Author: Lawrence V. Gusta
Publisher: CABI
ISBN: 1845935144
Category : Science
Languages : en
Pages : 337
Book Description
Presenting the latest research on the effects of cold and sub-zero temperatures on plant distribution, growth and yield, this comprehensive volume contains 28 chapters by international experts covering basic molecular science to broad ecological studies on the impact of global warming, and an industry perspective on transgenic approaches to abiotic stress tolerance. With a focus on integrating molecular studies in the laboratory with field research and physiological studies of whole plants in their natural environments, this book covers plant physiology, production, development, agronomy, ecology, breeding and genetics, and their applications in agriculture and horticulture.
Plant Cold Hardiness
Author: Lawrence V. Gusta
Publisher: CABI
ISBN: 1845935144
Category : Science
Languages : en
Pages : 337
Book Description
Presenting the latest research on the effects of cold and sub-zero temperatures on plant distribution, growth and yield, this comprehensive volume contains 28 chapters by international experts covering basic molecular science to broad ecological studies on the impact of global warming, and an industry perspective on transgenic approaches to abiotic stress tolerance. With a focus on integrating molecular studies in the laboratory with field research and physiological studies of whole plants in their natural environments, this book covers plant physiology, production, development, agronomy, ecology, breeding and genetics, and their applications in agriculture and horticulture.
Publisher: CABI
ISBN: 1845935144
Category : Science
Languages : en
Pages : 337
Book Description
Presenting the latest research on the effects of cold and sub-zero temperatures on plant distribution, growth and yield, this comprehensive volume contains 28 chapters by international experts covering basic molecular science to broad ecological studies on the impact of global warming, and an industry perspective on transgenic approaches to abiotic stress tolerance. With a focus on integrating molecular studies in the laboratory with field research and physiological studies of whole plants in their natural environments, this book covers plant physiology, production, development, agronomy, ecology, breeding and genetics, and their applications in agriculture and horticulture.
Advances in Plant Cold Hardiness
Author: Paul H. Li
Publisher: CRC Press
ISBN: 1351086421
Category : Science
Languages : en
Pages : 287
Book Description
Advances in Plant Cold Hardiness provides a detailed, up-to-date discussion of plant cold hardiness research. The molecular mechanisms of plant cold hardiness development, a subject not covered in any other low temperature stress book, is examined in depth. Other major topics addressed include the freezing tolerance and injury of plant tissues in vivo and in vitro, in addition to how research findings impact agricultural applications. The articles featured in Advances in Plant Cold Hardiness were presented as key papers at the 4th International Plant Cold Hardiness Seminar held at the Swedish University of Agricultural Sciences in Uppsala in July, 1991. The book will appeal to all researchers, students, and instructors in plant biology, agriculture, and forestry.
Publisher: CRC Press
ISBN: 1351086421
Category : Science
Languages : en
Pages : 287
Book Description
Advances in Plant Cold Hardiness provides a detailed, up-to-date discussion of plant cold hardiness research. The molecular mechanisms of plant cold hardiness development, a subject not covered in any other low temperature stress book, is examined in depth. Other major topics addressed include the freezing tolerance and injury of plant tissues in vivo and in vitro, in addition to how research findings impact agricultural applications. The articles featured in Advances in Plant Cold Hardiness were presented as key papers at the 4th International Plant Cold Hardiness Seminar held at the Swedish University of Agricultural Sciences in Uppsala in July, 1991. The book will appeal to all researchers, students, and instructors in plant biology, agriculture, and forestry.
Plant Cold Hardiness
Author: Paul H. Li
Publisher: Springer Science & Business Media
ISBN: 1489902775
Category : Science
Languages : en
Pages : 360
Book Description
This volume is compiled based on the proceedings of the 5th International Plant Cold Hardiness Seminar, which was held at Oregon State University, Corvallis, Oregon, USA, August 5 to 8, 1996. Participants representing 16 nations and 22 U. S. states attended the seminar. Researchers came from major laboratories around the world involving plant cold hardiness research. The information compiled in this volume represents the state-of the-art research and our understanding of plant cold hardiness in terms of molecular biol ogy, biochemistry, and physiology. The 1996 International Plant Cold Hardiness Seminar was the fifth of the series; it was first held in 1977 at the University of Minnesota, St. Paul, MN, and since then has met every 5 years. The overall goal of this seminar series is to foster the exchange of ideas and research findings among the diverse groups of scientists studying freezing and chilling stresses from a wide variety of perspectives. This is the only international conference focus ing its programs entirely on low temperature stress in plants. In accordance with the tradi tion, the fifth conference focused on freezing and chilling stress of plants and covered various aspects of plant cold hardiness, including molecular genetics, biochemistry, physi ology, and agricultural applications. All contributors to this volume are eminent researchers who have had significant contributions to the knowledge of plant cold hardiness.
Publisher: Springer Science & Business Media
ISBN: 1489902775
Category : Science
Languages : en
Pages : 360
Book Description
This volume is compiled based on the proceedings of the 5th International Plant Cold Hardiness Seminar, which was held at Oregon State University, Corvallis, Oregon, USA, August 5 to 8, 1996. Participants representing 16 nations and 22 U. S. states attended the seminar. Researchers came from major laboratories around the world involving plant cold hardiness research. The information compiled in this volume represents the state-of the-art research and our understanding of plant cold hardiness in terms of molecular biol ogy, biochemistry, and physiology. The 1996 International Plant Cold Hardiness Seminar was the fifth of the series; it was first held in 1977 at the University of Minnesota, St. Paul, MN, and since then has met every 5 years. The overall goal of this seminar series is to foster the exchange of ideas and research findings among the diverse groups of scientists studying freezing and chilling stresses from a wide variety of perspectives. This is the only international conference focus ing its programs entirely on low temperature stress in plants. In accordance with the tradi tion, the fifth conference focused on freezing and chilling stress of plants and covered various aspects of plant cold hardiness, including molecular genetics, biochemistry, physi ology, and agricultural applications. All contributors to this volume are eminent researchers who have had significant contributions to the knowledge of plant cold hardiness.
Cold Hardiness in Plants
Author: Tony H. H. Chen
Publisher: CABI
ISBN: 1845930118
Category : Nature
Languages : en
Pages : 270
Book Description
Based on papers from the 7th International Plant Cold Hardiness Seminar held in Japan in 2004, this book presents the latest research findings on plant freezing and chilling stress from major laboratories around the world. The chapters focus on various aspects of molecular genetics and the utilization of transgenic plants to further our understanding of plant cold hardiness at the molecular level. Topics covered include: vernalization genes in winter cereals; global analysis of gene networks to solve complex abiotic stress responses; control of growth and cold acclimation in silver birch and the effect of Plasma Membrane-associated Proteins on Acquisition of Freezing Tolerance in Arabidopsis thaliana.
Publisher: CABI
ISBN: 1845930118
Category : Nature
Languages : en
Pages : 270
Book Description
Based on papers from the 7th International Plant Cold Hardiness Seminar held in Japan in 2004, this book presents the latest research findings on plant freezing and chilling stress from major laboratories around the world. The chapters focus on various aspects of molecular genetics and the utilization of transgenic plants to further our understanding of plant cold hardiness at the molecular level. Topics covered include: vernalization genes in winter cereals; global analysis of gene networks to solve complex abiotic stress responses; control of growth and cold acclimation in silver birch and the effect of Plasma Membrane-associated Proteins on Acquisition of Freezing Tolerance in Arabidopsis thaliana.
Plant Cold Hardiness
Author: Lawrence V. Gusta
Publisher: CABI
ISBN: 1845935136
Category : Science
Languages : en
Pages : 335
Book Description
Presenting the latest research on the effects of cold and sub-zero temperatures on plant distribution, growth and yield, this comprehensive volume contains 28 chapters by international experts covering basic molecular science to broad ecological studies on the impact of global warming, and an industry perspective on transgenic approaches to abiotic stress tolerance. With a focus on integrating molecular studies in the laboratory with field research and physiological studies of whole plants in their natural environments, this book covers plant physiology, production, development, agronomy, ecology, breeding and genetics, and their applications in agriculture and horticulture. Global Analysis of Gene Networks to Solve Complex Abiotic Stress responses, K Shinozaki, RIKEN Tsukuba Institute, Japan and K Yamaguchi-Shinozaki, Japan International Research Center for Agricultural Sciences, Japan, The CBF Cold Response Pathways of Arabidopsis and Tomato, J T Vogel, Michigan State University, USA, D Cook, Mississippi State University, USA, S G Fowler and M F Thomashow, Michigan State University, USA, Barley Contains a Large CBF Gene Family Associated with Quantitative Cold Tolerance Traits, J S Skinner, J von Zitzewitz, L Marquez-Cedillo, T Filichkin, Oregon State University, USA, P Szucs, Agricultural Research Institute of the Hungarian Academy of Sciences, Hungary, K Amundsen, Michigan State University, USA, E Stockinger, Ohio State University, USA, M F Thomashow, Michigan State University, USA, T H H Chen, and P M Hayes, Oregon State University, USA, Structural Organization of Barley CBF Genes Coincident with QTLS for Cold Hardiness , E J Stockinger, H Cheng, Chinese Academy of Agricultural Sciences, China and J Skinner, The genetic basis of vernalization response in barley, L L D Cooper, Oregon State University, USA, J von Zitzewitz, J S Skinner, P Szucs, I Karsai, Agriculturtal Research Institute of the Hungarian Academy of Sciences, Hungary, E Francia, A M Stanca, Experimental Institute for Cereal Resources, Italy, N Pecchioni, Universita di Modena e Reggio Emilia, Italy, D A Laurie, John Innes Research Centre, UK, T H H Chen, and P M Hayes, Vernalization Genes in Winter Cereals, N A Kane, J Danyluk, and F Sarhan, Universite du Quebec a Montreal, Canada, A Bulk Segregant Approach to Identify Genetic Polymorphisms Associated with Cold Tolerance in Alfalfa, Y Castonguay, J Cloutier, S Laberge, A Bertrand and R Michaud, Agriculture and Agri-Food Canada, Canada, Ectopic Over-expression of AtCBF1 in Potato Enhances Freezing Tolerance, M T Pino, J S Skinner, Z Jeknic, E J Park, Oregon State University, USA, P M Hayes, and T H H Chen, Over-expression of a Heat-inducible apx Gene Confers Chilling Tolerance to Rice Plants, Y Sato, National Agricultural Research Center for Hokkaido Region, Japan, and H Saruyama, Hokkaido Green-Bio Institute, Japan Physiological and Morphological Alterations Associated with Development of Freezing Tolerance in The Moss Physcomitrella patens, A Minami, M Nagao, Iwate University, Japan, K Arakawa, S Fujikawa, Hokkaido University and D Takezawa, Saitama University, Japan, Control of Growth and Cold Acclimation in Silver Birch, M K Aalto and E T Palva, Viikki Biocenter, Finland, The Role of the CBF-Dependent Signalling Pathway in Woody Perennials, C Benedict, Umea University, Sweden, J S Skinner, R Meng, Y Chang, Oregon State University, USA, R Bhalerao, Swedish University of Agricultural Sciences, Sweden, C Finn, USDA-ARS, USA, T H H Chen, V Hurry, Umea University, Sweden, Functional Role of Winter-accumulating Proteins from Mulberry Tree in adaptation to Winter-induced Stresses, S Fujikawa, N Ukaji, Hokkaido University, Japan, M Nagao, K Yamane, Hokkaido University, Japan, D Takezawa, and K Arakawa, The Role of Compatible Solutes in Plant Freezing Tolerance: A Case Study on Raffinose, D K Hincha, E Zuther, M Hundertmark, A G Heyer, Max-Planck-Institut fur Molekulare Pflanzenphysiologie, Germany, Dehydration in model membranes and protoplasts: contrasting effects at low, intermediate and high hydrations, K L Koster, University of South Dakota,USA, and G Bryant, RMIT University, Australia, Effect of Plasma Membrane-associated Proteins on Acquisition of Freezing Tolerance in Arabidopsis thaliana, Y Tominaga, Universite du Quebec a Montreal, Canada, C Nakagawara, Y Kawamura and M Uemura, Iwate University, Japan
Publisher: CABI
ISBN: 1845935136
Category : Science
Languages : en
Pages : 335
Book Description
Presenting the latest research on the effects of cold and sub-zero temperatures on plant distribution, growth and yield, this comprehensive volume contains 28 chapters by international experts covering basic molecular science to broad ecological studies on the impact of global warming, and an industry perspective on transgenic approaches to abiotic stress tolerance. With a focus on integrating molecular studies in the laboratory with field research and physiological studies of whole plants in their natural environments, this book covers plant physiology, production, development, agronomy, ecology, breeding and genetics, and their applications in agriculture and horticulture. Global Analysis of Gene Networks to Solve Complex Abiotic Stress responses, K Shinozaki, RIKEN Tsukuba Institute, Japan and K Yamaguchi-Shinozaki, Japan International Research Center for Agricultural Sciences, Japan, The CBF Cold Response Pathways of Arabidopsis and Tomato, J T Vogel, Michigan State University, USA, D Cook, Mississippi State University, USA, S G Fowler and M F Thomashow, Michigan State University, USA, Barley Contains a Large CBF Gene Family Associated with Quantitative Cold Tolerance Traits, J S Skinner, J von Zitzewitz, L Marquez-Cedillo, T Filichkin, Oregon State University, USA, P Szucs, Agricultural Research Institute of the Hungarian Academy of Sciences, Hungary, K Amundsen, Michigan State University, USA, E Stockinger, Ohio State University, USA, M F Thomashow, Michigan State University, USA, T H H Chen, and P M Hayes, Oregon State University, USA, Structural Organization of Barley CBF Genes Coincident with QTLS for Cold Hardiness , E J Stockinger, H Cheng, Chinese Academy of Agricultural Sciences, China and J Skinner, The genetic basis of vernalization response in barley, L L D Cooper, Oregon State University, USA, J von Zitzewitz, J S Skinner, P Szucs, I Karsai, Agriculturtal Research Institute of the Hungarian Academy of Sciences, Hungary, E Francia, A M Stanca, Experimental Institute for Cereal Resources, Italy, N Pecchioni, Universita di Modena e Reggio Emilia, Italy, D A Laurie, John Innes Research Centre, UK, T H H Chen, and P M Hayes, Vernalization Genes in Winter Cereals, N A Kane, J Danyluk, and F Sarhan, Universite du Quebec a Montreal, Canada, A Bulk Segregant Approach to Identify Genetic Polymorphisms Associated with Cold Tolerance in Alfalfa, Y Castonguay, J Cloutier, S Laberge, A Bertrand and R Michaud, Agriculture and Agri-Food Canada, Canada, Ectopic Over-expression of AtCBF1 in Potato Enhances Freezing Tolerance, M T Pino, J S Skinner, Z Jeknic, E J Park, Oregon State University, USA, P M Hayes, and T H H Chen, Over-expression of a Heat-inducible apx Gene Confers Chilling Tolerance to Rice Plants, Y Sato, National Agricultural Research Center for Hokkaido Region, Japan, and H Saruyama, Hokkaido Green-Bio Institute, Japan Physiological and Morphological Alterations Associated with Development of Freezing Tolerance in The Moss Physcomitrella patens, A Minami, M Nagao, Iwate University, Japan, K Arakawa, S Fujikawa, Hokkaido University and D Takezawa, Saitama University, Japan, Control of Growth and Cold Acclimation in Silver Birch, M K Aalto and E T Palva, Viikki Biocenter, Finland, The Role of the CBF-Dependent Signalling Pathway in Woody Perennials, C Benedict, Umea University, Sweden, J S Skinner, R Meng, Y Chang, Oregon State University, USA, R Bhalerao, Swedish University of Agricultural Sciences, Sweden, C Finn, USDA-ARS, USA, T H H Chen, V Hurry, Umea University, Sweden, Functional Role of Winter-accumulating Proteins from Mulberry Tree in adaptation to Winter-induced Stresses, S Fujikawa, N Ukaji, Hokkaido University, Japan, M Nagao, K Yamane, Hokkaido University, Japan, D Takezawa, and K Arakawa, The Role of Compatible Solutes in Plant Freezing Tolerance: A Case Study on Raffinose, D K Hincha, E Zuther, M Hundertmark, A G Heyer, Max-Planck-Institut fur Molekulare Pflanzenphysiologie, Germany, Dehydration in model membranes and protoplasts: contrasting effects at low, intermediate and high hydrations, K L Koster, University of South Dakota,USA, and G Bryant, RMIT University, Australia, Effect of Plasma Membrane-associated Proteins on Acquisition of Freezing Tolerance in Arabidopsis thaliana, Y Tominaga, Universite du Quebec a Montreal, Canada, C Nakagawara, Y Kawamura and M Uemura, Iwate University, Japan
Application of Physiology in Wheat Breeding
Author: M. P. Reynolds
Publisher: CIMMYT
ISBN: 9706480773
Category : Physiology
Languages : en
Pages : 246
Book Description
Publisher: CIMMYT
ISBN: 9706480773
Category : Physiology
Languages : en
Pages : 246
Book Description
Genetic advancements for improving the plant tolerance to biotic and abiotic stresses
Author: Krishnanand P. Kulkarni
Publisher: Frontiers Media SA
ISBN: 283254990X
Category : Science
Languages : en
Pages : 204
Book Description
Crop plants are constantly exposed to multiple abiotic (such as drought, salinity, cold, flooding, heavy metal, and heat) and/or biotic (bacterial/fungal/viral) stress factors that hinder their growth and development, subsequently leading to decreases in quality and yield. During the last two decades, many classical genetic and breeding approaches have been used to develop stress-tolerant and climate-adaptable plants that can provide a better yield to meet food demands. Climate change poses a major risk to food security as the world faces frequent floods, droughts, heat waves, and the emergence of new invasive pests and diseases. Novel genomic and genetic approaches look promising to improve plant resilience under stress conditions and achieve sustainable crop improvements. Recent advances in sequencing technologies have facilitated the generation of a plethora of genomic resources in a variety of crop and plant species. With the increased availability of genomic and transcriptomic data, an increasing number of quantitative trait loci and candidate genes are being identified for their application in improving plant tolerance to abiotic and biotic stresses. New approaches such as genomic selection and genomic-assisted breeding have been utilized to develop stress-tolerant cultivars in a variety of plant species. Furthermore, transgenics and rapidly evolving CRISPR technology offer great potential for plant improvement. This Research Topic aims to provide insights into the molecular and genetic factors involved in imparting abiotic and biotic stress tolerance in plants and their application in enhancing plant adaptation to these stress conditions. To review the progress in this research category, we invite manuscripts related to the plant responses to abiotic/biotic stresses and trait improvement through genomic selection, and transgenic or gene-editing approaches. Studies including physiological, biochemical, and molecular genetic analyses revealing the mechanisms involved in plant response to abiotic/biotic stresses are welcome. Topic editor Dr. Balaji Aravindhan Pandian is employed by Enko Chem Inc. All other Topic Editors declare no competing interests with regard to the Research Topic subject.
Publisher: Frontiers Media SA
ISBN: 283254990X
Category : Science
Languages : en
Pages : 204
Book Description
Crop plants are constantly exposed to multiple abiotic (such as drought, salinity, cold, flooding, heavy metal, and heat) and/or biotic (bacterial/fungal/viral) stress factors that hinder their growth and development, subsequently leading to decreases in quality and yield. During the last two decades, many classical genetic and breeding approaches have been used to develop stress-tolerant and climate-adaptable plants that can provide a better yield to meet food demands. Climate change poses a major risk to food security as the world faces frequent floods, droughts, heat waves, and the emergence of new invasive pests and diseases. Novel genomic and genetic approaches look promising to improve plant resilience under stress conditions and achieve sustainable crop improvements. Recent advances in sequencing technologies have facilitated the generation of a plethora of genomic resources in a variety of crop and plant species. With the increased availability of genomic and transcriptomic data, an increasing number of quantitative trait loci and candidate genes are being identified for their application in improving plant tolerance to abiotic and biotic stresses. New approaches such as genomic selection and genomic-assisted breeding have been utilized to develop stress-tolerant cultivars in a variety of plant species. Furthermore, transgenics and rapidly evolving CRISPR technology offer great potential for plant improvement. This Research Topic aims to provide insights into the molecular and genetic factors involved in imparting abiotic and biotic stress tolerance in plants and their application in enhancing plant adaptation to these stress conditions. To review the progress in this research category, we invite manuscripts related to the plant responses to abiotic/biotic stresses and trait improvement through genomic selection, and transgenic or gene-editing approaches. Studies including physiological, biochemical, and molecular genetic analyses revealing the mechanisms involved in plant response to abiotic/biotic stresses are welcome. Topic editor Dr. Balaji Aravindhan Pandian is employed by Enko Chem Inc. All other Topic Editors declare no competing interests with regard to the Research Topic subject.
Low-Temperature Stress in Plants: Molecular Responses, Tolerance Mechanisms, Plant Biodesign and Breeding Applications
Author: Jin Xu
Publisher: Frontiers Media SA
ISBN: 2832549195
Category : Science
Languages : en
Pages : 155
Book Description
Low-temperature stress is the primary abiotic stress that affects the growth and development of plants and their geographical distribution. This can lead to the solidification of membrane lipids and decrease of enzymatic reaction rate in plants in a relatively short time, or indirectly affect the imbalance of respiration and photosynthesis, accumulation of toxic substances, ATP depletion, cell solute leakage and wilting due to water loss. Low-temperature stress can be divided into chilling stress and freezing stress according to the damage caused to plants. Both chilling and freezing stress drastically threaten global food security and species diversity in the northern and frigid temperate zones. Once plants experience low-temperature stress, the regulation mechanism of gene expression is rapidly activated to cope with the adverse environment.
Publisher: Frontiers Media SA
ISBN: 2832549195
Category : Science
Languages : en
Pages : 155
Book Description
Low-temperature stress is the primary abiotic stress that affects the growth and development of plants and their geographical distribution. This can lead to the solidification of membrane lipids and decrease of enzymatic reaction rate in plants in a relatively short time, or indirectly affect the imbalance of respiration and photosynthesis, accumulation of toxic substances, ATP depletion, cell solute leakage and wilting due to water loss. Low-temperature stress can be divided into chilling stress and freezing stress according to the damage caused to plants. Both chilling and freezing stress drastically threaten global food security and species diversity in the northern and frigid temperate zones. Once plants experience low-temperature stress, the regulation mechanism of gene expression is rapidly activated to cope with the adverse environment.
Environmental Protection Research Catalog: Indexes
Author: Smithsonian Science Information Exchange
Publisher:
ISBN:
Category : Environmental health
Languages : en
Pages : 1478
Book Description
Publisher:
ISBN:
Category : Environmental health
Languages : en
Pages : 1478
Book Description
Principles and Practices of OMICS and Genome Editing for Crop Improvement
Author: Channa S. Prakash
Publisher: Springer Nature
ISBN: 3030969258
Category : Science
Languages : en
Pages : 422
Book Description
Global food security is increasingly challenging in light of population increase, the impact of climate change on crop production, and limited land available for agricultural expansion. Plant breeding and other agricultural technologies have contributed considerably for food and nutritional security over the last few decades. Genetic engineering approaches are powerful tools that we have at our disposal to overcome substantial obstacles in the way of efficiency and productivity of current agricultural practices. Genome engineering via CRISPR/Cas9, Cpf1, base editing and prime editing, and OMICs through genomics, transcriptomics, proteomics, phenomics, an metabolomics have helped to discover underlying mechanisms controlling traits of economic importance. Principle and Practices of OMICs and Genome Editing for Crop Improvement provides recent research from eminent scholars from around the world, from various geographical regions, with established expertise on genome editing and OMICs technologies. This book offers a wide range of information on OMICs techniques and their applications to develop biotic, abiotic and climate resilient crops, metabolomics and next generation sequencing for sustainable crop production, integration bioinformatics, and multi-omics for precision plant breeding. Other topics include application of genome editing technologies for food and nutritional security, speed breeding, hybrid seed production, resource use efficiency, epigenetic modifications, transgene free breeding, database and bioinformatics for genome editing, and regulations adopted by various countries around globe for genome edited crops. Both OMICs and genome editing are vigorously utilized by researchers for crop improvement programs; however, there is limited literature available in a single source. This book provides a valuable resource not only for students at undergraduate and postgraduate level but also for researchers, stakeholders, policy makers, and practitioners interested in the potential of genome editing and OMICs for crop improvement programs.
Publisher: Springer Nature
ISBN: 3030969258
Category : Science
Languages : en
Pages : 422
Book Description
Global food security is increasingly challenging in light of population increase, the impact of climate change on crop production, and limited land available for agricultural expansion. Plant breeding and other agricultural technologies have contributed considerably for food and nutritional security over the last few decades. Genetic engineering approaches are powerful tools that we have at our disposal to overcome substantial obstacles in the way of efficiency and productivity of current agricultural practices. Genome engineering via CRISPR/Cas9, Cpf1, base editing and prime editing, and OMICs through genomics, transcriptomics, proteomics, phenomics, an metabolomics have helped to discover underlying mechanisms controlling traits of economic importance. Principle and Practices of OMICs and Genome Editing for Crop Improvement provides recent research from eminent scholars from around the world, from various geographical regions, with established expertise on genome editing and OMICs technologies. This book offers a wide range of information on OMICs techniques and their applications to develop biotic, abiotic and climate resilient crops, metabolomics and next generation sequencing for sustainable crop production, integration bioinformatics, and multi-omics for precision plant breeding. Other topics include application of genome editing technologies for food and nutritional security, speed breeding, hybrid seed production, resource use efficiency, epigenetic modifications, transgene free breeding, database and bioinformatics for genome editing, and regulations adopted by various countries around globe for genome edited crops. Both OMICs and genome editing are vigorously utilized by researchers for crop improvement programs; however, there is limited literature available in a single source. This book provides a valuable resource not only for students at undergraduate and postgraduate level but also for researchers, stakeholders, policy makers, and practitioners interested in the potential of genome editing and OMICs for crop improvement programs.