An Investigation into the Bioaccumulation of Chromium by Macroalgae
Heavy metals in industrial effluents are of particular concern because of their ability to bioaccumulate in the food chain, making it possible for toxic levels to reach higher animals and plants. Chromium is widely used in processes such as leather tanning, electroplating, pigmentation and in corros...
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| Format: | Thesis |
| Language: | English |
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2016
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| Online Access: | https://repository.wit.ie/3214/ https://repository.wit.ie/3214/1/Final%20PhD%20Thesis%20for%20Binding.pdf |
| Summary: | Heavy metals in industrial effluents are of particular concern because of their ability to bioaccumulate in the food chain, making it possible for toxic levels to reach higher animals and plants. Chromium is widely used in processes such as leather tanning, electroplating, pigmentation and in corrosion inhibitors. Trivalent and hexavalent are the most common species used in industry, with hexavalent being widely understood to be the most toxic. It is important, therefore, to understand the mechanisms of how chromium and other metals accumulate in the environment. The aim of this project was to investigate metal, and in particular chromium uptake, by live seaweeds. This was done by characterising the seaweed (ICP-OES, Kjeldahl, FTIR), using the seaweed as a biomonitor, and looking at the surface morphology of the seaweed (AFM, SEM-EDX). A set of bioaccumulation experiments under many different conditions was carried out in order to determine the effect of seaweed species (Fucus vesiculosus, Palmaria palmata, Ulva lactuca), metal species (Cr(III) vs. Cr(VI)), season (May/June versus Feb/Mar), and temperature (7 ˚C vs. 16 ˚C) on metal uptake. To the author’s knowledge, this was the first study to look at bioaccumulation by live seaweed of these two chromium species. Characterisation confirmed the presence of sulphate, carboxylate, amide, and phosphorus containing groups. Seasonal and inter-species differences in seaweed composition were also identified. A biomonitoring study, carried out on F. vesiculosus and A. nodosum sampled in Ireland and Newfoundland, showed that both seaweeds are suitable biomonitors. Metal contents reflected the levels of pollution which were likely to be present in the sampling areas. Surface microscopy showed that a biofilm was present on the surface of U. lactuca. A time course study on Cr(III) binding showed that the biofilm was disrupted and reduced as metal exposure continued. Further experiments using AFM, SEM-EDX and total viable surface counts did not show differences between blank ... |
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