Nanotechnology and Plant Disease Management (eBook, PDF)
Redaktion: Mahmood, Irshad; Rizvi, Rose; Ansari, Rizwan Ali
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Nanotechnology and Plant Disease Management (eBook, PDF)
Redaktion: Mahmood, Irshad; Rizvi, Rose; Ansari, Rizwan Ali
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Nanotechnology and Plant Disease Management serves as a comprehensive exploration of the current state and future potential of nanoparticles in revolutionizing plant disease management within the realm of agriculture. This book emphasizes on elucidating the synthesis, characterization and judicious application of nanoparticles.
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Nanotechnology and Plant Disease Management serves as a comprehensive exploration of the current state and future potential of nanoparticles in revolutionizing plant disease management within the realm of agriculture. This book emphasizes on elucidating the synthesis, characterization and judicious application of nanoparticles.
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Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 236
- Erscheinungstermin: 16. Dezember 2024
- Englisch
- ISBN-13: 9781040203606
- Artikelnr.: 72289587
- Verlag: Taylor & Francis
- Seitenzahl: 236
- Erscheinungstermin: 16. Dezember 2024
- Englisch
- ISBN-13: 9781040203606
- Artikelnr.: 72289587
Irshad Mahmood, an erudite Professor of Plant Pathology and Nematology in the Department of Botany, Aligarh Muslim University, Aligarh. He obtained his Ph.D. degree from Aligarh Muslim University in the field of Plant Pathology and Nematology. He has been engaged with the teaching programme of undergraduate and post-graduate level students for the last 30 years and has made many overseas visits, including to the United States, France and the UK. He has attended a significant number of national and international conferences on a wide area of agricultural sciences and has published around 150 original research papers, review articles and book chapters in various refereed national and international publications. He has successfully completed many training courses in various ICAR sponsored research institutes in India and also at North Carolina State University, Raleigh, USA. He is also an active member of national and international scientific organizations, served as an expert for selection committees, reviewer of journals, doctoral theses and funding agencies, and is a recipient of a scientist of the year award in the field of Plant Pathology and Nematology. He has guided ten Ph.D., several M. Phil. students and a large number of M.Sc. dissertations. Rizwan Ali Ansari, Assistant Professor in the Department of Plant Protection, Faculty of Agricultural Sciences at Aligarh Muslim University in India, is a highly accomplished scholar in the field of Plant Pathology/Nematology. His academic credentials include a Ph.D. from the same institution, where he has actively engaged in cutting-edge research and development strategies that have revolutionized the field. Dr. Ansari has formulated innovative management modules that leverage a wide array of microorganisms, antagonists and organic additives to combat a diverse range of soil-borne plant pathogens that infest numerous agricultural crops. He has also attended several prestigious national and international conferences, where his contributions have earned him coveted accolades from renowned scientific societies such as the Society of Plant Protection Sciences (SPSS), Indian Phytopathological Society (IPS) and the Nematological Society of India (NSI). As a prolific scholar, he has authored several highly acclaimed book chapters, research papers and review articles that delve into the utility of organic additives, mycorrhizal fungi and plant growth-promoting bacteria in the sustainable management of plant pathogens. His research has been published in several reputable journals and books. Dr. Ansari has edited many books which have garnered global appreciation. His current research domains include the judicious application of organic additives, synthesis of nanoparticles and their application and biological agents in the management of plant diseases, improving soil and crop health, and conducting surveys on disease prevalence caused by soil-borne pathogens on various economically significant crops. His pioneering research has the potential to significantly impact the sustainable management of plant pathogens and improve soil and crop health, thereby advancing agricultural productivity and food security. Rose Rizvi is currently working as Assistant Professor in the Department of Botany, Aligarh Muslim University, Aligarh, India. She earned her Ph.D. degree from the same department in Plant Pathology/Nematology. She has thus far published a good number of research and review articles in reputable journals. Dr. Rizvi has also participated in various national and international symposia/conferences/workshops and successfully responded to queries from the delegates pertaining to the area of her research. She has been the recipient of various awards such as UGC-BSR Research Fellow from the University Grants Commission (UGC); Norman Ernest Borlaug Research Award from Plant Pathology (Photon Foundation); Junior Scientist Award from the National Environmental Science Academy (NESA), New Delhi, India; CSIR-Research Associateship from MHRD, New Delhi; Scientist of the Year Award 2018 from the National Environmental Science Academy (NESA), New Delhi, India; Young Scientist of the Year Award 2018 from the International Foundation for Environment and Ecology (IFEE), Kolkata, India. Her area of research is the integrated disease management of phytoparasitic nematodes by the application of various means like biological control fungi, rhizobacteria, organic additives and nanoparticles.
1. Nanotechnology: A new frontier in sustainable agricultural pest and
disease management 2. Revolutionizing nematode management: nanomaterials as
a promising approach for managing economically important plant-parasitic
nematodes - Current knowledge and future challenges 3. Exploring the
potential of nanomaterials in a crusade against plant disease management 4.
Nanosensors: An emerging tool for early detection of plant pathogens in
sustainable agriculture 5. Nanoparticles from microbes: The next generation
tool for combatting plant diseases 6. Bio-nanomaterials: The
next-generation weapon against plant-parasitic nematodes in commercial
crops 7. Maximizing the Potential of Nanoparticles for Sustainable Plant
Pathogen Management: Addressing Phytotoxicity and Residues 8. Exploring the
potential of microbe-mediated gold nanoparticles in sustainable plant
pathogen management 9. Bio-fabrication of nanomaterials and their
application in plant disease management: Scope, challenges and strategies
10. Nanoengineering for sustainable crop health: Leveraging the potential
of nanotechnology in enhancing disease resistance and yield improvement 11.
Management of plant disease using nanotechnology: A paradigm shift in crop
protection.
disease management 2. Revolutionizing nematode management: nanomaterials as
a promising approach for managing economically important plant-parasitic
nematodes - Current knowledge and future challenges 3. Exploring the
potential of nanomaterials in a crusade against plant disease management 4.
Nanosensors: An emerging tool for early detection of plant pathogens in
sustainable agriculture 5. Nanoparticles from microbes: The next generation
tool for combatting plant diseases 6. Bio-nanomaterials: The
next-generation weapon against plant-parasitic nematodes in commercial
crops 7. Maximizing the Potential of Nanoparticles for Sustainable Plant
Pathogen Management: Addressing Phytotoxicity and Residues 8. Exploring the
potential of microbe-mediated gold nanoparticles in sustainable plant
pathogen management 9. Bio-fabrication of nanomaterials and their
application in plant disease management: Scope, challenges and strategies
10. Nanoengineering for sustainable crop health: Leveraging the potential
of nanotechnology in enhancing disease resistance and yield improvement 11.
Management of plant disease using nanotechnology: A paradigm shift in crop
protection.
1. Nanotechnology: A new frontier in sustainable agricultural pest and
disease management 2. Revolutionizing nematode management: nanomaterials as
a promising approach for managing economically important plant-parasitic
nematodes - Current knowledge and future challenges 3. Exploring the
potential of nanomaterials in a crusade against plant disease management 4.
Nanosensors: An emerging tool for early detection of plant pathogens in
sustainable agriculture 5. Nanoparticles from microbes: The next generation
tool for combatting plant diseases 6. Bio-nanomaterials: The
next-generation weapon against plant-parasitic nematodes in commercial
crops 7. Maximizing the Potential of Nanoparticles for Sustainable Plant
Pathogen Management: Addressing Phytotoxicity and Residues 8. Exploring the
potential of microbe-mediated gold nanoparticles in sustainable plant
pathogen management 9. Bio-fabrication of nanomaterials and their
application in plant disease management: Scope, challenges and strategies
10. Nanoengineering for sustainable crop health: Leveraging the potential
of nanotechnology in enhancing disease resistance and yield improvement 11.
Management of plant disease using nanotechnology: A paradigm shift in crop
protection.
disease management 2. Revolutionizing nematode management: nanomaterials as
a promising approach for managing economically important plant-parasitic
nematodes - Current knowledge and future challenges 3. Exploring the
potential of nanomaterials in a crusade against plant disease management 4.
Nanosensors: An emerging tool for early detection of plant pathogens in
sustainable agriculture 5. Nanoparticles from microbes: The next generation
tool for combatting plant diseases 6. Bio-nanomaterials: The
next-generation weapon against plant-parasitic nematodes in commercial
crops 7. Maximizing the Potential of Nanoparticles for Sustainable Plant
Pathogen Management: Addressing Phytotoxicity and Residues 8. Exploring the
potential of microbe-mediated gold nanoparticles in sustainable plant
pathogen management 9. Bio-fabrication of nanomaterials and their
application in plant disease management: Scope, challenges and strategies
10. Nanoengineering for sustainable crop health: Leveraging the potential
of nanotechnology in enhancing disease resistance and yield improvement 11.
Management of plant disease using nanotechnology: A paradigm shift in crop
protection.