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  • 1
    Online Resource
    Online Resource
    Plant Stress Mitigators : Action and Application (2022)
    Singapore :Springer Nature Singapore :
    Details
    Keywords: Stress (Physiology). ; Plants. ; Botany. ; Agriculture. ; Microbiology. ; Plant Stress Responses. ; Plant Science. ; Agriculture. ; Microbiology.
    Description / Table of Contents: Chapter 1. Climate change impact on alteration of plant traits -- Chapter 2. Climate change: A key factor for regulating microbial interaction with plants -- Chapter 3. Climate Change and Soil Fertility -- Chapter 4. IMPACTS ON PLANT GROWTH AND DEVELOPMENT UNDER STRESS -- Chapter 5. Consequences of Climate Change over Soil Dynamics: An Update -- 6. Physiological effects of drought stress in plants -- 7. Bioremediation Based Microorganisms Decelerate Due to Climate Change to Breakdown Pollutants -- 8. Impact of climate change on soil microorganisms regulating nutrient transformation -- 9. CLIMATE CHANGE: CURRENT SCENARIO, ITS IMPLICATIONS ON SOIL HEALTH AND MITIGATION -- 10. Habitat Imposed Stress Tolerance by Plants via Soil-Microbe Interactions -- 11. Habitat Imposed Stress Tolerance by Plants via Soil-Microbe Interactions -- 12. IAA biosynthesis in bacteria and its role in plant-microbe interaction for drought stress management -- 13. Role of Plant–microbe interactions in combating salinity stress -- 14. Beneficial rhizobacteria unveiling plant fitness under climate change -- 15. Microorganisms: The viable approach for mitigation of abiotic stress -- 16. Emerging microbe mediated advanced technology to mitigate climatic stresses in plants and soil health: current perspectives and future challenges -- 17. Biotechnological approaches for mitigation and adaptation of climate change.-18. Use of synthetic ecology approach in exploring plant-microbial interactions under habitat-imposed stresses.-19. Drought tolerance mechanisms in crop plants -- 20. MICROBES MEDIATED AMELIORATION OF SALINITY STRESS IN CROPS -- 21. EMERGING TECHNOLOGIES TO UNDERSTAND PLANT‐MICROBE RESPONSES ON CLIMATIC CHANGE -- 22. Functional diversity of microbes in rhizosphere: a key player for soil health conservation under changing climatic conditions -- 23. The Role of Polyamines in Drought Tolerance in Plants -- 24. Portfolio of drought stress response and genetic enhancement strategies for development of future drought-tolerant crop -- 25. ALLEVIATING ABIOTIC STRESS IN PLANTS USING NANOPARTICLES -- 26. Climate change mitigation through agroforestry: socioeconomic and environmental consequences -- 27. An overview on Soybean mosaic virus and its management -- 28. An overview of microbial mediated alleviation of abiotic stresses response in plant.
    Abstract: This edited compilation explores role of climate change in plant stresses, their mitigators, their role, mode of action and, application. The book discusses molecular and physiological mechanisms involved in plant stress physiology and the working mechanism of stress mitigators. It collates information from latest research conducted on plant stress mitigators, and highlights new strategies related to beneficial microorganisms that support plants under various stresses. These mitigators have gained attention of both farmers and industry for their application in organic farming. Plant stress mitigators have a huge global market. They follow different action mechanism for enhancing plant growth and stress tolerance capacity including nutrient solubilizing and mobilizing, bicontrol activity against plant pathogens, phytohormone production, soil conditioning and many more unrevealed mechanisms. This book elaborates stress alleviation action of different plant stress mitigators on crops grown under optimal and sub-optimal growing conditions. It addresses mainly three subthemes -- (1) Climate change impacts on plant and soil health (2) Microbe mediated plant stress mitigation and (3) Advances in plant stress mitigation. The book is a relevant reading for Post graduate students, researchers in the field of plant stress physiology, Plant-microbe interaction, biochemistry and plant molecular biology and industries related to seed production, biofertilizer and biopesticides.
    Type of Medium: Online Resource
    Pages: XI, 596 p. 1 illus. , online resource.
    Edition: 1st ed. 2022.
    ISBN: 9789811677595
    URL: https://doi.org/10.1007/978-981-16-7759-5
    DOI: 10.1007/978-981-16-7759-5
    DDC: 581.788
    Language: English
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  • 2
    Online Resource
    Online Resource
    Climate Change and the Microbiome : Sustenance of the Ecosphere (2021)
    Cham :Springer International Publishing :
    Details
    Keywords: Microbial populations. ; Soil science. ; Bioclimatology. ; Microbial ecology. ; Agricultural biotechnology. ; Microbial Communities. ; Soil Science. ; Climate Change Ecology. ; Environmental Microbiology. ; Agricultural Biotechnology. ; Microbial Ecology.
    Description / Table of Contents: Part I. Impact of Climate Change on Soil Microbiome -- Chapter 1. Impact of Climate Change on Functional Root-Derived Signals -- Chapter 2. Climate Change Alters Microbial Communities -- Chapter 3. The Potential Impact of Climate Change on Soil Health, Soil Biota, and Soil Properties: A Review -- Chapter 4. Impact of Climate Change on Soil Fertility -- Chapter 5. Impact of Climate Change on Soil Microbes Involved in Biogeochemical Cycling -- Chapter 6. Climate Change with Its Impacts on Soil and Soil Microbiome Regulating Biogeochemical Nutrient Transformations -- Chapter 7. Climate Change and Its Impact on Soil Properties -- Chapter 8. Climate Change Impacts on Plant–Microbe Interactions -- Chapter 9. Climate Changes in Soil Microorganism–Plant Interactions -- Chapter 10. Microbial Sequestration of Atmospheric Carbon Dioxide -- Chapter 11. Direct and Indirect Impacts of Climatic Change on Soil Communities and Plants -- Chapter 12. How Climate Change Alters Soil Productivity -- Part II. Impact of Climate Change on Plant Health -- Chapter 13. Crop Microbiome Engineering and Relevance in Abiotic Stress Tolerance -- Chapter 14. Impact of Abiotic Stress on Plant Brassinosteroids -- Chapter 15. The Effects of Climate Change on the Alteration of Plant Traits -- Chapter 16. Impact of Climate Change on miRNA: Bioinformatics Perspectives -- Chapter 17. Climate Change on Plant Community Structure and Ecosystem Function -- Chapter 18. Impact of Climate Change on the Importance of Plant Growth-Promoting Microbes in the Rhizosphere -- Chapter 19. Impact of Climate on Soil Microbes and Plant Health -- Chapter 20. Climate Change and Plant Diversity: Threats and Opportunities -- Chapter 21. Impact of Climate Change on Functional AM Fungi in Rhizosphere -- Part III. Impact of Climate Change on Soil-Plant Dynamics and Functionality -- Chapter 22. Phytoremediation of Polycyclic Aromatic Hydrocarbons-Contaminated Soils -- Chapter 23. The Impact of Climate Change on Forest Tree Species Dieback and Changes in Their Distribution -- Chapter 24. Climate Change Impacts on Soil Microorganisms that Regulate Nutrient Transformations -- Chapter 25. Deployment of Benign Bacterial Strains to Improve Soil Productivity Under Drought Stress -- Chapter 26. Biogeochemical Cycles in Soil Microbiomes in Response to Climate Change -- Chapter 27. Climate Change and Nutrients Dynamics of Soil -- Chapter 28. Impact of Climate Change on Soil Fertility -- Chapter 29. Use of Bacterial Strains to Improve Soil Productivity Under Salt Stress -- Chapter 30. Impact of Climate Change on Soil Functionality -- Part IV. Impact of Climate Change on Ecosystem Functioning -- Chapter 31. The Impacts of Climate Change on Soil Fertility in Nigeria -- Chapter 32. Rising Greenhouse Gases in the Atmosphere: The Microbes Can Be a Solution—A Review -- Chapter 33. Battling Climate Change: Improving Crop Productivity and Quality by Increasing Photosynthetic Efficiency, Deploying Microbiome Metagenomics, and Effectively Utilizing Digital Technology -- Chapter 34. Socio-Economic Assessment of Climate Change Impact on Biodiversity and Ecosystem Services -- Chapter 35. Impact of Climate Change on Localized Plant–Microbe Signalling and Technology Advancement in Microbial Quorum Sensing -- Chapter 36. Molecular and Cellular Mechanisms Underlying the Microbial Survival Strategies: Insights into Temperature and Nitrogen Adaptations. .
    Abstract: This book highlights the impact of climate change on the soil microbiome and its subsequent effects on plant health, soil-plant dynamics, and the ecosphere. It also discusses emerging ideas to counteract these effects, e.g., through agricultural applications of functional microbes, to ensure a sustainable ecosystem. Climate change is altering the soil microbiome distributions and thus the interactions in microbiome and plant‐soil microorganism. Improvement of our understanding of microbe-microbe and plant-microbe interaction under changing climatic conditions is essential, because the overall impact of these interactions under varying adverse environmental conditions is lacking. This book has been designed to understand the impact of climate change, i.e., mainly salt and drought stress, on the soil microbiome and its impact on plant, yield, and the ecosphere. The book is organized into four parts: The first part reviews the impact of climate change on the diversity and richness of the soil microbiome. The second part addresses effects of climate change on plant health. The third part discusses effects on soil-plant dynamics and functionality, e.g., soil productivity. The final part deals with the effects of climate change on ecosystem functioning and also discusses potential solutions. The book will appeal to students and researchers working in the area of soil science, agriculture, molecular biology, plant physiology, and biotechnology. .
    Type of Medium: Online Resource
    Pages: VIII, 748 p. 79 illus., 68 illus. in color. , online resource.
    Edition: 1st ed. 2021.
    ISBN: 9783030768638
    Series Statement: Soil Biology, 63
    URL: https://doi.org/10.1007/978-3-030-76863-8
    DOI: 10.1007/978-3-030-76863-8
    DDC: 579.1788
    Language: English
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  • 3
    Online Resource
    Online Resource
    Microbial Metatranscriptomics Belowground (2021)
    Singapore :Springer Nature Singapore :
    Details
    Keywords: Microbiology. ; Genetics. ; Plant physiology. ; Microbial ecology. ; Ecology . ; Microbiology. ; Genetics and Genomics. ; Plant Physiology. ; Microbial Ecology. ; Ecology.
    Description / Table of Contents: Chapter 1. Metatranscriptomics in Microbiome study: A comprehensive approach -- Chapter 2. Molecular Tools to Explore Rhizosphere Microbiome -- Chapter 3. Relevance of metatranscriptomics in symbiotic associations between plants and rhizosphere microorganisms -- Chapter 4. Chemical Signal Dissemination through Infochemicals -- Chapter 5. Nitrogen fixation through genetic engineering: A future systemic approach for Nitrogen fixation -- Chapter 6. Functional AM fungi in the rhizopshere of fruit crops -- Chapter 7. Importance of PGPRs in rhizosphere -- Chapter 8. Flavonoid Infochemicals: Unraveling insights of rhizomicrobiome interactions -- Chapter 9. Augmenting the abiotic stress tolerance in plants through microbial association -- Chapter 10. Role of functional defense signal in plant -microbe interactions -- Chapter 11. Understanding rhizosphere through metatranscriptomics approaches -- Chapter 12. Rhizospheric microbial communities: occurrence, distribution and functions -- Chapter 13. Psychrotrophic Microbes: Biodiversity, Adaptation, and Implications -- Chapter 14. Significance of belowground microbial-rhizoshphere interactions -- Chapter 15. Functional niche under abiotic stress -- Chapter 16. Functional Diversity in Rhizosphere Microbial Community: Concept to Applications -- Chapter 17. Epiphytic Microbes of roots: Diversity and Significance -- Chapter 18. Evaluation of dynamic microbiome ecology within the plant roots -- Chapter 19. Maneuvering Soil Microbiome And Their Interactions: A Resilient Technology For Conserving Soil And Plant Health -- Chapter 20. Exploration of Rhizospheric Microbial Diversity of the Indian Sunderbans - a World Heritage Site -- Chapter 21. Advances and challenges in metatranscriptomic analysis -- Chapter 22. Metatranscriptomics: A Promising Tool to Depict Dynamics of Microbial Community Structure and Function -- Chapter 23. A pipeline for assessment of Pathogenic Load in the Environment using Microbiome Analysis -- Chapter 24. High Throughput analysis to decipher bacterial diversity and their functional properties in fresh water bodies -- Chapter 25. Functional defense signals in plants -- Chapter 26. Metatranscriptomic: A recent advancement to explore and understand rhizosphere -- Chapter 27. Advances in Biotechnological tools and techniques for metatranscriptomics -- Chapter 28. Microbes and soil health for sustainable crop production -- Chapter 29. Molecular Mechanisms Deciphering Cross-Talk Between Quorum Sensing Genes And Major Iron Regulons In Rhizospheric Communities -- Chapter 30. Exploring the Potential of Below ground Microbiome: Mechanism of action, Applications & Commercial Challenges -- Chapter 31. Plant growth promoting bacteria (PGPB) - a new perspective in abiotic stress management of crop plants.
    Abstract: The book emphasizes role of functional microbes in soil to improve fertility and plant health in agro-ecosystem. In this compendium main emphasis is on occurrence and distribution of microbial communities, In situ active microbial quorum in rhizosphere, metratranscriptomics for microflora- and fauna, and fnctional diversity in rhizosphere. The book also highlights the importance of PGPRs in rhizosphere, root endotrophic microbes, functional niche under biotic stress, functional niche under abiotic stress, functional root derived signals, as well as functional microbe derived signals. Approaches deployed in metatranscriptomics, and molecular Tools used in rhizosphere are also discussed in detail. The book presents content is useful for students, academicians, researchers working on soil rhizosphere and as a policy document on sustenance of agriculture.
    Type of Medium: Online Resource
    Pages: XIII, 679 p. 64 illus., 50 illus. in color. , online resource.
    Edition: 1st ed. 2021.
    ISBN: 9789811597589
    URL: https://doi.org/10.1007/978-981-15-9758-9
    DOI: 10.1007/978-981-15-9758-9
    DDC: 579
    Language: English
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  • 4
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    Superspin glassy behaviour of La0.7Ca0.3Mn0.85Al0.15O3 thin film (2014)
    American Institute of Physics (AIP)
    Details
    Publication Date: 2014-07-19
    Description: Here, we present the low temperature magnetic behaviour of epitaxial La 0.7 Ca 0.3 Mn 0.85 Al 0.15 O 3 (LCMAO) thin film through a series of DC magnetic measurements. Overall behaviour inferred from the magnetization measurements indicate that the magnetic phases created due to Al doping induced inhomogeneous distribution of Mn 3+ and Mn 4+ ions and oxygen vacancies present in the system act like superspins, and the strong interaction among themselves results in the superspin glassy behaviour. Interactions among the superspins are marked by the aging and zero filed memory effects. The glassy magnetic phase in LCMAO is found to follow the hierarchical model of spin glasses.
    Print ISSN: 0021-8979
    Electronic ISSN: 1089-7550
    Topics: Physics
    Published by American Institute of Physics (AIP)
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  • 5
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    Microbial rescue to plant under habitat-imposed abiotic and biotic stresses (2012)
    Springer
    Details
    Publication Date: 2012-10-17
    Print ISSN: 0175-7598
    Electronic ISSN: 1432-0614
    Topics: Biology , Process Engineering, Biotechnology, Nutrition Technology
    Published by Springer
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  • 6
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    First Preliminary Report on Isolation and Characterization of NovelAcinetobacterspp. in Casing Soil Used for Cultivation of Button Mushroom,Agaricus bisporus(Lange) Imbach (2011)
    Hindawi
    Details
    Publication Date: 2011-01-01
    Description: Despite evaluation of large number of agroindustrial wastes for their use as casing material forAgaricus bisporus(Lange) Imbach cultivation, scant attention has been given to the importance of biological properties of casing materials. In the present study, an attempt was made to characterize the bacterial flora in casing layer, namely, Farm Yard Manure (FYM) and Spent Mushroom Substrate/spent compost (SMS/SC) (FYM+SC, 3 : 1) and FYM and Vermi Compost (VC) (FYM+VC, 3 : 1), employing partial 16S rDNA sequencing. Available data showed a significant variety of organisms that includedAcinetobacterandPseudomonasof theγ-proteobacteria, that were the most frequently encountered genera. This is the first preliminary report on the microbial diversity of casing soils and demonstrates the presence ofAcinetobacterspp. that has not been previously described in casing material.
    Print ISSN: 1687-918X
    Electronic ISSN: 1687-9198
    Topics: Biology , Medicine
    Published by Hindawi
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