| GENOTYPE-BY-ENVIRONMENT INTERACTION AND STABILITY ANALYSIS | |
| Genotype-by-Environment Interaction | |
| Heredity and Environment | |
| Genotype-by-Environment Interaction | |
| Implications of GEI in Crop Breeding | |
| Causes of Genotype-by-Environment Interaction | |
| Stability Analyses in Plant Breeding and Performance Trials | |
| Stability Analysis in Plant Breeding and Performance Trials | |
| Stability Concepts and Statistics | |
| Dealing with Genotype-by-Environment Interaction | |
| GGE Biplot: Genotype + GE Interaction | |
| GGE BIPLOT AND MULTI-ENVIRONMENTAL TRIAL ANALYSIS | |
| Theory of Biplot | |
| The Concept of Biplot | |
| The Inner-Product Property of a Biplot | |
| Visualizing the Biplot | |
| Relationships among Columns and among Rows | |
| Biplot Analysis of Two-Way Data | |
| Introduction to GGE Biplot | |
| The Concept of GGE and GGE Biplot | |
| The Basic Model for a GGE Biplot | |
| Methods of Singular Value Partitioning | |
| An Alternative Model for GGE Biplot | |
| Three Types of Data Transformation | |
| Generating a GGE Biplot Using Conventional Methods | |
| Biplot Analysis of Multi-Environment Trial Data | |
| Objectives of Multi-Environment Trial Data Analysis | |
| Simple Comparisons Using GGE Biplot | |
| Mega-Environment Investigation | |
| Cultivar Evaluation for a Given Mega-Environment | |
| Evaluation of Test Environments | |
| Comparison with the AMMI Biplot | |
| Interpreting Genotype-by-Environment Interaction | |
| GGE BIPLOT SOFTWARE AND APPLICATIONS TO OTHER TYPES OF TWO-WAY DATA | |
| GGE Biplot Software-The Solution for GGE Biplot Analyses | |
| The Need for GGE Biplot Software | |
| The Terminology of Entries and Testers | |
| Preparing Data File for GGE Biplot | |
| Organization of GGE Biplot Software | |
| Functions for a Genotype-by-Environment Dataset | |
| Function for a Genotype-by-Strain Dataset | |
| Application of GGE Biplot to Other Types of Two-way Data | |
| GGE Biplot Continues to Evolve | |
| Cultivar Evaluation Based on Multiple Traits | |
| Why Multiple Traits? | |
| Cultivar Evaluation Based on Multiple Traits | |
| Identifying Traits for Indirect Selection for Loaf Volume | |
| Identification of Redundant Traits | |
| Comparing Cultivars as Packages of Traits | |
| Investigation of Different Selection Strategies | |
| Systems Understanding of Crop Improvement | |
| Three-Mode Principal Component Analysis and Visualization | |
| QTL Identification Using GGE Biplot | |
| Why Biplot? | |
| Data Source and Model | |
| Grouping of Linked Markers | |
| Gene Mapping Using Biplot | |
| QTL Identification via GGE Biplot | |
| Interconnectedness among Traits and Pleiotropic Effects of a Given Locus | |
| Understanding DH Lines through the Biplot Pattern | |
| QTL and GE Interaction | |
| Biplot Analysis of Diallel Data | |
| Model for Biplot Analysis of Diallel Data | |
| General Combining Ability of Parents | |
| Specific Combining Ability of Parents | |
| Heterotic Groups | |
| The Best Testers for Assessing General Combining Ability of Parents | |
| The Best Crosses | |
| Hypothesis on the Genetic Constitution of Parents | |
| Targeting a Large Dataset | |
| Advantages and Disadvantages of the Biplot Approach | |
| Biplot Analysis of Host Genotype-by-Pathogen Strain Interactions | |
| Vertical vs. Horizontal Resistance | |
| Genotype-By-Strain Interaction for a Barley Net Blotch | |
| Genotype-by-Strain Interaction for Wheat Fusarium Head Blight | |
| Biplot Analysis to Detect Synergism between Genotypes of Different Species | |
| Genotype-by-Strain Interaction for Nitrogen-Fixation | |
| Wheat-Maize Interaction for Wheat Haploid Embryo Formation | |
| References | |
| Index |
