Description

Book Synopsis
Plant Breeding Reviewspresents state-of-the-art reviews on plant genetics and the breeding of all types of crops by both traditional means and molecular methods. Many of the crops widely grown today stem from a very narrow genetic base; understanding and preserving crop genetic resources is vital to the security of food systems worldwide. The emphasis of the series is on methodology, a fundamental understanding of crop genetics, and applications to major crops.

Table of Contents

Contributors ix

1 Salvatore Ceccarelli: Plant Breeder, Mentor, and Farmers’ Friend 1
Stefania Grando

I. Biographical Sketch and Background 2

II. Research 6

III. The Man 17

IV. The Mentor and Inspirer 19

V. The Innovator 20

VI. The Supporter of National Programs 21

VII. The Advocate of Farmers 21

Acknowledgments 22

Literature Cited 22

Selected Publications of Salvatore Ceccarelli 25

2 Maize Cross Incompatibility and the Promiscuous Ga1‐m Allele 31
Major M. Goodman, Zachary G. Jones, G. Jesus Sanchez, and Jerry L. Kermicle

I. Historical Background 33

II. Ga1 (Gametophyte‐Factor 1), Ga2 (Gametophyte‐Factor 2), and Tcb1 (Teosinte‐Crossing‐Barrier 1) 34

III. Ga1‐m (Gametophyte‐Factor 1‐Male) 35

IV. Locus Composition 35

V. Gametophytic Selective Advantage 36

VI. Silk Reactions 36

VII. Mapping Gametophytic Loci 38

VIII. Geographical Distribution of Ga1 Alleles 38

IX. Distribution of Ga1 Alleles in Commercial Materials 41

X. Teosinte and Maize 41

XI. Popcorn and Organic Isolations 43

XII. Exceptionally Strong Cross‐Incompatible Sources Within Maize 44

XIII. Caution Concerning Use of Ga1‐m 45

XIV. Genetic Modifiers 46

XV. Molecular Characterizations 47

XVI. Recent Conclusions 47

XVII. Practical Use of Pollen‐Blockers 47

XVIII. Future Prospects 50

Acknowledgments 54

Literature Cited 54

3 Development of the Genetically Modified Innate® Potato 57
Craig M. Richael

I. Introduction 58

II. Innate® Generation 1 Potato Varieties 65

III. Innate® Generation 2 Potato Varieties 71

IV. Future Innate® Potato Varieties 74

V. Conclusions 75

Literature Cited 76

4 Cucumis sativus Chromosome Evolution, Domestication, and Genetic Diversity: Implications for Cucumber Breeding 79
Yiqun Weng

I. Introduction 81

II. Chromosome Evolution in the Making of Cucumber 83

III. Chromosome Evolution During Cucumber Domestication 86

IV. Diffusion of Cucumber to the World From its Center of Diversity and the Formation of Market Groups 90

V. Types of Cucumbers: Fresh Market vs Processing 92

VI. Genetic Diversity and Population Structure of Cucumber Collection 94

VII. Genetic Basis of Domestication‐Related Traits in Cucumbers 96

VIII. Chromosome Evolution, Domestication, and Genetic Diversity: Implications for Cucumber Breeding 101

Acknowledgments 104

Literature Cited 104

5 Freelance Plant Breeding 113
Carol S. Deppe

I. Introduction 115

II. Evolution of a Freelance Plant Breeder 116

III. Who and Where 119

IV. How Freelancers Learn the Plant Breeding Trade 130

V. Why—Motivations and Values 136

VI. Crops 139

VII. Goals 146

VIII. Methods 151

IX. Sources of Germplasm 161

X. Economics of Freelance Plant Breeding 164

XI. Freelance Plant Breeding That Doesn’t Fit Commercial Models 174

XII. Open Source Seed Initiative and Freelance Plant Breeding 176

XIII. Future Prospects 180

Acknowledgments 183

Literature Cited 183

6 Meadowfoam Breeding 187
Jennifer G. Kling

I. Introduction 189

II. Botany and Taxonomy of Limnanthes 190

III. Meadowfoam Breeding Organizations 195

IV. Seed Production Requirements 197

V. Greenhouse and Field Plot Techniques 201

VI. Selection Methods 206

VII. Breeding Populations and Molecular Resources 216

VIII. Meadowfoam Seed Oil 222

IX. Biotic Constraints 225

X. Glucosinolates and Other Seed Meal Components 230

XI. Meadowfoam in Cropping Systems 234

XII. Conclusions and Future Directions 235

Acknowledgments 237

Literature Cited 237

7 Reconsidering Approaches to Selection in Winter Squash Improvement: Improved Quality and Breeding Efficiency 247
Michael Mazourek, Christopher Hernandez, and Jack Fabrizio

I. Introduction 249

II. Genomic Resources for Winter Squash Improvement 251

III. Insight into Winter Squash Metabolism Related to Fruit Quality 253

IV. Winter Squash Quality Phenotyping 258

V. Squash Breeding Schemes 260

VI. Applying Genomic Selection in Cucurbita 264

VII. Conclusion 268

Acknowledgments 268

Literature Cited 269

8 Development of the Arctic® Apple 273
Evan Stowe and Amit Dhingra

I. Introduction 274

II. Genetic Engineering of Apple 275

III. Development and Evaluation of the Arctic® Apple 280

Literature Cited 292

Author Index 297

Subject Index 305

Plant Breeding Reviews Volume 44

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    RRP £194.95 – you save £9.75 (5%)

    Order before 4pm today for delivery by Tue 28 Jul 2026.

    A Hardback by Irwin Goldman

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      View other formats and editions of Plant Breeding Reviews Volume 44 by Irwin Goldman

      Publisher: John Wiley & Sons Inc
      Publication Date: 25/02/2021
      ISBN13: 9781119716914, 978-1119716914
      ISBN10: 1119716918

      Description

      Book Synopsis
      Plant Breeding Reviewspresents state-of-the-art reviews on plant genetics and the breeding of all types of crops by both traditional means and molecular methods. Many of the crops widely grown today stem from a very narrow genetic base; understanding and preserving crop genetic resources is vital to the security of food systems worldwide. The emphasis of the series is on methodology, a fundamental understanding of crop genetics, and applications to major crops.

      Table of Contents

      Contributors ix

      1 Salvatore Ceccarelli: Plant Breeder, Mentor, and Farmers’ Friend 1
      Stefania Grando

      I. Biographical Sketch and Background 2

      II. Research 6

      III. The Man 17

      IV. The Mentor and Inspirer 19

      V. The Innovator 20

      VI. The Supporter of National Programs 21

      VII. The Advocate of Farmers 21

      Acknowledgments 22

      Literature Cited 22

      Selected Publications of Salvatore Ceccarelli 25

      2 Maize Cross Incompatibility and the Promiscuous Ga1‐m Allele 31
      Major M. Goodman, Zachary G. Jones, G. Jesus Sanchez, and Jerry L. Kermicle

      I. Historical Background 33

      II. Ga1 (Gametophyte‐Factor 1), Ga2 (Gametophyte‐Factor 2), and Tcb1 (Teosinte‐Crossing‐Barrier 1) 34

      III. Ga1‐m (Gametophyte‐Factor 1‐Male) 35

      IV. Locus Composition 35

      V. Gametophytic Selective Advantage 36

      VI. Silk Reactions 36

      VII. Mapping Gametophytic Loci 38

      VIII. Geographical Distribution of Ga1 Alleles 38

      IX. Distribution of Ga1 Alleles in Commercial Materials 41

      X. Teosinte and Maize 41

      XI. Popcorn and Organic Isolations 43

      XII. Exceptionally Strong Cross‐Incompatible Sources Within Maize 44

      XIII. Caution Concerning Use of Ga1‐m 45

      XIV. Genetic Modifiers 46

      XV. Molecular Characterizations 47

      XVI. Recent Conclusions 47

      XVII. Practical Use of Pollen‐Blockers 47

      XVIII. Future Prospects 50

      Acknowledgments 54

      Literature Cited 54

      3 Development of the Genetically Modified Innate® Potato 57
      Craig M. Richael

      I. Introduction 58

      II. Innate® Generation 1 Potato Varieties 65

      III. Innate® Generation 2 Potato Varieties 71

      IV. Future Innate® Potato Varieties 74

      V. Conclusions 75

      Literature Cited 76

      4 Cucumis sativus Chromosome Evolution, Domestication, and Genetic Diversity: Implications for Cucumber Breeding 79
      Yiqun Weng

      I. Introduction 81

      II. Chromosome Evolution in the Making of Cucumber 83

      III. Chromosome Evolution During Cucumber Domestication 86

      IV. Diffusion of Cucumber to the World From its Center of Diversity and the Formation of Market Groups 90

      V. Types of Cucumbers: Fresh Market vs Processing 92

      VI. Genetic Diversity and Population Structure of Cucumber Collection 94

      VII. Genetic Basis of Domestication‐Related Traits in Cucumbers 96

      VIII. Chromosome Evolution, Domestication, and Genetic Diversity: Implications for Cucumber Breeding 101

      Acknowledgments 104

      Literature Cited 104

      5 Freelance Plant Breeding 113
      Carol S. Deppe

      I. Introduction 115

      II. Evolution of a Freelance Plant Breeder 116

      III. Who and Where 119

      IV. How Freelancers Learn the Plant Breeding Trade 130

      V. Why—Motivations and Values 136

      VI. Crops 139

      VII. Goals 146

      VIII. Methods 151

      IX. Sources of Germplasm 161

      X. Economics of Freelance Plant Breeding 164

      XI. Freelance Plant Breeding That Doesn’t Fit Commercial Models 174

      XII. Open Source Seed Initiative and Freelance Plant Breeding 176

      XIII. Future Prospects 180

      Acknowledgments 183

      Literature Cited 183

      6 Meadowfoam Breeding 187
      Jennifer G. Kling

      I. Introduction 189

      II. Botany and Taxonomy of Limnanthes 190

      III. Meadowfoam Breeding Organizations 195

      IV. Seed Production Requirements 197

      V. Greenhouse and Field Plot Techniques 201

      VI. Selection Methods 206

      VII. Breeding Populations and Molecular Resources 216

      VIII. Meadowfoam Seed Oil 222

      IX. Biotic Constraints 225

      X. Glucosinolates and Other Seed Meal Components 230

      XI. Meadowfoam in Cropping Systems 234

      XII. Conclusions and Future Directions 235

      Acknowledgments 237

      Literature Cited 237

      7 Reconsidering Approaches to Selection in Winter Squash Improvement: Improved Quality and Breeding Efficiency 247
      Michael Mazourek, Christopher Hernandez, and Jack Fabrizio

      I. Introduction 249

      II. Genomic Resources for Winter Squash Improvement 251

      III. Insight into Winter Squash Metabolism Related to Fruit Quality 253

      IV. Winter Squash Quality Phenotyping 258

      V. Squash Breeding Schemes 260

      VI. Applying Genomic Selection in Cucurbita 264

      VII. Conclusion 268

      Acknowledgments 268

      Literature Cited 269

      8 Development of the Arctic® Apple 273
      Evan Stowe and Amit Dhingra

      I. Introduction 274

      II. Genetic Engineering of Apple 275

      III. Development and Evaluation of the Arctic® Apple 280

      Literature Cited 292

      Author Index 297

      Subject Index 305

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