Applied Mathematics and Omics to Assess Crop Genetic Resources for Climate Change Adaptive Traits / Edition 1 available in Hardcover
Applied Mathematics and Omics to Assess Crop Genetic Resources for Climate Change Adaptive Traits / Edition 1
- ISBN-10:
- 1498730132
- ISBN-13:
- 9781498730136
- Pub. Date:
- 02/19/2016
- Publisher:
- Taylor & Francis
- ISBN-10:
- 1498730132
- ISBN-13:
- 9781498730136
- Pub. Date:
- 02/19/2016
- Publisher:
- Taylor & Francis
Applied Mathematics and Omics to Assess Crop Genetic Resources for Climate Change Adaptive Traits / Edition 1
Hardcover
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$230.00Overview
This book presents a broad view of biodiversity and genetic resources in agriculture and provides answers to some current problems. It also highlights ways to provide much-needed information to practitioners and innovators engaged in addressing the effects of global climate change on agriculture. The book is divided into sections that cover:
- The implications of climate change for drylands and farming communities
- The potential of genetic resources and biodiversity to adapt to and mitigate climate change effects
- Applications of mathematics and omics technologies
- Genomics and gene identification
We are in the midst of significant changes in global climates, and its effects are already being felt throughout the world. The increasing frequency of droughts and heat waves has had negative impacts on agricultural production, especially in the drylands of the world. This book shares the collective knowledge of leading scientists and practitioners, giving readers a broader appreciation and heightened awareness of the stakes involved in improving and sustaining agricultural production systems in the face of climate change.
Product Details
| ISBN-13: | 9781498730136 |
|---|---|
| Publisher: | Taylor & Francis |
| Publication date: | 02/19/2016 |
| Pages: | 306 |
| Product dimensions: | 6.30(w) x 9.00(h) x 0.90(d) |
About the Author
Ardeshir B. Damania is an associate in the Agricultural Experimental Station (AES) at the University of California, Davis. He received his PhD in crop plant genetic resources from the University of Birmingham, United Kingdom. His current research interests include climate change, biodiversity conservation, origins of agriculture, crop domestication, and plants of economic and medicinal values. He has edited a number of books, including Biodiversity and Wheat Improvement, which has been translated into Chinese. He has authored numerous papers in refereed international journals and articles in the popular press on wheat improvement, conservation of genetic resources, and Asian agricultural history.
Michael Mackay is an honorary associate professor at the Queensland Alliance for Agriculture and Food Innovation, an institute based at the University of Queensland, St. Lucia in Brisbane, Australia. He received his PhD from the Swedish University of Agricultural Sciences. His main research interest is in how pre-breeders and breeders actually go about identifying and using plant genetic resources. This research eventually led to the development of a different approach known as Focused Identification of Germplasm Strategy (FIGS) in a collaborative Grains Research and Development Corporation project between ICARDA, the AWCC, and the N. I. Vavilov Research Institute of Plant Industry in St. Petersburg, Russia. He has published more than 40 articles, including book chapters, refereed scientific papers, and conference proceedings.
Selvadurai Dayanandan is a professor and graduate program director in the biology department of Concordia University, Montreal, Canada. He received his PhD in biology from Boston University. He was director of the graduate diploma program in biotechnology and genomics at Concordia University as well as an Izaak W. Killam postdoctoral fellow at the University of Alberta. His current research focuses on understanding the origin and maintenance of biodiversity in forest and agricultural landscapes using genomics technologies. He has published extensively in the field of biodiversity conservation, ranging from socioeconomic factors and tropical deforestation through the population, conservation, and evolutionary genomics of forest trees and crop plants.