AWC - Funded Research

Spotlight on AWC-funded Research

AWC invests in research projects that maximize crop performance. Check out Spotlight on Research, our new publication that highlights AWC-funded projects aimed at boosting your bottom line.

Investing in research that makes sense for farmers 

Click the icons below or type a keyword in the search bar to view AWC-funded research related to your on-farm challenge. Visit our Why invest in research page to learn more about how AWC’s value-added research investments  result in better returns for farmers.    

Development of novel tools to increase wheat grain yield under normal and abiotic stress conditions

This 3 year project proposes to further develop the use of the plant growth regulator class, auxins, as a tool to increase wheat grain yield grown under non-stress and abiotic stress conditions. By determining the traits that lead to increased auxin…

Crop Management Decisions in Hail Damaged Crops

Hail damage crop losses vary depending on intensity, timing and spatial extent in terms of growth stages of the affected crops. This 3 year research project proposes to identify wheat’s response to simulated hail damage at different growth stages,…

Tweaking Stomatal Development to Improve Water Use Efficiency and Biomass Production of Wheat Under Drought Stress

Stomata are small openings found on plant surfaces that mediate gas exchange with the surrounding atmosphere. This structure is important for photosynthesis and water use efficiency as they control the amount of CO2 intake and water lost by opening…

Influence of Genotype, weather and the growing environment, and crop management on gluten strength and the sustainability of CWRS as a premium wheat class in the prairie region

This research is examining the dependence of key physical and biochemical factors underlying CWRS wheat processing quality for breadmaking as a function of genotype (G), the crop growing environment (E) and G x E interactions. The focus of the study…

Plant Growth Regulators: barley, oat, and wheat variety specificity and appropriate timing for new PGRs

This 3 year project will identify which varieties of wheat, oat, and barley are affected by Plant Growth Regulators (PGRs), and whether PGRs are useful applications for lodging resistance. Timing for PGR application will also be assessed. PGRs are…

Coordinated N and S fertilizer management to increase crop N uptake and reduce environmental N losses

This 3 year project aims to quantifying the effects of long term Nitrogen and Sulfur fertilizers on crop nutrient use efficiency and N2O emissions on sulfur-deficient, grey soils. Sulfur-deficient prairie soils may be increasing because of increased…

The integration of spring wheat genetics and agronomics to mitigate risks associated with early plantings into cold soils

This investigation will determine if early plantings of cold tolerant cultivars coupled with optimum agronomics will extend the growing season and achieve or exceed attainable spring wheat yield with improved system stability.

Advanced Agronomic Practices in Wheat, Barley and Pea to Maximize Yield and Harvestability

This project will use systems thinking to identify synergies between advanced agronomic practices to maximize the profitability of Alberta growers. Using a systems approach, approximately 50 different management systems will be tested in each wheat…