Trace Element Speciation in Surface Waters and Its Ecological Implications
| Other Authors: | |
|---|---|
| Format: | eBook |
| Language: | English |
| Published: |
New York, NY
Springer US
1983, 1983
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| Edition: | 1st ed. 1983 |
| Series: | I Ecology
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| Subjects: | |
| Online Access: | |
| Collection: | Springer Book Archives -2004 - Collection details see MPG.ReNa |
Table of Contents:
- 1. Trace Element Speciation and the Quality of Surface Waters: An Introduction to the Scope for Research
- Analytical Approaches to the Problem of Trace Element Speciation
- 2. The Current Status of Trace Element Speciation Studies in Natural Waters
- 3. Physical Separation Techniques in Trace Element Speciation Studies
- 4. Voltammetric Studies on Trace Metal Speciation in Natural Waters. Part I: Methods
- 5. Complex Formation in Solution and in Heterogeneous Systems
- 6. Direct Speciation Analysis of Molecular and Ionic Organometals
- Trace Element Species and General Aspects of Their Interactions with Aquatic Life
- 7. Bioavailability, Trace Element Associations With Colloids and an Emerging Interest in Colloidal Organic Fibrils
- 8. Biological Effects Under Laboratory Conditions
- 9. Feasibilities and Limits of Field Experiments to Study Ecological Implications of Heavy Metal Pollution
- 10. Biological Response to Trace Metals and Their Biochemical Effects
- 11. Biological Aspects of Trace Element Speciation in the Aquatic Environment
- 12. Biological Control of Trace Metal Equilibria in Surface Waters
- New Perspectives and Future Actions
- 13. Voltammetric Studies on Trace Metal Speciation in Natural Waters Part II: Application and Conclusions for Chemical Oceanography and Chemical Limnology
- 14. Neutron Activation Analysis Applied to Speciate Trace Elements in Freshwater
- 15. Trace Element Speciation in Surface Waters: Interactions with Particulate Matter
- 16. Is Analytically-Defined Chemical Speciation the Answer We Need to Understand Trace Element Transfer Along A Trophic Chain?
- 17. Laboratory and Field Approaches to Environmental Effects Monitoring with Emphasis on Some Microbial-Heavy Metal Relations