Newswise Expert | Brian Diers, College of Agricultural, Consumer and Environmental Sciences, University of Illinois Urbana-Champaign

Dr. Brian Diers develops new soybean varieties and germplasm to help meet the growing global demand for protein and vegetable oil. He advances knowledge in soybean breeding and genetics by identifying genetic diversity using modern genetic tools with a goal of improving economically important traits in the crop.

More information:
Diers' research advances fundamental knowledge of the genes responsible for soybean yield, protein content, and resistance to major pests. His captive breeding program releases and licenses soybean varieties for production in Illinois, with more than 15 varieties currently in commercial production.

Affiliations:
Diers is an emeritus professor in the Department of Crop Sciences in the College of Agricultural, Consumer and Environmental Sciences (ACES) at the University of Illinois Urbana-Champaign. He is also a team member for the Realizing Increased Photosynthetic Efficiency (RIPE) project.

Soybeans star in variety of 2023 field research

Fight Against SCN Broadens: Genetic Resistance Key to Soybean Cyst Nematode Fight

Title	Cited By	Year
Registration of 64 soybean germplasm lines with all combinations of five soybean aphid resistance genes in two genetic backgrounds		2023
Nicholas Dietz1, Yen On Chan2, 3, Andrew Scaboo1, George Graef4, David Hyten4, Mary Happ4, Brian Diers5, Aaron Lorenz6, Dechun Wang7, Trupti Joshi2, 3, 8, 9 and Kristin Bilyeu10		2023
Genetic architecture of protein and oil content in soybean seed and meal		2023
Interactions Among Heterodera glycines, Macrophomina phaseolina, and Soybean Genotype		2023
Identification of genomic regions associated with soybean responses to off-target dicamba exposure		2022
Identification of Natural Tolerance to Off-Target Dicamba in Soybean		2022
Differential responses of soybean genotypes to off‐target dicamba damage	4	2022
High-throughput characterization, correlation, and mapping of leaf photosynthetic and functional traits in the soybean (Glycine max) nested association mapping …	5	2022
Epistatic interaction between Rhg1-a and Rhg2 in PI 90763 confers resistance to virulent soybean cyst nematode populations	5	2022
Genotype imputation for soybean nested association mapping population to improve precision of QTL detection	1	2022
Candidate genes modulating reproductive timing in elite US soybean lines identified in soybean alleles of Arabidopsis flowering orthologs with divergent latitude distribution	2	2022
Fine mapping and cloning of the major seed protein quantitative trait loci on soybean chromosome 20	28	2022
Rhg1 mediated resistance to soybean cyst nematode		2022
Detection of rare nematode resistance Rhg1 haplotypes in Glycine soja and a novel Rhg1 α‐SNAP	1	2022
High Throughput Phenotyping for Essential Crop Traits		2022
Package ‘SoyNAM’		2022
Genotype imputation for soybean nested association mapping population to improve precision of QTL detection		2022
Soybean Cyst Nematode Resistance Quantitative Trait Locus cqSCN-006 Alters the Expression of a γ-SNAP Protein	8	2021
The Next Generation of Soybean Resistance Breeding with rhg1-a and rhg2 Locus to Combat Soybean Cyst Nematode		2021
Resistance gene pyramiding and rotation to combat widespread soybean cyst nematode virulence	11	2021

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Brian Diers, Ph.D.

Emeritus Professor at ACES and RIPE

Expertise: AgricultureAgricultureBreedingBreedingCropsCropsPlant BreedingPlant BreedingSoybeanSoybeanSoybean Cyst NematodeSoybean Cyst Nematode

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Expertise: Agriculture Agriculture Breeding Breeding Crops Crops Plant Breeding Plant Breeding Soybean Soybean Soybean Cyst Nematode Soybean Cyst Nematode