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Genomic designing for biotic stress resistant technical crops / / edited by Chittaranjan Kole

Cham, Switzerland : , : Springer, , [2022]

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Lo trovi qui: Univ. Federico II

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Handbook of Plant and Crop Stress [[electronic resource]]

Milton, : CRC Press LLC, 2019

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Handbook of plant and crop stress / / edited by Mohammad Pessarakli

Milton, : CRC Press LLC, 2019

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Handbook of plant and crop stress / edited by Mohammad Pessarakli

New York : Marcel Dekker, c 1994

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Lo trovi qui: Univ. del Salento

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Improving crop resistance to abiotic stress [[electronic resource] /] / edited by Narendra Tuteja ... [et al.]

Weinheim, Germany, : Wiley-Blackwell, 2012

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Improving crop resistance to abiotic stress [[electronic resource] /] / edited by Narendra Tuteja ... [et al.]

Weinheim, Germany, : Wiley-Blackwell, 2012

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Molecular approaches in plant abiotic stress / / editors: R.K. Gaur, Pradeep Sharma

Boca Raton, Fla. : , : CRC Press, , 2014

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Molecular approaches in plant abiotic stress / / editors: R.K. Gaur, Pradeep Sharma

Boca Raton, Fla. : , : CRC Press, , 2014

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Physiological mechanisms and adaptation strategies in plants under changing environment . Volume 1 / / Parvaiz Ahmad, Mohd Rafiq Wani, editors

New York, New York : , : Springer, , 2014

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Physiological mechanisms and adaptation strategies in plants under changing environment . Volume 2 / / Parvaiz Ahmad, Mohd Rafiq Wani, editors

New York : , : Springer, , [2014]

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Pubbl/distr/stampa	Cham, Switzerland : , : Springer, , [2022]
Descrizione fisica	1 online resource (635 pages)
Disciplina	344.73046
Soggetto topico	Agricultural pests Crops - Effect of stress on
ISBN	9783031092930 9783031092923
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Intro -- Preface -- Contents -- Contributors -- Abbreviations -- 1 Genomic Designing for Biotic Stress Resistant Cassava -- 1.1 Biotic Stress in Cassava -- 1.1.1 Prevalent Cassava Biotic Factors -- 1.1.2 Regional Incidence of Cassava Pests and Diseases -- 1.1.3 Economic Impact of Biotic Stress on Cassava Production and Utilization -- 1.2 Biotic Factors Affecting Cassava Production -- 1.2.1 Diseases -- 1.2.2 Pests -- 1.3 Approaches for Developing Biotic Stress Resistant Cassava Varieties -- 1.3.1 Conventional Breeding Approach for Developing Biotic Stress Resistant Cassava Varieties -- 1.3.2 Molecular Techniques for Biotic Stress Improvement in Cassava -- 1.3.3 The Adoption of Genetic Engineering in Genomic Designing for Biotic Stress Resistant Cassava -- 1.3.4 Genome Editing in Genomic Designing for Biotic Stress Resistant Cassava -- 1.4 Future Perspectives in the Genomic Designing for Biotic Stress Resistant Cassava -- References -- 2 Genomic Designing for Biotic Stress Resistant Cocoa Tree -- 2.1 Introduction -- 2.2 Description on Different Biotic Stresses -- 2.2.1 Frosty Pod Rot of Cocoa -- 2.2.2 Witches' Broom Disease -- 2.2.3 Black Pod Rot -- 2.2.4 Ceratocystis Wilt of Cacao -- 2.2.5 Cocoa Swollen Shoot Virus -- 2.2.6 Other Diseases and Pests -- 2.3 Genetic Resources of Resistance Genes -- 2.4 Glimpses on Classical Genetics and Traditional Breeding -- 2.4.1 Breeding Objectives -- 2.4.2 Classical Mapping Efforts -- 2.4.3 Classical Breeding Achievements -- 2.4.4 Limitations of Traditional Breeding and Rationale for Molecular Breeding -- 2.5 Brief on Diversity Analysis of Cocoa Germplasm -- 2.5.1 Phenotype-Based Diversity Analysis -- 2.5.2 Genotype-Based Diversity Analysis -- 2.6 Brief Account of Molecular Mapping of Resistance Genes and QTLs -- 2.6.1 Genetic Maps of Cocoa, Marker Evolution and Segregating Populations. 2.6.2 QTL Regions Disease Resistance in Cocoa -- 2.7 Cocoa Germplasm Characterization -- 2.8 Map-Based Cloning of Resistance Genes -- 2.8.1 BAC Libraries -- 2.8.2 Cytogenetic Studies -- 2.9 Genomics-Aided Breeding for Resistance Traits -- 2.9.1 Large Scale Transcriptomic Resources -- 2.9.2 Genome Sequencing -- 2.9.3 Proteomics Resources -- 2.9.4 Bases for Marker Assisted Selection -- 2.10 Brief on Genetic Engineering for Resistance Traits and Recent Concepts and Strategies Developed -- 2.10.1 Review on Achievements of Transgenics -- 2.10.2 Genome Editing -- 2.10.3 Nanotechnology -- 2.11 Brief Account on Tole of Bioinformatics as a Tool -- 2.11.1 Gene and Genome Databases -- 2.11.2 Comparative Genome Databases -- 2.11.3 Gene Expression Databases -- 2.11.4 Protein Databases -- 2.11.5 Integration of Different Data -- References -- 3 Genomic Designing for Biotic Stress Resistance in Coconut -- 3.1 Introduction -- 3.2 Diseases of Coconut -- 3.2.1 Leaf Rot -- 3.2.2 Bud Rot -- 3.2.3 Stem Bleeding -- 3.2.4 Ganoderma Wilt/Basal Stem Rot -- 3.2.5 Immature Nut Fall -- 3.2.6 Grey Leaf Spot -- 3.2.7 Lasiodiplodia Leaf Blight of Coconut -- 3.2.8 Phytoplasmal Diseases of Coconut -- 3.2.9 Diseases Caused by Viruses and Viroids -- 3.3 Pests of Coconut -- 3.4 Genetic Resources of Resistance/Tolerance Genes -- 3.5 Classical Genetics and Traditional Breeding -- 3.6 Association Mapping Studies -- 3.7 Molecular Mapping of Resistance Genes and QTLs and Marker-Assisted Breeding -- 3.8 Genomics-Aided Breeding for Resistance Traits -- 3.8.1 Whole-Genome Sequence Assemblies -- 3.8.2 Transcriptomic Approaches -- 3.9 Conclusion and Future Perspectives -- References -- 4 Current Challenges and Genomic Advances Toward the Development of Coffee Genotypes Resistant to Biotic Stress -- 4.1 Introduction -- 4.2 Genomic Analyses for Major Biotic Stresses in Coffee. 4.3 Transcriptome Studies for Major Biotic Stresses in Coffee -- 4.4 Genetic Transformation, RNAi, and Genome Editing for Biotic Stress in Coffee -- 4.5 Breeding for Biotic Stress Resistance in Coffee: Some Case Studies -- 4.5.1 Coffee Leaf Rust (CLR) -- 4.5.2 Coffee Berry Disease (CBD) -- 4.5.3 Bacterial Halo Blight (BHB) -- 4.5.4 Nematodes -- 4.5.5 Coffee Leaf Miner (CLM) -- 4.5.6 Coffee Berry Borer (CBB) -- 4.6 Final Remarks -- References -- 5 Disease Resistance in Cotton -- 5.1 Introduction -- 5.2 Bacterial Blight -- 5.2.1 Causal Agent and Significance -- 5.2.2 Resistant Germplasm -- 5.2.3 Genetics of Resistance -- 5.2.4 Resistance Breeding -- 5.2.5 Molecular Mapping of BB Resistance Genes -- 5.2.6 Marker-Assisted Selection (MAS) -- 5.3 Verticillium Wilt -- 5.3.1 Causal Agent and Significance -- 5.3.2 Screening Techniques and Resistance Sources -- 5.3.3 Resistance Breeding -- 5.3.4 Genetics of Resistance -- 5.3.5 Mapping of Verticillium Wilt Resistance QTLs -- 5.3.6 Marker-Assisted Selection for VW Resistance -- 5.4 Fusarium Wilt -- 5.4.1 Causal Agent and Significance -- 5.4.2 Sources of Resistance -- 5.4.3 Resistance Breeding -- 5.4.4 Genetics of Resistance -- 5.4.5 Molecular Mapping of FW Resistance Quantitative Trait Loci -- 5.4.6 Molecular Breeding Techniques -- 5.5 Future Prospects -- References -- 6 Conventional and Molecular Interventions for Biotic Stress Resistance in Floricultural Crops -- 6.1 Introduction -- 6.2 Biotic Stress in Floriculture Crops -- 6.3 Different Approaches to Alleviate Biotic Stress in Ornamentals -- 6.3.1 Conventional Breeding -- 6.3.2 Molecular Approaches -- 6.4 Conclusion -- References -- 7 Genomics for Biotic Stress Tolerance in Jute -- 7.1 Introduction -- 7.1.1 Economic Importance -- 7.1.2 Reduction in Yield and Quality Due to Biotic Stresses -- 7.1.3 Growing Importance in the Face of Climate Change. 7.1.4 Limitations of Traditional Breeding and Rationale of Genome Designing -- 7.2 Description on Different Biotic Stresses -- 7.2.1 Major Insect-Pests of Jute and Their Management -- 7.2.2 Diseases of Jute -- 7.3 Traditional Breeding Methods -- 7.3.1 Intraspecific Hybridization -- 7.3.2 Interspecific Hybridization -- 7.3.3 Limitations of Classical Genetics and Breeding in Developing Resistant Cultivars -- 7.4 Genetic Resources of Resistance Genes -- 7.5 Resistance Gene-Based Marker Development and Utilization -- 7.5.1 Utilization of Resistance Gene-Based Genic Markers for Domestication and Population Genetic Analyses in Jute -- 7.5.2 Use in Phylogenetic Analysis -- 7.5.3 Use of RGA in Population Structure Analysis -- 7.6 Genomics-Aided Breeding for Resistance Traits -- 7.6.1 Genomics to Decipher Plant-Pathogen Interaction Pathways in Jute -- 7.6.2 Genomics for Identifying Genes Involved in Resistance to Stem Rot Disease -- 7.6.3 Genomics for Deciphering Systemic Acquired Resistance -- 7.6.4 Deciphering Role of Chitinase in Resistance -- 7.7 Brief Account of Molecular Mapping of Resistance Genes and QTLs -- 7.8 Brief on Genetic Engineering for Resistance Traits -- 7.9 Future Perspectives -- References -- 8 Genomic Designing for Biotic Stress Resistance in Mulberry -- 8.1 Introduction -- 8.1.1 Economic Significance -- 8.1.2 Effect of Biotic Stress on Yield and Quality -- 8.1.3 Increasing Population and Climate Change Scenario -- 8.1.4 Logical of Genome Designing and Bottlenecks of Traditional Breeding -- 8.2 Description of Different Pathogens Causing Biotic Stress in Mulberry -- 8.2.1 Major Diseases in Mulberry -- 8.2.2 Major Insect and Pests in Mulberry -- 8.3 Germplasm Resources for Disease Resistance -- 8.3.1 Primary Gene Pool -- 8.3.2 Secondary Gene Pool -- 8.3.3 Tertiary Gene Pool -- 8.3.4 Artificially Induced/Incorporated Traits/Genes. 8.4 Overview on Classical Genetics and Traditional Breeding -- 8.4.1 Traditional Breeding Methods -- 8.4.2 Breeding Objectives: Positive and Negative Selection -- 8.4.3 Achievements of Conventional Breeding (Quality, Stress Resistance, Yield etc.) -- 8.4.4 Constrains of Conventional Breeding and Basis for Molecular Breeding -- 8.4.5 Classical Mapping Efforts and Its Limitations and Utility of Molecular Mapping If Any -- 8.4.6 Use of Morphological Markers -- 8.4.7 Limitations and Prospect of Genomic Designing -- 8.5 Diversity Analysis in Brief -- 8.5.1 Diversity Analysis Based on Phenotype -- 8.5.2 Diversity Analysis Based on Genotype, Molecular Markers Applied -- 8.5.3 Relationship with Other Cultivated Species and Wild Relatives -- 8.5.4 Association with Geographical Distribution -- 8.5.5 Scope of Genetic Diversity -- 8.6 Association Mapping Studies -- 8.6.1 Genome Wide LD Studies -- 8.6.2 Future Potential for the Application of Association Studies for Germplasm Enhancement -- 8.7 Map-Based Cloning of Resistance/Tolerance Genes -- 8.7.1 Traits and Genes -- 8.8 Genomics-Assisted Breeding for Resistance/Tolerance Traits -- 8.8.1 Functional and Structural Genomic Resources Developed -- 8.8.2 Genome Sequencing, Assembly and Annotation -- 8.8.3 Impact on Gene Discovery and Germplasm Characterization -- 8.9 Recent Concepts and Strategies Developed -- 8.9.1 Gene Editing -- 8.10 Brief on Genetic Engineering for Resistance/Tolerance Traits -- 8.10.1 Target Traits and Alien Genes -- 8.11 Future Perspectives -- References -- 9 Genomic Designing for Biotic Stress Resistance in Sugarcane -- 9.1 Introduction -- 9.1.1 Economic Importance of Sugarcane -- 9.1.2 Reduction in Yield and Quality Due to Biotic Stresses -- 9.1.3 Growing Importance in the Face of Climate Change and Increasing Population. 9.1.4 Limitations of Traditional Breeding and Rational of Genome Designing.
Record Nr.	UNINA-9910619276303321

Edizione	[Fourth edition.]
Pubbl/distr/stampa	Milton, : CRC Press LLC, 2019
Descrizione fisica	1 online resource (975 pages)
Disciplina	630
Altri autori (Persone)	PessarakliMohammad <1948->
Collana	Books in Soils, Plants, and the Environment
Soggetto topico	Crops - Effect of stress on Plants - Effect of stress on Crops - Effect of salts on Plants - Effect of salts on
ISBN	1-351-10460-8 1-351-10458-6 1-351-10459-4
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover; Half Title; Title Page; Copyright Page; Dedication Page; Contents; Preface; Acknowledgments; Editor; Contributors; Section I: Soil Salinity and Sodicity Problems; 1: Soil Salinity and Sodicity as Particular Plant/Crop Stress Factors; 1.1 Introduction; 1.2 The Significance of Soils with Respect to Crop Stress; 1.3 The Place and Role of the Soil in Nature; 1.4 Extent and Global Distribution of Salt-Affected Soils; 1.5 Development and Grouping of Salt-Affected Soils and Particular Plant/Crop Growth Stress Factors 1.6 Reclamation of Salt-Affected Soils and Relief or Elimination of Particular Plant/Crop Stress Factors1.7 Concluding Remarks; References; Section II: Plants/Crops Tolerance Mechanisms and Stressful Conditions; 2: Roles and Mechanisms of Rhizobacteria in Regulating Plant Tolerance to Abiotic Stress; 2.1 Introduction; 2.2 Plant Growth-Promoting Rhizobacteria; 2.3 Biological Roles and Mechanisms of PGPR Regulation of Plant Growth and Stress Tolerance; 2.3.1 PGPR Regulation of Plant Nutrition; 2.3.2 Interactions of PGPR and Abiotic Stress Involving Exopolysaccharides 2.3.3 Promotive Effects on Plant Growth and Stress Tolerance through Hormonal Regulation2.3.4 Hormonal Crosstalk Involved in PGPR Regulation of Plant Growth; 2.4 Conclusions and Future Research Perspectives; Bibliography; 3: Physiological, Biochemical and Molecular Mechanisms Regulating Post-Drought Stress Recovery in Grass Species; 3.1 Introduction; 3.2 Carbohydrate Accumulation and Remobilization; 3.3 Osmolyte Accumulation and Protective Benefits; 3.4 Oxidative Stress and Antioxidant Protection; 3.5 Hormone Metabolism and Plant Growth Regulation 3.6 Conclusions and Future Research PerspectivesReferences; 4: Regulatory Mechanisms for Stress-Induced Leaf Senescence; 4.1 Introduction; 4.2 Chlorophyll Metabolism Associated with Stress-Induced Leaf Senescence; 4.3 Reactive Oxygen Species and Membrane Peroxidation Related to Stress-Induced Leaf Senescence; 4.4 Amino Acid and Protein Metabolism Associated with Stress-Induced Leaf Senescence; 4.5 Hormone Metabolism and Abiotic Stress-Induced Leaf Senescence; 4.6 Approaches to Suppress or Alleviate Stress-Induced Leaf Senescence; 4.7 Conclusions; References 5: Mechanisms of Salt Tolerance in Submerged Aquatic Macrophytes5.1 Introduction; 5.2 Stress Concept and Salinity Stress; 5.2.1 Concept of Stress; 5.2.2 Salinity Stress; 5.3 Aquatic Macrophytes; 5.3.1 Distribution and Importance; 5.3.2 Salinity Stress in Aquatic Macrophytes; 5.3.2.1 Effect on Growth; 5.3.2.2 Effect on Photosynthesis and Respiration; 5.3.2.3 Induction of Osmotic Stress and Ion Imbalance; 5.3.2.4 Induction of Oxidative Stress; 5.4 Salinity Tolerance Mechanism in Aquatic Macrophytes; 5.4.1 Ionic Regulation and Interaction; 5.4.2 Osmotic Adjustment or Regulation
Record Nr.	UNINA-9910793721403321

Edizione	[Fourth edition.]
Pubbl/distr/stampa	Milton, : CRC Press LLC, 2019
Descrizione fisica	1 online resource (xxiii, 975 pages) : illustrations, maps
Disciplina	630
Altri autori (Persone)	PessarakliMohammad <1948->
Collana	Books in Soils, Plants, and the Environment
Soggetto topico	Crops - Effect of stress on Plants - Effect of stress on Crops - Effect of salts on Plants - Effect of salts on
ISBN	1-351-10460-8 1-351-10458-6 1-351-10459-4
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover; Half Title; Title Page; Copyright Page; Dedication Page; Contents; Preface; Acknowledgments; Editor; Contributors; Section I: Soil Salinity and Sodicity Problems; 1: Soil Salinity and Sodicity as Particular Plant/Crop Stress Factors; 1.1 Introduction; 1.2 The Significance of Soils with Respect to Crop Stress; 1.3 The Place and Role of the Soil in Nature; 1.4 Extent and Global Distribution of Salt-Affected Soils; 1.5 Development and Grouping of Salt-Affected Soils and Particular Plant/Crop Growth Stress Factors 1.6 Reclamation of Salt-Affected Soils and Relief or Elimination of Particular Plant/Crop Stress Factors; 1.7 Concluding Remarks; References; Section II: Plants/Crops Tolerance Mechanisms and Stressful Conditions; 2: Roles and Mechanisms of Rhizobacteria in Regulating Plant Tolerance to Abiotic Stress; 2.1 Introduction; 2.2 Plant Growth-Promoting Rhizobacteria; 2.3 Biological Roles and Mechanisms of PGPR Regulation of Plant Growth and Stress Tolerance; 2.3.1 PGPR Regulation of Plant Nutrition; 2.3.2 Interactions of PGPR and Abiotic Stress Involving Exopolysaccharides 2.3.3 Promotive Effects on Plant Growth and Stress Tolerance through Hormonal Regulation; 2.3.4 Hormonal Crosstalk Involved in PGPR Regulation of Plant Growth; 2.4 Conclusions and Future Research Perspectives; Bibliography; 3: Physiological, Biochemical and Molecular Mechanisms Regulating Post-Drought Stress Recovery in Grass Species; 3.1 Introduction; 3.2 Carbohydrate Accumulation and Remobilization; 3.3 Osmolyte Accumulation and Protective Benefits; 3.4 Oxidative Stress and Antioxidant Protection; 3.5 Hormone Metabolism and Plant Growth Regulation 3.6 Conclusions and Future Research Perspectives; References; 4: Regulatory Mechanisms for Stress-Induced Leaf Senescence; 4.1 Introduction; 4.2 Chlorophyll Metabolism Associated with Stress-Induced Leaf Senescence; 4.3 Reactive Oxygen Species and Membrane Peroxidation Related to Stress-Induced Leaf Senescence; 4.4 Amino Acid and Protein Metabolism Associated with Stress-Induced Leaf Senescence; 4.5 Hormone Metabolism and Abiotic Stress-Induced Leaf Senescence; 4.6 Approaches to Suppress or Alleviate Stress-Induced Leaf Senescence; 4.7 Conclusions; References 5: Mechanisms of Salt Tolerance in Submerged Aquatic Macrophytes; 5.1 Introduction; 5.2 Stress Concept and Salinity Stress; 5.2.1 Concept of Stress; 5.2.2 Salinity Stress; 5.3 Aquatic Macrophytes; 5.3.1 Distribution and Importance; 5.3.2 Salinity Stress in Aquatic Macrophytes; 5.3.2.1 Effect on Growth; 5.3.2.2 Effect on Photosynthesis and Respiration; 5.3.2.3 Induction of Osmotic Stress and Ion Imbalance; 5.3.2.4 Induction of Oxidative Stress; 5.4 Salinity Tolerance Mechanism in Aquatic Macrophytes; 5.4.1 Ionic Regulation and Interaction; 5.4.2 Osmotic Adjustment or Regulation
Record Nr.	UNINA-9910806159103321

Pubbl/distr/stampa	New York : Marcel Dekker, c 1994
Descrizione fisica	xiv, 697 p. : ill. ; 26 cm.
Disciplina	632.1
Altri autori (Persone)	Pessarakli, Mohammad
Collana	Books in soils, plants, and the environment
Soggetto topico	Crops - Effect of salts on Crops - Effect of stress on Plants - Effect of salts on Plants - Effect of stress on
ISBN	0824789873
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Record Nr.	UNISALENTO-991003489439707536

Pubbl/distr/stampa	Weinheim, Germany, : Wiley-Blackwell, 2012
Descrizione fisica	1 online resource (1518 p.)
Disciplina	632.1
Altri autori (Persone)	TutejaNarendra
Soggetto topico	Crops - Effect of stress on Plants - Disease and pest resistance
ISBN	1-299-46441-6 3-527-63294-8 3-527-63293-X
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	pt. 1. Introduction to plant abiotic strees response -- pt. 2. Methods to improve plant abiotic stress response -- pt. 3. Species-specific case studies.
Record Nr.	UNINA-9910130957303321

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Pubbl/distr/stampa	Boca Raton, Fla. : , : CRC Press, , 2014
Descrizione fisica	1 online resource (430 p.)
Disciplina	631.5/82 631.582
Altri autori (Persone)	GaurRajarshi Kumar SharmaPradeep K. <1953->
Soggetto topico	Crops - Effect of stress on Crops - Physiology Crop improvement Crops - Genetics
ISBN	0-429-07350-X 1-4665-8893-4
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Front Cover; Preface; Contents; List of Contributors; 1. Genes Ppd and Vrn as Components of Molecular Genetic System of Wheat Regulation Resistance (Triticum aestivum L.) to Abiotic Stress; 2. Plant WRKY Gene Family and its Response to Abiotic Stress; 3. Induced Tolerance and Priming for Abiotic Stress in Plants; 4. Roles of HSP70 in Plant Abiotic Stress; 5. Potential Role of Small RNAs during Stress in Plants; 6. DeepSuperSAGE in a Friendly Bioinformatic Approach: Identifying Molecular Targets Responding to Abiotic Stress in Plants; 7. Regulation of Translation as Response to Abiotic Stress 8. Metabolomics and its Role in Study of Plant Abiotic Stress Responses9. Molecular Approaches for Plant Transcription Factor Characterization; 10. New Insights in the Functional Genomics of Plants Responding to Abiotic Stress; 11. Cold Stress Signaling and Tolerance in Rice; 12. Mathematical Modelling for Investigation of Plant Cold Tolerance; 13. Physiological, Biochemical and Molecular Mechanisms of Drought Tolerance in Plants; 14. Proteomic Analyses of Alterations in Plant Proteome Under Drought Stress 15. AREB/ABF Proteins are Master Transcription Factors that Mediate ABA-Dependent Gene Regulation During Water-stress16. Root Studies for Drought Tolerance in Wheat; 17. Abiotic Stress in Lotus: Aluminum and Drought; 18. Genes Regulated in Plants under Salt Stress; 19. Molecular Aspects of Crop Response to Abiotic Stress with Emphasis on Drought and Salinity; 20. Plant-arthropod Interactions Affected by Water Deficit Stress through Association with Changes in Plant free Amino Acid Accumulations; 21. Hydrogen Sulfide as a Potent Regulator of Plant Responses to Abiotic Stress Factors 22. Multifaceted Role of Glutathione in Environmental Stress ManagementAbout the Editors; Color Plate Section
Record Nr.	UNINA-9910787582203321

Edizione	[1st ed. 2014.]
Pubbl/distr/stampa	New York, New York : , : Springer, , 2014
Descrizione fisica	1 online resource (xv, 376 pages) : illustrations (some color)
Disciplina	570 571.2 571.6 572572
Collana	Gale eBooks
Soggetto topico	Agriculture - Environmental aspects Crops - Effect of stress on Plants - Effect of stress on
ISBN	1-4614-8591-6
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Mechanisms and Adaptation of Plants to Environmental Stresses: A Case of Woody Species -- Drought Tolerance: Roles of Organic Osmolytes, Growth Regulators and Mineral Nutrients -- Influencing the Product Quality by Applying Drought Stress during the Cultivation of Medicinal Plants -- Water Scarcity and Water Stress in Agriculture -- Biotechnology for Drought and Salinity Tolerance of Crops -- Effect of Salinity on Plants and the Role of Arbuscular Mycorrhizal Fungi and Plant Growth Promoting Rhizobacteria in Alleviation of Salt Stress -- Cash Crop Halophytes-The Ecologically and Economically Sustainable Use of Naturally Salt Resistant Plants in the Context of Global Changes -- Effect of Heat Stress on Growth and Crop Yield of Wheat (Triticum aestivum) -- Low Temperature Stress in Plants: An Overview of Roles of Cryoprotectants in Defense -- Lignins and Abiotic Stress: An Overview -- Humic Substances and Plant Defense Metabolism -- Mitochondrial Respiration: Involvement of the Alternative Respiratory Pathway and Residual Respiration in Abiotic Stress Responses. .
Record Nr.	UNINA-9910298333803321