Microbiome Nano-Cross-Talk: Sustainable Agriculture and Beyond presents a comprehensive overview of the functional aspects of multiphasic microbial and nanotechnological interactions within and between plants and their ecosystem. Recognizing that beneficial microbes are involved in plant growth promotion, this book highlights their mechanism and regulation to enhance plant’s yield and development even under stressed conditions. The merging of nanotechnology with microbiology is an essential aspect of this book. Various nanomaterials, their synthesis approaches as well as applications in agriculture have been studied extensively in past years. With a focus on focus the morphological, anatomical, biochemical, molecular and gene expression levels of plant growth promotion, the book is the first of its kind to enable scientists to unravel the different pathways and signaling cascades involved in response to this interaction and to understanding how nanomaterials regulate the plant-microbe associations. It critically examines the role of beneficial microbes in conjunction with nanoparticles in plants and the mechanisms adopted by the plants at the biochemical and molecular levels to enhance plant growth and mitigate various stresses.
Table of Contents
1. Concepts and definitions in microbiology and nanotechnology in plant sciences2. Uptake of nanomaterials by plants and translocation within plants
3. Cross-talk of nanoparticles with plant signalling molecules: morphological, physiological, and genotoxic aspects
4. Highlighting the properties of commercially used nanomaterials-based products and their application in agriculture
5. Environmental behaviour and fate of nanomaterials in plant-soil system
6. Different interactions of plants in the rhizosphere: Mechanisms and their ecological benefits
7. Involvement of microbial species for plant growth promotion and disease suppression
8. Cross talk of signalling molecules with microbes in plant cell
9. Involvement of various signalling pathways in nanoparticle-microbe interactions in plants
10. Mechanistic aspects of microbial synthesis of nanoparticles for plant-based applications
11. Seed priming with nanomaterials and microbes and related growth mechanisms
12. Exploring the antimicrobial capacity of different nanoparticles in pursuit of eradicating biotic stress
13. Scope of virus-based nanoparticles as nanocarriers in agroecosystem
14. Cell cycle regulations of plants under nano-microbe supplements
15. Role of nanotherapeutics in agriculture
16. Application of nanoparticles in precision agriculture
17. Role of plant growth promoting rhizobacteria in reducing nanoparticles stress
18. Genotoxicity of certain nanomaterials and their impact on plants and microbes
19. Ecotoxicity aspects of microbially synthesized nanomaterials
20. Development of nano-based sensors for mitigating plant stress: present status and future research
Authors
Kanchan Vishwakarma 1. Research ScientistAmity Institute of Microbial Technology, Amity University Uttar Pradesh, Noida, India
2. Department of Forest Ecology and Management,
Ume� Plant Science Centre (UPSC),
Swedish University of Agricultural Sciences (SLU),
Ume�, Sweden. Dr. Kanchan Vishwakarma has expertise in plant-nanoparticle and plant-microbe interactions. She has experience in assessing the whole microbial diversity of plant by high throughput metagenomic approach under external stimuli. She has worked on optimization, synthesis and characterization of nanoparticles and tested their impact on plants with emphasis on regulatory detoxification pathways. She has explored the utilization of beneficial microbes, phytohormones and nanoparticles with respect to plant growth and published number of research and review articles in journals of repute such as Journal of Hazardous Materials, Critical Reviews in Biotechnology, Frontiers in Plant Science, Frontiers in Microbiology and numerous book chapters. Nitin Kumar Dr. Nitin Kumar has expertise in synthesising different types of nanomaterials ranging from nanoparticles to nanorods, nanostars of variety of metals and their characterization. He has also developed an electrochemical immunosensor of gold nanoparticles and gold nanorods for detection of antigens and published articles in international reputed journals. He has also worked in collaboration with other scientists in the field of plant-microbe interaction.
Awards: Two times Tony B Academic Awardee (SLAS-USA and SLAS-Europe) Agbaje Lateef Prof. Agbaje Lateef is the Head of LAUTECH Nanotechnology Research Group (NANO+) at Ladoke Akintola University of Technology, Nigeria. He received advanced training in fermentation technology, enzyme technology, biocatalysis, functional foods and molecular biology at Central Food Technological Research Institute, Mysore, India. He has more than twenty years of research and teaching with interest in industrial microbiology and biotechnology, especially fermentation processes, enzyme technology and nanobiotechnology. He has more than one hundred publications in reputable journals and books to his credits, more than fifty of which are in nanobiotechnology. He is recognised as the foremost microbiologist, as the National Young Microbiologist of the year 2013 through the award of Professor Oyewale Tomori National Prize for Young Scientists in Microbiology by the Nigerian Young Academy (NYA). He also significant outreach of research by media publications to promote research activities.
