Herbert E. Allen
Metal Contaminated Aquatic Sediments
Herbert E. Allen
Metal Contaminated Aquatic Sediments
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Over the past decade the sediments of many rivers, lakes, and estuaries have been contaminated by inorganic and organic materials
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Over the past decade the sediments of many rivers, lakes, and estuaries have been contaminated by inorganic and organic materials
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 310
- Erscheinungstermin: 1. Januar 1996
- Englisch
- Abmessung: 240mm x 161mm x 21mm
- Gewicht: 631g
- ISBN-13: 9781575040103
- ISBN-10: 1575040107
- Artikelnr.: 21523080
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Verlag: CRC Press
- Seitenzahl: 310
- Erscheinungstermin: 1. Januar 1996
- Englisch
- Abmessung: 240mm x 161mm x 21mm
- Gewicht: 631g
- ISBN-13: 9781575040103
- ISBN-10: 1575040107
- Artikelnr.: 21523080
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
Allen, HerbertE.
Metals and Sediments: A Global Perspective, A. J. de
GrootIntroductionDevelopment of Metal Research with Respect to PollutionThe
History of Metal PollutionNormalization of Measurement ResultsMobilization
of MetalsCivil Engineering and Metal ProblemsTerrestrial Consequences of
Metal PollutionSpeciation and Quality CriteriaManagement of Dredged
MaterialsReferencesMetal Cycling in Surface Sediments: Modeling the
Interplay of Transport and Reaction, P. Van Cappellan and Y.
WangIntroductionSurface SedimentsMathematical and Numerical TheoryA Model
for Iron and Manganese in SedimentsSimulationsConclusionsReferencesTrace
Metal Chemistry in Porewaters, G.W. Luther,
IIIIntroductionExperimentalMineral Formation and Dissolution ProcessFactors
Governing Metal Speciation in PorewatersConclusionReferencesMetal
Adsorption onto and Desorption From Sediments, I. RatesIntroductionMultiple
ReactionsData Calculation and PlottingResultsTheses Concerning Cationic
Metal Adsorption and DesorptionSummaryReferencesMetal and Silicate Sorption
and Subsequent Mineral Formation on Bacterial Surfaces: Subsurface
Implications, S. Schultze-Lam, M. Urrutia-Mera, and T.
BeveridgeIntroductionBacterial Structure and Cell Surface
ChemistryBiofilmsMetal Ion Binding by Bacterial CellsMineral Formation on
Bacterial CellsMetal Ion Transport and the Immobilization of Toxic Heavy
MetalsReferencesDetermination of Redox Status in Sediments, T. Grundl
IntroductionRedox Intensity in Ideal SystemsRedox Intensity in
Disequilibrium SystemsRedox Intensity in Natural SystemsAlternate
Techniques to Measure Redox IntensityRedox Capacity in Ideal SystemsRedox
Capacity in Disequilibrium SystemsAlternate Methods of Describing Redox
StatusSummaryReferencesChanges in Metal Speciation Following Alteration of
Sediment
GrootIntroductionDevelopment of Metal Research with Respect to PollutionThe
History of Metal PollutionNormalization of Measurement ResultsMobilization
of MetalsCivil Engineering and Metal ProblemsTerrestrial Consequences of
Metal PollutionSpeciation and Quality CriteriaManagement of Dredged
MaterialsReferencesMetal Cycling in Surface Sediments: Modeling the
Interplay of Transport and Reaction, P. Van Cappellan and Y.
WangIntroductionSurface SedimentsMathematical and Numerical TheoryA Model
for Iron and Manganese in SedimentsSimulationsConclusionsReferencesTrace
Metal Chemistry in Porewaters, G.W. Luther,
IIIIntroductionExperimentalMineral Formation and Dissolution ProcessFactors
Governing Metal Speciation in PorewatersConclusionReferencesMetal
Adsorption onto and Desorption From Sediments, I. RatesIntroductionMultiple
ReactionsData Calculation and PlottingResultsTheses Concerning Cationic
Metal Adsorption and DesorptionSummaryReferencesMetal and Silicate Sorption
and Subsequent Mineral Formation on Bacterial Surfaces: Subsurface
Implications, S. Schultze-Lam, M. Urrutia-Mera, and T.
BeveridgeIntroductionBacterial Structure and Cell Surface
ChemistryBiofilmsMetal Ion Binding by Bacterial CellsMineral Formation on
Bacterial CellsMetal Ion Transport and the Immobilization of Toxic Heavy
MetalsReferencesDetermination of Redox Status in Sediments, T. Grundl
IntroductionRedox Intensity in Ideal SystemsRedox Intensity in
Disequilibrium SystemsRedox Intensity in Natural SystemsAlternate
Techniques to Measure Redox IntensityRedox Capacity in Ideal SystemsRedox
Capacity in Disequilibrium SystemsAlternate Methods of Describing Redox
StatusSummaryReferencesChanges in Metal Speciation Following Alteration of
Sediment
Metals and Sediments: A Global Perspective, A. J. de
GrootIntroductionDevelopment of Metal Research with Respect to PollutionThe
History of Metal PollutionNormalization of Measurement ResultsMobilization
of MetalsCivil Engineering and Metal ProblemsTerrestrial Consequences of
Metal PollutionSpeciation and Quality CriteriaManagement of Dredged
MaterialsReferencesMetal Cycling in Surface Sediments: Modeling the
Interplay of Transport and Reaction, P. Van Cappellan and Y.
WangIntroductionSurface SedimentsMathematical and Numerical TheoryA Model
for Iron and Manganese in SedimentsSimulationsConclusionsReferencesTrace
Metal Chemistry in Porewaters, G.W. Luther,
IIIIntroductionExperimentalMineral Formation and Dissolution ProcessFactors
Governing Metal Speciation in PorewatersConclusionReferencesMetal
Adsorption onto and Desorption From Sediments, I. RatesIntroductionMultiple
ReactionsData Calculation and PlottingResultsTheses Concerning Cationic
Metal Adsorption and DesorptionSummaryReferencesMetal and Silicate Sorption
and Subsequent Mineral Formation on Bacterial Surfaces: Subsurface
Implications, S. Schultze-Lam, M. Urrutia-Mera, and T.
BeveridgeIntroductionBacterial Structure and Cell Surface
ChemistryBiofilmsMetal Ion Binding by Bacterial CellsMineral Formation on
Bacterial CellsMetal Ion Transport and the Immobilization of Toxic Heavy
MetalsReferencesDetermination of Redox Status in Sediments, T. Grundl
IntroductionRedox Intensity in Ideal SystemsRedox Intensity in
Disequilibrium SystemsRedox Intensity in Natural SystemsAlternate
Techniques to Measure Redox IntensityRedox Capacity in Ideal SystemsRedox
Capacity in Disequilibrium SystemsAlternate Methods of Describing Redox
StatusSummaryReferencesChanges in Metal Speciation Following Alteration of
Sediment
GrootIntroductionDevelopment of Metal Research with Respect to PollutionThe
History of Metal PollutionNormalization of Measurement ResultsMobilization
of MetalsCivil Engineering and Metal ProblemsTerrestrial Consequences of
Metal PollutionSpeciation and Quality CriteriaManagement of Dredged
MaterialsReferencesMetal Cycling in Surface Sediments: Modeling the
Interplay of Transport and Reaction, P. Van Cappellan and Y.
WangIntroductionSurface SedimentsMathematical and Numerical TheoryA Model
for Iron and Manganese in SedimentsSimulationsConclusionsReferencesTrace
Metal Chemistry in Porewaters, G.W. Luther,
IIIIntroductionExperimentalMineral Formation and Dissolution ProcessFactors
Governing Metal Speciation in PorewatersConclusionReferencesMetal
Adsorption onto and Desorption From Sediments, I. RatesIntroductionMultiple
ReactionsData Calculation and PlottingResultsTheses Concerning Cationic
Metal Adsorption and DesorptionSummaryReferencesMetal and Silicate Sorption
and Subsequent Mineral Formation on Bacterial Surfaces: Subsurface
Implications, S. Schultze-Lam, M. Urrutia-Mera, and T.
BeveridgeIntroductionBacterial Structure and Cell Surface
ChemistryBiofilmsMetal Ion Binding by Bacterial CellsMineral Formation on
Bacterial CellsMetal Ion Transport and the Immobilization of Toxic Heavy
MetalsReferencesDetermination of Redox Status in Sediments, T. Grundl
IntroductionRedox Intensity in Ideal SystemsRedox Intensity in
Disequilibrium SystemsRedox Intensity in Natural SystemsAlternate
Techniques to Measure Redox IntensityRedox Capacity in Ideal SystemsRedox
Capacity in Disequilibrium SystemsAlternate Methods of Describing Redox
StatusSummaryReferencesChanges in Metal Speciation Following Alteration of
Sediment