R. Wagemann scite author profile

The inhibitory effect of Cd and of Cu on P uptake by the green alga Scenedesmus quadricauda is a highly pH dependent process. We used a simple inorganic medium to minimize the effects of variables other than pH so that changes in toxicity should reflect changes related only to H+ concentration. The toxicity of Cd to P uptake increases strongly (almost 200-fold) with increasing pH over the range 5.5–8.5. Hydrated Cd2+ dominates the dissolved Cd pool over this pH range. The logarithm of the Cd concentration causing 50% inhibition of P uptake is linearly related to pH. Total Cu toxicity increases 76-fold from pH 5.0 to 6.5, where hydrated Cu2+ is the dominant dissolved Cu species, and then remains relatively constant at higher pH, where uncharged inorganic Cu complexes are dominant. The logarithm of the Cu2+ concentration causing 50% inhibition of P uptake was also linearly related to pH, but total Cu was not. We explain this variation in metal toxicity with pH as a competition between H+ and free metal cations for cellular binding sites. Possibly this is a general phenomenon for metals that form a significant amount of free cations relative to the total metal pool.

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Mercury species in the liver of ringed seals

Wagemann

Trebacz

Boila

et al. 2000

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R. Wagemann

Contaminants in the Canadian Arctic: 5 years of progress in understanding sources, occurrence and pathways

Methylmercury and total mercury in tissues of arctic marine mammals

Spatial and temporal trends and effects of contaminants in the Canadian Arctic marine ecosystem: a review

Arctic marine ecosystem contamination

Overview and regional and temporal differences of heavy metals in Arctic whales and ringed seals in the Canadian Arctic

Concentrations of mercury in tissues of beluga whales (Delphinapterus leucas) from several communities in the Canadian Arctic from 1981 to 2002

Metal Toxicity to Algae: A Highly pH Dependent Phenomenon

Mercury species in the liver of ringed seals

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