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Bioremediation and Phytoremediation Technologies in Sustainable Soil Management

4-volume set
 
Edition number: 1
Publisher: Apple Academic Press
Date of Publication:
 
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GBP 290.00
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Short description:

This 4-volume set focuses on the use of diverse eco-friendly microbial bioremediation and phytoremediation to clean up pollutants in soil, such as pesticides, petroleum hydrocarbons, metals, and chlorinated solvents, which reduce soil fertility and makes it unfit for plant growth.

Long description:

This 4-volume set focuses on the use of microbial bioremediation and phytoremediation to clean up pollutants in soil, such as pesticides, petroleum hydrocarbons, metals, and chlorinated solvents, which reduce the soil?s fertility and renders it unfit for plant growth. The volumes cover the many diverse eco-friendly microbial bioremediation and phytoremediation techniques for sustainable soil management.


Bioremediation and Phytoremediation Technologies in Sustainable Soil Management: Volume 1: Fundamental Aspects and Contaminated Sites begins with an overview of phytoremediation and phytotechnologies and the role of environmental factors. It goes on to introduce soil assessment techniques and offers methods of remediation designed to combat soil and agricultural degradation. Attention is given to specific types of sites and soil pollution, such as soils contaminated by heavy metals; microbial and phytoremediation-based removal of polycyclic aromatic hydrocarbons (PAHs) from coal, crude oil, and gasoline; microbial bioremediation and amelioration of pesticide-contaminated soils; phytoremediation techniques for biomedical waste contaminated sites; as well as biomediation processes for human waste sites. Biopesticides are also explained in the book as an alternative to conventional pesticides as well as the possibilities for the improvement of modern bio-pesticides.


Volume 2: Microbial Approaches and Recent Trends focuses on new and emerging techniques and approaches to address soil pollution. These include the use of rhizobacteria, archae, cyanobacteria, and microalgae as biofertilizers and for soil bioremediation efforts. New technologies for assessment of soil bioremediation are explored also. The chapters provides in-depth coverage of the mechanisms, advantages, and disadvantages of the technologies used and highlights the use of different microbial enzymes that are used in the process of bioremediation and phytoremediation to clean up different pollutants without causing damage to the natural environment.


Volume 3: Inventive Techniques, Research Methods, and Case Studies is organized in three themes: plants in green remediation, tools and techniques in bioremediation and phytoremediation, and special sites and their remediation techniques. Innovative new techniques that advance the use of molecular biological approaches, nanotechnology, immobilization, vermicomposting and genetic modification developments are investigated to take advantage of these possibilities.


Volume 4: Degradation of Pesticides and Polychlorinated Biphenyls addresses pesticide degradation, PCBs degradation, and genetic interventions. It begins by describing environment pesticide degradation, mechanisms and sustainability, microbes and microbial enzymes, plant microbe interactions, organophosphorus degradations and endosulfan degradation. It then goes on to discuss PCBs and degradation, cypermethrin, degradation by Phanerochaete chrysosporium, carvone and surfactants for degradation of PCBs. The book also advocates for genetic systems for degradation of PCBs and pesticides, with discussion of the different advantages and disadvantages for each strategy and the various techniques.


Together, these four volumes provide in-depth coverage of the mechanisms, advantages, and disadvantages of the bioremediation and phytoremediation technologies for safe and sustainable soil management. The diverse topics help to arm biologists, agricultural engineers, environmental and soil scientists and chemists with the information and tools they need to address soil toxins that are a dangerous risk to plants, wildlife, humans and, of course, the soil itself.

Table of Contents:

Volume 1: Fundamental Aspects and Contaminated Sites Preface Foreword by Münir Öztürk PART I: FUNDAMENTAL ASPECTS 1. Phytoremediation and Phytotechnologies: An Overview 2. Phytoremediation and Environmental Factors PART II: TECHNOLOGICAL ASSESSMENT 3. Role of Phytoremediation to Clean Up Heavy Metal Polluted Soils 4. Phytoremediation Technique for PAH-Polluted Soils: Applications, Challenges, and Opportunities 5. Assessment and Overview of Petroleum Hydrocarbon Bioremediation PART III: CONTAMINATED SITES AND XENOBIOTICS 6. Phytoremediation of Soils Contaminated by Heavy Metals (Mercury, Cadmium, and Lead) 7. Microbial and Phytoremediation-Based Removal of Polycyclic Aromatic Hydrocarbons (PAHs) in Soil Environments 8. Microbial Bioremediation and Amelioration of Pesticide-Contaminated Soils 9. Bioremediation of Petroleum Contaminated Soils 10. Phytoremediation of Biomedical Waste Contaminated Sites 11. Bioremediation of Waste Dumping Sites Index Volume 2: Microbial Approaches and Recent Trends Preface Foreword by Münir Öztürk PART I: RHIZOREMEDIATION AND ARCHAEA 1. Role of Rhizobacteria in Phytoremediation of Metal-Contaminated Lands 2. Role of Archaea in the Remediation of Contaminated Soils PART II: ROLE OF MICROALGAE AND FUNGI IN BIOREMEDIATION 3. Microalgae and Cyanobacteria: Potential Biofertilizers 4. Microalgae as Biofertilizer for Sustainable Agricultural Productivity 5. Microbial Biotechnology: Potential of Fungal Enzymes in Soil Bioremediation 6. Soil Bioremediation Strategies Based on Fungal Enzymes PART III: RECENT TRENDS AND APPROACHES IN BIOREMEDIATION 7. Assessment of Current Soil Bioremediation Technologies 8. Sustainable Agro-Ecosystems: Recent Trends and Approaches in Phytoremediation and Rhizoremediation 9. Sustainable Soil Health and Crop Improvement: Recent Trends in Bioremediation Tools 10. Assessment of Remediation Efficiency: Microbial Indicators of Soil Health 11. Recent Trends in Transgenic Plants for Enhanced Phytoremediation 12. Nanobioremediation: An Integrated Approach for Management of Contaminated Sites Volume 3: Inventive Techniques, Research Methods, and Case Studies Preface PART I: POTENTIAL OF PLANTS IN GREEN REMEDIATION 1. Bioremediation Potential of Pteridophytes 2. Potential of Ornamental Plants for Phytoremediation 3. Bioremediation Potential of Helianthus annuus 4. Potential of Biofertilizers for Soil Enhancement: Study on Growth and Physiological and Biochemical Traits of Medicago sativa PART II: TOOLS AND TECHNIQUES FOR BIOREMEDIATION 5. Fungal Nanoparticles for Soil Health and Bioremediation 6. Exploring Toxic Heavy Metals Using Engineered Nanomaterials via Immobilization 7. Vermicomposting and Its Role in Agricultural Waste Management 8. Applications of Horizontal Gene Transfer in Soil Bioremediation 9. In Vitro Screening of Heavy Metals: Seed Germination and Seedling Growth of Sorghum and Horse Gram 10. Potential of Agricultural Waste (Rice Husk and Sweet Lime Peel) in Bioremediation of Se (IV) Ions from Wastewater PART III: REMEDIATION TECHNIQUES FOR SPECIAL SITES 11. Bioremediation of Polyethylenes and Plastics 12. Bioremediation of Pesticides Using Actinobacteria 13. Fungal Remediation Technology for Refinery Waste Contaminated Soil 14. Biodegradation and Ecotoxicity of Petroleum Hydrocarbons: Methodology for Lab- and Field-Scale Studies 15. Bioreclamation of Sodic Soils for Sustainable Agriculture 16. Applications of Gut Microbiota of Insects in Degradation of Lignocellulosic Biomass 17. Plant-Mediated Techniques in Detoxification of Mercury Contaminated Soils Index Volume 4: Degradation of Pesticides and Polychlorinated Biphenyls Preface PART I: MICROBIAL DEGRADATION OF PESTICIDES 1. Environmental Pesticide Degradation: Mechanisms and Sustainability 2. Microbial Degradation of Pesticides 3. Microbial Remediation of Persistent Agro-Chemicals by Soil Bacteria 4. Microbes and Microbial Enzymes for Degradation of Pesticides 5. Plant-Microbe Interactions in Agro-Ecological Perspectives and Degradation of Pesticides 6. Microbial Degradation of Organophosphorus Pesticides 7. Microbial-Assisted Degradation of Endosulfan PART II: POLYCHLORINATED BIPHENYL (PCBS) DEGRADATION 8. Degradation Mechanisms of Polychlorinated Biphenyls (PCBs) in the Environment 9. Bioremediation of Polychlorinated Biphenyls (Plastics) and Cypermethrin 10. Degradation of Polychlorinated Biphenyls by Phanerochaete chrysoporium 11. Role of Carvone and Surfactant Producing Bacteria in Bioremediation of Polychlorinated Biphenyls PART III: GENETIC INTERVENTION 12. Genetic Systems in Soil Bacteria for Degradation of Polychlorinated Biphenyls 13. Toxicity and Genetic Basis of Microbial Degradation of Organophosphorus Pesticides