The first part of Volume 9 will supply the readers with up-to-date information concerning the necessary theoretical background, both concerning removal of heavy metals from the contaminated environment, and removal, detoxication and even degradation of toxic organic contaminants. Until recently phytoremediation has been discussed mostly in monographs dealing with microbiological remediation methods as a separate chapter, just to illustrate an additional possibility of use of biological systems. This book intends to show especially the importance of cooperation between plant and microorganisms,…mehr
The first part of Volume 9 will supply the readers with up-to-date information concerning the necessary theoretical background, both concerning removal of heavy metals from the contaminated environment, and removal, detoxication and even degradation of toxic organic contaminants. Until recently phytoremediation has been discussed mostly in monographs dealing with microbiological remediation methods as a separate chapter, just to illustrate an additional possibility of use of biological systems. This book intends to show especially the importance of cooperation between plant and microorganisms, there is practically no phytoremediation without rhizoremediation. Newest approaches based on methods of molecular biology and genetic engineering are described, as well as plant science achievements. The great advantage of this volume is that the reader will find here in addition to a survey of published data also a lot of original findings, thus supplying an up-to-date review of this quickly developing field of science.
Volume A: 1. Introduction. 2. The chemical ecology of pollutant biodegradation: Bioremediation and phytoremediation from mechanistic and ecological perspectives. 3. Dendroremediation: The use of trees in cleaning up polluted soils. 4. Methods for rhizoremediation research: Approaches to experimental design and microbial analysis. 5. Constructed wetlands for phytoremediation: Rhizofiltration, phytostabilisation and phytoextraction. 6. Influence of helophytes on redox reactions in their rhizosphere. 7. Exploitation of fast growing trees in metal remediation. 8. Using hyperaccumulator plants to phytoextract soil Cd. 9. Enhanced heavy metal phytoextraction. 10. Enzymes transferring biomolecules to organic foreign compounds: a role for glucosyltransferase and glutathione S-transferase in phytoremediation. 11. Phytoremediation of polychlorinated biphenyls. 12. Metabolism and genetic engineering studies for herbicide phytoremediation. 13. Pesticides removal using plants: phytodegradation versus phytostimulation. 14. Phytoremediation of volatile organic compounds. 15. In vitro propagation of wetland monocots for phytoremediation. 16. Modifying a plant s response to stress by decreasing ethylene production. 17. Mycorrhizal fungi as helping agents in phytoremediation of degraded and contaminated soils. 18. Assessing risks and containing or mitigating gene flow of transgenic and non-transgenic phytoremediating plants. 19. Human exposure assessment for food one equation for all crops is not enough.
Volume A: 1. Introduction. 2. The chemical ecology of pollutant biodegradation: Bioremediation and phytoremediation from mechanistic and ecological perspectives. 3. Dendroremediation: The use of trees in cleaning up polluted soils. 4. Methods for rhizoremediation research: Approaches to experimental design and microbial analysis. 5. Constructed wetlands for phytoremediation: Rhizofiltration, phytostabilisation and phytoextraction. 6. Influence of helophytes on redox reactions in their rhizosphere. 7. Exploitation of fast growing trees in metal remediation. 8. Using hyperaccumulator plants to phytoextract soil Cd. 9. Enhanced heavy metal phytoextraction. 10. Enzymes transferring biomolecules to organic foreign compounds: a role for glucosyltransferase and glutathione S-transferase in phytoremediation. 11. Phytoremediation of polychlorinated biphenyls. 12. Metabolism and genetic engineering studies for herbicide phytoremediation. 13. Pesticides removal using plants: phytodegradation versus phytostimulation. 14. Phytoremediation of volatile organic compounds. 15. In vitro propagation of wetland monocots for phytoremediation. 16. Modifying a plant’s response to stress by decreasing ethylene production. 17. Mycorrhizal fungi as helping agents in phytoremediation of degraded and contaminated soils. 18. Assessing risks and containing or mitigating gene flow of transgenic and non-transgenic phytoremediating plants. 19. Human exposure assessment for food – one equation for all crops is not enough.
Volume A: 1. Introduction. 2. The chemical ecology of pollutant biodegradation: Bioremediation and phytoremediation from mechanistic and ecological perspectives. 3. Dendroremediation: The use of trees in cleaning up polluted soils. 4. Methods for rhizoremediation research: Approaches to experimental design and microbial analysis. 5. Constructed wetlands for phytoremediation: Rhizofiltration, phytostabilisation and phytoextraction. 6. Influence of helophytes on redox reactions in their rhizosphere. 7. Exploitation of fast growing trees in metal remediation. 8. Using hyperaccumulator plants to phytoextract soil Cd. 9. Enhanced heavy metal phytoextraction. 10. Enzymes transferring biomolecules to organic foreign compounds: a role for glucosyltransferase and glutathione S-transferase in phytoremediation. 11. Phytoremediation of polychlorinated biphenyls. 12. Metabolism and genetic engineering studies for herbicide phytoremediation. 13. Pesticides removal using plants: phytodegradation versus phytostimulation. 14. Phytoremediation of volatile organic compounds. 15. In vitro propagation of wetland monocots for phytoremediation. 16. Modifying a plant s response to stress by decreasing ethylene production. 17. Mycorrhizal fungi as helping agents in phytoremediation of degraded and contaminated soils. 18. Assessing risks and containing or mitigating gene flow of transgenic and non-transgenic phytoremediating plants. 19. Human exposure assessment for food one equation for all crops is not enough.
Volume A: 1. Introduction. 2. The chemical ecology of pollutant biodegradation: Bioremediation and phytoremediation from mechanistic and ecological perspectives. 3. Dendroremediation: The use of trees in cleaning up polluted soils. 4. Methods for rhizoremediation research: Approaches to experimental design and microbial analysis. 5. Constructed wetlands for phytoremediation: Rhizofiltration, phytostabilisation and phytoextraction. 6. Influence of helophytes on redox reactions in their rhizosphere. 7. Exploitation of fast growing trees in metal remediation. 8. Using hyperaccumulator plants to phytoextract soil Cd. 9. Enhanced heavy metal phytoextraction. 10. Enzymes transferring biomolecules to organic foreign compounds: a role for glucosyltransferase and glutathione S-transferase in phytoremediation. 11. Phytoremediation of polychlorinated biphenyls. 12. Metabolism and genetic engineering studies for herbicide phytoremediation. 13. Pesticides removal using plants: phytodegradation versus phytostimulation. 14. Phytoremediation of volatile organic compounds. 15. In vitro propagation of wetland monocots for phytoremediation. 16. Modifying a plant’s response to stress by decreasing ethylene production. 17. Mycorrhizal fungi as helping agents in phytoremediation of degraded and contaminated soils. 18. Assessing risks and containing or mitigating gene flow of transgenic and non-transgenic phytoremediating plants. 19. Human exposure assessment for food – one equation for all crops is not enough.
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