Enhancing Crop Adaptation to Heat Stress through Physiological and Molecular Approaches
Table Of Contents
<p>1. Introduction<br> 1.1 Background<br> 1.2 Objectives of the study<br>2. Physiological Responses to Heat Stress<br> 2.1 Effects of heat stress on crop physiology<br> 2.2 Mechanisms of heat stress tolerance<br>3. Molecular Basis of Heat Stress Response<br> 3.1 Gene expression and regulation under heat stress<br> 3.2 Heat shock proteins and chaperones<br>4. Genetic Variation in Heat Stress Tolerance<br> 4.1 Identification of heat-tolerant germplasm<br> 4.2 QTL mapping for heat stress tolerance<br>5. Molecular Breeding for Heat Tolerance<br> 5.1 Marker-assisted selection for heat tolerance<br> 5.2 Genomic approaches for trait introgression<br></p>
Thesis Abstract
<p> This project aims to explore physiological and molecular strategies for enhancing crop adaptation to heat stress, a major threat to global food security in the face of climate change. Heat stress adversely affects crop growth, development, and productivity, leading to significant yield losses. The project will investigate the physiological mechanisms underlying heat stress tolerance in crops, as well as the genetic and molecular pathways involved in heat stress response. By elucidating the physiological and molecular basis of heat stress tolerance, the research aims to identify potential targets for crop improvement and develop heat-tolerant varieties to ensure food security in a warming world. <br></p>Thesis Overview
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