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This book explores the impact of climate change on agriculture and our future ability to produce the crops which are the foundation of the human diet. Specifically, individual chapters explore the potential for genomics assisted breeding of improved crops with greater yield and tolerance to the stresses associated with predicted climate change scenarios. Given the clear and unmet challenge to mitigate climate changing events, this book will be of wide interest from plant breeders and environmental scientists, government bodies through to a more general audience who are interested in the likely impact of climate change on agriculture. …mehr
This book explores the impact of climate change on agriculture and our future ability to produce the crops which are the foundation of the human diet. Specifically, individual chapters explore the potential for genomics assisted breeding of improved crops with greater yield and tolerance to the stresses associated with predicted climate change scenarios. Given the clear and unmet challenge to mitigate climate changing events, this book will be of wide interest from plant breeders and environmental scientists, government bodies through to a more general audience who are interested in the likely impact of climate change on agriculture.
Prof David Edwards gained an Honours degree in Agricultural Science from the University of Nottingham and a PhD from the Department of Plant Sciences, University of Cambridge. He has held positions within academia (University of Adelaide and University of Queensland, Australia; University of Cambridge, UK; and McGill University, Canada), government (Long Ashton Research Centre, UK, Department of Primary Industries, Victoria, Australia) and industry (ICI seeds, UK). David was appointed as a Centenary Professor at The University of Western Australia in 2015. His research interests include the structure and expression of plant genomes, the discovery and application of genome variation and applied bioinformatics, with a focus on crop plants and accelerating crop improvement in the face of climate change. Prof Jacqueline Batley is an ARC Future Fellow at the University of Western Australia. She was awarded her PhD from the University of Bristolin 2001 and moved to Australia in 2002. Jacqueline has expertise in the fi elds of plant and animal molecular biology, genetics and genomics, gained from working in both industry and academia. Her areas of interest include genetic and genomic analysis for applications including genetic diversity, linkage disequilibrium and comparative genomic studies, working across environmental and agricultural areas. Her current research projects include the molecular characterisation of agronomic traits, with a focus on disease resistance in Brassicas, with studies in both the fungal pathogen and the host plant.
Inhaltsangabe
The Impact of Climate Change on Agricultural Crops.- The Impacts of Extreme Climatic Events on Wild Plant Populations.- Control of Arable Crop Pathogens; Climate Change Mitigation, Impacts and Adaptation.- Transcriptomics and Genetics Associated with Plant Responses to Elevated Co2 Atmospheric Concentrations.- Genomics of Drought.- Genomics of Temperature Stress.- Genes, meet Gases: The Role of Plant Nutrition and Genomics in Addressing Greenhouse Gas Emissions.- The Impact of Genomics Technology on Adapting Plants to Climate Change.- Genomics of Salinity.
The Impact of Climate Change on Agricultural Crops.- The Impacts of Extreme Climatic Events on Wild Plant Populations.- Control of Arable Crop Pathogens; Climate Change Mitigation, Impacts and Adaptation.- Transcriptomics and Genetics Associated with Plant Responses to Elevated Co2 Atmospheric Concentrations.- Genomics of Drought.- Genomics of Temperature Stress.- Genes, meet Gases: The Role of Plant Nutrition and Genomics in Addressing Greenhouse Gas Emissions.- The Impact of Genomics Technology on Adapting Plants to Climate Change.- Genomics of Salinity.
The Impact of Climate Change on Agricultural Crops.- The Impacts of Extreme Climatic Events on Wild Plant Populations.- Control of Arable Crop Pathogens; Climate Change Mitigation, Impacts and Adaptation.- Transcriptomics and Genetics Associated with Plant Responses to Elevated Co2 Atmospheric Concentrations.- Genomics of Drought.- Genomics of Temperature Stress.- Genes, meet Gases: The Role of Plant Nutrition and Genomics in Addressing Greenhouse Gas Emissions.- The Impact of Genomics Technology on Adapting Plants to Climate Change.- Genomics of Salinity.
The Impact of Climate Change on Agricultural Crops.- The Impacts of Extreme Climatic Events on Wild Plant Populations.- Control of Arable Crop Pathogens; Climate Change Mitigation, Impacts and Adaptation.- Transcriptomics and Genetics Associated with Plant Responses to Elevated Co2 Atmospheric Concentrations.- Genomics of Drought.- Genomics of Temperature Stress.- Genes, meet Gases: The Role of Plant Nutrition and Genomics in Addressing Greenhouse Gas Emissions.- The Impact of Genomics Technology on Adapting Plants to Climate Change.- Genomics of Salinity.
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