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Harsh Environment and Plant Resilience: Molecular and Functional Aspects

Editat de Azamal Husen
en Limba Engleză Paperback – 3 apr 2022
In the recent past, threats from climate change and unforeseeable environmental extremes to plant growth and productivity have consistently increased. The climate change-driven effects, especially from unpredictable environmental fluctuations, can result in an increased prevalence of abiotic and biotic stresses in plants. These stresses have slowed down the global yields of crop plants. On the other hand, food security for the rapidly growing human population in a sustainable ecosystem is a major concern of the present-day world. Thus, understanding the core developmental, physiological and molecular aspects that regulate plant growth and productivity in a challenging environment is a pivotal issue to be tackled by the scientific community dealing with sustainable agricultural and horticultural practices. 

Plants are influenced by the adverse environmental conditions at various levels, their different and diverse responses play a significant rolein determining their growth, production and the overall geographical distribution. The chapters in this book focus on the biological mechanisms and fundamental principles that determine how different plant species grow, perform and interact with a challenging environment. 

This book covers a broad range of topics in plant science, including gene function, molecules, physiology, cell biology and plant ecology, to understand the functioning of plants under harsh environmental conditions. The book elucidates the physiological and molecular mechanisms in different plant species, ecophysiological interactions of plants, interplay between plant roots, arbuscular mycorrhizal fungi and plant growth-promoting rhizobacteria, biosensors for monitoring stress, production of secondary metabolites, stress alleviation processes, and more.
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Specificații

ISBN-13: 9783030659141
ISBN-10: 3030659143
Ilustrații: XVI, 542 p. 43 illus., 38 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.78 kg
Ediția:1st ed. 2021
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland

Cuprins

1. The harsh environment and resilient plants - An overview.- 2. Expression and regulation of stress-responsive genes in plants under harsh environmental conditions.- 3. Genome editing: A tool from the vault of science for engineering climate-resilient cereals.- 4. Advancement in molecular and fast breeding programmes for climate resilient agriculture practices.- 5. Recombinant DNA technology for sustainable plant growth and production.- 6. Regulatory role of micro-RNAs in plants under challenging environmental conditions with special focus on drought and salinity.- 7. Molecular mechanisms of heat shock proteins for sustainable plant growth and production.- 8. Physiological and molecular responses to heavy metals stresses in plants.- 9. Morpho-anatomical, physiological, biochemical and molecular responses of plants to air pollution.- 10. Physiological and molecular responses to high, chilling and freezing temperature in plant growth and production: consequences and mitigation possibilities.- 11. Physiological and molecular responses to salinity due to excessive Na+ in plants.- 12. Physiological and molecular responses to drought, submergence and excessive watering in plants.- 13. Mitogen-activated protein kinase, plants and heat stress.- 14. Cross talk between heme oxygenase 1 and lateral root development for salt tolerance.- 15. Salt-tolerant plant growth promoting rhizobacteria: A new-fangled approach for improving crop yield.- 16. Improving resilience against drought stress among crop plants through inoculation of plant growth-promoting rhizobacteria.- 17. Trends in biosensors and current detection methods for stress monitoring of plants growing in adverse environmental conditions.- 18. Secondary metabolites for sustainable plant growth and production under adverse environment conditions.- 19. Medicinal plants and their pharmaceutical properties under adverse environment conditions.- 20. Progress and major research challenges under changing environmental conditions.

Notă biografică

Professor Azamal Husen (BSc from Shri Murli Manohar Town Post Graduate College, Ballia, UP, MSc from Hamdard University, New Delhi; and PhD from Forest Research Institute, Dehra Dun, India) is a Foreign Delegate at Wolaita Sodo University, Wolaita, Ethiopia. He has served the University of Gondar, Ethiopia, as a Full Professor of Biology, and also worked as the Coordinator of MSc Program and the Head, Department of Biology. He was a Visiting Faculty of the Forest Research Institute, and the Doon College of Agriculture and Forest at Dehra Dun, India. He has a more than 20 years’ experience of teaching, research and administration. Dr. Husen specializes in biogenic nanomaterials fabrication and their application, plant response to nanomaterials, plant production and adaptation to harsh environments at physiological, biochemical and molecular levels, herbal medicine, and clonal propagation and improvement of tree species. He has conducted several research projects sponsored by various funding agencies, including the World Bank, the Indian Council of Agriculture Research (ICAR), the Indian Council of Forest Research Education (ICFRE); and the Japan Bank for International Cooperation (JBIC), etc. He has published over 100 research papers, review articles and book chapters, edited books of international repute, presented papers in several conferences, and produced over a dozen of manuals and monographs. Husen received four fellowships from India and a recognition award from University of Gondar, Ethiopia, for excellent teaching, research and community service. An active organizer of seminars/conferences and an efficient evaluator of research projects and book proposals as he is, Dr. Husen has been on the Editorial board and the panel of reviewers of several reputed journals of Elsevier, Frontiers Media SA, Taylor & Francis, Springer Nature, RSC, Oxford University Press, Sciendo, The Royal Society, CSIRO, PLOS and John Wiley & Sons. He is included in the advisory board of Cambridge Scholars Publishing, UK. He is a Fellow of the Plantae group of American Society of Plant Biologists, and a Member of International Society of Root Research, Asian Council of Science Editors, and INPST, etc. Also, he is Editor-in-Chief of American Journal of Plant Physiology; and a Series Editor of ‘Exploring Medicinal Plants’ published by Taylor & Francis Group, USA.

Textul de pe ultima copertă

In the recent past, threats from climate change and unforeseeable environmental extremes to plant growth and productivity have consistently increased. The climate change-driven effects, especially from unpredictable environmental fluctuations, can result in an increased prevalence of abiotic and biotic stresses in plants. These stresses have slowed down the global yields of crop plants. On the other hand, food security for the rapidly growing human population in a sustainable ecosystem is a major concern of the present-day world. Thus, understanding the core developmental, physiological and molecular aspects that regulate plant growth and productivity in a challenging environment is a pivotal issue to be tackled by the scientific community dealing with sustainable agricultural and horticultural practices. 

Plants are influenced by the adverse environmental conditions at various levels, their different and diverse responses play a significant rolein determining their growth, production and the overall geographical distribution. The chapters in this book focus on the biological mechanisms and fundamental principles that determine how different plant species grow, perform and interact with a challenging environment. 

This book covers a broad range of topics in plant science, including gene function, molecules, physiology, cell biology and plant ecology, to understand the functioning of plants under harsh environmental conditions. The book elucidates the physiological and molecular mechanisms in different plant species, ecophysiological interactions of plants, interplay between plant roots, arbuscular mycorrhizal fungi and plant growth-promoting rhizobacteria, biosensors for monitoring stress, production of secondary metabolites, stress alleviation processes, and more.

Caracteristici

Broadens understanding of the core developmental, physiological, and molecular aspects that regulate plant growth and productivity under harsh environmental conditions Illustrates plant resilience to climate change for sustainable agricultural and horticultural practices Enriches understanding of gene function, molecules, physiology, cell biology, fast-breeding programmes, ecophysiological interactions of plants, plant growth-promoting rhizobacteria, biosensors for monitoring stress, production of secondary metabolites, stress alleviation processes etc.