Tillering Behavior of Rice Plant
Autor Pravat Kumar Mohapatra, Ramani Kumar Sarkar, Debabrata Panda, Ekamber Karialien Limba Engleză Hardback – 17 oct 2024
Rice grain is a complex carbohydrate used as a primary food energy source. This book focuses on the impact of high-rise consumer demand on accelerating grain production and ensuring societal stability. Wide coverage is given to variation in rice cultivation under unstable and sharply differing environments, where soil moisture level dictates plant phenology exaggerating tillering dynamics. The book provides essential information for environment-specific regulation of plant growth, tiller number, growth pattern, and manipulation of tiller dynamics for yield. Authors have also elucidated molecular biology underlying tiller survival, the origin of rice and factors crucial for evolutionary change of plant type devoted to imaging a designer plant type. The book includes topics on the ecology of rice environment, cultural types, ontogeny of tiller formation, tiller classes, genetic control of tillering and physiology of tiller growth.
A comprehensive account of tiller dynamics resilient to climate change helps students and researchers learn and gain skills to achieve optimum rice yield. This book is important to students, teachers, researchers and climate change scientists. Further, it serves in designing and shaping rice production in the disintegrating rice agroecosystem under the impact of climate change.
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Specificații
ISBN-13: 9789819752348
ISBN-10: 9819752345
Pagini: 300
Ilustrații: Approx. 300 p. 75 illus.
Dimensiuni: 155 x 235 mm
Ediția:2024
Editura: Springer Nature Singapore
Colecția Springer
Locul publicării:Singapore, Singapore
ISBN-10: 9819752345
Pagini: 300
Ilustrații: Approx. 300 p. 75 illus.
Dimensiuni: 155 x 235 mm
Ediția:2024
Editura: Springer Nature Singapore
Colecția Springer
Locul publicării:Singapore, Singapore
Cuprins
Chapter 1. Origin and Evolution of Rice as Domesticated Staple Food Crop.- Chapter 2. Ecology and Diversity of Rice Habitats.- Chapter 3. Evolutionary Dynamics of Rice.- Chapter 4. Staging of Rice Plant Growth and Development.- Chapter 5. Tiller development in rice.- Chapter 6. Heterogeneity in tiller development.- Chapter 7. Plasticity of tiller dynamics.- Chapter 8. Physiology of Tiller Production and Development.- Chapter 9. Genetics of Tiller Development in Rice.- Chapter 10. Manipulation of tiller number in designer rice.
Notă biografică
Dr Pravat Kumar Mohapatra (corresponding author) obtained PhD (Plant Physiology) from University of Adelaide. He joined School of Life Science, Sambalpur University and superannuated as professor in 2008. Post-superannuation, he served as CSIR and UGC emeritus scientist. His epoch-making research on rice yield potential earned him distinctions in India, Australia, China, Japan and IRRI, Philippines.
Dr Ramani Kumar Sarkar obtained PhD (Botany) from University of Calcutta. He joined Agricultural Research Service, ICAR and superannuated as Principal Scientist, ICAR-NRRI, Cuttack. Post-superannuation, he was emeritus scientist till 2020. He achieved reputations in India, CIMMYT, Mexico and IRRI, Philippines for research on drought, salinity, and submergence tolerance.
Dr Debabrata Panda was Scientist-B at Rubber Research Institute of India before joining faculty at Central University of Odisha, Koraput in 2012. His research interests include physiology of abiotic stress tolerance in plants. He contributed to collection, evaluation and popularization of indigenous wild crops strengthening tribal food security.
Dr Ekamber Kariali joined School of Life Sciences, Sambalpur University as Lecturer in 1997 and obtained PhD in Life Science (Plant Physiology). He became Professor in 2017. He specializes in rice tiller dynamics. He made significant contributions to biodiversity of indigenous rice cultivars and their utility for mankind.
Dr Ramani Kumar Sarkar obtained PhD (Botany) from University of Calcutta. He joined Agricultural Research Service, ICAR and superannuated as Principal Scientist, ICAR-NRRI, Cuttack. Post-superannuation, he was emeritus scientist till 2020. He achieved reputations in India, CIMMYT, Mexico and IRRI, Philippines for research on drought, salinity, and submergence tolerance.
Dr Debabrata Panda was Scientist-B at Rubber Research Institute of India before joining faculty at Central University of Odisha, Koraput in 2012. His research interests include physiology of abiotic stress tolerance in plants. He contributed to collection, evaluation and popularization of indigenous wild crops strengthening tribal food security.
Dr Ekamber Kariali joined School of Life Sciences, Sambalpur University as Lecturer in 1997 and obtained PhD in Life Science (Plant Physiology). He became Professor in 2017. He specializes in rice tiller dynamics. He made significant contributions to biodiversity of indigenous rice cultivars and their utility for mankind.
Textul de pe ultima copertă
This authored volume highlights the concern for food security of Asian nations traditionally focused on rice.
Rice grain is a complex carbohydrate used as a primary food energy source. This book focuses on the impact of high-rise consumer demand on accelerating grain production and ensuring societal stability. Wide coverage is given to variation in rice cultivation under unstable and sharply differing environments, where soil moisture level dictates plant phenology exaggerating tillering dynamics. The book provides essential information for environment-specific regulation of plant growth, tiller number, growth pattern, and manipulation of tiller dynamics for yield. Authors have also elucidated molecular biology underlying tiller survival, the origin of rice and factors crucial for evolutionary change of plant type devoted to imaging a designer plant type. The book includes topics on the ecology of rice environment, cultural types, ontogeny of tiller formation, tiller classes, genetic control of tillering and physiology of tiller growth.
A comprehensive account of tiller dynamics resilient to climate change helps students and researchers learn and gain skills to achieve optimum rice yield. This book is important to students, teachers, researchers and climate change scientists. Further, it serves in designing and shaping rice production in the disintegrating rice agroecosystem under the impact of climate change.
Rice grain is a complex carbohydrate used as a primary food energy source. This book focuses on the impact of high-rise consumer demand on accelerating grain production and ensuring societal stability. Wide coverage is given to variation in rice cultivation under unstable and sharply differing environments, where soil moisture level dictates plant phenology exaggerating tillering dynamics. The book provides essential information for environment-specific regulation of plant growth, tiller number, growth pattern, and manipulation of tiller dynamics for yield. Authors have also elucidated molecular biology underlying tiller survival, the origin of rice and factors crucial for evolutionary change of plant type devoted to imaging a designer plant type. The book includes topics on the ecology of rice environment, cultural types, ontogeny of tiller formation, tiller classes, genetic control of tillering and physiology of tiller growth.
A comprehensive account of tiller dynamics resilient to climate change helps students and researchers learn and gain skills to achieve optimum rice yield. This book is important to students, teachers, researchers and climate change scientists. Further, it serves in designing and shaping rice production in the disintegrating rice agroecosystem under the impact of climate change.
Caracteristici
Covers an up-to-date account of rice evolution, phenology and rice-based food security Provides easy to learning key points on impact of environment on rice tiller dynamics and yield Includes a special section on regulation tiller number for designer rice