Genetic Improvement and Phenotyping of Cotton, Bioenergy and Other Industrial Crops
Plant Physiology and Genetics Research
Project Number: 2020-21410-006-00
Start Date: Jun 16, 2013
End Date: Jun 15, 2018
1. Develop genotyping-by-sequencing methods for diverse cotton, oilseed, and industrial crop germplasm, and map genetic markers for economically and agronomically important traits in these crops.
1.1 Genotyping-by-sequencing of cotton.
1.2 Genotyping-by-sequencing of oilseed rape.
1.3 Genetic and phenotypic characterization of new guayule germplasm.
2. Develop novel phenotyping approaches for quantitative genetic analysis of drought and heat tolerance traits in cotton and oilseed crops.
2.1 High-throughput phenotyping of traits related to drought and heat tolerance in cotton.
2.2 High-throughput phenotyping of traits related to drought and heat tolerance in oilseed rape.
3. Identify molecular markers associated with stress tolerance traits in cotton and oilseed crops.
3.1 Genome-wide association studies and marker-trait validation in cotton.
3.2 Genome-wide association studies and marker-trait validation in oilseed rape.
The three objectives of the plan will be carried out using various field-based instrumentation and modern approaches in plant breeding and genetics, and will be focused on the three important crops; cotton, oilseed rape, and guayule. These approaches are targeted toward the creation of genotyping-by-sequencing marker maps, development of novel phenotyping tools for quantitative genetic analysis of heat and drought tolerance traits, and identification of molecular markers associated with stress tolerance, quality, and yield related traits. The experiments will apply translational genomics approaches, leveraging statistical genetics and genomics for dissection of quantitative traits and the utilization of rapid, high-throughput phenotyping.