Abstract
Most technologies used for decontamination presents good results for high concentrations, but limitations for lower ones. The desirable Hg concentration in the water is extremely low because of its toxicity. The aims of this study were to evaluate inorganic mercury (Hg2+) and methylmercury (CH3Hg+) toxicity in Nostoc paludosum, to assess the potential of this cyanobacteria strain to remove these Hg species from aqueous medium and also to investigate Hg methylation by the cyanobacteria. CH3Hg+ determination was performed by gas chromatography-pyrolysis-atomic fluorescence spectrometry in cultures exposed to a concentration of 20 μg L−1 for 30 days. Both Hg species were removed from the supernatant, ranging from 73 to 96% of Hg2+ and from 73 to 95% of CH3Hg+. Ultrastructural Hg2+ effects in the cyanobacteria cells investigated by transmission electron microscopy revealed higher production of glycogen, cyanophycin, and intrathylacoidal spaces than the control group. When Hg was added to the culture in the form of CH3Hg+, a decrease corresponding to approximately 60% of the initial concentration due to Hg volatilization was observed. The production of CH3Hg+ by the cyanobacteria was detected in concentrations near the limit of detection (0.0025%) of the bioaccumulated THg. This is an advantage for biotechnological decontamination applications, as CH3Hg+ is a very toxic specie and can be bioaccumulated and biomagnified. The results demonstrated that cyanobacteria cells are an efficient alternative to retain and/or remove Hg at low concentrations and they constitute a potential tool for a "final cleaning" of contaminated waste water.
from #ORL-AlexandrosSfakianakis via ola Kala on Inoreader https://ift.tt/2pCVDhV
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