Plant Flooding

Dr. Riyazuddin is currently employed as a postdoctoral researcher at the Instituto de Bioingeniería, Universidad Miguel Hernández, Elche, Spain. His research interests include the role of Jumanji C domain-containing histone demethylases in regulating gene expression and chromatin structure. In his capacity as a research assistant, he was engaged in the characterization of RLCK kinases in environmental stress responses at the Institute of Plant Biology, HUN-REN Biological Research Centre, Szeged, Hungary. He was awarded his PhD in plant molecular stress physiology from the University of Szeged, Hungary, where he conducted research on the role of glutathione peroxidase in response to salt and drought stresses and the regulation of this process by phytohormones. He has published over 30 scientific articles, with a cumulative impact factor exceeding 100 and several book chapters on the topic of stress physiology. Additionally, he has been the recipient of numerous esteemed international fellowships from the Hungarian government and has been the recipient of several international awards, including the Young Research Scholar Award and the Best Young Poster Presentation Award. In addition to serving on the board of studies, he is actively engaged as a visiting faculty member at the Department of Botany of Bhavan's College, Mumbai, Maharashtra; Dr. Ambedkar College, Deekshabhoomi, Nagpur; and the Department of Molecular Biology and Genetics Engineering, Nagpur University. Moreover, he has presented his work at over 30 national and international conferences.

Dr. Ravi Gupta is currently employed as an Assistant Professor at Kookmin University, Seoul. He obtained his Ph.D. in Plant Physiology and Biochemistry from the University of Delhi, India and then spent more than five years working as a postdoctoral fellow and Research Professor at Pusan National University, Busan, Korea. Dr. Gupta is the author of more than 90 scientific publications and has also published several books. He is a recipient of many prestigious national and international awards, including the Ramalingaswami re-entry fellowship, Ramanujan fellowship, ITS fellowship from the Government of India, and Korea Research Fellowship from the Government of South Korea.

Prof. Pramod W. Ramteke is currently working as an Adjunct Professor at the Department of Molecular Biology and Genetic Engineering, RTM Nagpur University and Hislop College, Nagpur. He has 36 years of teaching and research experience in the area of sustainable crop production. He has been elected as the Fellow of National Academy of Agricultural Sciences, Biotech Research Society of India, Royal Society of Biology, Academy of Microbiological Sciences (AMI), National Academy of Biological Sciences, Mycological Society of India and International Society of Environmental Botanists. He is the recipient of many awards, including BHU Centennial Award, Excellence in Science Award (SCON), J. C. Bose Gold Medal, Dr. J. C. Edward Medal, Prof. K. S. Bilgramy Memorial Award, Prof. K. V. Shastri Gold Medal and V. S. Chauhan Gold Medal. He has authored/edited 10 books and over 250 research articles.

Prof. Dr. Riyaz Sayyed is currently working as a Professor at the University of Nizwa, Oman. He has over 25 years of teaching and research experience in Microbiology and Biotechnology. He has served as the President of the India Chapter of the Asian PGPR Society for Sustainable Agriculture. He is the Associate Editor of Environmental Sustainability (Springer), Guest Editor of Sustainability (MDPI), Frontiers in Microbiology, Frontiers in Sustainable Food System, and Academic Editor of PeerJ. Elsevier and Stanford which consecutively listed Prof. Sayyed among the world's Top 2% of researchers. To his credit, he has received many prestigious awards, namely, Fellow-Indian Phytopathological Society (2021), Research Excellence

Part I. Plant responses to flooding stress.- Chapter 1. Anatomical, morphological, and physiological consequences and adaptations in flood stressed-plants.- Chapter 2. Plant root responses and acclimatisation to flooding stress.- Chapter 3. Effects of flooding stress on plant developmental stages and antioxidant defense system and its alleviation through agronomic measures.- Chapter 4. Plant Oxidative Stress Associated with Flood Stress.- Chapter 5. Deciphering the plant response to flood induced hypoxia and anoxia at the molecular level.- Chapter 6. Molecular mechanism of plants' responses to hypoxia/anoxia caused By flooding.- Chapter 7. Molecular mechanisms to facilitate recovery after flooding attempts to increase flood stress tolerance in crops.- Part II. Mitigation strategies to flooding stress.- Chapter 8. Flood-induced physicochemical changes in soil and their mitigation by biochar.- Chapter 9. A brief overview of beneficial microbes or bio inoculants to lower flood stress-induced damage of crop plants.- Chapter 10. Mechanisms of beneficial microbes in mitigating flood stress.- Chapter 11. Beneficial Microbes or Bioinoculants to Lower Flood Stress Damages of Crop Plants.- Part III. Molecular approaches to investigate flooding stress.- Chapter 12. An Overview of Scientific Approaches Towards the Introduction of Flood-Proof Crops.- Chapter 13. "Omics" based approaches for the identification of flood stress-related markers in plants.- Chapter 14. Transgenic Approaches to overcome the Flood Stress Damage.- Part IV. Case studies on flooding tolerant plants.- Chapter 15. Rice: A crop adapted to flood.