Each year, IRDA's R&D Team conducts more than one hundred research projects in sustainable agriculture. What's more, IRDA is working with Quebec's key agricultural stakeholders to find concrete solutions.
Validation and adaptation of pest and disease monitoring and decision support tools.
Researcher: Annabelle Firlej
Analyzing the factors influencing European corn borer abundance in Québec to improve monitoring methods and better manage future risks associated with this pest.
Researchers: Annabelle Firlej Daniel Cormier
Updating the apple pest monitoring guide and the IFP reference guide for the benefit of apple growers.
Researchers: Daniel Cormier Gérald Chouinard
The overall objective of the project is to inform apple growers via regional demonstration plots of the latest apple IPM techniques.
Researchers: Vincent Philion Daniel Cormier Mikaël Larose
The aim of this project is to measure the potential of automated traps and extrapolate it to an apple-monitoring network.
Researchers: Gérald Chouinard Daniel Cormier
Testing the efficacy of four biofungicides against Sclerotinia in soybeans.
Researcher: Luc Belzile
The aim of our project was to increase the acreage on which mating disruption is used against the codling moth in all of Québec’s apple-growing regions.
Researcher: Daniel Cormier
The purpose of the project is to evaluate the anti-germination, phytotoxic, and biostimulant potential of five types of forest residue.
Researcher: Richard Hogue
This project aims to assess the impact of cropping practices on baby lettuce yields and quality on muck soil.
Researchers: Caroline Côté Annabelle Firlej
Evaluation of the potential of drones to optimize trichogramma releases against the European corn borer on processing sweet corn in Québec.
This project will compare the ability of various pheromone mixes to prevent male swede midges from locating females.
Economic analysis of using flower strips around soybean fields to serve as a reservoir for aphid species attacked by Pandora neoaphidis.
Researcher: Luc Belzile
The aim of this project is to determine the combined impact on fungicide efficacy of rain and the appearance of new leaves to more accurately identify how long treatments remain effective.
Researcher: Vincent Philion
The main aim of this project is to test a bacterial detection technique developed in Austria that consists of quantifying inoculum carried by bees.
Researcher: Vincent Philion
and quality of soil, water, and air
of local communities by improving the quality of crop and livestock production, with an emphasis on animal welfare
of crop and livestock production