Enhancing crop resilience to biotic stresses through molecular breeding
Table Of Contents
<p>1. Introduction<br> - Background and Rationale<br> - Objectives of the Study<br>2. Genetic Basis of Plant Resistance to Biotic Stresses<br> - Plant-Pathogen Interactions<br> - Host Defense Mechanisms<br> - Genetic Variation in Biotic Stress Resistance<br>3. Molecular Breeding Approaches for Enhancing Crop Resilience<br> - Marker-Assisted Selection for Biotic Stress Resistance<br> - Genomic Approaches for Trait Discovery<br> - Gene Editing Technologies for Precision Breeding<br>4. Case Studies of Crop Improvement for Biotic Stress Resilience<br> - Disease-Resistant Crop Varieties<br> - Pest-Resistant Crop Traits<br> - Multi-Trait Resistance in Crop Breeding<br>5. Deployment and Adoption of Resilient Crop Varieties<br> - Field Performance and Resistance Validation<br> - Farmer Acceptance and Adoption<br> - Policy and Regulatory Considerations<br></p>
Thesis Abstract
<p> Biotic stresses, such as pests and diseases, pose significant threats to global crop production. This study aims to explore the potential of enhancing crop resilience to biotic stresses through molecular breeding. By leveraging advances in genomics and biotechnology, this research seeks to elucidate the genetic mechanisms underlying plant resistance to biotic stresses and to develop improved crop varieties with enhanced resilience to pest and disease pressures. <br></p>Thesis Overview
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