Bioremediation of Toxic Metal(loid)s

Bioremediation of Toxic Metal(loid)s

Garg, Vinod Kumar; Malik, Anju; Kidwai, Mohd. Kashif

Taylor & Francis Ltd

11/2022

418

Dura

Inglês

9781032135779

15 a 20 dias

Descrição não disponível.
Section 1: Fundamentals of Bioremediation of Toxic Metal(loid)s 1. Metal(loid)s: Sources, Toxicity and Bioremediation 2. Bioprecipitation as a Remediation Technique for Metal(loid)s Contamination from Mining Activities 3. Bioaccumulation of Metals in Lichens and Mosses: Understanding Atmospheric Deposition, Metal-induced Modifications and their Suitability as Biomonitors and Bioremediators 4. Phytoremediation: A Green Technology for Treating Heavy Metal Contaminated Soil 5. Water Hyacinth (Eichhornia crassipes): A Sustainable Strategy for Heavy Metals Removal from Contaminated Waterbodies 6. Bacterial Mechanisms for Metal(loid)s Remediation 7. Bioremediation Potential of Trichoderma species for Metal(loid)s 8. Trends in Waste Water Treatment using Phycoremediation for Biofuel Production 9. Lignocellulosic Waste as Adsorbent for Water Pollutants: A Step towards Sustainability and Circular Economy Section 2: Bioremediation of Specific Toxic Metal(loid)s 10. Bioremediation of Arsenic: A Sustainable Approach in Managing Arsenic Contamination 11. Phytoremediation of Uranium and Other Radionuclides in Soil and Water and Effects of Biogeochemical Conditions 12. Bioremediation Strategies for Removal of Chromium from Polluted Environment 13. Environmental Evidence and Behaviour of Mercury Emissions, Biogeochemical Cycle, and Remediation in Earth Systems Section 3: Biotechnological Strategies for Remediation of Toxic Metal(loid)s 14. Deciphering the Role of Metal Binding Proteins and Metal Transporters for Remediation of Toxic Metals in Plants 15. Remediation of Toxic Metal(loid)s: Biotechnological Strategies 16. Synthetic Biology Approaches for Bioremediation of Metals Section 4: Nanotechnology and Metal(loid)s Remediation 17. Bioremediation of Heavy Metals from Ecosystem Nanotechnological Perspectives 18. Mitigation of Arsenic Pollution by using Iron-based Nano-adsorbents Section 5: General Aspects/Case Studies on Bioremediation of Metal(loid)s 19. Restoration of Old Mining Sites Polluted by Metal(loid)s by using Various Amendments 20. Bioremediation of Mining Waste and Other Copper-containing Effluents by Biosorption 21. Remediation of Contaminated Chromite Mine Spoil by Biochar Application
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Nanotechnology for metal(loid)s remediation;Arsenic, Selenium, Mercury, Cadmium, Nickel, Lead, Chromium;Biotechnological strategies for remediation of Toxic metal(loid)s;Fungal bioremediation;Phytoremediation, Microbial bioremediation, Phyto-technologies;Metalloids, Metal(loid)s, Heavy metals, Trace elements;Bioremediation;Toxic metal(loid)s;Pteris Vittata;Ethylenediaminetetra Acetic Acid;Overburden;PCS;Phytochelatin Synthase;Contaminated Soil;Water Hyacinth;Arsenic Removal;Soil Contamination;Biochar Surface;Metal Bioremediation;Bioaccumulation Coefficient;Indian Mustard;Chromium Removal Efficiency;Heavy Metal Removal;Adsorption Capacity;Rhizospheric Microorganisms;SRB;Hm Uptake;Trimethyl Arsine;Metal Ions;Mate Transporter;Trichoderma Species;Arsenic Adsorption Capacity