Phytoremediation of emerging contaminants in wetlands /
General Material Designation
[Book]
First Statement of Responsibility
Prabhat Kumar Rai.
EDITION STATEMENT
Edition Statement
First edition.
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
Boca Raton, FL :
Name of Publisher, Distributor, etc.
CRC Press,
Date of Publication, Distribution, etc.
2018.
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
1 online resource :
Other Physical Details
text file, PDF
INTERNAL BIBLIOGRAPHIES/INDEXES NOTE
Text of Note
Includes bibliographical references and index.
CONTENTS NOTE
Text of Note
Cover; Half Title; Title Page; Copyright Page; Table of Contents; Reference; Reference; Author; Acknowledgments; Chapter 1: Water, Wetlands, and Phytoremediation of Emerging Environmental Contaminants; Water: Global Distribution and Water Quality (Physicochemical) Attributes; Water Pollution: Global Sources; Sources of Global Water Pollution; Sewage and Domestic Wastes; Industrial Effluents; Agricultural Discharge; Soap and Detergents; Thermal Pollution; Importance of Global Wetland Plants; Wetlands, Plants, and Phytoremediation of Emerging Contaminants.
Text of Note
Importance of Wetlands in the Current AnthropoceneHeavy Metals: An Emerging Contaminant of Global Concern; Global Sources of Heavy Metals and Other Emerging Contaminants; Anthropogenic Sources of Heavy Metals and Emerging Contaminants; Emerging Contaminants and Heavy Metals as Pollutants to Wetlands and Their Environment; Health Impact of Emerging Contaminants and Heavy Metal Pollution; Heavy Metals and Source Management; Advantages and Disadvantages or Limitations of Phytoremediation; Swot Analysis for Phytotechnologies and Phytoremediation.
Text of Note
Microbial Association and Phytoremediation of Emerging ContaminantsPhytoremediation Mechanisms In Wetland Plants For Diverse Emerging Contaminants; Role of Enzymes in Phytoremediation of Emerging Contaminants; Utility of Wetland Plants in Phytoremediation of Emerging Contaminants; Rhizofiltration Process Involved in Accumulation through Wetland Plants; Phytoremediation of Emerging Contaminants with Wetland Plants and Macrophytes: Examples; References; Chapter 3: Progress, Prospects, and Challenges of Phytoremediation with Wetland Plants; Introduction.
Text of Note
Phytoremediation of Emerging Contaminants (Organics, PAHs, and Heavy Metals)Phytoremediation of PPCPs (Emerging Contaminants of Concern) with Wetland Plants; Role of Constructed Wetlands in the Phytoremediation of PPCPs as Emerging Contaminants of Concern; Phytoremediation of Pathogenic Microbes and Its Mechanism in Constructed Wetlands; Phytoremediation of Pharmaceutical Products or Antibiotics with Wetland Plants; References; Chapter 2: Phytoremediation: Concept, Principles, Mechanisms, and Applications; Introduction; Green Sustainable Technologyâ#x80;#x94;Phytoremediation: Concept and Principles.
Text of Note
What Happens with Emerging Contaminantâ#x80;#x93;Loaded and Metal-Saturated Wetland Plant Biomass?Future Prospects of Phytoremediation: Genetic Engineering and Molecular Biology; References; Chapter 4: Natural and Constructed Wetlands in Phytoremediation: A Global Perspective with Case Studies of Tropical and Temperate Countries; Introduction; Difference Between Terrestrial and Wetland Phytoremediation; Constructed Wetlands and Use of Phytoremediation; Why Replace Natural Wetlands with Constructed Wetlands?; Types of Constructed Wetlands; Role of Plants In Constructed Wetlands.
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SUMMARY OR ABSTRACT
Text of Note
"Phytoremediation with wetland plants is an eco-friendly, aesthetically pleasing, cost-effective, solar-driven, passive technique that is useful for cleaning up environmental pollutants with low to moderate levels of contamination."--Provided by publisher.