To maintain productive and healthy colonies it is important that beekeepers consider the quality of their queens. The presence of a healthy and productive queen is essential for colony survival both because of the offspring she produces and the presence of her pheromones which facilitates colony behaviour. Read this week’s blog to learn about indicators of good and poor queen quality and recommendations for when queens should be replaced within an operation.

Queen Quality

Good quality queens are essential for strong and healthy colonies that successfully overwinter. She is the sole reproductive female of the hive, builds the colony population and provides essential pheromones that facilitate social coherence of a colony. Each year in the Canadian Association of Professional Apiculturists (CAPA) colony winter loss survey “poor queens” is continually reported by beekeepers as a top reason for colony winter loss¹.

Queen quality can be diminished due to a variety of factors such as age, mating success, injury, the presence of pests and/or diseases, and miticide exposure². Generally, queens live one to three years^2,3, however, she is most productive laying eggs when she is less than 2 years old². Compared to other insects, a honey bee queen has a relatively long life². As a queen ages so does the likelihood of a supersedure event occurring or the queen dying^2,3. To avoid an interruption in brood production, or having a queenless colony late in the beekeeping season, best practice is to requeen colonies every two to three beekeeping seasons³. Additionally, anytime a queen’s performance is questionable beekeepers should monitor her performance and consider requeening². If a beekeeper is choosing to replace queens after a particular number of beekeeping seasons, it is recommended that beekeepers mark their queens to be certain of her age.

There are several indicators that a queen is of good quality and performing well within a colony. One indication the queen is performing well is the overall brood pattern. Ideally, the brood should be located at the center of the hive, and, on a single frame, food resources should form an arch over the brood⁴. Additionally, beekeepers should check if the brood pattern is solid (not “spotty”), as a  spotty brood pattern may indicate a poor performing queen, and may also be a sign of various brood diseases². Low bee populations can be attributed to a failing queen². One way to assess a bee population is both honey production and consumption, both of which should be high with a strong colony population². Beekeepers should be assessing for how well the queen is mated. If there is an abnormally high percentage of drones and drone brood compared to workers this may indicate that the queen is not well mated and is only laying drones⁵. Colonies that are prone to pests and diseases, in particular high varroa mite loads, may have a queen with poor genetics. Beekeepers should also recognize that overtime miticide exposure can impact the health of the queen and also the viability of sperm stored in her spermatheca². Excessive debris on the bottom board can be a sign the queen has genetics associated with poor hygienic behaviour. Finally, observe and keep records of colony behaviour. When a queen is aging and/or failing, her pheromone production drops, leading to noticeable changes in colony behavior, such as an overly defensive colony, and the presence of supersedure cells if the colony has decided to requeen².

A

B

Comparison of brood patterns: (A) Good arching, solid, brood pattern (©ATTTA 2024); (B) Spotty brood pattern (©David Evans 2018)

Worker bees forming a retinue around queen honey bee (ATTTA^© 2025), which is facilitated by the queen’s retinue pheromone.

The age of the queen has a direct impact on the colony winter survivability. A 2007 study conducted in Turkey found that colonies with first year queens had a 100% survivability rate, colonies with 1-year-old queens had a 100% survivability rate, colonies with 2-year-old queens had a 60% survivability rate, and colonies with 3-year-old queens had a 40% survivability rate (N = 5)⁶. The research also found that there is a correlation between queen age and honey production, brood production and population of adult bees, where colonies with older queens (2-3 years old) had less honey production and brood production and a smaller population of adult bees compared to young queens (less than 2 years old)⁶.

Globally, in addition to parasites and pathogens, failure or loss of queens has been considered one of the most important factors leading to colony losses⁷. Beekeepers should remain vigilant monitoring the performance of their queens and intervene when required. Overall, having healthy, productive queens with desirable genetics provides the greatest opportunity for colonies to build up throughout the beekeeping season and successfully overwinter. For any questions regarding queen quality and colony performance please contact a member of the ATTTA team.

References

1. Canadian Association of Professional Apiculturist. 2025. Statement on honey bee wintering losses and disease management in Canada for 2025.
2. Sammataro, D., and Avitabile, A. 2021. A beekeeper’s handbook: fifth edition. Cornell University Press .
3. Lee, K.V., Goblirsch, M., McDermott, E., Tarpy, D.R. and Spivak, M., 2019. Is the brood pattern within a honey bee colony a reliable indicator of queen quality?. Insects, 10(1), p.12.
4. Camazine, S., 1991. Self-organizing pattern formation on the combs of honey bee colonies. Behavioral ecology and sociobiology, 28, pp.61-76.
5. Pernal, S. F., and Clay, H., 2013. Honey bee diseases and pests, 3rd Edition. Canadian Association Professional Apiarists, Beaverlodge, AB, Canada 68 pp.
6. Akyol, E., Yeninar, H., Korkmaz, A. and Çakmak, I., 2008. An observation study on the effects of queen age on some characteristics of honey bee colonies. Italian Journal of Animal Science, 7(1), pp.19-25.
7. Amiri, E., Strand, M.K., Rueppell, O. and Tarpy, D.R., 2017. Queen quality and the impact of honey bee diseases on queen health: potential for interactions between two major threats to colony health. Insects, 8(2), p.48.

Connecting with ATTTA Specialists

If you’d like to connect with ATTTA specialists or learn more about our program, you can:

visit our website at https://www.perennia.ca/portfolio-items/honey-bees/

Email attta@perennia.ca

Over the past few months a couple of Varroa mite treatments have been registered for use in Canada, including VarroxSan^TM and Apivar 2.0®. Adding to that list, the Canadian Pest Management Regulatory Agency (PMRA) has recently registered Amiflex®, which is a gel formulated product containing the active ingredient amitraz (1.99%). Read this week’s blog to understand how Amiflex® may be incorporated into Canadian beekeepers’ Varroa mite management plans.

What Beekeepers Should Know about Amiflex®

Amiflex® is a Varroa mite treatment containing the active ingredient amitraz (1.99%) and is administered to colonies as a gel. The product, manufactured by Véto-pharma, has recently been registered for use in Canada by the Pest Management Regulatory Agency (PMRA). As part of an integrated pest management approach to controlling Varroa mites, beekeepers need to use a variety of chemical treatments and reduce reliance on a singular product. Having multiple treatment options available makes it easier for beekeepers to work different products into their IPM plan.

Amiflex® can be used to treat phoretic mites whether or not brood is present in the colony, but the product does not target mites under capped brood cells. Additionally the product is not temperature-dependent and can be used throughout the beekeeping season.

To apply Amiflex®, beekeepers must ensure that honey supers are removed, as the product cannot be administered while honey supers are present. Then beekeepers should scrape frames clear of all excess wax and propolis that could prevent the bees from coming in contact with the gel. In particular, top bars, top feeders, and the bottom of the frames in the top brood box should be well scraped. Next, beekeepers can load and secure the Amiflex® syringe into the dosing gun following manufacturer instructions. Using the dosing gun, an application of 2 doses of 3mL per brood box should be applied to the included tongue depressors, which are placed on the top bars of two different frames. Beekeepers should leave a minimum of one frame between the two frames with gel. The product should be applied to frames in the centre of the brood nest. For a double colony the total application should be 4 doses of 3mL (12mL) (2 frames in each brood box).

Beekeeper applying Amiflex® treatment to honey bee colony ©Thierry Vincent (Véto-pharma).

The treatment period of Amiflex® is 7 days. After 7 days any leftover treatment should be removed, and honey supers are allowed to be placed on colonies.

According to the manufacturer, Amiflex® is different from other amitraz products as it has a relatively quick action. Additionally, according to the PMRA label, the product can be used two times a year, either as two applications 14 days apart, or as two separate applications (7 days each) at different times during the year. If a colony or yard has high Varroa mite levels, it is recommended to apply the second application of Amiflex® 14 days after the first application to target emerging bees and phoretic mites.

Beekeepers must remember that Amiflex®, just like any other Varroa mite treatment, should only be applied when monitoring indicates mite levels are at or exceeding the economic threshold. Beekeeper should monitor following treatment to understand if the treatment was effective. Additionally, it is important that beekeepers understand that Amiflex® does not provide a new active ingredient to the Canadian beekeeping industry, but rather a new application of an already registered active ingredient – amitraz. So, if beekeepers want to use an amitraz-based product as part of their IPM plan, it is recommended that they select one of the available delivery methods (strips or gel) and alternate this treatment with another product that contains a different active ingredient.

The registration of Amiflex® will hopefully provide the Canadian beekeeping industry with another Varroa mite treatment option. Beekeepers can anticipate that the product will be available to purchase in the near future, but the exact date this product will be available in beekeeping stores is still unknown. For any questions regarding Varroa mite treatment and management, reach out to the ATTTA team.

References

Pest Management Regulatory Agency. https://pr-rp.hc-sc.gc.ca/1_1/view_label?p_ukid=402262946

Véto-pharma. https://www.veto-pharma.com/beekeeping-products/amiflex-amitraz-flash-treatment/

Connecting with ATTTA Specialists

If you’d like to connect with ATTTA specialists or learn more about our program, you can:

visit our website at https://www.perennia.ca/portfolio-items/honey-bees/

Email attta@perennia.ca