Project Number: 5012-22000-021-00-D
Project Type: In-House Appropriated
Start Date: Apr 30, 2012
End Date: Apr 29, 2017
Objective 1: Use pathogen/pest virulence and genomics data to develop quantitative detection methodologies that will be used to monitor the spread, diversity, and impact of these biotic agents. Sub-objective 1.A. Characterize soybean pathogens and pests in terms of their aggressiveness, virulence, and molecular and genetic diversity. Sub-objective 1.B. Evaluate the impact of soybean cyst nematode and F. virguliforme on yield when using host resistance genes and plant defense elicitors. Sub-objective 1.C. Develop and utilize molecular markers to monitor soybean pathogens and pests. Objective 2: Identify and genetically characterize resistance in cultivated soybean and related annual and perennial species to pathogens/pests of soybean. Sub-objective 2.A. Identify new sources of pathogen/pest resistance in annual and perennial accessions from the USDA Soybean Germplasm Collection. Sub-objective 2.B. Genetically and phenotypically characterize identified resistance to soybean pathogens and pests. Sub-objective 2.C. Develop improved soybean germplasm and breeding lines that carry disease and pest resistance genes.
The distribution and diversity of soybean pests and pathogens will be monitored using phenotypic evaluations and molecular diagnostic assays developed from pathogen genome sequence data. The impacts on soybean yields of selected pathogens and pests with and without the application of chemical inducers of disease resistance will be characterized in replicated field trials over multiple years using soybean lines that differ in their levels of resistance. Resistance to pathogen and pests will be identified and characterized in cultivated soybean and related annual and perennial accessions from the USDA Soybean Germplasm Collection through field and greenhouse evaluations. Molecular markers for regions of soybean chromosomes associated with pathogen/pest resistance and regions of pathogen chromosomes associated with virulence will be identified by molecular mapping techniques. The information gained during the characterization of soybean germplasm accessions will be used to produce breeding lines with enhanced resistance to pathogens and pests by a combination of breeding and marker assisted selection techniques.