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Phytomicrobiome interaction...

Phytomicrobiome interactions and sustainable agriculture

Verma, Amit (1983-),

John Wiley & Sons Ltd 2021

"Recent research in plant sciences have proved that many of the mechanisms cannot be understood while ignoring the surrounding microbial communities. Plants are challenged due to their sessile life and lack of locomotion which makes them prone to various unavoidable stress conditions. Various plant-microbe interactions result in the formation of plant microbiome and help plants tackle abiotic and biotic stresses. Plant-microbe interactions play a crucial role in plant growth and metabolism. Plants adapt to their terrestrial environment with the help of various microbial communities involved in nutrient acquisition and abatement of various biotic and abiotic factors induced stress conditions. Plants utilize sunlight for photosynthetic reduction of carbon and it acts as energy entry point due to which plant associated microbes have access to both via different ecological associations. Recently it has been found that various beneficial microbes help in plant development, starting from the seed germination to flowering and fruiting. Previously plant-microbe interactions were more or less confined to the investigations of root associated microbes, primarily in the "Rhizosphere". However, the microbial community associated with the shoot system of plants has also been found to play a beneficial role in the plant defense and its development. Many of the leaf associated microbes are found to be having an important role in imparting defense against various plant pathogens and abiotic stress conditions by affecting the plant activities. Thus, this gave rise to the concept of plant development along with its microbial community which is collectively known as "Phytomicrobiome" and helps the plant in all phases of life. The concept of Phytomicrobiomeis is revolutionizing plant science investigations and helping in the exploration of plant development and defence responses in cutting edge ways. This emerging area will help in increasing the sustainable production of agricultural crops, and better management of plant diseases, therefore, there is an urgent need to spread awareness about the concepts, current challenges and recent developments in the field of phytomicrobiome research and its application in sustainable agriculture"--

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monografia Rebiun27831581 https://catalogo.rebiun.org/rebiun/record/Rebiun27831581 m o d cr cnu---unuuu 201116t20212021nju ob 001 0 eng 9781119644798 1119644798 9781119644828 1119644828 9781119644811 111964481X 9781119644620 UPVA 997690284803706 UPM 991006130884304212 CBUC 991013173248106708 CBUC 991001019777906712 CBUC 991010730085706709 UPCT u660571 DLC eng DLC OCLCO YDX OCLCF DG1 UKAHL YDX 579/.178 23 Phytomicrobiome interactions and sustainable agriculture Recurso electrónico] edited by Amit Verma, Jitendra Kumar Saini, Abd El-Latif Hesham, Harikesh Bahadur Singh 1st ed Hoboken, NJ John Wiley & Sons Ltd 2021 Hoboken, NJ Hoboken, NJ John Wiley & Sons Ltd 1 recurso electrónico 1 recurso electrónico Text txt rdacontent computer c rdamedia. online resource cr rdacarrier. Wiley ebooks Incluye referencias bibliográficas e índice Plant Root Exudate Analysis / Shulbhi Verma, Amit Verma -- Phytoproteomics / Prachie Sharma, Kapila Kumar -- Metagenomics / Ravindra Soni, Deep Chandra Suyal, Balram Sahu, Suresh Chandra Phulara -- Combating the Abiotic Stress Through Phytomicrobiome Studies / Hemant S Maheshwari, Abhishek Bharti, Richa Agnihotri, Ajinath Dukare, B Jeberlin Prabina, Saurabh Gangola, Mahaveer P Sharma -- Microbial Diversity of Phyllosphere / Rakhi Dhankhar, Aparajita Mohanty, Pooja Gulati -- Rhizosphere Engineering / Reema Mishra, Tripti Grover, Pooja Gulati, Aparajita Mohanty -- Plant Communication with Associated / Dibyajit Lahiri, Moupriya Nag, Sayantani Garai, Bandita Dutta, Rina Rani Ray -- Phytomicrobiome / Nimmy Srivastava -- Rhizospheric Biology / Kalpana Bhatt, Pankaj Bhatt -- Application of Inorganic Amendments to Improve Soil Fertility / Sunita Chauhan, Shweta Kulshreshtha -- Improved Plant Resistance by Phytomicrobiome Community Towards Biotic and Abiotic Stresses / Neha Trivedi -- Bioprospecting / Madan L Verma, Varsha Rani, Reena Kumari, Deepka Sharma, Sanjeev Kumar, Rekha Kushwaha -- Advances in Omics and Bioinformatics Tools for Phyllosphere Studies / Hina Bansal -- Microbial Mediated Zinc Solubilization in Legumes for Sustainable Agriculture / Pawan Saini, Sharon Nagpal, Pooja Saini, Arun Kumar, Mudasir Gani -- Composition and Interconnections in Phyllomicrobiome / Meghmala Waghmode, Aparna Gunjal, Neha Patil, Sonali Shinde "Recent research in plant sciences have proved that many of the mechanisms cannot be understood while ignoring the surrounding microbial communities. Plants are challenged due to their sessile life and lack of locomotion which makes them prone to various unavoidable stress conditions. Various plant-microbe interactions result in the formation of plant microbiome and help plants tackle abiotic and biotic stresses. Plant-microbe interactions play a crucial role in plant growth and metabolism. Plants adapt to their terrestrial environment with the help of various microbial communities involved in nutrient acquisition and abatement of various biotic and abiotic factors induced stress conditions. Plants utilize sunlight for photosynthetic reduction of carbon and it acts as energy entry point due to which plant associated microbes have access to both via different ecological associations. Recently it has been found that various beneficial microbes help in plant development, starting from the seed germination to flowering and fruiting. Previously plant-microbe interactions were more or less confined to the investigations of root associated microbes, primarily in the "Rhizosphere". However, the microbial community associated with the shoot system of plants has also been found to play a beneficial role in the plant defense and its development. Many of the leaf associated microbes are found to be having an important role in imparting defense against various plant pathogens and abiotic stress conditions by affecting the plant activities. Thus, this gave rise to the concept of plant development along with its microbial community which is collectively known as "Phytomicrobiome" and helps the plant in all phases of life. The concept of Phytomicrobiomeis is revolutionizing plant science investigations and helping in the exploration of plant development and defence responses in cutting edge ways. This emerging area will help in increasing the sustainable production of agricultural crops, and better management of plant diseases, therefore, there is an urgent need to spread awareness about the concepts, current challenges and recent developments in the field of phytomicrobiome research and its application in sustainable agriculture"-- Provided by publisher Forma de acceso: World Wide Web Verma, Amit 1983-) editor

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monografia Rebiun27831581 https://catalogo.rebiun.org/rebiun/record/Rebiun27831581 m o d cr cnu---unuuu 201116t20212021nju ob 001 0 eng 9781119644798 1119644798 9781119644828 1119644828 9781119644811 111964481X 9781119644620 UPVA 997690284803706 UPM 991006130884304212 CBUC 991013173248106708 CBUC 991001019777906712 CBUC 991010730085706709 UPCT u660571 DLC eng DLC OCLCO YDX OCLCF DG1 UKAHL YDX 579/.178 23 Phytomicrobiome interactions and sustainable agriculture Recurso electrónico] edited by Amit Verma, Jitendra Kumar Saini, Abd El-Latif Hesham, Harikesh Bahadur Singh 1st ed Hoboken, NJ John Wiley & Sons Ltd 2021 Hoboken, NJ Hoboken, NJ John Wiley & Sons Ltd 1 recurso electrónico 1 recurso electrónico Text txt rdacontent computer c rdamedia. online resource cr rdacarrier. Wiley ebooks Incluye referencias bibliográficas e índice Plant Root Exudate Analysis / Shulbhi Verma, Amit Verma -- Phytoproteomics / Prachie Sharma, Kapila Kumar -- Metagenomics / Ravindra Soni, Deep Chandra Suyal, Balram Sahu, Suresh Chandra Phulara -- Combating the Abiotic Stress Through Phytomicrobiome Studies / Hemant S Maheshwari, Abhishek Bharti, Richa Agnihotri, Ajinath Dukare, B Jeberlin Prabina, Saurabh Gangola, Mahaveer P Sharma -- Microbial Diversity of Phyllosphere / Rakhi Dhankhar, Aparajita Mohanty, Pooja Gulati -- Rhizosphere Engineering / Reema Mishra, Tripti Grover, Pooja Gulati, Aparajita Mohanty -- Plant Communication with Associated / Dibyajit Lahiri, Moupriya Nag, Sayantani Garai, Bandita Dutta, Rina Rani Ray -- Phytomicrobiome / Nimmy Srivastava -- Rhizospheric Biology / Kalpana Bhatt, Pankaj Bhatt -- Application of Inorganic Amendments to Improve Soil Fertility / Sunita Chauhan, Shweta Kulshreshtha -- Improved Plant Resistance by Phytomicrobiome Community Towards Biotic and Abiotic Stresses / Neha Trivedi -- Bioprospecting / Madan L Verma, Varsha Rani, Reena Kumari, Deepka Sharma, Sanjeev Kumar, Rekha Kushwaha -- Advances in Omics and Bioinformatics Tools for Phyllosphere Studies / Hina Bansal -- Microbial Mediated Zinc Solubilization in Legumes for Sustainable Agriculture / Pawan Saini, Sharon Nagpal, Pooja Saini, Arun Kumar, Mudasir Gani -- Composition and Interconnections in Phyllomicrobiome / Meghmala Waghmode, Aparna Gunjal, Neha Patil, Sonali Shinde "Recent research in plant sciences have proved that many of the mechanisms cannot be understood while ignoring the surrounding microbial communities. Plants are challenged due to their sessile life and lack of locomotion which makes them prone to various unavoidable stress conditions. Various plant-microbe interactions result in the formation of plant microbiome and help plants tackle abiotic and biotic stresses. Plant-microbe interactions play a crucial role in plant growth and metabolism. Plants adapt to their terrestrial environment with the help of various microbial communities involved in nutrient acquisition and abatement of various biotic and abiotic factors induced stress conditions. Plants utilize sunlight for photosynthetic reduction of carbon and it acts as energy entry point due to which plant associated microbes have access to both via different ecological associations. Recently it has been found that various beneficial microbes help in plant development, starting from the seed germination to flowering and fruiting. Previously plant-microbe interactions were more or less confined to the investigations of root associated microbes, primarily in the "Rhizosphere". However, the microbial community associated with the shoot system of plants has also been found to play a beneficial role in the plant defense and its development. Many of the leaf associated microbes are found to be having an important role in imparting defense against various plant pathogens and abiotic stress conditions by affecting the plant activities. Thus, this gave rise to the concept of plant development along with its microbial community which is collectively known as "Phytomicrobiome" and helps the plant in all phases of life. The concept of Phytomicrobiomeis is revolutionizing plant science investigations and helping in the exploration of plant development and defence responses in cutting edge ways. This emerging area will help in increasing the sustainable production of agricultural crops, and better management of plant diseases, therefore, there is an urgent need to spread awareness about the concepts, current challenges and recent developments in the field of phytomicrobiome research and its application in sustainable agriculture"-- Provided by publisher Forma de acceso: World Wide Web Verma, Amit 1983-) editor