United Soybean Board

Personal Information

Name:Rouf Mian
Address:USDA/ARS-Ohio State University

Phone:
Email:rouf.mian at ars.usda.gov

Biography

Projects as Lead Investigator

Projects

Project Title
Discover Sources, Genes and Develop U.S. Adapted Germplasm with Improved Protein Quantity and Quality Utilizing Diversity in Cultivated and Wild soybeans (1920-152-0103-A)
Development of High Yielding Soybean Cultivars and Germplasm with Higher Seed Protein Content and Improved Amino Acid Composition (Year 2 of 1420-532-5638)
Development of High Yielding Soybean Cultivars and Germplasm with Higher Seed Protein Content and Improved Amino Acid Composition (Year 1 of 1420-532-5638)
Molecular Dissection of New Soybean Aphid Resistant Genes and SNP Markers for Marker Assisted Breeding (Year 1 of 0285)

Projects - Individual Years

YearProject Title (each year)
2021Discover Sources, Genes, and Develop New Varieties and Germplasm with Improved Meal Protein and Amino Acids Utilizing Diversity in Cultivated and Wild soybeans
2020Discover Sources, Genes, and Develop New Varieties and Germplasm with Improved Meal Protein Utilizing Diversity in Cultivated and Wild Soybeans
2019Discover Sources, Genes and Develop U.S. Adapted Germplasm with Improved Protein Quantity and Quality Utilizing Diversity in Cultivated and Wild soybeans (1920-152-0103-A)
2018Discover Sources, Genes and Develop U.S. Adapted Germplasm with Improved Protein Quantity and Quality Utilizing Diversity in Cultivated and Wild soybeans (Year 2 of 1720-152-0106)
2017Developing Soybean Cultivars and Germplasm with Increased Protein Quantity and Quality for the Midwest and South using Diversity in Cultivated and Wild Soybeans (Year 1 of 1720-152-0106)
2016Development of High Yielding Soybean Cultivars and Germplasm with Higher Seed Protein Content and Improved Amino Acid Composition (Year 3 of 1420-532-5638)
2015Development of High Yielding Soybean Cultivars and Germplasm with Higher Seed Protein Content and Improved Amino Acid Composition (Year 2 of 1420-532-5638)
2014Development of High Yielding Soybean Cultivars and Germplasm with Higher Seed Protein Content and Improved Amino Acid Composition (Year 1 of 1420-532-5638)
2013Fine Mapping, Transcriptomics, Proteomics and Metabolomics of Soybean Aphid Resistance Genes (1320-532-5685)
2012Fine Mapping and Genomic Dissection of New Soybean Aphid Resistance Genes (Year 3 of 0285)
2011Fine Mapping and Genomic Dissection of New Soybean Aphid Resistance Genes (Year 2 of 0285)
2010Molecular Dissection of New Soybean Aphid Resistant Genes and SNP Markers for Marker Assisted Breeding (Year 1 of 0285)

Projects as Co-Investigator

Projects

Project Title
Determining the Repercussions of Declining Test Weight on Seed Composition & Value
Genes and Markers for Resistance to Phytophthora Sojae, Pythium spp., and Fusarium Graminearum in Soybean (Year 1 of 1420-532-5659)
Development of Soybean Cultivars with Increased Seed Oil Content While Maintaining Protein and Yield (Year 1 of 1420-632-6606)
Increasing Soybean Yield with Exotic Germplasm (Year 1 of 1420-532-5650)
Nested association mapping (NAM) of genes controlling soybean yield and other key traits
Developing a Comprehensive Management Program for Foliar Diseases of Soybean (Year 1 of 2262)
Molecular dissection of soybean aphid biotypes and aphid resistant soybean genes for controlling soybean aphids
Expanding the Genetic Base of U.S. Soybean Production to Improve Productivity (Year 1 of 1232)
High-Impact Research for Soybean Improvement Using Genetics and Genomics (1204)
Soybean aphid: Management, biocontrol, and host plant resistance
Managing frogeye leaf spot and charcoal rot in the North Central Region
QTLs for Phytophthora sojae, where are they and what are the mechanisms that control this resistance?
QTLs for Phytophthora sojae - Where are They and What are the Mechanisms that Control this Resistance? (8242)

Projects - Individual Years

YearProject Title (each year)
2021Determining the Repercussions of Declining Test Weight on Seed Composition & Value
2014Genes and Markers for Resistance to Phytophthora Sojae, Pythium spp., and Fusarium Graminearum in Soybean (Year 1 of 1420-532-5659)
2014Development of Soybean Cultivars with Increased Seed Oil Content While Maintaining Protein and Yield (Year 1 of 1420-632-6606)
2014Increasing Soybean Yield with Exotic Germplasm (Year 1 of 1420-532-5650)
2012Nested association mapping (NAM) of genes controlling soybean yield and other key traits
2012Developing a Comprehensive Management Program for Foliar Diseases of Soybean (Year 1 of 2262)
2011Molecular dissection of soybean aphid biotypes and aphid resistant soybean genes for controlling soybean aphids
2011Expanding the Genetic Base of U.S. Soybean Production to Improve Productivity (Year 1 of 1232)
2011High-Impact Research for Soybean Improvement Using Genetics and Genomics (1204)
2010Soybean aphid: Management, biocontrol, and host plant resistance
2010Managing frogeye leaf spot and charcoal rot in the North Central Region
2010QTLs for Phytophthora sojae, where are they and what are the mechanisms that control this resistance?
2009QTLs for Phytophthora sojae - Where are They and What are the Mechanisms that Control this Resistance? (8242)