Investing in research that makes sense for farmers
Click the icons below or type a keyword in the search bar to view Alberta Grains funded research.
Click the icons below or type a keyword in the search bar to view Alberta Grains funded research.
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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 in…
Although winter wheat has been grown for many years, for most western Canadian producers it is still perceived as a new and alternative crop. Producers, ag-industry and society recognize that there is a need to develop a…
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 inta…
Nitrogen (N) is an essential plant nutrient and, along with water, is the factor that most frequently limits crop production. In recent years, however, soil N tests have come under considerable scrutiny and criticism, le…
Moisture deficits recognized as agricultural drought and those of dispersed nature that get less “press”, if any, bring down wheat yield. Grain filling period is particularly sensitive. Statistics Canada noted after …
As spring wheat growers strive for higher yields through intensified practices and new genetics, the knowledge gap around nitrogen (N) remains far from closed. One question that arises is the role of enhanced efficiency …
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 interac…
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…
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 damag…
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 …
The use of sourdough in industrial baking reduces ingredient cost, achieves “clean label” solutions by replacement of additives, and the quality of bread. Fermentations are carried out at the bakery or by specialized…
Understanding the basis of early maturity in wheat may lessen the use of herbicides through improved competition with weeds, and may also improve the quality of harvested wheat. This research will use techniques of both …
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 stab…
This project will Determine and revise estimates of the nutrient uptake and removal of crops commonly grown in western Canada and develop a user friendly online and mobile app for determining nutrient uptake and removal …
This project will determine nitrogen use efficiency (NUE) capabilities for a range of historic and modern spring wheat cultivar and identify agronomic traits that contribute to enhancing NUE of spring wheat.
This project will focus on the economic and ecological value of biological pest control by beneficials in Prairie crops.
This project will address the decline in planted barley acres in AB that is resulting in reduced crop diversity and threatening the cropping system sustainability in the province.
The yields of new feed barley cultivars have declined or at best remained static compared to varieties registered 15 years ago in according to data from AFSC. Barley acreage are also declining by an average of 3% per ye…
This proposed research project aims to generate and deploy novel genomic tools for breeding of future generation of Canadian wheat and barley cultivars that are tolerant to PHS.
This project is unique from the other biosensor projects in that it targets multiple spore types.
The goal of this project is to develop an in-field, real-time biosensor for FHB forecasting. This project comes from the same scientist that is working on Sclerotinia sensors for Canola.
Lodging and mechanical failure of the stem or root system is a significant issue in barley leading to yield reductions and economic losses for Canadian producers. The development of barley varieties with improved lodging…
The purpose of this project is to enhance our feed and forage barley and triticale breeding programs by optimizing the application of the most recent molecular techniques.
Evaluation of DON content in 2,250 CDC breeding lines grown in the collaborative AAFC Brandon FHB nursery located in Brandon, MB and 150 CDC lines grown in collaborative FHB nurseries located in Morden, MB, Ottawa, ON an…
Genetic markers have allowed breeders to more rapidly develop new and improved varieties. However, there is potential to increase the efficiency of this technology even more while also decreasing the cost associated with…
Controlled traffic farming (CTF) is a system that separates the area that machinery travels on from the area where the crop grows, establishing permanent traffic lanes. In this farmer-led initiative, farmers are evaluati…
Fusarium head blight (FHB) now affects most of Canada and can be a devastating disease. While there is currently a lack of effective management or prevention options, we know that using an integrated crop management appr…
Part of the challenge of growing malting barley is managing protein in the crop. This study aims to develop better guidelines for managing protein levels, by determining how to successfully grow malting barley after legu…
Barley production across Canada continues to be threatened by diseases, and the increasing resistance and adaptation of these diseases to fungicides.
In order for barley to stay competitive, it is crucial to continually develop new varieties that will increase yields while also addressing disease threats and changing environmental, economic and market conditions.
In order to increase the growth of barley in western Canada, it is critical to continue to develop varieties that are adapted to our growing conditions and offer ideal end-use qualities.
Barley production across Canada continues to be threatened by diseases. This research aims to address this by developing disease-resistant barley varieties.
Demand for Canada’s high-quality malt and feed barley is increasing. To prepare for and nurture this growth, it is critical that we continue to develop barley varieties with improved traits.
Team Alberta estimated the total value of unharvested acres in 2019 at $778 million. Such huge risks to the crops can be minimized by harvesting crops as soon as they reach physiological maturity and grain can be artific…
Increasing demand for greater cereal crop yield often motivates increasing the use of nitrogen-based fertilizers, leading to growing conditions with lower input use-efficiencies. Commercial agricultural products availabl…
Kochia populations from more than 50 sites in Alberta and Saskatchewan have been confirmed to be glyphosate-resistant. This research will provide new information on the most efficacious and cost-effective alternative her…
The project aims to assess seeding systems by soil-test-based fertilizer rate interactions for canola and cereal production. Combinations of two seeding systems and four fertilizer rates are being tested using a barley-c…
The project aims to evaluate the EM38 and VERIS soil mapping tools, management zone delineation techniques and agronomy options. It will provide scientific data regarding precision agriculture tools and simple protocols …
The project aims to identify superior crop rotations that minimize input costs, environmental impacts and pest problems, optimize crop production, increase profit and improve soil quality. Canola, wheat, peas, barley and…
The project aims to develop barley varieties with a superior ability to take up and utilize nitrogen, so that the rate of nitrogen fertilization can be reduced while continuing to improve grain yield.
The project aims to determine if applying herbicides at night is a practical option for farmers; to generate unbiased data on the efficacy of and tolerance of night application of herbicides, and to uncover possible issu…
The project will identify molecular markers associated with important agronomic traits that will help breeders improve these traits via molecular marker-assisted selection or genomic selection strategies.
The project aims to develop barley germplasm for western Canada in all classes of barley with improved fusarium head blight (FHB) resistance.
The project aims to identify barley germplasm, breeding lines and varieties with resistance to a range of foliar, root and head diseases.
The project aims to 1) determine the impact of seed treatments, PGRs and fungicide timing on crop health, disease levels, productivity and quality in barley; 2) assess the interaction of disease resistance with seed trea…
Modern agriculture’s reliance on uniform cultivars, monocultures and rotations with limited diversity hinders efforts to manage pest issues, such as diseases. The lack of genetic diversity in modern cultivars is also f…
The objectives of this project are to evaluate and map several barley scald resistance genes and to create molecular markers for effective scald resistance genes for use in genetic selection.
Many farmers look to the popular yet ambiguous area of "soil health" to help buffer perturbations to their farming operations and provide long-term productivity. However, there is little information on how farmers …
This research will assess whether there may be an opportunity to extend the crop harvest beyond the grain to include some portion of the crop residues, without appreciably impairing soil health.
Lodging is a serious production and management constraint for barley growers that can have significant impacts on yield. While breeding for standability (or resistance to lodging) is a primary goal of barley breeding pro…
Research is Alberta Grains' most significant investment for a reason. Development of new, improved genetics and best management practices will be key to helping producers adapt to changing environments, government policies and both domestic and international market demands, all while maximizing their profit.