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  • 1
    Online Resource
    Online Resource
    Reactive Oxygen Species in Plants : The Right Balance (2023)
    Singapore :Springer Nature Singapore :
    Details
    Keywords: Stress (Physiology). ; Plants. ; Botany. ; Molecular biology. ; Plant Stress Responses. ; Plant Science. ; Molecular Biology.
    Description / Table of Contents: 1. Reactive oxygen species (ROS): An Introduction -- 2. ROS generation in plant cells orchestrated bystress -- 3. Oxidative stress triggered damage to cellular biomolecules -- 4. Senescence and Apoptosis: ROS contribution to stress tolerance or cellular impairment -- 5. Photosynthetic apparatus: Major site of oxidative damage -- 6. Generation and fate of ROS in mitochondria -- 7. Peroxisomes and ROS under stress conditions -- 8. ROS production and function at plasma membrane and apoplast -- 9. Antioxidant defensive mechanisms to regulate cellular redox homeostatic balance -- 10. Role of osmolytes in alleviation of oxidative stress -- 11. ROS as signaling molecule under unfavorable conditions -- 12. Molecular mechanisms underpinning signaling function of ROS.
    Abstract: The book deals with dual role of reactive oxygen species (ROS) which is beneficial and harmful at below and above threshold limits, respectively. To date, the emphasis has been laid only on ROS aspects damaging/ disrupting cellular machinery and inflicting crop productivity loss. The ROS is believed to be a hallmark of both abiotic and biotic stress. However, the recent researches have unambiguously established that the ROS at below threshold confers protection against both abiotic and biotic stress, augmenting crop productivity. This emphasizes for a proper understanding of ROS based physio-molecular mechanisms and their upgradation in crops to adapt them to stress conditions. As a result, the cultivation area of various economically important crops and their productivity and quality can be enhanced, arresting degradation of sites, improving environment quality and mitigating ill impact of climate change. The book encompasses recent information on positive and negative impact of ROS on stress tolerance mechanisms and their management in augmenting crop performance. The information has been well illustrated and categorized in several chapters crafted lucidly, maintaining connectivity and synergy with each other. The book provides up-to-date comprehensive scientific information dual role of ROS, hitherto neglected, in crop abiotic and biotic stress management that would immensely benefit and educate graduate/ post graduate students, entrepreneurs, researchers, scientists and faculty members alike. .
    Type of Medium: Online Resource
    Pages: XIV, 240 p. 1 illus. , online resource.
    Edition: 1st ed. 2023.
    ISBN: 9789811998843
    URL: https://doi.org/10.1007/978-981-19-9884-3
    DOI: 10.1007/978-981-19-9884-3
    DDC: 581.788
    Language: English
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  • 2
    Online Resource
    Online Resource
    Augmenting Crop Productivity in Stress Environment (2022)
    Singapore :Springer Nature Singapore :
    Details
    Keywords: Agriculture. ; Stress (Physiology). ; Plants. ; Plant physiology. ; Plant biotechnology. ; Agriculture. ; Plant Stress Responses. ; Plant Physiology. ; Plant Biotechnology.
    Description / Table of Contents: Chapter 1. Role of Nanosensors and Bionanosesors in Crop Abiotic Stress -- Chapter 2. Role of Environment Stress Leaf Senescence and Crop productivity -- Chapter 3. Genomics in Enhancing Crop Productivity against Stresses -- Chapter 4. Transgenic plants: A Tool to Increase Crop Productivity Under Stress Environment -- Chapter 5. Breeding efforts for crop productivity in abiotic stress environment -- Chapter 6. Changing Environment and Crop Plant Breeding -- Chapter 7. Crop plants, abiotic stress, reactive oxygen species production, signaling and their consequences -- Chapter 8. Environment Stress Tolerance in Plants -Physiological Aspects -- Chapter 9. Role of hormones in crop plants root system architecture under changing environmental conditions -- Chapter 10. Water Logging Tolerance and Crop Productivity -- Chapter 11. Crop Adaptability to Excess Salts -- Chapter 12. Crop Scavenging Potential to Heavy Metals -- Chapter 13. Role of plant microbiome under stress environment to enhance crop productivity -- Chapter 14. Role of Effective Management of Harvested Crop to Increase Productivity under Stress Environment -- Chapter 15. Bioactive Compost for Managing Plant Growth under Stress Environment -- Chapter 16. Salicylic acid: Metabolism, Regulation and Functions in Crop Abiotic Stress Tolerance -- Chapter 17. JA and Abiotic Stress Tolerance -- Chapter 18. ABA: Metabolism, Regulation and Functions in Crop Abiotic Stress Tolerance -- Chapter 19. Polyamines: Metabolism, Regulation and Functions in Crop Abiotic Stress Tolerance -- Chapter 20. Agriculture for Combating Global Starvation -- Chapter 21. Land use and Biodiversity Conservation through Agroforestry -- Chapter 22. Challenges of Stressed Soil: A Case Study of Acid Soil. .
    Abstract: The book inculcates a holistic approach to improve crop productivity and quality for ensuring food security and nutrition to all. This warrants to identify various stress conditions prevalent globally and tailor crop adaptability and productivity to the maximum accordingly, employing physio-molecular modern tools and techniques with judicious amalgamation with conventional crop husbandry. As a result, the book chapters encompass diverse environmental factors, internal physio-molecular processes and their modulations with a final goal of expanding area under cultivation by utilization of constraint terrains of poor site quality and augmenting sustainable crop productivity and quality on the face of rapidly changing climate. The book includes role of plant hormones, nano-sensors, nanomaterials etc. in stress tolerance responses, capturing recent advancement in the field of stress tolerance, enlarging scope of coverage by gleaning modern literature and providing glimpses of futuristic scenario of agriculture practices that can render ‘balance staple food rich in nutrition, vitamins and minerals’ to teeming billions of global human populations. Thus, the book provides a comprehensive overview of the role of stress environment and understanding stress physiology for developing stress tolerant crops. The book covers current knowledge and future prospects to achieve enhanced food security under stress environment of crops. The renowned contributors elegantly crafted each chapter, suited alike to both classroom texts for graduate students and reference material for researchers. The language and style are simple and lucid with liberal use of illustrations. This book should be on the shelf of university/ personal libraries for inquisitive students and enlightened researchers.
    Type of Medium: Online Resource
    Pages: XII, 402 p. 1 illus. , online resource.
    Edition: 1st ed. 2022.
    ISBN: 9789811663611
    URL: https://doi.org/10.1007/978-981-16-6361-1
    DOI: 10.1007/978-981-16-6361-1
    DDC: 630
    Language: English
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  • 3
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    AFLP markers for analysis of genetic diversity and structure of teak (Tectona grandis) in India (2015)
    Canadian Science Publishing
    Details
    Publication Date: 2015-03-01
    Description: Five amplified fragment length polymorphism (AFLP) primer combinations (E-AAC × M-CAT, E-AAC × M-CTG, E-ACA × M-CTC, E-ACA × M-CTA, and E-ACC × M-CTA) were employed for analysis of genetic diversity, differentiation, and structure of 96 genotypes of teak (Tectona grandis L. f.) from 10 natural locations in India. The analysis of the AFLP marker data by both versions, i.e., GST and θ, of F statistics showed a similar trend due to the outcrossing nature of teak. The primer combination E-AAC × M-CAT detected maximum polymorphism in the teak genome. The analysis of molecular variance assigned a large proportion of the genetic diversity to within sampled locations and a very small proportion to among locations. The population genetic structure resolved by the neighbor joining tree, principal coordinate analysis, and no-admixture and admixture model Bayesian-based analyses irrefutably revealed two distinct centers of teak diversity, i.e., central India and peninsular India. Furthermore, the very high proportion of genetic diversity residing within locations encourages the intensive selection and (or) collection of diverse superior genotypes (elite trees) from each location for the conservation of germplasm and the genetic improvement of teak.
    Print ISSN: 0045-5067
    Electronic ISSN: 1208-6037
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
    Published by Canadian Science Publishing
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  • 4
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    Biochemical investigations during in vitro adventitious shoot regeneration in leaflet explants from nodal segments of a mature Albizia procera tree (2015)
    Springer
    Details
    Publication Date: 2015-12-23
    Print ISSN: 1007-662X
    Electronic ISSN: 1993-0607
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
    Published by Springer
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  • 5
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    Detection of QTL (quantitative trait loci) associated with wood density by evaluating genetic structure and linkage disequilibrium of teak (2018)
    Springer
    Details
    Publication Date: 2018-07-19
    Print ISSN: 1007-662X
    Electronic ISSN: 1993-0607
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
    Published by Springer
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  • 6
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    Genetic difference in adventitious rhizogenesis in Albizia procera Benth. with IBA treatment (2008)
    Springer
    Details
    Publication Date: 2008-02-01
    Print ISSN: 1341-6979
    Electronic ISSN: 1610-7403
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
    Published by Springer
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  • 7
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    Modulation of Morpho-Physiological Responses in Populus deltoides by Elevated Carbon Dioxide and Temperature (2019)
    Oxford University Press
    Details
    Publication Date: 2019-12-03
    Description: Rising atmospheric carbon dioxide (CO2) and temperature alter gene-expression arrays commensurate with physio-morphological changes, resulting in issues of adaptation, growth patterns, and productivity of terrestrial vegetation. An experiment was conducted to investigate the adaptive response of Populus deltoides clone G48 to the combined effect of elevated CO2 and temperature inside open-top chambers. The elevated CO2 and temperature acted as environmental cues to help express upregulated/downregulated genes involved in important metabolic pathways. As a result, P. deltoides exposed to the elevated CO2 and temperature developed adaptation to undo the effect by enhancing gaseous exchange, transpiration, and carbon assimilation and partitioning as observed on 180 days after treatment. The elevated conditions significantly enhanced stomatal density and size on adaxial/abaxial leaf surfaces, chlorophyll b that augmented photosynthesis, stomatal conductance, transpiration, and internal CO2, but decreased instantaneous and intrinsic water-use efficiency. These stimulated biomass accumulation in root, stem, and leaves. Hence, the elevated conditions of CO2 and temperature operate at the gene-expression level that acts pleiotropically for reinforcement of photosynthetic apparatus, morphological amendment for accelerated gaseous exchange, and finally growth and biomass improvement, supporting adaptive plasticity of clonal planting stock of the species to future climatic change and global warming.
    Print ISSN: 0015-749X
    Electronic ISSN: 1938-3738
    Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
    Published by Oxford University Press
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  • 8
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    Abiotic Stress and Reactive Oxygen Species: Generation, Signaling, and Defense Mechanisms (2021)
    Molecular Diversity Preservation International
    Details
    Publication Date: 2021-02-11
    Description: Climate change is an invisible, silent killer with calamitous effects on living organisms. As the sessile organism, plants experience a diverse array of abiotic stresses during ontogenesis. The relentless climatic changes amplify the intensity and duration of stresses, making plants dwindle to survive. Plants convert 1–2% of consumed oxygen into reactive oxygen species (ROS), in particular, singlet oxygen (1O2), superoxide radical (O2•–), hydrogen peroxide (H2O2), hydroxyl radical (•OH), etc. as a byproduct of aerobic metabolism in different cell organelles such as chloroplast, mitochondria, etc. The regulatory network comprising enzymatic and non-enzymatic antioxidant systems tends to keep the magnitude of ROS within plant cells to a non-damaging level. However, under stress conditions, the production rate of ROS increases exponentially, exceeding the potential of antioxidant scavengers instigating oxidative burst, which affects biomolecules and disturbs cellular redox homeostasis. ROS are similar to a double-edged sword; and, when present below the threshold level, mediate redox signaling pathways that actuate plant growth, development, and acclimatization against stresses. The production of ROS in plant cells displays both detrimental and beneficial effects. However, exact pathways of ROS mediated stress alleviation are yet to be fully elucidated. Therefore, the review deposits information about the status of known sites of production, signaling mechanisms/pathways, effects, and management of ROS within plant cells under stress. In addition, the role played by advancement in modern techniques such as molecular priming, systems biology, phenomics, and crop modeling in preventing oxidative stress, as well as diverting ROS into signaling pathways has been canvassed.
    Electronic ISSN: 2076-3921
    Topics: Chemistry and Pharmacology
    Published by Molecular Diversity Preservation International
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