Handbook of Agricultural Biotechnology, Volume 5 : Nanobiofertilizers

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Autore:	Adetunji Charles Oluwaseun
Titolo:	Handbook of Agricultural Biotechnology, Volume 5 : Nanobiofertilizers
Pubblicazione:	Newark : , : John Wiley & Sons, Incorporated, , 2024
	©2024
Edizione:	2nd ed.
Descrizione fisica:	1 online resource (595 pages)
Altri autori:	EgbunaChukwuebuka   FicaiAnton   IjabadeniyiOluwatosin Ademola
Nota di contenuto:	Cover -- Series Page -- Title Page -- Copyright Page -- Contents -- Preface -- Chapter 1 Application of Nanobiofertilization for Bioremediation and Ecorestoration of Polluted Soil/Farmland -- 1.1 Introduction -- 1.2 Nanoparticles -- 1.2.1 Nanoparticles as Nano-Adsorbents -- 1.2.2 Nanobiofertilizers -- 1.2.3 Biosynthesis of Nanoparticles -- 1.2.4 Microbe-Mediated Synthesis -- 1.2.5 Plant-Mediated Synthesis -- 1.3 Nanobiofertilization in Bioremediation -- 1.3.1 Mechanism of NPs-Microbes Interaction in Pollutant Bioremediation -- 1.3.2 Plant and Nanoparticle-Based Interaction Mechanism in Pollutant Bioremediation -- 1.4 Application of Nanobiofertilization in Bioremediation -- 1.4.1 Heavy Metals Removal -- 1.4.2 Removal of Hydrocarbon -- 1.4.3 Removal of Colored Dyes -- 1.4.4 Removal of Antiseptics and Antibiotics -- 1.4.5 Nano-Phytoremediation of Polluted Soils -- 1.4.6 Removal of Organic Pollutants -- 1.4.7 Removal of Heavy Metal -- 1.5 Environmental Distress -- 1.6 Conclusion -- References -- Chapter 2 Influence of Nanobiofertilizer on Plant Yield and Growth -- 2.1 Introduction -- Nanobiofertilizer -- Composition of Nanobiofertilizer -- Mechanisms of Nutrient Delivery and Enhanced Bioavailability -- Seed Priming (Nanopriming) -- Soil-Based Application -- Nanobiofertilizer Plant System Interaction -- Impact of Nanobiofertilizer on Plant Biomass -- Factors Contributing to Enhanced Plant Growth -- Comparison of Biomass Enhancement with Traditional Fertilizers -- Nanobiofertilizer-Induced Biomass and Chlorophyll Content Enhancement -- Crop-Specific Responses to Nanobiofertilizers -- Case Studies Highlighting Positive Outcomes on Various Crops -- Environmental and Economic Considerations on the Use of Nanobiofertilizers -- Comparison of Nanobiofertilizers with Traditional Fertilizers in Terms of Cost and Effectiveness.
	Potential Long-Term Benefits for Soil Health and Ecosystem -- Addressing Concerns Related to Nanoparticle Toxicity and Accumulation -- Need for Standardized Testing Protocols and Safety Assessments -- Exploration of Innovative Nanobiofertilizer Formulations and Delivery Methods -- Strategies for Incorporating Nanobiofertilizers into Existing Farming Systems -- Synergistic Effects of Combining Nanobiofertilizers with Other Sustainable Practices -- Practical Considerations for Large-Scale Implementation -- Potential to Revolutionize Agriculture and Contribute to Food Security -- Call to Action for Continued Research, Development, and Adoption of Nanobiofertilizers -- Conclusion -- References -- Chapter 3 Effect of Bionanofertilizer on Proximate Composition of Crops -- 3.1 Introduction -- 3.2 Biological Synthesis of Nanofertilizers -- 3.2.1 Bacterial-Based Nanosynthesis -- 3.2.2 Fungal-Based Nanosynthesis -- 3.2.3 Algal-Based Nanosynthesis -- 3.2.4 Plant-Based Nanosynthesis -- 3.3 Composition of Bionanofertilizers -- 3.3.1 Macronutrient Bionanofertilizer -- 3.3.2 Micronutrient Bionanofertilizer -- 3.3.3 Hybrid Bionanofertilizers -- 3.4 Properties of Bionanofertilizers -- 3.4.1 Efficient Nutrient Release and Use -- 3.4.2 Maintenance of Equilibrium Between Nutrient Demand and Nutrient Supply -- 3.4.3 Enhancement of Soil Heterogeneity and Reduction of Environmental Pollution -- 3.4.4 Improvement of Soil Water Retention Capacity -- 3.5 Effect of Bionanofertilizers of Proximate Parameters of Crops -- 3.6 Conclusion and Future Direction -- References -- Chapter 4 The Role of Policy Maker, Relevant Stakeholders and Government Agency in Translating Nanobiofertilizer Research into Policy -- 4.1 Introduction -- 4.2 Views of the Dangers of Nanotechnology and Confidence in Stakeholders -- 4.3 Policy Making Process.
	4.4 Benefits of Agencies in the Nanoproduction of Fertilizer -- 4.5 Relevant Stakeholders in the Implementation of Policy -- 4.6 Report of Nanobiofertilizers Worldwide -- 4.7 Government Agencies and Their Impact -- 4.8 Translating Research Into Policy -- 4.9 Global Safety and Legal Framework for Agricultural Goods Based on Nanotechnology -- 4.10 Future Initiatives and Studies to Support the Development of Nanobiofertilizers -- Conclusion -- References -- Chapter 5 Structural Elucidation, Detection, and Characterization of Essential Nutrients Necessary for Soil Fertilization -- 5.1 Introduction -- 5.1.1 Importance of Soil Fertility in Agriculture -- 5.1.2 Role of Essential Nutrients in Soil Fertilization -- 5.2 Nitrogen (N) in Soil Fertilization -- 5.2.1 Significance of Nitrogen for Plant Growth -- 5.2.2 Structural Elucidation of Nitrogen Compounds -- 5.3 Phosphorus (P) in Soil Fertilization -- 5.3.1 Importance of Phosphorus in Plant Growth -- 5.3.2 Structural Elucidation of Phosphorus Compounds -- 5.4 Potassium (K) in Soil Fertilization -- 5.4.1 Role of Potassium in Plant Nutrition -- 5.4.2 Characterization of Potassium in Soils -- 5.5 Optimization of Nutrient Management Strategies -- 5.5.1 Integration of Nutrient Detection and Characterization Data -- 5.5.2 Targeted and Efficient Fertilization Approaches -- Conclusion -- References -- Chapter 6 Effect of Nanobiofertilizer on Phytochemicals -- 6.1 General Overview on Nanobiofertilizer -- 6.2 Constituents of Nanobiofertilizer -- 6.2.1 Nanoparticles -- 6.2.1.1 Zinc Nanoparticles or ZnNPs -- 6.2.1.2 Silver Nanoparticles or AgNPS -- 6.2.1.3 Silicon Nanoparticles or SiNPs -- 6.2.1.4 Copper Nanoparticles or CuNPs -- 6.2.2 Biofertilizer -- 6.2.3 Preparation of Nanobiofertilizer -- 6.2 Concept of Nanobiofertilizers and Their Potential as a Sustainable Alternative to Conventional Fertilizers.
	6.3 Importance of Phytochemicals in Plant Growth and Human Health -- 6.3.1 Phytochemical Research -- 6.4 Mechanisms of Nanobiofertilizer on Phytochemicals -- 6.4.1 Mechanism of Action of NFs -- 6.4.2 Mode of Application of NFs -- 6.4.3 Roots -- 6.5 Recent Studies on Effect of Nanobiofertilizer on Phytochemicals -- 6.6 Conclusion and Future Trends on Nanobiofertilizer on Phytochemicals -- References -- Chapter 7 Characterization of Nanoparticles Used as Nanobiofertilizers -- 7.1 Introduction -- 7.2 Some Spectroscopic Characterization Technique for Nanomaterials -- 7.2.1 X-Ray Diffraction (XRD) -- 7.2.2 Principle of X-Ray Diffraction (XRD) -- 7.2.3 Ultraviolet-Visible Spectroscopy (UV-vis) -- 7.2.4 Scanning Electron Microscopy (SEM) -- 7.2.5 Zeta Potential Measurements (ZPM) -- 7.2.6 Principle of Zeta Potential Measurements (ZPM) -- 7.2.7 Dital Polarimeter -- 7.2.8 Dynamic Light Scattering (DSL) -- 7.2.8.1 Principle of Dynamic Light Scattering (DSL) -- 7.2.9 Transform Infrared (FTIR) Spectroscopy -- 7.2.9.1 Principle of Transform Infrared (FTIR) Spectroscopy -- 7.3 Characterization of Nanobiofertilizer Through Chemical and Biological Synthesis -- 7.4 Application of Nanobiofertilizer -- 7.5 Environmental Impact Assessment -- 7.6 Future Perspectives and Challenges -- 7.6.1 Future Perspectives -- 7.6.2 Challenges -- 7.7 Conclusion -- References -- Chapter 8 Toxicological Effects of Nanobiofertilizer on Water Body, Water Quality, Lower Plants, Zooplanktons, and Beneficial Microorganisms -- 8.1 Introduction -- 8.2 Effects of Nanofertilizer on Soil Microbial Community -- 8.3 Nanofertilizers Versus Biofertilizers: Dissimilarity in Synthesis -- 8.4 Nanobiofertilizer -- 8.4.1 Toxicological Effects of Nanobiofertilizer on Water Body and Water Quality -- 8.4.2 Effects of Nanobiofertilizer on Lower Plants -- 8.4.3 Effects of Nanobiofertilizer on Zooplanktons.
	8.4.4 Toxicological Effects of Nanobiofertilizer on Beneficial Microorganisms -- 8.5 Conclusion -- References -- Chapter 9 Various Techniques Used in the Application of Nanobiofertilizers on Crops After Synthesis -- 9.1 Introduction -- 9.2 Synthesis of Nanoparticles -- 9.2.1 Microbial Synthesis of Nanomaterials -- 9.2.2 Plant-Mediated Synthesis of Nanoparticles -- 9.3 Synthesis of Nanobiofertilizers -- 9.4 Methods Used in the Application of Nanobiofertilizers on Crops -- 9.4.1 Foliar Spraying -- 9.4.2 Seed Nanopriming -- 9.4.3 Soil Treatment -- 9.5 Conclusion -- References -- Chapter 10 Non-Target Effect, Environmental Impact, and Assessment of Nanobiofertilizer -- 10.1 Introduction -- 10.2 Environmental Impact of Nanobiofertilizer on Soil Properties -- 10.3 Non-Targeted Effects on Soil Properties -- 10.3.1 Physicochemical Properties of Soil -- 10.3.2 Biological Properties of Soil -- Soil Carbon and Carbon Sequestration -- Soil Respiration -- Soil Enzymes -- Soil Microorganisms and Microbial Diversity -- 10.4 Recommendation and Conclusion -- References -- Chapter 11 Reported Genes Regulating the Biological Activities in Microorganisms Used in the Formation of Nanobiofertilizers -- 11.1 Introduction -- 11.2 Synthesis of Nanoparticles -- 11.2.1 Biosynthesis of Nanoparticles -- 11.2.2 Microorganisms Used for the Synthesis of Nanobiofertilizers -- 11.3 Genes Regulating the Biological Activities in Plant Growth-Promoting Rhizobacteria -- 11.4 Conclusion -- References -- Chapter 12 Relevance of Molecular Genetics and Synthetic Biology Involved in the Characterization of Microorganisms Used in Nanofertilizer Research -- 12.1 Introduction -- 12.2 Molecular Genetics and Synthetic Biology -- 12.2.1 Molecular Genetics -- 12.2.2 Synthetic Biology -- 12.2.2.1 Synthetic Biology Tools for Engineering Nanobiofertilizer Microorganisms.
	12.2.2.2 Case Studies on Use of Synthetic Biology to Enhance Microorganisms for Nanobiofertilizers.
Titolo autorizzato:	Handbook of Agricultural Biotechnology, Volume 5
ISBN:	1-394-21154-6
	1-394-21152-X
	1-394-21153-8
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910902900303321
Lo trovi qui:	Univ. Federico II
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Serie: Handbook of Agricultural Bionanobiotechnology Series