Plant Phenolics in Biotic Stress Management (eBook, PDF)
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Plant Phenolics in Biotic Stress Management (eBook, PDF)
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This edited book presents the latest research on the role of plant phenolics in stress management in plants. It sheds light on addressing the biotic stress management in plants by plant phenolics under changed environmental conditions. In natural systems, plants face a plethora of antagonists and thus possess a myriad of defenses and have evolved multiple defense mechanisms by which they can manage the various kinds of stresses for adaptation. Plant phenolics being ubiquitous and thus plays important role in adapting the plants to the varied environment. This book is of interest and helpful to…mehr
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This edited book presents the latest research on the role of plant phenolics in stress management in plants. It sheds light on addressing the biotic stress management in plants by plant phenolics under changed environmental conditions. In natural systems, plants face a plethora of antagonists and thus possess a myriad of defenses and have evolved multiple defense mechanisms by which they can manage the various kinds of stresses for adaptation. Plant phenolics being ubiquitous and thus plays important role in adapting the plants to the varied environment. This book is of interest and helpful to cover a different topic of regulation of biotic stress in plants. Further, the book will provide users with a cutting-edge review of this field and set the direction for future exploration. Bringing together work from leading international researchers, it will be also a valuable reading material for plant and agricultural scientists, academics, researchers, students, and teachers wantingto gain insights into the role of plant phenolics in biotic stress management in plants for sustainability. It’s a comprehensive, practical reference that aids researchers in their understanding of the role of plant phenolics in biotic stress tolerance.
Produktdetails
- Produktdetails
- Verlag: Springer Nature Singapore
- Seitenzahl: 555
- Erscheinungstermin: 27. Februar 2024
- Englisch
- ISBN-13: 9789819933341
- Artikelnr.: 70065188
- Verlag: Springer Nature Singapore
- Seitenzahl: 555
- Erscheinungstermin: 27. Februar 2024
- Englisch
- ISBN-13: 9789819933341
- Artikelnr.: 70065188
About the Editors
Dr. Rafiq Lone is working as Assistant Professor of Botany at Central University of Kashmir, Ganderbal, Jammu and Kashmir- India. He has completed his MSc and PhD in Botany from Jiwaji University, Gwalior, Madhya Pradesh, India. His main area of research interest focuses on plant-microbe interaction, plant nutrition, plant phenolics and invasion biology.
Dr. Salim Khan has been working as a research associate since October 2008 in the Department of Botany and Microbiology, King Saud University, Saudi Arabia. His main research focuses on molecular markers, seed cryo-banking, next-generation sequencing, and plant DNA banking.
Prof. Abdullah M. Al-Sadi is Professor of Plant Pathology and the Dean of College of Agricultural and Marine Sciences at Sultan Qaboos University, Oman. He received his PhD in Plant Pathology from the University of Queensland, Australia in 2007. His researchfocuses on the etiology, plant-pathogen interactions and management of plant diseases using chemical and biological control.
Dr. Rafiq Lone is working as Assistant Professor of Botany at Central University of Kashmir, Ganderbal, Jammu and Kashmir- India. He has completed his MSc and PhD in Botany from Jiwaji University, Gwalior, Madhya Pradesh, India. His main area of research interest focuses on plant-microbe interaction, plant nutrition, plant phenolics and invasion biology.
Dr. Salim Khan has been working as a research associate since October 2008 in the Department of Botany and Microbiology, King Saud University, Saudi Arabia. His main research focuses on molecular markers, seed cryo-banking, next-generation sequencing, and plant DNA banking.
Prof. Abdullah M. Al-Sadi is Professor of Plant Pathology and the Dean of College of Agricultural and Marine Sciences at Sultan Qaboos University, Oman. He received his PhD in Plant Pathology from the University of Queensland, Australia in 2007. His researchfocuses on the etiology, plant-pathogen interactions and management of plant diseases using chemical and biological control.
Chapter 1_ Role of Phenolics in Plant-Microbe Interaction.- A Review.- Chapter 2_ Role of Phenolics in establishing Mycorrhizal association in plants for management of biotic stress.- Chapter 3_ Insights Into Biotic Stress Management By Plants Using Phenolic Compounds.- Chapter 4_Plant Phenolics: Role in biotic stress alleviation and plant microbe interactions.- Chapter 5_ Elucidating the Role of Flavonoids in Countering the Effect of Biotic Stress in Plants.- Chapter 6_Phenolics as Shielding counterparts from plants to combat biotic stress mediated by microbes and nematodes.- Chapter 7_Salicylic Acid: A Phytohormone Of Antistress And Insecticidal Essence.- Chapter 8_Role of plant phenolics in the resistance mechanism of plants against insects.- Chapter 9_ Plant phenolics role in bacterial disease stress Management in Plants.- Chapter 10_Polyphenol Phytoalexins as the Determinants of Plant Disease Resistance.- Chapter 11_Phytochemicals of Withania somnifera and their perspective on plant defense against stress.- Chapter 12_Interactive role of silicon and phenolics in biotic stress regulation in plants and expression of phenylpropanoid pathway genes.- Chapter 13_Plants Fungal Diseases and Phenolics Response.- Chapter 14_Fungal control through Plant Phenolics – A Biotic constraint.- Chapter 15_Momilactone B and Potential in Biological Control of Weeds.- Chapter 16 Plant Phenolics and their versatile promising role in the management of nematode stress.- Chapter 17 Plant phenolics in alleviating root-knot disease in plants caused by Meloidogyne spp.- Chapter 18 Plant Phenolics Production – A Strategy for Biotic Stress Management.- Chapter 19 Role of Phenolic compounds in disease resistance to plants.- Chapter 20 Plant phenolics compounds and stress management: A review.- Chapter 21 Phenolic Compounds and Nanotechnology: Application during Biotic Stress Management in Agricultural Sector and Occupational Health Impacts.
Chapter 1_ Role of Phenolics in Plant-Microbe Interaction.- A Review.- Chapter 2_ Role of Phenolics in establishing Mycorrhizal association in plants for management of biotic stress.- Chapter 3_ Insights Into Biotic Stress Management By Plants Using Phenolic Compounds.- Chapter 4_Plant Phenolics: Role in biotic stress alleviation and plant microbe interactions.- Chapter 5_ Elucidating the Role of Flavonoids in Countering the Effect of Biotic Stress in Plants.- Chapter 6_Phenolics as Shielding counterparts from plants to combat biotic stress mediated by microbes and nematodes.- Chapter 7_Salicylic Acid: A Phytohormone Of Antistress And Insecticidal Essence.- Chapter 8_Role of plant phenolics in the resistance mechanism of plants against insects.- Chapter 9_ Plant phenolics role in bacterial disease stress Management in Plants.- Chapter 10_Polyphenol Phytoalexins as the Determinants of Plant Disease Resistance.- Chapter 11_Phytochemicals of Withania somnifera and their perspective on plant defense against stress.- Chapter 12_Interactive role of silicon and phenolics in biotic stress regulation in plants and expression of phenylpropanoid pathway genes.- Chapter 13_Plants Fungal Diseases and Phenolics Response.- Chapter 14_Fungal control through Plant Phenolics - A Biotic constraint.- Chapter 15_Momilactone B and Potential in Biological Control of Weeds.- Chapter 16 Plant Phenolics and their versatile promising role in the management of nematode stress.- Chapter 17 Plant phenolics in alleviating root-knot disease in plants caused by Meloidogyne spp.- Chapter 18 Plant Phenolics Production - A Strategy for Biotic Stress Management.- Chapter 19 Role of Phenolic compounds in disease resistance to plants.- Chapter 20 Plant phenolics compounds and stress management: A review.- Chapter 21 Phenolic Compounds and Nanotechnology: Application during Biotic Stress Management in Agricultural Sector and Occupational Health Impacts.
Chapter 1_ Role of Phenolics in Plant-Microbe Interaction.- A Review.- Chapter 2_ Role of Phenolics in establishing Mycorrhizal association in plants for management of biotic stress.- Chapter 3_ Insights Into Biotic Stress Management By Plants Using Phenolic Compounds.- Chapter 4_Plant Phenolics: Role in biotic stress alleviation and plant microbe interactions.- Chapter 5_ Elucidating the Role of Flavonoids in Countering the Effect of Biotic Stress in Plants.- Chapter 6_Phenolics as Shielding counterparts from plants to combat biotic stress mediated by microbes and nematodes.- Chapter 7_Salicylic Acid: A Phytohormone Of Antistress And Insecticidal Essence.- Chapter 8_Role of plant phenolics in the resistance mechanism of plants against insects.- Chapter 9_ Plant phenolics role in bacterial disease stress Management in Plants.- Chapter 10_Polyphenol Phytoalexins as the Determinants of Plant Disease Resistance.- Chapter 11_Phytochemicals of Withania somnifera and their perspective on plant defense against stress.- Chapter 12_Interactive role of silicon and phenolics in biotic stress regulation in plants and expression of phenylpropanoid pathway genes.- Chapter 13_Plants Fungal Diseases and Phenolics Response.- Chapter 14_Fungal control through Plant Phenolics – A Biotic constraint.- Chapter 15_Momilactone B and Potential in Biological Control of Weeds.- Chapter 16 Plant Phenolics and their versatile promising role in the management of nematode stress.- Chapter 17 Plant phenolics in alleviating root-knot disease in plants caused by Meloidogyne spp.- Chapter 18 Plant Phenolics Production – A Strategy for Biotic Stress Management.- Chapter 19 Role of Phenolic compounds in disease resistance to plants.- Chapter 20 Plant phenolics compounds and stress management: A review.- Chapter 21 Phenolic Compounds and Nanotechnology: Application during Biotic Stress Management in Agricultural Sector and Occupational Health Impacts.
Chapter 1_ Role of Phenolics in Plant-Microbe Interaction.- A Review.- Chapter 2_ Role of Phenolics in establishing Mycorrhizal association in plants for management of biotic stress.- Chapter 3_ Insights Into Biotic Stress Management By Plants Using Phenolic Compounds.- Chapter 4_Plant Phenolics: Role in biotic stress alleviation and plant microbe interactions.- Chapter 5_ Elucidating the Role of Flavonoids in Countering the Effect of Biotic Stress in Plants.- Chapter 6_Phenolics as Shielding counterparts from plants to combat biotic stress mediated by microbes and nematodes.- Chapter 7_Salicylic Acid: A Phytohormone Of Antistress And Insecticidal Essence.- Chapter 8_Role of plant phenolics in the resistance mechanism of plants against insects.- Chapter 9_ Plant phenolics role in bacterial disease stress Management in Plants.- Chapter 10_Polyphenol Phytoalexins as the Determinants of Plant Disease Resistance.- Chapter 11_Phytochemicals of Withania somnifera and their perspective on plant defense against stress.- Chapter 12_Interactive role of silicon and phenolics in biotic stress regulation in plants and expression of phenylpropanoid pathway genes.- Chapter 13_Plants Fungal Diseases and Phenolics Response.- Chapter 14_Fungal control through Plant Phenolics - A Biotic constraint.- Chapter 15_Momilactone B and Potential in Biological Control of Weeds.- Chapter 16 Plant Phenolics and their versatile promising role in the management of nematode stress.- Chapter 17 Plant phenolics in alleviating root-knot disease in plants caused by Meloidogyne spp.- Chapter 18 Plant Phenolics Production - A Strategy for Biotic Stress Management.- Chapter 19 Role of Phenolic compounds in disease resistance to plants.- Chapter 20 Plant phenolics compounds and stress management: A review.- Chapter 21 Phenolic Compounds and Nanotechnology: Application during Biotic Stress Management in Agricultural Sector and Occupational Health Impacts.