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Informationen zum Autor Dr. Hader was the Director of the Botanical Institute, held the chair of Ecophysiology of Plants at the Friedrich-Alexander University, Erlangen-Nürnberg, Germany and was the director of the Botanical Garden. He is author of over 670 scientific publications, produced 27 books and holds seven national and international patents. He is or has been associate editor and reviewer for numerous international journals and is currently Section Editor of Environmental Toxicology in Frontiers in Environmental Sciences. His research interests are ecophysiology and ecotoxicology of aquatic ecosystems and he is an appointed member of the Environmental Effects Panel of the United Nations on the Effects of ozone depletion and climate change. In addition, he works on space biology and orientation of microorganisms with respect to light and gravity. Prof. Gilmar S. Erzinger has a Ph.D. in Biochemical Pharmaceutical Technology (2000) from the University of Sao Paulo and made a Post Doctorate in Photobiology at Friedrich Alexander Univesitat Erlangen-Nuremberg, Germany (2009). He gives courses in Medicine and Pharmacy, on the Health and Environment Programme at the University of Joinville Region and Program in Biotechnology and Biosciences, UFSC, Brazil. He is working on productivity in Technological Development and Innovative Extension by CNPq, Brazil. He is author of over 35 scientific publications, produced two books and holds seven national and international patents. His research interests are ecotoxicology of aquatic ecosystems and biotechnology processes and is a researcher at the Foundation for Research and Innovation of the State of Santa Catarina, Brasil. Klappentext "This volume describes the principles and functioning of many bioassays for water, sediment, air, and soil"--Preface. Zusammenfassung "This volume describes the principles and functioning of many bioassays for water, sediment, air, and soil"--Preface. Inhaltsverzeichnis 1. Introduction 2. Chemical analysis 3. Short view on the historical development 4. Regulations, political and societal aspects, toxicity limits 5. Technology of image analysis for bioassays 6. Algae 7. Other commercially available bioassays 8. Plant Pigments 9. PAM fluorescence 10. Ecotox 11. Daphniatox 12. Imaging based bioassays (Lemnatox) 13. Fish 14. Mammals 15. Insects worms etc. 16. Plant and animal cells 17. Environmental Monitoring 18. Use of bioassays to monitor toxicity and pollution in drinking water 19. Application of bioassays for polluted freshwater ecosystems 20. Bioassays to determine solar UV radiation 21. Terrestrial 22. Marine toxicology: assays and perspectives for developing countries 23. Conclusion ...
List of contents
1. Introduction
2. Chemical analysis
3. Short view on the historical development
4. Regulations, political and societal aspects, toxicity limits
5. Technology of image analysis for bioassays
6. Algae
7. Other commercially available bioassays
8. Plant Pigments
9. PAM fluorescence
10. Ecotox
11. Daphniatox
12. Imaging based bioassays (Lemnatox)
13. Fish
14. Mammals
15. Insects worms etc.
16. Plant and animal cells
17. Environmental Monitoring
18. Use of bioassays to monitor toxicity and pollution in drinking water
19. Application of bioassays for polluted freshwater ecosystems
20. Bioassays to determine solar UV radiation
21. Terrestrial
22. Marine toxicology: assays and perspectives for developing countries
23. Conclusion
