Heavy metals in the environment : microorganisms and bioremediation
Author(s)
Bibliographic Information
Heavy metals in the environment : microorganisms and bioremediation
(A Science Publishers book)
CRC Press, c2018
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
This book serves as a knowledge bank for researchers and graduate students in microbiology, chemistry, and environmental sciences, among others. It focuses on heavy metal in the environment and describes methodologies to immobilize and mobilize heavy metals. It also provides case studies which may be of particular interest to persons in industry.
Table of Contents
- Interaction metal(oid)s-microorganisms. Microbial Communities and the Interaction with Heavy Metals and Metalloids
- Impact and Adaptation. Mechanisms of Bacterial Heavy Metal Resistance and Homeostasis: An Overview. Microbial Metalloproteins-Based Responses in the Development of Biosensors for the Monitoring of Metal Pollutants in the Environment. Exploration and Intervention of Geologically Ancient Microbial Adaptation in the Contemporary Environmental Arsenic Bioremediation. Strategies of Bioremediation. Bioaccumulation and Biosorption of Heavy Metals. Heavy Metal Bioprecipitation. Use of Sulfate-Reducing Microorganisms. Bioleaching Strategies Applied to Sediments Contaminated with Metals: Current Knowledge and Biotechnological Potential for Remediation of Dredged Materials. Innovative Biomining: Metal Recovery from Valuable Residues. The Challenges of Remediating Metals Using Phytotechnologies. Bioremediation of Relevant Metal(loid)s. Bioremediation of Arsenic using Bioflocculants and Microorganisms. Bioremediation: A Powerful Technique for Cadmium Removal from the Environment. Process Oriented Characterization in Bioleaching Co-Cu Minerals. Lead Resistant Mechanisms in Bacteria and Co-Selection to other Metals and Antiobiotics: A Review. Mercury Toxicity: The Importance of Microbial Diversity for Improved Environmental Remediation. Field Applications. Potential Application of an Indigenous Actinobacterium to Remove Heavy Metal from Sugarcane Vinasse. Bioremediation of Polluted Soils in Uranium Deposits. Macrophyte Role and Metal Removal in Constructed Wetlands for the Treatment of Effluents from Metallurgical Industries.
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