The Role of Sediments in the Fate of Microcystins in Aquatic Systems PDF Download
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Author: Haihong Song
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Microcystins, potent toxins produced by cyanobacteria, occur widely in aquatic systems across the world, and are a known environmental and public health hazard. Therefore, it is important to understand their fate in aquatic systems. As an important component of aquatic systems, sediments play multiple roles in the distribution and natural attenuation of microcystins. However, systematic studies identifying the effects of environmental variables on the variability of microcystins in lake sediments are lacking, and the contribution of sediments to the removal of these toxins in the water body are not yet clear. Hence, this research aimed to: (a) investigate the variability of microcystins in lake sediments; and (b) identify the relative contribution of the biodegradation and adsorption ability of sediments to the removal of microcystins from the water. As research into microcystins in lake sediments has been hindered by the lack of an effective analysis method, a further aim of this study was to develop a method to quantify these toxins in sediment samples using supercritical carbon dioxide. The first part of this research involved a field study, analysing microcystin concentrations in lake sediments and their correlation with environmental variables. Microcystins were detected in all sediment samples, even at one of the sampling sites with negligible cyanobacterial biomass present in the water. The concentration of these toxins in lake sediments had a weak, but significant correlation with intracellular microcystins, total microcystins and cyanobacterial biomass in the water. Furthermore, their variability of in lake sediments could be explained by a combination of total microcystins in the water, cyanobacterial biomass in the water, pH and temperature. In the second part of this research, changes in the concentration of microcystin-LR (MCLR) in the water in the presence of sediments were quantified in a laboratory experiment. The results of this experiment showed that each time MCLR was added to sterile lake water in the presence of sediments, MCLR concentration decreased significantly following an exponential decay curve, with no observed lag phase. Comparison between different treatment conditions implied that the adsorption and biodegradation ability of sediments caused the MCLR removal and that biodegradation was the dominant mechanism. The final part of this research investigated the use of supercritical carbon dioxide in quantifying microcystins in sediment samples. A protocol was developed which included the optimisation of extraction conditions using supercritical carbon dioxide. This protocol was use to quantify microcystin concentrations in natural field samples. The results showed that for sediment samples with added MCLR, the conventional method recovered more spiked MCLR but fewer microcystin variants. In contrast, supercritical carbon dioxide with water as modifier extracted a higher amount of total microcystins. Overall, this research highlights the wide occurrence of microcystins in the sediments of the studied lake, and the biodegradation ability of sediments to remove microcystins quantitatively from the water. This study suggests that researchers and water management authorities should include sediments when assessing the potential hazards and fate of microcystins in aquatic systems.
Author: Haihong Song
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Microcystins, potent toxins produced by cyanobacteria, occur widely in aquatic systems across the world, and are a known environmental and public health hazard. Therefore, it is important to understand their fate in aquatic systems. As an important component of aquatic systems, sediments play multiple roles in the distribution and natural attenuation of microcystins. However, systematic studies identifying the effects of environmental variables on the variability of microcystins in lake sediments are lacking, and the contribution of sediments to the removal of these toxins in the water body are not yet clear. Hence, this research aimed to: (a) investigate the variability of microcystins in lake sediments; and (b) identify the relative contribution of the biodegradation and adsorption ability of sediments to the removal of microcystins from the water. As research into microcystins in lake sediments has been hindered by the lack of an effective analysis method, a further aim of this study was to develop a method to quantify these toxins in sediment samples using supercritical carbon dioxide. The first part of this research involved a field study, analysing microcystin concentrations in lake sediments and their correlation with environmental variables. Microcystins were detected in all sediment samples, even at one of the sampling sites with negligible cyanobacterial biomass present in the water. The concentration of these toxins in lake sediments had a weak, but significant correlation with intracellular microcystins, total microcystins and cyanobacterial biomass in the water. Furthermore, their variability of in lake sediments could be explained by a combination of total microcystins in the water, cyanobacterial biomass in the water, pH and temperature. In the second part of this research, changes in the concentration of microcystin-LR (MCLR) in the water in the presence of sediments were quantified in a laboratory experiment. The results of this experiment showed that each time MCLR was added to sterile lake water in the presence of sediments, MCLR concentration decreased significantly following an exponential decay curve, with no observed lag phase. Comparison between different treatment conditions implied that the adsorption and biodegradation ability of sediments caused the MCLR removal and that biodegradation was the dominant mechanism. The final part of this research investigated the use of supercritical carbon dioxide in quantifying microcystins in sediment samples. A protocol was developed which included the optimisation of extraction conditions using supercritical carbon dioxide. This protocol was use to quantify microcystin concentrations in natural field samples. The results showed that for sediment samples with added MCLR, the conventional method recovered more spiked MCLR but fewer microcystin variants. In contrast, supercritical carbon dioxide with water as modifier extracted a higher amount of total microcystins. Overall, this research highlights the wide occurrence of microcystins in the sediments of the studied lake, and the biodegradation ability of sediments to remove microcystins quantitatively from the water. This study suggests that researchers and water management authorities should include sediments when assessing the potential hazards and fate of microcystins in aquatic systems.
Author: Kenneth L. Dickson
Publisher: Elsevier
ISBN: 1483148122
Category : Science
Languages : en
Pages : 478
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Book Description
Fate and Effects of Sediment-Bound Chemicals in Aquatic Systems presents the proceedings of the Sixth Pellston Workshop, held in Florissant, Colorado on August 12–17, 1984. This book presents the development of scientific inquiry of hazards to the aquatic environment. Organized into 27 chapters, this compilation of papers begins with an overview of water quality significance of sediment-associated contaminants to aquatic life. This text then addresses the topic of the role of suspended and settled sediments in regulating the effects of chemicals in the aquatic environment. Other chapters consider the nature and extent of partitioning and bioavailability, which are key elements in research efforts toward assessing the effects of sediments on water quality. This book discusses as well the regulatory and management strategies for chemicals entering public water supplies. The final chapter deals with conclusions and recommendations identified during the workshop. This book is a valuable resource for biologists and environmental scientists.
Author: Arthur Zastepa
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Wesley L. Bradford
Publisher:
ISBN:
Category : Geology
Languages : en
Pages : 84
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Book Description
Author: John G. Newton
Publisher:
ISBN:
Category : Geological surveys
Languages : en
Pages : 382
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Book Description
Author: Kenneth L. Dickson
Publisher:
ISBN: 9780317663341
Category :
Languages : en
Pages : 449
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Book Description
Author: Jenna M Rinde
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Cyanobacterial harmful algal blooms (CHAB's) are a global concern that affect humans and wildlife. Microcystis aeruginosa (Microcystis) is a freshwater photosynthetic cyanobacterium that is planktonic during warm months but has an overwintering benthic phase. Microcystis create toxins, including microcystins that can lead to liver damage and cancer in aquatic life, livestock and humans. Microcystins can be stored intracellularly or released into the water column in a dissolved form. Most studies focus on Microcystis in its planktonic state, but not on transport of microcystins. More recently, microcystins have become a threat to coastal systems that are linked to freshwater inputs. The goal of this paper is to determine pathways of transport of Microcystis and microcystins in estuary systems. This paper synthesizes literature on environmental factors that increase Microcystis blooms and how their microcystins accumulate in sediments and bivalves. The interaction between the water column and sediments is an important role for predicting future Microcystis blooms. Bivalves are known to be bioindicators of contaminants, since they are sessile organisms that are filter feeders and deposit feed from sediment bottoms. To current knowledge, there is no mandated CHAB monitoring in California, which is important to predict or mitigate future blooms. The results of this paper indicate remote sensing, water quality monitoring, and sediment monitoring are useful strategies to not only predict but mitigate blooms. Freshwater and marine bivalves should also be monitored since they are bioindicators of potential impacts to ecological health. By incorporating multiple monitoring components, the data can be integrated into models to not only predict future CHAB's but also determine the drivers of blooms.
Author: AW MAKI (Ed)
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Megan A. Mave
Publisher:
ISBN:
Category : Geology
Languages : en
Pages : 62
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Book Description
Author: H. Kenneth Hudnell
Publisher: Springer Science & Business Media
ISBN: 0387758658
Category : Medical
Languages : en
Pages : 955
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Book Description
With the ever-increasing incidence of harmful cyanobacterial algal blooms, this monograph has added urgency and will be essential reading for all sorts of researchers, from neuroscientists to cancer research specialists. The volume contains the proceedings of the 2005 International Symposium on Cyanobacterial Harmful Algal Blooms, and has been edited by H. Kenneth Hudnell, of the US Environmental Protection Agency. It contains much of the most recent research into the subject.
