Each spring thousands of honey bee colonies are moved throughout the Maritime region to pollinate wild blueberry fields. For some beekeeping operations, colonies are moved within a relatively short radius of their home apiary pollinating nearby fields. Other operations may move colonies significant distances with colonies migrating across counties and provinces to pollinate wild blueberries. The migratory beekeeping practices that exist within the Maritime region, across Canada and within North American present significant health risks to honey bee colonies, operations and industries. This week’s blog will discuss associated honey bee health risks of migratory pollination practices both within and outside of the Maritime region.

Associated Honey Bee Health Risks of Wild Blueberry Pollination and Migratory Beekeeping Practices

Each Maritime province has unique pollination practices which present various risks to colony health. Within each Maritime province, colonies are migrated throughout the province to pollinate wild blueberries. Nova Scotia has recently allowed for the importation of a strict number of Canadian honey bee colonies originating outside of the province during the time of wild blueberry pollination. For decades prior to 2025, the province did not grant permission for the importation of honey bee colonies, and only Nova Scotian honey bee colonies pollinated wild blueberries. Both New Brunswick and PEI import thousands of colonies each year from across Canada to meet the pollination demand. In 2024, New Brunswick imported 26,737 honey bee colonies. Last season, PEI imported 3,472 honey bee colonies some of which were from British Columbia and were transported across the country traveling throughout most of the Canadian provinces. In addition to honey bee colonies, managed non-Apis pollinators such as bumble bees and alfalfa leafcutting bees are imported from outside provincial boards, and historically outside Canada, to meet the pollination demand.

Demonstration of hive loading equipment in New Brunswick at a wild blueberry pollination beekeeping operation (ATTTA^© 2025)

Throughout Canada thousands of colonies are moved to and from various provinces to pollinate wild blueberries among other crops such canola, apples, cranberries, and highbush blueberries. The one exception to interprovincial movement of honey bees is Newfoundland and Labrador as the province does not permit the importation of bees to help maintain their exceptionally unique pest and disease profile, which is free of Varroa mites, American foulbrood, European foulbrood, small hive beetle and wax moth.

Outside of Canada migratory beekeeping practices are prevalent and globally the movement of honey bees and the spread of pests and diseases could have an impact on Canada’s industry including the spread of new pests and diseases into Canada and the availability of approved countries for queen importation. Canada imports queens from European counties, Australia, New Zealand, South American countries, with the majority of queens imported from the United States. The United States has significant migratory beekeeping practices where greater than 2 million colonies follow major bloom cycles for pollination and honey production. Their migratory practices start with almond pollination in February with over 60% of US colonies converging in California in February and March (Bond et al. 2021). From California, bees move to pollinate apples and pears in Washington, blueberries in Maine, and cranberries in Wisconsin (Bond et al. 2021). In summer and fall many colonies move to the Northern Plains for clover honey production, and then these hives are transported to southern states such as Texas, Florida and Georgia to overwinter (Bond et al. 2021).

Biosecurity practices, and the associated risks of various pests and diseases, needs to be evaluated at the level of within an apiary, operation, province, region, country and internationally. As the geographical range expands so does the likelihood of different honey bee pest and disease profiles. Therefore, as the migration distance for pollination increases, so does the risk of transmitting various pests and diseases to other colonies, apiaries, operations, provinces and countries.

When colonies converge in wild blueberry fields, and other pollinated crops, various pests and diseases can spread between colonies of different origin and pests and diseases can be spread to local colonies in the surrounding area. Some of the pests and diseases of concern within the Maritime region include American foulbrood, small hive beetle, high levels of Varroa mites and amitraz-resistant Varroa mites. Additionally, both the Canadian and North American beekeeping industry are remaining vigilant against the introduction of new pests and diseases such as the Tropilaelaps mite which is prevalent in countries in Asia.

Across North America the pollination demand is high and often pollination requirements cannot be met with only local hives. Therefore, there is a continued need to import hives into various regions. Many regions, including the Maritimes, are working towards growing their beekeeping industry to better support pollination demands and reducing reliance on imported hives. In addition to increasing the number of commercial beekeepers and colonies going to pollination it is equally as important that hives are managed to be strong and healthy which will contribute to low winter loss each year. Within Canada each provincial apiculturist helps minimize the risk of spreading pests and diseases by conducting inspections before/after colonies leave/enter the province, and each province also has inspection programs and regulations within province to help minimize the spread of pests and diseases.

Other than the spread of pests and diseases, there are additional honey bee health risks related to pollination. Both the transportation of colonies and placement of colonies on various agriculture crops adds stress to honey bee health. Different crops provide different nutritional value to honey bees and pollination can be linked to reduced nutrients and forage availability for honey bees. Additionally, there may be increased agrochemical exposure while honey bees are placed on pollination crops, which further contributes to poor health. A future blog will further discuss how wild blueberry pollination can have an impact on honey bee health.

References

Bond, J.K., Hitaj, C., Smith, D., Hunt, K., Perez, A. and Ferreira, G., 2021. Honey bees on the move: From pollination to honey production and back.

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

Last week the Atlantic Tech Transfer Team for Apiculture attended the PEI Beekeepers’ Association Annual General Meeting. The event occurred in Charlottetown, PE on February 28^th and was attended by more than 70 beekeepers and industry representatives from across the Maritime region. The meeting provided a great opportunity for beekeepers to network, learn about the island beekeeping industry and consisted of multiple great speakers on a wide range of informative topics. Some of the highlights of the event are presented below.

Review of the PEI Beekeepers' Association Annual General Meeting 2026

The past Saturday marks the largest attendance of the PEI Beekeepers’ Association (PEIBA) annual general meeting to date, with over 70 beekeepers and industry representatives in attendance. The meeting not only had good island representation, but beekeepers from across the Maritimes were in attendance, and there were virtual presentations from industry experts both nationally and internationally.

To start the day, Troy Fraser (PEIBA president) conducted the annual business meeting. Currently, the PEIBA has 95 members which consists of beekeepers, supporters of the industry and students. Their membership has had steady growth over the past few years, which was reflected by the high meeting attendance.

Karen Thurlow (past Chief Apiary Inspector of New Brunswick) gave two talks during the meeting. The first talk was on examining dead hives. Investigating why a colony dies, at any time in the year, is important to help beekeepers understand how they potentially could have prevented colony loss and aim to prevent similar mistakes in the future. Colony loss can occur from a variety of reasons such as pests and diseases, poor queens, weather events, pesticide exposure, starvation, weak colonies and synergistic effects. Many reasons that colonies die can be prevented with proper beekeeper management, but to identify the reason for colony loss beekeepers must examine dead colonies. Later in the day, Karen gave a second presentation discussing a wide variety of tips, tricks and advice for managing honey bee colonies in the Maritimes.

Cameron Menzies (PEI provincial apiarist) gave an update on the island beekeeping industry. In 2025 there was approximately 30 commercial beekeepers managing over 5000 colonies. The number of PEI hives provided for pollination was an estimated 4675. Additionally, the province imported 3472 colonies for pollination from Ontario and British Columbia. The average rental price for a PEI colony for pollination in 2025 was $228. For honey production, there was an estimated 4000 honey producing hives with an average of 30lbs per hive this past season. During provincial inspections there was no detected American foulbrood or Small Hive Beetle in the province, and detected Varroa mite levels were low (less than 1%). Last winter (2024-2025) the island had a sustainable winter loss of 23% of colonies, and beekeepers are optimistic that winter loss for 2025-2026 will continue a trend of low winter loss.

Pascal Michaud (AgroGene Solutions – Moncton, NB) discussed the results of the various testing being offered by the Agrogene Solutions lab. Pascale provided insight to the various honey bee pathogens that are detected within the Maritime region’s colonies including viruses, bacteria, mites and fungi. To learn more about the various testing offered by Agrogene Solutions visit their website: https://www.agrogenesolutions.com/.

Geoff Wilson (Saskatchewan provincial apiculturist) discussed the biology of the Tropilaelaps mite, and the threat the pest presents to the Canadian beekeeping industry. Geoff is one of few Canadian beekeepers who has had first-hand experience learning about Tropilaelaps mites in both Thailand and the country of Georgia where the mite is prevalent in honey bee colonies. Geoff discussed some of the biological aspects of the Tropilaelaps mite that have the potential to make the pest more damaging than Varroa mites to honey bees, such as their short reproduction cycle, and differences in feeding mechanisms. One interesting aspect of the Tropilaelaps mite lifecycle, that is different from Varroa mites, is that the Tropilaelaps mite only spends 1-2 days each reproductive cycle on adult bees, and, generally, the mite is not thought to survive in a broodless colony for an extended period of time. Given that in Northern climates colonies have a broodless period of a couple months or more each winter this mite may not establish well in Canadian climates. Geoff also discussed potential routes of introduction of the Tropilaelaps mite to North America, potential monitoring methods and potential treatment methods. Overall, there is still a lot of unknowns around the risk and management of Tropilaelaps mites to the North American beekeeping industry. To learn about the Tropilaelaps mite there will be a session occurring on March 13^th during the New Brunswick Beekeepers’ Association Annual General Meeting, which beekeepers are welcome to attend in-person or virtually (Zoom link will be provided through the Maritime provincial beekeeping associations next week). Visit https://nbba.ca/ for more information on the event.

One of the final presentations of the day was from Paulo Mielgo (Vita Bee Health – Argentina) who discussed the product VarroxSan^TM which has recently been approved by the Canadian Pest Management Regulatory Agency to manage Varroa mites (see past blog “New Varroa Mite Treatment Product: VarroxSan^TM” published on November 13, 2025 for details of the PMRA label). Paulo discussed the efficacy of the product which was tested in multiple independent laboratories and apiaries, and it was demonstrated that when properly administered to a colony the product has an average efficacy of greater than 95% mite mortality. Overall, VarroxSan^TM provides the industry with another Varroa mite treatment option, and it is one of few that is allowed to be used with honey supers on.

To conclude the event Troy Fraser presented the Golden Smoker Award to Jonathan and Jennifer Gillis. The Golden Smoker Award recognizes new beekeepers who have started beekeeping within the last 5 years and have expanded their operation on a yearly basis providing pollination for Island fruit crops.  

Jennifer and Jonathan Gillis receiving the Golden Smoker award, presented by the PEIBA president, Troy Fraser, at the PEIBA annual general meeting 2026.

Thank you to all the organizers of this great event, and to all of the presenters for their knowledge and expertise they bring to the industry.

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