Research Projects

This project seeks to develop a knowledge transfer tool to assist organic market gardeners with weed control.

Project initiated to review the knowledge on the fungicide resistance of various pathogens to provide a preliminary assessment of the economic impacts of fungicide resistance.

The model’s predictions will be used to calibrate the dose of a thinning agent (ANA) to be applied in two plots, one treated with carbaryl and the other without, over a two-year period.

This project aims to develop mass trapping strategies to keep damage caused by the striped cucumber beetle populations below the economic threshold, while minimizing the capture of pollinators and natural enemies.

This project’s aim is to evaluate the effectiveness of HARVANTA® 50SL to control the cranberry weevil, the blackheaded fireworm and the cranberry fruitworm.

Collaboration for a cost-effectiveness analysis to identify the most promising practices and strategies to reduce the use of pesticide.

This project assesse the influence of biotic and abiotic factors on the efficacy of spring flooding to developp a strategy of control for the blackheaded fireworm

This update will incorporate information from more recent scientific articles on Spotted Wing Drosophila

Exclusion nets have proven to be effective against nearly all of these insect pests, which means that it’s possible to develop apple growing practices in Québec that are not only neonicotinoid free, but also devoid of all pesticides (including acaricides, given that mite problems are a consequence of broad-spectrum insecticide use). Although the net exclusion microsystem studied in Québec since 2012 has demonstrated its effectiveness in controlling insect pests, some issues remain to be studied before it can be unreservedly recommended. Among these are the handling times for the nets, i.e., installation/removal and opening/closing, and the system’s profitability and durability over the long haul for various cultivars.

Developing a fast and sensitive molecular detection methodology able to accurately identify raspberry and strawberry viruses.

Development of a mating disruption method to control two cranberry pests.

Biological control of the obliquebanded leafroller in orchards where mating disruption is being used against the codling moth.

Development of weeding strategies and methods that will reduce weed pressure on carrot crops, especially row-crop carrots, which appear to be the most problematic.

Three-year project on an array of mitigation protocols to reduce the application of glyphosate in a field crop system (corn–soybean–grains).

Experimenting narrow-row crop weed control strategy on three crops: green beans, peas, and soybeans.