"With the rapid increase in the global population and changing climatic impacts on agriculture, genome editing will be an indispensable technique to overcome ongoing and prospective agricultural challenges. This book summarises a range of genome editing techniques and discusses the roles they can play in producing a new generation of high-yielding, climate ready crops. This includes Site-Specific Nucleases, precision genome engineering, Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) and bioinformatics. It showcases how these gene editing techniques can tailor plants to not only increase yield related traits, but to also make them better suited to their environment and to be resistant to pests and extreme climatic events, such as droughts. The book also examines genome editing regulations and policies, the commercialisation of genome edited crops and biosafety and biosecurity concerns. Overall, this book unveils how genome editing can improve crop resilience and production for elevating food security concerns. This book will be of great interest to students and scholars of Agricultural sciences, crop and plant sciences, genome editing, sustainable agriculture, Biotechnology and food security"--
With the rapid increase in the global population and changing climatic impacts on agriculture, this book demonstrates how genome editing will be an indispensable technique to overcome ongoing and prospective agricultural challenges.
With the rapid increase in the global population and changing climatic impacts on agriculture, this book demonstrates how genome editing will be an indispensable technique to overcome ongoing and prospective agricultural challenges.
This book examines the role of genome editing in improving crop yields and contributing to global food security. It summarizes a range of genome editing techniques and discusses the roles they can play in producing a new generation of high-yielding, climate-ready crops. This includes site-specific nucleases, precision genome engineering, clustered regularly interspaced short palindromic repeats, and bioinformatics. It showcases how these gene editing techniques can tailor plants to not only increase yield-related traits but to also make them better suited to their environment and to be resistant to pests and extreme climatic events, such as droughts. The book also examines genome editing regulations and policies, the commercialization of genome-edited crops, and biosafety and biosecurity concerns. Overall, this book reveals and showcases how genome editing can improve crop resilience and production to address current and future agricultural challenges and alleviation of global food security concerns.
This book will be of great interest to students and scholars of agricultural science, crop and plant science, genome editing, sustainable agriculture, biotechnology, and food security.
