Frontiers in Plant–Soil Interaction Molecular Insights into Plant Adaptation
Coordonnateurs : Aftab Tariq, Hakeem Khalid Rehman
Frontiers in Plant-Soil Interaction: Molecular Insights into Plant Adaptation will address topics that provide advances in understanding plant responses to soil conditions through the integration of genetic, molecular, and plant-level studies of diverse biotic and abiotic stresses under field and laboratory conditions. This book will be beneficial to students and researchers working on stress physiology and stress proteins, genomics, proteomics, genetic engineering and other fields of plant-soil interactions. Frontiers in Plant-Soil Interaction will also help scientists explore new horizons in their area of research.
2. Role of Carbon Cycle in Soil Productivity and Carbon Fluxes under Changing Climate
3. Molecular Advances in Plant Root System Architecture Response and Redesigning for Improved Performance under Unfavorable Environments
4. Nanotechnology-Based Biofortification: A Plant-Soil interaction Modulator/ Enhancer
5. Transcription Factors Involved in Plant Responses to Stress Adaptation
6. Nitrate Assimilation: Crosstalk between Plants and Soil
7. Next-Generation Genetic Engineering Tools for Abiotic Stress Tolerance in Plants
8. Omics Approaches for Improving Abiotic Stress Tolerance in Rice: Recent Advances and Future Prospects
9. Interactions of Phytohormones with Abiotic Stress Factors under Changing Climate
10. The Role of Soil Microbes in the Plant Adaptation to Stresses: Current Scenario and Future Perspective
11. CRISPR/Cas Mediated Genome Editing for Improved Stress Tolerance in Plants
12. Photosynthetic and Cellular Responses in Plants under Saline Conditions
13. Physiological and Molecular Strategies of Plant Adaptation in Phosphorous-Deficit Soils
14. Biotic Stresses on Plants: ROS Generation and Antioxidant Mechanism
15. Physiological Mechanisms and Adaptation Strategies of Plants under Heavy Metal Micronutrient Deficiency/Toxicity conditions
16. Halophytes as Effective Tool for Phyto-desalination and Land Reclamation
17. Role of Nickel in Regulation of Nitrogen Metabolism in Legume-Rhizobium Symbiosis under Critical Conditions
18. Beneficial Aspects of Cobalt Uptake in Plants Exposed to Abiotic Stresses
19. Iron in Soil-Plant-Human Continuum
20. The Molecular Mechanism of Brassinosteroids in Mediating Abiotic Stress Responses of Plants
21. Emerging Roles of Osmoprotectant Glycine Betaine against Salt-Induced Oxidative Stress in Plants: A Major Outlook of Maize (Zea mays L.)
22. Eco-Designing for Ecological Sustainability
Dr. Khalid Rehman Hakeem (PhD) is Professor at King Abdulaziz University, Jeddah, Saudi Arabia. He has more both teaching and research experience in plant eco-physiology, biotechnology and molecular biology, medicinal plant research, plant-microbe-soil interactions as well as in environmental studies. He has served as the visiting scientist at Jinan University, Guangzhou, China. He has more than 110 research publications in peer-reviewed international journals has extensive book publishing experience as well. He is included in the advisory board of Cambridge Scholars Publishing, UK. He is a fellow of Plantae group of the American Society of Plant Biologists, member of the World Academy of Sciences, member of the International Society for Development and Sustainability, Japan, and member of Asian Federation of Biotechnology, Korea.
- Brings together global leaders working in the area of plant–environment interactions and shares their research findings
- Presents current and future scenarios for the management of stressors
- Illustrates the central role for plant-soil interactions in applying basic research to address current and future challenges to humans
Date de parution : 05-2021
Ouvrage de 660 p.
15.2x22.8 cm
Thème de Frontiers in Plant–Soil Interaction :
Mots-clés :
Abiotic stress; Abiotic stress factors; Abiotic stress tolerance; Agrochemicals; Ammonia assimilation; Antioxidant machinery; Antioxidants; Arbuscular mycorrhizal fungi (AMF); BR crosstalk; BR signaling; Beneficial micronutrient; Biofortification; Biotechnology; Biotic stress; Brassinosteroids; C-sequestration; CRISPR/Cas; Carbon cycle; Climate change; Cobalt; Conservation; Defense mechanisms; Deficiency; Economy; Ecosystem; Environment; Food; Food security; Genetic engineering; Genome editing; Greenhouse gases; Growth; Halophytes; Ion homeostasis; Iron; Legume–rhizobium symbiosis; Legume–rhizobium symbiosis; Maize; Metabolism; Metal transporters; Micronutrients; Mineral-nutrition; NADPH oxidase; Nanomaterials; Natural resources; Nitrate assimilation; Nitrate transporters (NRTs); Nitrogen cycle; Nitrogen metabolism; Nutrient cycle; Nutrition; Omics approaches; Osmolytes; Osmoprotectants; Oxidative damage; Oxidative stress; Peroxidases; Phosphorus; Photosynthesis-related proteins; Physiological; Phytodesalination; Phytohormones; Plant defense; Plant functioning; Plant genetics; Plant growth; Plant growth promoting rhizobacteria (PGPR); Plant micronutrients; Plant nitrogen; Plant sensors; Plant signaling; Plant stress response; Plant–soil interaction; Plants; Plant–soil interaction; Quantitative trait loci; ROS; Reactive oxygen species; Rice; Root system architecture; Salinity; Salt stress; Salt tolerance; Secondary messengers; Signal transduction; Signaling pathways; Soil; Soil nutrients; Stress-responsive genes; Stress-tolerant plants; Sustainability; Systemic communication; Tolerance tradeoff; Transcription factors; Transcriptomics and proteomics; Translocation; Watershed management; Yield