The topics of Section VI focus on selection or breeding methods. In this section, breeding methods for autogamous species are the subject of Chapter 16, while Chapter 17 is devoted to breeding allogamous species. Chapter 18 concerns the selection methods used for breeding hybrid cultivars, while Chapter 19 is devoted to discussing the breeding methods used for clonally propagated species. The discussions in these chapters provide the advantages and disadvantages of each method, and include alternative approaches.
Molecular breeding is the subject of Section VII, which received significant overhaul. It focuses on technologies that are used to link genes to traits. The concept of markers and various commonly used molecular markers in plant breeding are discussed in detail in Chapter 20, including their advantages and disadvantages, as well the cost and ease of application in breeding. Chapter 21 is devoted to discussing the mapping of genes and the importance of such maps in plant breeding. Chapter 22 is new, and focuses on gene sequencing and the OMICs technologies. Section VIII discusses marker‐assisted selection (MAS) as a method of facilitating plant breeding. Chapter 23 focuses on marker‐assisted selection, while a new Chapter, 24, is devoted to genomic selection and related concepts. Section IX focuses on mutations and ploidy in plant breeding. Chapter 25 focuses on the use of mutagenesis for inducing variability for crop improvement. The discussions include the types of mutagens commonly used in crop improvement, and success of this approach to breeding. Many important crop species are polyploids. The methods used for improving polyploids are discussed in Chapter 26. Section X combines an old Chapter, 27, introducing the concept of genetic engineering, and a new one, Chapter 28, dealing with genome editing technologies, while Chapter 29 discusses additional new plant breeding technologies. Section XI is new, and deals with computer‐aided applications in breeding, including bioinformatics and contemporary topics like big data in plant breeding in Chapter 30.
Section XII focuses on the variety release process, including discussion of G × E interaction in Chapter 31, seed certification in Chapter 32, and regulatory issues in Chapter 33. Section XIII includes Chapter 34 that deals with ethical and other social issues associated with the use of modern technologies in breeding. The chapter ends the section with a discussion of the role international organizations in breeding. Section XIV, the final section in the book, is devoted to briefly discussing the breeding of selected crops.
Acknowledgments
The author extends special gratitude to all old and new contributors to the industry highlights in the third edition. Several of these contributors were invited rather late to provide papers for inclusion in the new edition. Nonetheless, they came through with excellent papers. More importantly, the box readings are very detailed in the information they provide, and illustrate how the principles and concepts discussed in the main text are applied in addressing selected plant breeding problems.
I acknowledge, with appreciation, professors and industry professionals around the globe who have adopted this textbook for their courses. I am grateful for the encouragement and commendations from professionals and students to produce this new edition, and especially to those who pointed out errors and typos, as well as those who suggested areas that needed updating.
My love and appreciation go to my dear wife, Dr. Theresa Acquaah, and wonderful children, Parry, Kwasi, Bozuma, and Tina, who had to put up with all the time I took time away from them to focus on this great project. Finally, to my father, Dr. J.C. El‐Shadai, I am grateful for your loving kindness, support, and guidance throughout this project.
Industry highlights boxes
Training Game Changers in Plant Breeding at the West Africa Centre for Crop Improvement (WACCI) in Africa for Africa
Eric Danquah, Samule Offei, and Ronnie Coffman
No box
No box
No box
Introgression Breeding on Tomatoes for Resistance to Powdery Mildew
Yuling Bai
Maize and Tripsacum: Experiments in Intergeneric Hybridization and the Transfer of Apomixis: A Historical Review
Bryan Kindiger
Use of Comparative Molecular Markers and Plant Tissue Culture Techniques for Genetic Diversity Assessment and Rapid Production of Musa Species at Bowie State University
David Okeh Igwe, George Nkem Ude, and George Acquaah
No box
The Use of the Wild Potato Species, Solanum etuberosum, in Developing Virus and Insect‐Resistant Potato Varieties
Richard Novy