Groulx
Publication year - 1985
Publication title -
environmental health perspectives
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.257
H-Index - 282
eISSN - 1552-9924
pISSN - 0091-6765
DOI - 10.1289/ehp.856379
Subject(s) - environmental chemistry , bioaccumulation , biota , mercury (programming language) , algae , cadmium , environmental science , aquatic ecosystem , biomonitoring , metal toxicity , bioavailability , ulvophyceae , chemistry , aquatic plant , ecology , heavy metals , chlorophyta , biology , macrophyte , bioinformatics , organic chemistry , computer science , programming language
A survey of 34 shield lakes in Ontario and Quebec, pH 4.4 to 7.1, was made to evaluate which metals should be considered of concern as a risk to aquatic biota or consumers when lakes are acid stressed. A set of predictions, concerning the mobilization by man, the mobility, the chemical speciation, and the toxicity or bioaccumulation of metals in acid-stressed waters, were used as a basis for designing the study and organizing the results. Attached algae were used as biomonitors to assess metal bioavailability. The study concluded that zinc, lead, aluminum, and mercury were of concern in acid-stressed lakes, while the situation for manganese was unresolved, and cadmium was not studied. Nickel and copper were of concern only when a point source was involved. The study also concluded that the attached algal community had some value as a biomonitor, for metals in acid-stressed as well as metal-polluted surface waters.
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