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Bioremediation : challenges and advancements

Contributor(s): Material type: TextTextPublication details: Singapore : Bentham Science Publishers, (c)2022.Description: 1 online resource (278 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9815036033
  • 9789815036039
Subject(s): Genre/Form: LOC classification:
  • TD192 .B567 2022
Online resources: Available additional physical forms:
Contents:
Title -- Copyright -- End User License Agreement -- Contents -- Foreword -- Preface -- List of Contributors -- Bioremediation of Hydrocarbons and Xenobiotic Compound -- Suman Singh1, Sucheta Singh2 and Ramesh Kumar Kushwaha3,* -- 1. INTRODUCTION -- 2. TYPES OF BIOREMEDIATION -- 3. TYPES OF HYDROCARBONS (ALIPHATIC AND AROMATIC), INCLUDING XENOBIOTIC COMPOUNDS -- 4. STATUS AND TOXICITY OF HYDROCARBONS AND XENOBIOTIC COMPOUNDS -- 5. SOURCES OF CONTAMINATIONS -- 6. STRATEGIES FOR ERADICATION/DEGRADATION OF XENOBIOTIC COMPOUNDS -- 6.1. Phyto-remediation -- 6.2. Phyto-degradation
6.4. Phyto-extraction -- 6.5. Phytostabilization -- 6.6. Rhizoremediation -- 6.7. Rhizofilteration or Phytofilteration -- 6.8. Hydraulic Control -- 6.9. Plant Species Used for Phytoremediation -- 6.10. Microbe Assisted Phytoremediation of Pollutants -- 7. MICROBIAL REMEDIATION OF POLLUTANTS -- 7.1. Microbial Degradation of Hydrocarbons in Aerobic Condition -- 7.1.1. Aerobic Degradation of Aliphatic Hydrocarbons -- 7.1.2. Aerobic Degradation of Aromatic Hydrocarbons -- 7.2. Microbial Degradation of Hydrocarbons in Anaerobic Condition
7.2.2. Anaerobic Degradation of Aromatic Hydrocarbons -- 8. CHALLENGES AND RECENT APPROACHES FOR THE MANAGEMENT OF BIOREMEDIATION -- 8.1. Challenges In Bioremediation -- 8.1.1. Nature of Chemical Compound -- 8.1.2. Selection of Microbial Strain -- 8.1.3. Environmental Conditions -- 8.2. Recent Approaches For Bioremediation -- 8.2.1. Application of Enzyme-Based Methods for Bioremediation -- 8.2.2. Application of Genetically Modified Microorganisms -- 8.2.3. Application of Surfactant -- 8.2.4. Microbial Electrochemical System
CONCLUSION AND FUTURE PERSPECTIVE -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Bioremediation of Heavy Metal Contaminated Sites -- Rohit Jamwal1, Himani Khurana1 and Rahul Jamwal1,* -- 1. INTRODUCTION -- 2. SOURCES OF HEAVY METALS -- 3. HEAVY METAL TOXICITY -- 4. MECHANISMS OF HEAVY METAL BIOREMEDIATION BY MICROORGANISMS -- 4.1. Bioremediation via Biosorption -- 4.2. Precipitation -- 4.3. Adsorption -- 4.4. Bioaccumulation -- 4.5. Biostimulation -- 4.6. Bioaugmentation -- 4.7. Biosurfactants
4.9. Metallothioneins (MTs) -- 4.10. Factors Affecting Biosorption -- 5. PHYTOREMEDIATION -- 5.1. Phytovolatilization -- 5.2. Phytostabilization -- 5.3. Phytoextraction -- 5.4. Plant Mechanisms For Metal Detoxification -- 5.4.1. Phytochelatins (PC) -- 5.4.2. Plant Metallothioneins (MTs) -- 5.4.3. Arbuscular Mycorrhizae -- 5.5. Microbial Assisted Phytoremediation -- 5.5.1. Siderophores Production -- 5.5.2. Phosphate Solubilisation -- 5.5.3. Aminoacyclopropane-1-Carboxylate Deaminase (ACC) And Indole-3-Acetic Acid (IAA) Production
Subject: Waste management is one of the major challenges for environmental and public health organizations for maintaining safety standards in any area. Population growth and urbanization increase the difficulty in maintaining a sustainable waste management system. Bioremediation refers to the use of living organisms in processes designed to remove toxic chemicals present in waste material. Bioremediation represents a sustainable way to remove a range of environmental pollutants. Bioremediation: Challenges and Advancements covers the subject of bioremediation in eight chapters that focus on a broad ran.
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Item type Current library Collection Call number URL Status Date due Barcode
Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) G. Allen Fleece Library ONLINE Non-fiction TD192.5 (Browse shelf(Opens below)) Link to resource Available on1314624708

Includes bibliographies and index.

Cover -- Title -- Copyright -- End User License Agreement -- Contents -- Foreword -- Preface -- List of Contributors -- Bioremediation of Hydrocarbons and Xenobiotic Compound -- Suman Singh1, Sucheta Singh2 and Ramesh Kumar Kushwaha3,* -- 1. INTRODUCTION -- 2. TYPES OF BIOREMEDIATION -- 3. TYPES OF HYDROCARBONS (ALIPHATIC AND AROMATIC), INCLUDING XENOBIOTIC COMPOUNDS -- 4. STATUS AND TOXICITY OF HYDROCARBONS AND XENOBIOTIC COMPOUNDS -- 5. SOURCES OF CONTAMINATIONS -- 6. STRATEGIES FOR ERADICATION/DEGRADATION OF XENOBIOTIC COMPOUNDS -- 6.1. Phyto-remediation -- 6.2. Phyto-degradation

6.3. Phyto-volatilization -- 6.4. Phyto-extraction -- 6.5. Phytostabilization -- 6.6. Rhizoremediation -- 6.7. Rhizofilteration or Phytofilteration -- 6.8. Hydraulic Control -- 6.9. Plant Species Used for Phytoremediation -- 6.10. Microbe Assisted Phytoremediation of Pollutants -- 7. MICROBIAL REMEDIATION OF POLLUTANTS -- 7.1. Microbial Degradation of Hydrocarbons in Aerobic Condition -- 7.1.1. Aerobic Degradation of Aliphatic Hydrocarbons -- 7.1.2. Aerobic Degradation of Aromatic Hydrocarbons -- 7.2. Microbial Degradation of Hydrocarbons in Anaerobic Condition

7.2.1. Anaerobic Degradation of Aliphatic Hydrocarbons -- 7.2.2. Anaerobic Degradation of Aromatic Hydrocarbons -- 8. CHALLENGES AND RECENT APPROACHES FOR THE MANAGEMENT OF BIOREMEDIATION -- 8.1. Challenges In Bioremediation -- 8.1.1. Nature of Chemical Compound -- 8.1.2. Selection of Microbial Strain -- 8.1.3. Environmental Conditions -- 8.2. Recent Approaches For Bioremediation -- 8.2.1. Application of Enzyme-Based Methods for Bioremediation -- 8.2.2. Application of Genetically Modified Microorganisms -- 8.2.3. Application of Surfactant -- 8.2.4. Microbial Electrochemical System

9. PROS AND CONS OF BIOREMEDIATION -- CONCLUSION AND FUTURE PERSPECTIVE -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENTS -- REFERENCES -- Bioremediation of Heavy Metal Contaminated Sites -- Rohit Jamwal1, Himani Khurana1 and Rahul Jamwal1,* -- 1. INTRODUCTION -- 2. SOURCES OF HEAVY METALS -- 3. HEAVY METAL TOXICITY -- 4. MECHANISMS OF HEAVY METAL BIOREMEDIATION BY MICROORGANISMS -- 4.1. Bioremediation via Biosorption -- 4.2. Precipitation -- 4.3. Adsorption -- 4.4. Bioaccumulation -- 4.5. Biostimulation -- 4.6. Bioaugmentation -- 4.7. Biosurfactants

4.8. Oxidation-Reduction Reactions -- 4.9. Metallothioneins (MTs) -- 4.10. Factors Affecting Biosorption -- 5. PHYTOREMEDIATION -- 5.1. Phytovolatilization -- 5.2. Phytostabilization -- 5.3. Phytoextraction -- 5.4. Plant Mechanisms For Metal Detoxification -- 5.4.1. Phytochelatins (PC) -- 5.4.2. Plant Metallothioneins (MTs) -- 5.4.3. Arbuscular Mycorrhizae -- 5.5. Microbial Assisted Phytoremediation -- 5.5.1. Siderophores Production -- 5.5.2. Phosphate Solubilisation -- 5.5.3. Aminoacyclopropane-1-Carboxylate Deaminase (ACC) And Indole-3-Acetic Acid (IAA) Production

6. EMERGING APPROACHES FOR MICROBIAL AND ENZYMATIC BIOREMEDIATION.

Waste management is one of the major challenges for environmental and public health organizations for maintaining safety standards in any area. Population growth and urbanization increase the difficulty in maintaining a sustainable waste management system. Bioremediation refers to the use of living organisms in processes designed to remove toxic chemicals present in waste material. Bioremediation represents a sustainable way to remove a range of environmental pollutants. Bioremediation: Challenges and Advancements covers the subject of bioremediation in eight chapters that focus on a broad ran.

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