Type: Book

Advances in breeding techniques for cereal crops

Editors

Professor Frank Ordon is Vice-President of the Julius Kühn Institute (JKI) (Germany's Federal Research Centre for Cultivated Plants) and Head of the Institute for Resistance Research and Stress Tolerance at the JKI. He is Honorary Professor at the Martin-Luther University at Halle-Wittenberg, Editor-in-Chief of Plant Breeding, a member of the editorial board of several other journals and Chair of the Wheat Initiative Research Committee.
Professor Wolfgang Friedt is Emeritus Professor of Plant Breeding at the Justus-Liebig University of Giessen, Germany. Professor Friedt has published widely on crop genetics and breeding and has received a number of international awards for his research on cereal and other crops. He has served as a consultant and reviewer for many national and international research centres and is Scientific Advisor to the Canadian research centre Phytola.

Dimensions:

229x152mm
6x9"

Publication date:

23 April 2019

Length of book:

460 pages

ISBN-13: 9781786762443

Hardback
£190.00
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Description

This book provides a comprehensive review of recent advances in breeding techniques for cereals such as wheat and barley.

It discusses developments in conventional techniques such as backcross breeding, the use of doubled haploids (DH) and hybrid breeding. The book then reviews the latest advances in phenotyping to facilitate selection and in identifying genetic markers for marker-assisted breeding (MAS). This provides the foundation for summaries of advances in MAS techniques such as genome wide association studies (GWAS), nested association mapping (NAM) and genomic selection (GS). The final part of the book looks forward to emerging techniques such as gene editing (GE).

Key features

  • Assesses performance of conventional techniques such as backcross and hybrid breeding in introducing new traits 
  • Maps current progress in methods to identify quantitative trait loci (QTL) linking phenotypic traits with genetic information for selection 
  • Shows comparative strengths and weaknesses of marker-assisted selection (MAS) techniques such as genome wide association studies (GWAS) and nested association mapping (NAM)

What others are saying...

“This book provides an excellent resource since it brings together leading experts in both the development and application of new technologies. It provides the reader with an authoritative explanation of the technologies and a critical assessment of their implementation in cereal improvement.”
Professor Peter Langridge, University of Adelaide, Australia; Chair of the Scientific Board of the Wheat Initiative

Table of contents

Part 1 Exploiting genetic diversity
1.Alien introgression and breeding of synthetic wheat: Xiwen Cai, North Dakota State University, USA;
2.Use of the secondary gene pool of barley in breeding improved varieties: Martin Mascher, Leibniz Institute of Plant Genetics and Crop Plant Research (IPK), Germany;
3.Marker-assisted trait introgression for wheat breeding & research: Alison Bentley, NIAB, UK;

Part 2 Double haploids (DH)
4.Doubled haploid production in wheat: Wuletaw Tadesse, ICARDA, Lebanon;
5.Doubled haploid (DH) production for barley: Benny Wittkop, Justus Liebig University of Giessen, Germany;
6.Production of doubled haploid (DH) lines for hybrid breeding in maize: Albrecht Melchinger, University of Hohenheim, Germany;

Part 3 Hybrid breeding
7.Potential of hybrid breeding in wheat: Friedrich Longin , University of Hohenheim, Germany;
8.Challenges and perspectives of hybrid breeding in barley: Timm Bernhard, University of Giessen, Germany;
9.Selection strategies in hybrid rye with special consideration of fungal disease resistance: Thomas Miedaner, University of Hohenheim, Germany;

Part 4 High throughput phenotyping, genetic markers and QTL mapping
10.Non-invasive phenotyping of cereal development: Andreas Hund, ETH Zurich, Switzerland;
11.Tools and application of phenotyping in wheat: Matthew Reynolds, CIMMYT, Mexico;
12.Modern technologies for single nucleotide polymorphism (SNP) markers in plant research and crop breeding: Yuri Shavrukov, University of Adelaide, Australia;
13.Mapping and isolation of major resistance genes in cereals: Simon Krattinger, King Abdullah University of Science and Technology, Saudi Arabia;
14.Mapping and isolation of quantitative trait loci (QTL) in cereals: Roberto Tuberosa, University of Bologna, Italy;
15.Advances in statistical methods to handle large data sets for GWAS in crop breeding: Jens Leon, University of Bonn, Germany;
16.The use of wheat and barley reference sequences in cereals breeding: Curtis Pozniak, University of Saskatchewan, Canada;
17.Nested association mapping in barley to identify extractable trait genes: Klaus Pillen, University of Halle, Germany;

Part 5 Genome wide association studies and genomic selection
18.Genome-wide association studies (GWAS) in wheat: Susanne Dreisigacker, CIMMYT, Mexico;
19.Genome-wide association studies (GWAS) in barley: Ernesto Igartua, CSIC, Spain;
20.Genomic selection in cereals: advantages and drawbacks: Patrick Thorwarth, University of Hohenheim, Germany;
21.Site-directed genome modification in barley and wheat breeding: Jochen Kumlehn, Leibniz Institute of Plant Genetics and Crop Plant Research (IPK), Germany;