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United States Department of Agriculture

Agricultural Research Service

Collaborations

The Red River Valley Agricultural Research Center has a long and productive history of collaborative research involving stakeholders.


Current collaborators and projects:

CENTRAL LAKES COLLEGE, BRAINERD, MN
  • Discovery and Use of Novel Sources of Resistance to Head Rot and Stalk Rot in Cultivated Sunflower and Wild Helianthus


  • COLORADO STATE UNIVERSITY, FORT COLLINS, CO
  • Metabolomic Profiles Associated with Resistance to Sclerotinia Sclerotiorum in Dry Edible Beans


  • KANSAS STATE UNIVERSITY, MANHATTAN, KS
  • Development of Resistance to Atrazine (Triazine) in Sunflower


  • MICHIGAN STATE UNIVERSITY, EAST LANSING, MI
  • Identification of Qtl for White Mold Resistance in Mesoamerican Beans


  • NATIONAL SUNFLOWER ASSOCIATION, MANDAN, ND
  • Doubled Haploid Production in Sunflower

  • Monitoring the Distribution of Downy Mildew, Verticillium and Charcoal Rot on Sunflower: a Multiple States Approach

  • Evaluation of Sunflower for Resistance to Seed-and Stem-Infesting Insect Pests in the Great Plains


  • NORTH DAKOTA BARLEY COUNCIL, FARGO, ND
  • Development and Testing of Transgenic Barley Lines Expressing Genes That May Reduce Fhb and Don

  • Spot Form Net Blotch of Barley, Identification and Characterization of Host Resistance


  • NORTH DAKOTA STATE UNIVERSITY, FARGO, ND
  • White Mold Resistance-Qtl: Identification, Interactions, and Fine Mapping in Common Bean

  • Identification and Mapping of Disease Resistance Genes in Wheat

  • Identification and Utilization of Ug99 Resistance Genes from Wild Relatives of Wheat

  • Ug99 Stem Rust Resistance in Barley

  • Transferring Sclerotinia Resistance Genes from Wild Helianthus Species into Cultivated Sunflower

  • Identification of Resistance and Pathogenicity Genes Associated with Sclerotinia Sclerotiorum Infection Using Next-Generation Sequencing

  • Investigating the Role of Sunflower Volatiles and Other Semiochemicals in Resistance to Insect Pests

  • Genomics Based Approach for Identifying Genetic Traits and Markers Linked to Disease Resistance in Brassica Spp.

  • Managing Sclerotinia Stem Rot of Canola Withfungicides

  • Introgression of New Stem Rust Resistance Genes from Thinopyrum Species into Wheat

  • Genomic Analysis and Map-Based Cloning of a Ug99-Resistance Gene Derived from Wild Grass

  • Hormonal Signaling in Leafy Spurge

  • Characterization of Effectors Involved in Plant - Necrotrophic Pathogen Interactions

  • Discovery and Use of Novel Sources of Head Rot and Stalk Rot Resistance in Sunflower and Studies of Asteraceae Genera

  • Development and Evaluation of Canola Breeding Populations for Resistance to Sclerotinia Sclerotiorum

  • Doubled Haploid Production in Sunflower

  • Deployment of Novel Sources of Sclerotinia Resistance and Tools for Breeding Resistance in Sunflower

  • Development of Improved Management Systems for Pollinators, Alfalfa Leafcutter Bee, Megachile Rotundata and Blue Orchard Bee, Osmia Lignaria

  • Genomic Analysis of the Toxin Sensitivity Genes Snn3-B1 and Snn3-D1 in Wheat

  • Development of a Robotic System for High Through-Put Insect Embryo Cryopreservation


  • NORTHERN PLAINS POTATO GROWERS ASSOC. (NPPGA), EAST GRAND FORKS, MN
  • Screening of Advanced Breeding Selection for Processing Performance after Short and Long Term Storage


  • OREGON STATE UNIVERSITY, CORVALLIS, OR
  • White Mold Resistance-Qtl: Identification, Interactions, and Fine Mapping in Common Bean


  • U.S. POTATO BOARD, DENVER, CO
  • National Fry Processing Trials


  • UNIVERSITY OF CALIFORNIA, DAVIS, DAVIS, CA
  • Improving Barley and Wheat Germplasm for Changing Environments


  • UNIVERSITY OF IDAHO, MOSCOW, ID
  • Synchronizing Pollinators with Almond Bloom: Part One, An Environmental Covariate for the Dennis/kemp Model


  • UNIVERSITY OF MINNESOTA, MINNEAPOLIS, MN
  • Evaluation of Sunflower Hybrids for Resistance to Sclerotinia Head Rot


  • UNIVERSITY OF NEBRASKA, LINCOLN, NE
  • Facilitating Management of Sclerotinia Head Rot of Sunflowers Through Screening of Hybrids for Resistance & Evaluating Fungicides for Effica

  • Improved White Mold Resistance in Dry & Snap Beans Through Multi-Site Screening & Pathogen Characterization Throughout Major Production Area


  • Last Modified: 9/22/2014
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