Metal Metabolism in Aquatic EnvironmentsWilliam J. Langston, Maria J. Bebianno Springer Science & Business Media, 29.06.2013 - 448 Seiten Metal Metabolism in Aquatic Environments is a synthesis of recent developments in the field of metal ecotoxicology and features a number of contemporary issues arising from the interaction of metals and biota, such as pathways of assimilation and food chain transfer, metal accumulation and detoxification in humans and biotransformation of elements such as mercury and arsenic. |
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... METAL METABOLISM 12.11 SUMMARY ACKNOWLEDGEMENTS REFERENCES 13 Metal Accumulation and Detoxification in Humans 13.1 INTRODUCTION 13.2ABSORPTION 13.3BODYDISTRIBUTION 13.4 EXCRETION 13.5TOXICOLOGY 13.6 METABOLISM ANDDETOXIFICATION 13.7 ...
... METAL METABOLISM 12.11 SUMMARY ACKNOWLEDGEMENTS REFERENCES 13 Metal Accumulation and Detoxification in Humans 13.1 INTRODUCTION 13.2ABSORPTION 13.3BODYDISTRIBUTION 13.4 EXCRETION 13.5TOXICOLOGY 13.6 METABOLISM ANDDETOXIFICATION 13.7 ...
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... whereitis more diluted (i.e. inthe'concentrated' solution).In fact, adding salt to asolution hasrelatively little effect on the concentration of waterper se. The osmotic effect has been interpreted, Mechanisms of Metal Uptake INTRODUCTION.
... whereitis more diluted (i.e. inthe'concentrated' solution).In fact, adding salt to asolution hasrelatively little effect on the concentration of waterper se. The osmotic effect has been interpreted, Mechanisms of Metal Uptake INTRODUCTION.
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... metals directly into the cytoplasmic compartment (Davies and Simkiss, 1996). 1.4SYSTEMS. OF. POLLUTANT. METAL. UPTAKE. 1.4.1. HYDROPHOBIC. ROUTES. One of theworst examples of metal toxicity arosein 1953 whenan outbreak ofneurological ...
... metals directly into the cytoplasmic compartment (Davies and Simkiss, 1996). 1.4SYSTEMS. OF. POLLUTANT. METAL. UPTAKE. 1.4.1. HYDROPHOBIC. ROUTES. One of theworst examples of metal toxicity arosein 1953 whenan outbreak ofneurological ...
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... metal uptake through channels.The firstoftheseis metalspeciation, particularly where strong covalent bondsare involved. It isgenerally agreedthat channels arelargely impermeable to metal complexesso that ionic species dominate.
... metal uptake through channels.The firstoftheseis metalspeciation, particularly where strong covalent bondsare involved. It isgenerally agreedthat channels arelargely impermeable to metal complexesso that ionic species dominate.
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... uptake ofa variety of metal ions,either byincreasing the number of free metalions that are available in solutionor by modifying the configuration of channel proteins and thus their ability totransport these ions. 1.4.3. PARTICULATE. Metals ...
... uptake ofa variety of metal ions,either byincreasing the number of free metalions that are available in solutionor by modifying the configuration of channel proteins and thus their ability totransport these ions. 1.4.3. PARTICULATE. Metals ...
Inhalt
Theinteractions between living organisms and metalsin intertidal and subtidal sediments | |
BIOTURBATION 2 5 CONCLUSIONS | |
Andere Ausgaben - Alle anzeigen
Metal Metabolism in Aquatic Environments William J. Langston,Maria J. Bebianno Eingeschränkte Leseprobe - 1998 |
Metal Metabolism in Aquatic Environments William J. Langston,Maria J. Bebianno Keine Leseprobe verfügbar - 2014 |
Metal Metabolism in Aquatic Environments William J. Langston,Maria J. Bebianno Keine Leseprobe verfügbar - 2010 |
Häufige Begriffe und Wortgruppen
acid Air Soil Polin algae amphipods andthe animals arsenic arsenobetaine bacteria barnacle binding bioaccumulation bioavailability biochemical biological bivalves cadmium Can.J.Fish.Aquat cells CH 3 Hg CH3Hg+ chemical complexes compounds contamination copper crustaceans decapod demethylation detoxification digestive gland dissolved distribution Ecology ecosystems effects elements Environmental estuary etal excretion exposure factors fish food chain Francesconi freshwater gastropods gills granules heavy metals hepatopancreas Hogstrand humic increase inorganic Hg inorganic Hg(II interactions inthe intracellular invertebrates ions Jackson kidney lakes Langston levels ligands lipophilic lysosomes maenas Marine Biology mechanisms membrane mercury metabolism metal accumulation metal concentrations metalbinding metallothionein metalsin methylation methylmercury microbial microorganisms minerals molluscs mussels Nott ofHg ofmetal ofthe onthe organic oxidation oysters particles pathways physiological phytoplankton Pollution production proteins rainbow trout reduced Roesijadi seawater sediments soluble sorption speciation species studies suchas sulphide surface tissues tobe tothe toxicity Toxicology trace metals transport uptake zinc