"This new volume explores the important and cutting-edge roles that nanotechnology can play in facilitating sustainable agriculture. It provides recent updates on nanobiotechnology in soil science, plant breeding, food science, agricultural tool design and utilization, as well as the impacts of such approaches on properties of soils and plants and other environmental factors. The volume looks at the many roles of nanotechnology as a state-of-the art tool in sustainable agriculture, such as for crop production and protection, in the creation and application of nano-pesticides, to enhance soil fertility and soil health for improved plant growth, as plant protective agents against pathogenic microbes and pests, as a mitigating factor of plant abiotic stress, and more. It also discusses the behavior of nanomaterials in soil and interaction with soil biota. The volume goes on to explore emerging nanotechnological tools and techniques for crop improvement, which include space-inspired speed breeding for crop improvement, nanoparticles as sensing materials, plant nanobionics, nanopore DNA sequencing, and more. Nanotechnology for Sustainable Agriculture: An Innovative and Eco-Friendly Approach will be an important resource on sustainable agriculture and crop improvement with the help of the recent and emerging tools of nanotechnology"--
Looks nanotechnology as a state-of-the art tool in sustainable agriculture for crop production and protection, in the creation and application of nanopesticides, for soil fertility and soil health for improved plant growth, as plant protective agents against pathogenic microbes and pests, and more.
This new volume explores the important and cutting-edge roles that nanotechnology can play in facilitating sustainable agriculture. It provides recent updates on nanobiotechnology in soil science, plant breeding, food science, agricultural tool design and utilization, as well as the impacts of such approaches on properties of soils and plants. The book looks at the use of nanotechnology for crop production and protection, in the creation and application of pesticides, to enhance soil fertility and soil health, as a mitigating factor of plant abiotic stress, and more. The volume explores emerging nanotechnological tools and techniques for crop improvement that include space-inspired speed breeding for crop improvement, nanoparticles as sensing materials, plant nanobionics, nanopore DNA sequencing, and more.
Part I: Nanotechnology: An Introduction to Nanoparticles
1. Nanotechnology as the Cutting Edge for Sustainable Agriculture Part II: Nanoparticles for Crop Production 2. Nanofertilizers: A Sustainable Alternative to Conventional Means
3. Nano-Pesticides: A Dab Hand at Eliminating Pests Part III: Improving Soil Fertility and Crop Protection 4. Possible Prospects of Nanotechnology in Sustainable Agriculture and Their Effects on Soil Health and Plant Growth
5. Impact of Nanoparticles on Soil Microbes for Enhancing Soil Fertility and Productivity
6. Nanoparticles: Plant Protective Agents against Pathogenic Microbes and Pests
7. Role of Nanomaterials in Plants under Abiotic Stress
8. The Behavior of Nanomaterials in Soil and Interaction with Soil Biota Part IV: Emerging Nanotechnological Tools and Techniques for Crop Improvement 9. Speed Breeding: Space-Inspired for Crop Improvement under the Nano-Era
10. Nanotechnological Approaches in the Second Green Revolution
11. Nanopore DNA Sequencing: A New Era for Crop Improvement
12. Bio-Nanotechnological Methods in Crop Production and Pest Management
13. Nanobiotechnological Approaches for Improved Plant Breeding
14. Nanobionics Aid in Agriculture
15. Nanosensors and Nano Biosensors: Nanoparticles as Sensing Materials
Vishnu D. Rajput, PhD, is Associate Professor and Leading Researcher at Southern Federal University. His ongoing research is based on advanced topics in soil contamination. He has published many peer-reviewed articles, books, book chapters, and conference articles.
Abhishek Singh, PhD, is a Research Scholar at Sardar Vallabh Bhai Patel University of Agriculture and Technology, Uttar Pradesh, India. He has published book chapters, review papers, abstracts, and Hindi English popular articles and has presented his work at professional conferences.
Tatiana Minkina, PhD, is Head of the Soil Science and Land Evaluation Department of Southern Federal University. She is also head of the internationally accredited masters degree program "Management and Estimation of Land Resources." A prolific author, she has published numerous scientific publications and has been an invited editor of the MDPI Journal Water.
Krishan K. Verma, PhD, is a Visiting Scientist at the Sugarcane Research Institute, Chinese Academy of Agricultural Sciences and Guangxi Academy of Agricultural Sciences, Guangxi, China. He has 10 years of research experience in the field of biotic and abiotic stresses, and has published over 50 scientific research articles, including five books.
Awani Kumar Singh, PhD, is a Principal Scientist of Horticulture-Vegetable Science at the ICAR-IARI, New Delhi, India. He has developed several high-yielding varieties of different vegetable crops and has published many research papers, abstracts, book chapters, training manuals, and other publications, as well as three books. He has delivered many TV and radio talks on the topic of protected cultivation.
