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Development of photosynthetic biofilms affected by dissolved and sorbed copper in a eutrophic river

Barranguet, C. and Plans, M. and Van der Grinten, E. and Sinke, J.J. and Admiraal, W. (2002) Development of photosynthetic biofilms affected by dissolved and sorbed copper in a eutrophic river. Environmental Toxicology and Chemistry, 21, 1955-1965. ISSN 0730-7268.

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Official URL: http://dx.doi.org/10.1897/1551-5028(2002)021<1955:DOPBAB>2.0.CO;2

Abstract

Photosynthetic biofilms are capable of immobilizing important concentrations of metals, therefore reducing bioavailability to organisms. But also metal pollution is believed to produce changes in the microalgal species composition of biofilms. We investigated the changes undergone by natural photosynthetic biofilms from the River Meuse, The Netherlands, under chronic copper (Cu) exposure. The suspended particles in the river water had only a minor effect on reduction of sorption and toxicity of Cu to algae. Biofilms accumulated Cu proportionally to the added concentration, also at the highest concentration used (9 muM Cu). The physiognomy of the biofilms was affected through the growth of the chain-forming diatom Melosira varians, changing from long filaments to short tufts, although species composition was not affected by the Cu exposure. The Cu decreased phosphate uptake and algal biomass measured as chl a, which degraded exponentially in time. Photosynthetic activity was always less sensitive than algal biomass; the photon yield decreased linearly in time. The protective and insulating role of the biofilm, supported by ongoing autotrophic activity, was indicated as essential in resisting metal toxicity. We discuss the hypothesis that the toxic effects of Cu progress almost independently of the species composition, counteracting ongoing growth, and conclude that autotrophic biofilms act as vertical heterogeneous units. Effective feedback mechanisms and density dependence explain several discrepancies observed earlier. [KEYWORDS: biofilms; copper; diatoms; fluorescence; River Meuse]

Item Type:Article
Institutes:Nederlands Instituut voor Ecologie (NIOO)
ID Code:11112
Deposited On:24 Nov 2011 01:00
Last Modified:31 Mar 2014 10:49

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