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|a 2020051130
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|a 9781119644798
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|b .P49 2021
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|a 579/.178
|2 23
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| 245 |
0 |
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|a Phytomicrobiome interactions and sustainable agriculture /
|c edited by Amit Verma, Jitendra Kumar Saini, Abd El-Latif Hesham, Harikesh Bahadur Singh.
|
| 250 |
|
|
|a First edition.
|
| 264 |
|
1 |
|a Hoboken, NJ :
|b John Wiley & Sons Ltd,
|c 2021.
|
| 264 |
|
4 |
|c ©2021
|
| 300 |
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|a 1 online resource.
|
| 336 |
|
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|a text
|b txt
|2 rdacontent
|
| 337 |
|
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|a computer
|b c
|2 rdamedia
|
| 338 |
|
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|a online resource
|b cr
|2 rdacarrier
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| 504 |
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|a Includes bibliographical references and index.
|
| 505 |
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|a Machine generated contents note:
|g 1.1.
|t Introduction /
|r Amit Verma /
|r Shulbhi Verma --
|g 1.2.
|t Root Exudates Composition: Collection and Analysis /
|r Amit Verma /
|r Shulbhi Verma --
|g 1.3.
|t Role of Root Exudates in Shaping Rhizospheric Microbiomes /
|r Amit Verma /
|r Shulbhi Verma --
|g 1.4.
|t Applications of Root Exudation /
|r Amit Verma /
|r Shulbhi Verma --
|g 1.5.
|t Conclusion and Future Prospects /
|r Amit Verma /
|r Shulbhi Verma --
|t References /
|r Amit Verma /
|r Shulbhi Verma --
|g 2.1.
|t Introduction /
|r Kapila Kumar /
|r Prachie Sharma --
|g 2.2.
|t Phytomicrobiome /
|r Kapila Kumar /
|r Prachie Sharma --
|g 2.3.
|t Phytomicrobiome: The Communication via Signaling /
|r Kapila Kumar /
|r Prachie Sharma --
|g 2.4.
|t Proteomics /
|r Kapila Kumar /
|r Prachie Sharma --
|g 2.4.1.
|t Gel-Based Protein Separation Techniques /
|r Kapila Kumar /
|r Prachie Sharma --
|g 2.4.2.
|t Non-Gel Protein Separation Techniques /
|r Kapila Kumar /
|r Prachie Sharma --
|g 2.5.
|t Analysis of Phytomicrobial Interactions Using Proteomics Approaches /
|r Kapila Kumar /
|r Prachie Sharma --
|g 2.6.
|t Conclusion and Future Prospects /
|r Kapila Kumar /
|r Prachie Sharma --
|t References /
|r Kapila Kumar /
|r Prachie Sharma --
|g 3.1.
|t Introduction /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.2.
|t Metagenomics /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.3.
|t Metagenomics of Plant Rhizosphere /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.4.
|t Metagenomics of Plant Phyllosphere /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.5.
|t Metagenomics of Plant Endosphere /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.6.
|t In-silico Tools for Metagenome Analysis /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.6.1.
|t Mothur /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.6.2.
|t Quantitative Insights into Microbial Ecology (QIIME) /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.6.3.
|t MEta Genome Analyzer (MEGAN) /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.7.
|t Recent Progress in Metagenomic Studies of Plant Microbiome /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 3.8.
|t Conclusion and Future Prospects /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|t References /
|r Ravindra Soni /
|r Suresh Chandra Phulara /
|r Balram Sahu /
|r Deep Chandra Suyal --
|g 4.1.
|t Introduction /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.1.1.
|t Abiotic Stress and Phytomicrobiome /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.1.2.
|t Role of Signaling in Phytomicrobiome Interactions /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.2.
|t Phytomicrobiome Signaling Compounds /
|r Saurabh Gongola /
|r Mahaveer P. Sharma /
|r Hemant S. Maheshwari /
|r B. leberlin Prabina /
|r Richa Agnihotri /
|r Ajinath Dukare /
|r Abhishek Bharti --
|g 4.2.1.
|t Root Exudates and Plant Volatiles Compounds /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.2.2.
|t Microbial Volatile Organic Compounds /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.2.3.
|t Quorum Sensing /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.2.4.
|t Underground Phytomicrobiome Signaling /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.3.
|t Mechanisms of Phytomicrobiome Associated with Abiotic Stress Tolerance /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.3.1.
|t Drought Stress Alleviation /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.3.2.
|t Salinity Stress Mitigation /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.3.3.
|t Heavy Metal Toxicity /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.3.4.
|t Low-Temperature Stress /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.3.5.
|t Nutrient Deficiency /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Ajinath Dukare /
|r Hemant S. Maheshwari /
|r Saurabh Gongola /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina --
|g 4.3.6.
|t Flooding or Water Submergence /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.4.
|t Importance of Phytomicrobiome Engineering for Crop Stress Alleviation /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.5.
|t Omics Strategies in Phytomicrobiome Studies /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 4.6.
|t Conclusion and Future Prospects /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|t Acknowledgments /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|t References /
|r Hemant S. Maheshwari /
|r Abhishek Bharti /
|r Richa Agnihotri /
|r Mahaveer P. Sharma /
|r B. leberlin Prabina /
|r Saurabh Gongola /
|r Ajinath Dukare --
|g 5.1.
|t Introduction /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.2.
|t Origin of Phyllosphere Microflora /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.3.
|t Tools to Study Phyllomicrobiome /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.3.1.
|t Conventional Methods /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.3.2.
|t Microscopic Techniques /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.3.3.
|t First-Generation Molecular Techniques /
|r Aparajita Mohanty /
|r Rakhi Dhankhar /
|r Pooja Gulati --
|g 5.3.4.
|t Next-Generation Sequencing Methods /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.3.5.
|t Omics and Bioinformatics Approaches /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.3.6.
|t Other Molecular Methods /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.4.
|t Biodiversity of Phyllosphere /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.5.
|t Microbial Adaptation to Phyllosphere /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.5.1.
|t Adaptation to Abiotic Stresses /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.5.2.
|t Adaptation to Biotic Stresses /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.5.3.
|t Adaptation to Nutrient Scarcity /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.6.
|t Interaction of Phyllomicrobiota with Plants /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.6.1.
|t Positive Interactions /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.6.2.
|t Negative Interactions /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.7.
|t Significance of Phyllomicrobiome Studies /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 5.8.
|t Conclusion and Future Prospects /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|t References /
|r Rakhi Dhankhar /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 6.1.
|t Introduction /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.2.
|t Natural Plant-Microbe Interactions in Rhizosphere /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.3.
|t Molecular Mechanisms in Plant-Microbe Interactions in Rhizosphere /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.4.
|t Biochemical Components in Rhizosphere Signaling /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.
|t Tools and Techniques in Rhizosphere Engineering /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.1.
|t Stable Isotope Probing (SIP) /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.2.
|t DNA Arrays /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.3.
|t Fluorescence In Situ Hybridization (FISH) /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.4.
|t Bioreporters /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.5.
|t Genomics /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.6.
|t Transcriptomics /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.7.
|t Proteomics /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.5.8.
|t Metabolomics /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.6.
|t Rhizosphere Components Amenable to Engineering /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.6.1.
|t Soil Modification /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|
| 505 |
0 |
0 |
|a Contents note continued:
|g 6.6.2.
|t Plant Amendment /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.6.2.1.
|t Root Exudate Modification /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.6.2.2.
|t Root Architecture Modification /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.6.2.3.
|t Enhancing Abiotic Stress Tolerance in Plants /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.6.2.4.
|t Enhancing Biotic Stress Tolerance in Plants /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.6.2.5.
|t Engineering Metabolic Pathways in Plants /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.6.3.
|t Engineering Microbial Populations /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|g 6.7.
|t Conclusion and Future Prospects /
|r Reema Mishra /
|r Aparajita Mohanty /
|r Pooja Gulati /
|r Tripti Grover --
|t Acknowledgment /
|r Reema Mishra /
|r Tripti Grover /
|r Pooja Gulati /
|r Aparajita Mohanty --
|t References /
|r Reema Mishra /
|r Tripti Grover /
|r Pooja Gulati /
|r Aparajita Mohanty --
|g 7.1.
|t Introduction /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.2.
|t Biofilm and Rhizospheric Interactions /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.3.
|t Biofilm Formation at the Root Rhizosphere /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.3.1.
|t Components of Biofilm Matrix /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.3.2.
|t Bacterial Quorum Sensing /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.4.
|t Genetic Features Responsible for Bacterial Cell Adhesion to Plant System /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.4.1.
|t Chemotaxis Motility /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.4.2.
|t Substrate Utilization and Transport /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.4.3.
|t Lipopolysaccharide and Membrane Proteins /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.4.4.
|t Plant Cell Wall Modification /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.4.5.
|t Adhesion and Biofilm Formation /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray /
|r Dibyajit Lahiri /
|r Moupriya Nag --
|g 7.4.6.
|t Stress Protection /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.4.7.
|t Bacterial Secretion System /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.4.8.
|t Transcriptional Regulators and Sensor Proteins /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.5.
|t Nutrient Interactions /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.5.1.
|t Release and Activation of Minerals /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.5.2.
|t Nutrient Recycling /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray /
|r Dibyajit Lahiri --
|g 7.5.3.
|t Nitrogen Dynamics /
|r Moupriya Nag /
|r Dibyajit Lahiri /
|r Bandita Dutta /
|r Rina Rani Ray /
|r Sayantani Garai --
|g 7.5.4.
|t Ionic Modification /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray /
|r Dibyajit Lahiri --
|g 7.6.
|t Biotic Interaction /
|r Rina Rani Ray /
|r Bandita Dutta /
|r Sayantani Garai /
|r Moupriya Nag /
|r Dibyajit Lahiri --
|g 7.6.1.
|t Symbiosis /
|r Dibyajit Lahiri /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray /
|r Moupriya Nag --
|g 7.6.2.
|t Synergy /
|r Dibyajit Lahiri /
|r Rina Rani Ray /
|r Bandita Dutta /
|r Sayantani Garai /
|r Moupriya Nag --
|g 7.6.3.
|t Competition /
|r Rina Rani Ray /
|r Bandita Dutta /
|r Sayantani Garai /
|r Moupriya Nag /
|r Dibyajit Lahiri --
|g 7.6.4.
|t Antagonism /
|r Rina Rani Ray /
|r Bandita Dutta /
|r Sayantani Garai /
|r Moupriya Nag /
|r Dibyajit Lahiri --
|g 7.6.5.
|t Pathogenesis /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|g 7.7.
|t Conclusion and Future Prospects /
|r Dibyajit Lahiri /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray --
|t References /
|r Moupriya Nag /
|r Sayantani Garai /
|r Bandita Dutta /
|r Rina Rani Ray /
|r Dibyajit Lahiri --
|g 8.1.
|t Introduction /
|r Nimmy Srivastava --
|g 8.2.
|t Phytoremediation /
|r Nimmy Srivastava --
|g 8.2.1.
|t Process of Phytoremediation /
|r Nimmy Srivastava --
|g 8.2.2.
|t Strategies for Phytoremediation /
|r Nimmy Srivastava --
|g 8.3.
|t Phytomicrobe Interactions and Rhizomediation /
|r Nimmy Srivastava --
|g 8.3.1.
|t Principle of Phytomicrobiome Interaction During Rhizomediation /
|r Nimmy Srivastava --
|g 8.3.2.
|t Removal of Inorganic Contaminants /
|r Nimmy Srivastava --
|g 8.3.3.
|t Removal of Organic Pollutants /
|r Nimmy Srivastava --
|g 8.3.4.
|t Factors Affecting Rhizomediation /
|r Nimmy Srivastava --
|g 8.4.
|t Conclusion and Future Prospects /
|r Nimmy Srivastava --
|t References /
|r Nimmy Srivastava --
|g 9.1.
|t Introduction /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.2.
|t Engineering the Rhizosphere /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.2.1.
|t Rhizosphere and Rhizobia /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.2.2.
|t Root Exudates: Chemical Nature and Types /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.2.3.
|t Factors Affecting Root Exudate /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.3.
|t Engineering Soil Microbial Populations and Plant-Microbe Interactions /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.3.1.
|t Microorganisms in Soil /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.3.2.
|t Soil Modification: Altering Microbial Populations /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.
|t Plant Growth-Promoting Rhizobacteria: Mechanisms, Potential, and Usages /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.1.
|t Direct Mechanisms /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.1.1.
|t Biological N2 Fixation /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.1.2.
|t Phosphate Solubilization /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.1.3.
|t Zinc Solubilization /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.1.4.
|t Siderophore Production /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.1.5.
|t Production of Phytohormones /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.1.6.
|t ACC (1-Aminocyclopropane-1-Carboxylate) Deaminase Activity /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.4.2.
|t Indirect Mechanisms /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.5.
|t Plant-Microbe Interaction /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.6.
|t Biofertilizers and its Applications /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.7.
|t Plant Genetic Engineering /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 9.8.
|t Conclusion and Future Prospects /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|t Acknowledgments /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|t References /
|r Pankaj Bhatt /
|r Kalpana Bhatt --
|g 10.1.
|t Introduction /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.2.
|t Impact of Bhoochetna Movement in Southern India /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.3.
|t Sustainable Agriculture /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.3.1.
|t Healthy Soil and Soil Quality /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.3.2.
|t Soil Quality /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.3.3.
|t Soil Quality Indicator /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.3.4.
|t Soil Quality Index /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.4.
|t Factors to Be Considered While Selecting a Soil Amendment /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.5.
|t Advantages of Soil Amendments /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.6.
|t Land Modeling /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.7.
|t Major Applications of Soil Amendments /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.7.1.
|t Phyto-Stabilization in Polluted or Contaminated Soils /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.7.2.
|t Restoration of Soil /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.7.2.1.
|t Soil Acidity/pH Soil Amendments /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.7.2.2.
|t Mineral Soil Amendments and Conditioners /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.7.2.3.
|t Different Types of Inorganic Amendments /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.8.
|t Combination Strategy for Soil Quality Improvement /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 10.9.
|t Conclusion and Future Prospects /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|t References /
|r Shweta Kulshreshtha /
|r Sunita Chauhan --
|g 11.1.
|t Introduction /
|r Neha Trivedi --
|g 11.2.
|t Microbes and Plants /
|r Neha Trivedi --
|g 11.2.1.
|t Abiotic Stress Responses and Microbe-Mediated Mitigation in Plants /
|r Neha Trivedi --
|g 11.2.2.
|t Microbial-Induced Response to Stresses /
|r Neha Trivedi --
|g 11.3.
|t Response of Abiotic Response on Plant /
|r Neha Trivedi --
|g 11.3.1.
|t Induced Systemic Tolerance (IST) /
|r Neha Trivedi --
|g 11.3.2.
|t Metabolic Changes in Plants Induced by Microbes During Stress /
|r Neha Trivedi --
|g 11.3.2.1.
|t Metabolic Cross-Talk in Plants After Stress Induction /
|r Neha Trivedi --
|g 11.3.2.2.
|t Activation of Antioxidant Mechanism /
|r Neha Trivedi --
|g 11.3.2.3.
|t Activation of Systemically Induced Resistance /
|r Neha Trivedi --
|g 11.4.
|t Role of Phytohormones in Increasing Abiotic and Biotic Stress Tolerance /
|r Neha Trivedi --
|g 11.5.
|t Gene Transfer in Plants /
|r Neha Trivedi --
|g 11.6.
|t Conclusion and Future Prospects /
|r Neha Trivedi --
|t References /
|r Neha Trivedi --
|g 12.1.
|t Introduction /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|g 12.2.
|t Plant-Associated Microbial Communities /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|
| 505 |
0 |
0 |
|a Contents note continued:
|g 12.3.
|t Beneficial Effects of Plant-Associated Microbial Communities /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|g 12.3.1.
|t Rhizoremediation /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|g 12.3.2.
|t Plant Growth-Promoting Rhizobacteria (PGPR) /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|g 12.3.3.
|t Biotic and Abiotic Stress Resistance /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|g 12.3.4.
|t Signalomics /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|g 12.4.
|t Role of Microbial Processing (Signals) in Facilitating Plant Growth /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|g 12.5.
|t Conclusion and Future Prospects /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|t Acknowledgments /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|t References /
|r Madan L. Verma /
|r Varsha Rani /
|r Rekha Kushwaha /
|r Deepka Sharma /
|r Sanjeev Kumar /
|r Reena Kumari --
|g 13.1.
|t Introduction /
|r Hina Bonsai --
|g 13.2.
|t Recent Trends and Approaches /
|r Hina Bonsai --
|g 13.3.
|t Computing for Biology /
|r Hina Bonsai --
|g 13.4.
|t Bioinformatics in Microbial Research /
|r Hina Bonsai --
|g 13.5.
|t Phyllosphere Microbiome Studies Based on Genome-Wide Association /
|r Hina Bonsai --
|g 13.6.
|t Omics Strategies and Their Integration /
|r Hina Bonsai --
|g 13.6.1.
|t Metagenomics /
|r Hina Bonsai --
|g 13.6.2.
|t Metatranscriptomics /
|r Hina Bonsai --
|g 13.6.3.
|t Metabolomics /
|r Hina Bonsai --
|g 13.6.4.
|t Proteomics /
|r Hina Bonsai --
|g 13.7.
|t Conclusion and Future Prospects /
|r Hina Bonsai --
|t References /
|r Hina Bonsai --
|g 14.1.
|t Introduction /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.2.
|t Chronological Events of Zinc Biology /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.3.
|t Role of Zinc in Living System /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.3.1.
|t Essentiality of Zinc in Humans /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.3.2.
|t Essentiality of Zinc in Plants /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.4.
|t Zinc Deficiency vs. Zinc Toxicity in Crop Plants /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.5.
|t Availability of Zinc in Soil Environment /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.6.
|t Factors Affecting Zinc Availability to Plants /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.7.
|t Response of Legume Crops to Zinc /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal /
|r Pawan Saini /
|r Mudasir Gani --
|g 14.8.
|t Microbial Mediated Zinc Solubilization in Legume Crops /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.8.1.
|t Zinc-Solubilizing Bacteria (ZnSB) /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.8.2.
|t Zinc-Solubilizing Fungi (ZnSF) /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 14.9.
|t Conclusion and Future Prospects /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|t References /
|r Pawan Saini /
|r Mudasir Gani /
|r Pooja Saint Arun Kumar /
|r Sharon Nagpal --
|g 15.1.
|t Introduction /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.2.
|t Significance of Phyllospheremicrobiota /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.
|t Phyllosphere Microorganisms as Plant Growth Regulator /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.1.
|t Plant Growth Hormones Production by Phyllosphere Microorganisms /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.2.
|t Phosphorus Solubilization by Phyllosphere Microorganisms /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.3.
|t Siderophores Production by Phyllosphere Microorganisms /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.4.
|t Phyllosphere Microorganisms as Biocontrol Agents Against the Phytopathogens /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.5.
|t Phyllosphere Microorganisms to Reduce Biotic and Abiotic Stress /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.6.
|t Synthesis of 1-Aminocyclopropane-1-Carboxylate Deaminase (ACC) /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.7.
|t Phyllosphere Microorganisms in Nitrogen-Fixation /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.8.
|t Frost Injury and Frost Control by Altering the Phyllosphere Microbiota /
|r Neha Patil /
|r Aparna Gunjal /
|r Meghmala Waghmode /
|r Sonali Shinde --
|g 15.3.9.
|t Remediation of Toxic Pollutants /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.10.
|t Plant Probiotics /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.11.
|t Role of Phyllosphere Microorganisms in Climate Change /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.12.
|t Phyllosphere Microorganisms in Nutrient Yield and Increase of Plant Growth /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.3.13.
|t Plant Hormones as Colonization Mediators of the Plant Leaves /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.4.
|t Plant-Pathogen Interactions Mediated by Phyllosphere Microbiome /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.4.1.
|t Interaction Dependent on the Ionome /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.4.2.
|t Role of Secretory Systems and Secretory Products /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.4.3.
|t Quorum Sensing /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|g 15.5.
|t Conclusion and Future Prospects /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal --
|t References /
|r Meghmala Waghmode /
|r Sonali Shinde /
|r Neha Patil /
|r Aparna Gunjal.
|
| 533 |
|
|
|a Electronic reproduction.
|b Ann Arbor, MI
|n Available via World Wide Web.
|
| 588 |
|
|
|a Description based on online resource; title from digital title page (viewed on February 25, 2021).
|
| 650 |
|
0 |
|a Plant-microbe relationships.
|
| 650 |
|
0 |
|a Agricultural microbiology.
|
| 650 |
|
0 |
|a Plants
|x Microbiology.
|
| 650 |
|
0 |
|a Plants
|x Effect of stress on.
|
| 650 |
|
0 |
|a Sustainable agriculture.
|
| 700 |
1 |
|
|a Verma, Amit,
|d 1983-
|e editor.
|
| 710 |
2 |
|
|a ProQuest (Firm)
|
| 776 |
0 |
8 |
|i Print version:
|t Phytomicrobiome interactions and sustainable agriculture
|b First edition.
|d Hoboken, NJ : Wiley-Blackwell, 2021.
|z 9781119644620
|w (DLC) 2020051129
|
| 856 |
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