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Advances in Rice Research for Abiotic Stress Tolerance

Hasanuzzaman Mirza Fujita Masayuki Nahar, Kamrun Se alle
Heftet / 2018 / Engelsk

Produktdetaljer

ISBN
9780128143322
Publisert
2018-11-14
Utgiver
Elsevier Science Publishing Co Inc
Vekt
1930 gr
Høyde
235 mm
Bredde
191 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
986

Redaktør
Hasanuzzaman Mirza
Fujita Masayuki
Nahar, Kamrun
Biswas, Jiban Krishna

Biografisk notat

Mirza Hasanuzzaman is Professor of Agronomy at Sher-e-Bangla Agricultural University in Dhaka. He is a specialist in agronomy, plant stress responses, and crop physiology. His current work is focused on the physiological and molecular mechanisms of environmental stress tolerance (salinity, drought, flood, and heavy metals/metalloids). Dr. Hasanuzzaman has published over 60 articles in peer-reviewed journals. He has edited six books and written 30 book chapters on important aspects of plant physiology, plant stress tolerance, and crop production. Masayuki Fujita is a Former Professor in the Department of Plant Science, Faculty of Agriculture, Kagawa University, Kagawa, Japan. He received his B.Sc. in Chemistry from Shizuoka University, Shizuoka, and his M.Agr. and Ph.D. in Plant Biochemistry from Nagoya University, Nagoya, Japan. His research interests include physiological, biochemical and molecular biological responses based on secondary metabolism in plants under biotic (pathogenic fungal infection) and abiotic (salinity, drought, extreme temperatures and heavy metals) stresses; phytoalexin, cytochrome P-450, glutathione S-transferase, phytochelatin and redox reaction and antioxidants. He has over 150 peer-reviewed publications and has multiple books. Kamrun Nahar is a leading plant stress physiologist and Professor of Agricultural Botany at Sher‑e‑Bangla Agricultural University in Dhaka, Bangladesh. She began her academic career at the same institution in 2011 and rose to the rank of Professor in 2021. Her research focuses on the physiological and biochemical mechanisms that enhance plant resilience to abiotic stresses, including drought, waterlogging, salinity, metal toxicity, and extreme temperatures, with particular emphasis on antioxidant and glyoxalase pathways. Prof. Nahar earned her Ph.D. in Environmental Stress Physiology from Ehime University, Japan, and completed her Master’s degree at Kagawa University, both supported by Japanese Government (MEXT) scholarships. She has received numerous distinctions, including the BAS Gold Medal Award (2017), multiple academic merit awards, and national research fellowships. A BAS Associate Fellow since 2021, she continues to supervise graduate researchers and lead projects funded by national research bodies. Recognized with prestigious national awards for his leadership in rice science, Jiban Krishna Biswas is a distinguished plant physiologist with more than 33 years of experience in research and development. He currently serves as Executive Director of the Krishi Gobeshona Foundation (KGF), having previously held the role from 2020 to 2022 and rejoining in November 2022. An agricultural graduate from SAU and BAU, he earned his PhD in Crop Science from CLSU, Philippines, supported by an IRRI‑USAID fellowship, and completed postdoctoral research under JSPS in Japan. Dr. Biswas has led major research, administrative, and policy roles, including serving as Director General of the Bangladesh Rice Research Institute until his retirement in 2016. His work spans the development of abiotic stress‑tolerant rice varieties, research management, and extensive consultancy for national and international organizations.

Advances in Rice Research for Abiotic Stress Tolerance

Hasanuzzaman Mirza Fujita Masayuki Nahar, Kamrun Se alle
Heftet / 2018 / Engelsk
Hasanuzzaman Mirza Fujita Masayuki Nahar, Kamrun Se alle
Heftet / 2018 / Engelsk
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Advances in Rice Research for Abiotic Stress Tolerance provides an important guide to recognizing, assessing and addressing the broad range of environmental factors that can inhibit rice yield. As a staple food for nearly half of the world’s population, and in light of projected population growth, improving and increasing rice yield is imperative. This book presents current research on abiotic stresses including extreme temperature variance, drought, hypoxia, salinity, heavy metal, nutrient deficiency and toxicity stresses. Going further, it identifies a variety of approaches to alleviate the damaging effects and improving the stress tolerance of rice. Advances in Rice Research for Abiotic Stress Tolerance provides an important reference for those ensuring optimal yields from this globally important food crop.
Les mer
1. Major Constraints for Global Rice Production 2. Managing Abiotic Stresses With Rice Agriculture to Achieve Sustainable Food Security: Bangladesh Perspective 3. Recent Progress in Rice Varietal Development for Abiotic Stress Tolerance 4. Plant Growth and Morphological Changes in Rice Under Abiotic Stress 5. Recent Advancements in Developing Salinity Tolerant Rice 6. Deciphering Strategies for Salt Stress Tolerance in Rice in the Context of Climate Change 7. A Comprehensive Review on Rice Responses and Tolerance to Salt Stress 8. Effects of Salinity on Rice and Rice Weeds: Shortand Long-Term Adaptation Strategies and Weed Management 9. Drought Stress Responses and its Management in Rice 10. Rice Responses and Tolerance to High Temperature 11. Scope and Progress of Rice Research Harnessing Cold Tolerance 12. Current Scenarios, Progress and Prospects of Developing Technologies for Flood-Tolerant Rice in Bangladesh 13. Responses of Rice to Individual and Combined Stresses of Flooding and Salinity 14. Rice Responses and Tolerance to Metal/Metalloid Toxicity 15. Metal Toxicity in Rice and Strategies for Improving Stress Tolerance 16. Physiological and Molecular Responses for Metalloid Stress in Rice—A Comprehensive Overview 17. Plausible Strategies to Reduce Arsenic Accumulation in Rice 18. Recent Advances in Arsenic Accumulation in Rice 19. Rice Responses and Tolerance to Elevated Ozone 20. Tools and Techniques in the Assessment of Plant Tolerance to High Irradiance Stress With Illustration of Cereal Crops Like Rice 21. Soil Nutrient Stress and Rice Production in Bangladesh 22. Organic Carbon Sources and Nitrogen Management Improve Biomass of Hybrid Rice (Oryza sativa L.) Under Nitrogen Deficient Condition 23. A Review on the Protocols and Comparative Studies of Oxidative Stress Tolerance in Rice 24. Abiotic Stress-Induced Oxidative Stress in Rice 25. Climate Change and Abiotic Stress-Induced Oxidative Burst in Rice 26. Comparative Metabolomics Approach Towards Understanding Chemical Variation in Rice Under Abiotic Stress 27. Abiotic Stress Signaling in Rice Crop 28. Abiotic Stress and Rice Grain Quality 29. Advances in Rice Research for Abiotic Stress Tolerance: Agronomic Approaches to Improve Rice Production Under Abiotic Stress 30. Advances in Biotechnological Tools: Improving Abiotic Stress Tolerance in Rice 31. Use of Phytohormones in Improving Abiotic Stress Tolerance to Rice 32. Use of Phytohormones in Improving Abiotic Stress Tolerance in Rice 33. Emerging Role of Osmolytes in Enhancing Abiotic Stress Tolerance in Rice 34. Rice Responses and Tolerance to Ultraviolet-B (UV-B) Radiation: Plant Growth Regulators Provide a Management Option 35. Ameliorative Mechanisms of Polyamines Against Abiotic Stress in the Rice Plants 36. Genomic Footprints Uncovering Abiotic Stress Tolerance in Rice 37. Engineering of Abiotic Stress Tolerance by Modulating Antioxidant Defense Systems 38. Omics Approaches in Developing Abiotic Stress Tolerance in Rice (Oryza sativa L.) 39. Proteomics Study in Rice Responses and Tolerance to Salt Stress 40. Rice Responses and Tolerance to Salt Stress: Deciphering the Physiological and Molecular Mechanisms of Salinity Adaptation 41. Progress and Challenges of Detecting Biomarkers for the Development of Pesticide Biosensor in Rice Plants 42. Molecular Approaches for Dissecting and Improving Drought and Heat Tolerance in Rice 43. Use of QTLs in Developing Abiotic Stress Tolerance in Rice 44. Policy Directions Toward Increasing Rice Productivity—Lessons from Bangladesh
Les mer
An interdisciplinary approach to rice production using agriculture, physiology, molecular biology and biotechnology
Covers aspects of abiotic stress, from research, history, practical field problems faced by rice, and the possible remedies to the adverse effects of abiotic stresses Provides practical insights into a wide range of management and crop improvement practices Presents a valuable, single-volume sourcebook for rice scientists dealing with agronomy, physiology, molecular biology and biotechnology
Les mer

Relaterte produkter

Advances in Rice Research for Abiotic Stress Tolerance provides an important guide to recognizing, assessing and addressing the broad range of environmental factors that can inhibit rice yield. As a staple food for nearly half of the world’s population, and in light of projected population growth, improving and increasing rice yield is imperative. This book presents current research on abiotic stresses including extreme temperature variance, drought, hypoxia, salinity, heavy metal, nutrient deficiency and toxicity stresses. Going further, it identifies a variety of approaches to alleviate the damaging effects and improving the stress tolerance of rice. Advances in Rice Research for Abiotic Stress Tolerance provides an important reference for those ensuring optimal yields from this globally important food crop.
Les mer
1. Major Constraints for Global Rice Production 2. Managing Abiotic Stresses With Rice Agriculture to Achieve Sustainable Food Security: Bangladesh Perspective 3. Recent Progress in Rice Varietal Development for Abiotic Stress Tolerance 4. Plant Growth and Morphological Changes in Rice Under Abiotic Stress 5. Recent Advancements in Developing Salinity Tolerant Rice 6. Deciphering Strategies for Salt Stress Tolerance in Rice in the Context of Climate Change 7. A Comprehensive Review on Rice Responses and Tolerance to Salt Stress 8. Effects of Salinity on Rice and Rice Weeds: Shortand Long-Term Adaptation Strategies and Weed Management 9. Drought Stress Responses and its Management in Rice 10. Rice Responses and Tolerance to High Temperature 11. Scope and Progress of Rice Research Harnessing Cold Tolerance 12. Current Scenarios, Progress and Prospects of Developing Technologies for Flood-Tolerant Rice in Bangladesh 13. Responses of Rice to Individual and Combined Stresses of Flooding and Salinity 14. Rice Responses and Tolerance to Metal/Metalloid Toxicity 15. Metal Toxicity in Rice and Strategies for Improving Stress Tolerance 16. Physiological and Molecular Responses for Metalloid Stress in Rice—A Comprehensive Overview 17. Plausible Strategies to Reduce Arsenic Accumulation in Rice 18. Recent Advances in Arsenic Accumulation in Rice 19. Rice Responses and Tolerance to Elevated Ozone 20. Tools and Techniques in the Assessment of Plant Tolerance to High Irradiance Stress With Illustration of Cereal Crops Like Rice 21. Soil Nutrient Stress and Rice Production in Bangladesh 22. Organic Carbon Sources and Nitrogen Management Improve Biomass of Hybrid Rice (Oryza sativa L.) Under Nitrogen Deficient Condition 23. A Review on the Protocols and Comparative Studies of Oxidative Stress Tolerance in Rice 24. Abiotic Stress-Induced Oxidative Stress in Rice 25. Climate Change and Abiotic Stress-Induced Oxidative Burst in Rice 26. Comparative Metabolomics Approach Towards Understanding Chemical Variation in Rice Under Abiotic Stress 27. Abiotic Stress Signaling in Rice Crop 28. Abiotic Stress and Rice Grain Quality 29. Advances in Rice Research for Abiotic Stress Tolerance: Agronomic Approaches to Improve Rice Production Under Abiotic Stress 30. Advances in Biotechnological Tools: Improving Abiotic Stress Tolerance in Rice 31. Use of Phytohormones in Improving Abiotic Stress Tolerance to Rice 32. Use of Phytohormones in Improving Abiotic Stress Tolerance in Rice 33. Emerging Role of Osmolytes in Enhancing Abiotic Stress Tolerance in Rice 34. Rice Responses and Tolerance to Ultraviolet-B (UV-B) Radiation: Plant Growth Regulators Provide a Management Option 35. Ameliorative Mechanisms of Polyamines Against Abiotic Stress in the Rice Plants 36. Genomic Footprints Uncovering Abiotic Stress Tolerance in Rice 37. Engineering of Abiotic Stress Tolerance by Modulating Antioxidant Defense Systems 38. Omics Approaches in Developing Abiotic Stress Tolerance in Rice (Oryza sativa L.) 39. Proteomics Study in Rice Responses and Tolerance to Salt Stress 40. Rice Responses and Tolerance to Salt Stress: Deciphering the Physiological and Molecular Mechanisms of Salinity Adaptation 41. Progress and Challenges of Detecting Biomarkers for the Development of Pesticide Biosensor in Rice Plants 42. Molecular Approaches for Dissecting and Improving Drought and Heat Tolerance in Rice 43. Use of QTLs in Developing Abiotic Stress Tolerance in Rice 44. Policy Directions Toward Increasing Rice Productivity—Lessons from Bangladesh
Les mer
An interdisciplinary approach to rice production using agriculture, physiology, molecular biology and biotechnology
Covers aspects of abiotic stress, from research, history, practical field problems faced by rice, and the possible remedies to the adverse effects of abiotic stresses Provides practical insights into a wide range of management and crop improvement practices Presents a valuable, single-volume sourcebook for rice scientists dealing with agronomy, physiology, molecular biology and biotechnology
Les mer

Produktdetaljer

ISBN
9780128143322
Publisert
2018-11-14
Utgiver
Elsevier Science Publishing Co Inc
Vekt
1930 gr
Høyde
235 mm
Bredde
191 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
986

Redaktør
Hasanuzzaman Mirza
Fujita Masayuki
Nahar, Kamrun
Biswas, Jiban Krishna

Biografisk notat

Mirza Hasanuzzaman is Professor of Agronomy at Sher-e-Bangla Agricultural University in Dhaka. He is a specialist in agronomy, plant stress responses, and crop physiology. His current work is focused on the physiological and molecular mechanisms of environmental stress tolerance (salinity, drought, flood, and heavy metals/metalloids). Dr. Hasanuzzaman has published over 60 articles in peer-reviewed journals. He has edited six books and written 30 book chapters on important aspects of plant physiology, plant stress tolerance, and crop production. Masayuki Fujita is a Former Professor in the Department of Plant Science, Faculty of Agriculture, Kagawa University, Kagawa, Japan. He received his B.Sc. in Chemistry from Shizuoka University, Shizuoka, and his M.Agr. and Ph.D. in Plant Biochemistry from Nagoya University, Nagoya, Japan. His research interests include physiological, biochemical and molecular biological responses based on secondary metabolism in plants under biotic (pathogenic fungal infection) and abiotic (salinity, drought, extreme temperatures and heavy metals) stresses; phytoalexin, cytochrome P-450, glutathione S-transferase, phytochelatin and redox reaction and antioxidants. He has over 150 peer-reviewed publications and has multiple books. Kamrun Nahar is a leading plant stress physiologist and Professor of Agricultural Botany at Sher‑e‑Bangla Agricultural University in Dhaka, Bangladesh. She began her academic career at the same institution in 2011 and rose to the rank of Professor in 2021. Her research focuses on the physiological and biochemical mechanisms that enhance plant resilience to abiotic stresses, including drought, waterlogging, salinity, metal toxicity, and extreme temperatures, with particular emphasis on antioxidant and glyoxalase pathways. Prof. Nahar earned her Ph.D. in Environmental Stress Physiology from Ehime University, Japan, and completed her Master’s degree at Kagawa University, both supported by Japanese Government (MEXT) scholarships. She has received numerous distinctions, including the BAS Gold Medal Award (2017), multiple academic merit awards, and national research fellowships. A BAS Associate Fellow since 2021, she continues to supervise graduate researchers and lead projects funded by national research bodies. Recognized with prestigious national awards for his leadership in rice science, Jiban Krishna Biswas is a distinguished plant physiologist with more than 33 years of experience in research and development. He currently serves as Executive Director of the Krishi Gobeshona Foundation (KGF), having previously held the role from 2020 to 2022 and rejoining in November 2022. An agricultural graduate from SAU and BAU, he earned his PhD in Crop Science from CLSU, Philippines, supported by an IRRI‑USAID fellowship, and completed postdoctoral research under JSPS in Japan. Dr. Biswas has led major research, administrative, and policy roles, including serving as Director General of the Bangladesh Rice Research Institute until his retirement in 2016. His work spans the development of abiotic stress‑tolerant rice varieties, research management, and extensive consultancy for national and international organizations.

Relaterte produkter