Understanding Vairimorpha Disease in Honey Bees

Honey bees depend on a healthy gut to digest food, absorb nutrients and maintain a strong immune system. When parasites invade this part of the digestive system, they can disrupt these processes and weaken the entire colony. One of the most common gut parasites found in honey bees is Vairimorpha (formerly Nosema), a microsporidian that infects honey bees and harms their colonies.

Understanding Vairimorpha in Honey Bees

Vairimorpha disease is caused by two spore-forming species, Vairimorpha ceranae and Vairimorpha apis. These parasites infect the epithelial cells of the honey bees’ ventriculus (midgut), where digestion and nutrient absorption take place ¹. As these cells become damaged, bees struggle to process food efficiently, which can shorten worker lifespan and weaken colony productivity ¹. Because the infection is internal, honey bees do not show outward symptoms specific to this disease, making this disease easy to overlook without testing. 

Figure 1: Vairimorpha spp. spore (arrow) under a compound microscope 100x

Even without obvious clinical signs, Vairimorpha infections can influence colony performance. Reduced nutrient absorption can weaken foraging ability, lower honey yield and slow spring build-up ¹. Classic symptoms such as fecal staining have been associated with V. apis ². The dominant species in Canada, V. ceranae, does not have distinct symptoms ². This makes visual inspection alone not reliable for detecting this disease and shows the importance of routine monitoring. 

The microsporidian spreads easily within a colony because the spores are environmentally resistant and spread through fecal-oral transmission. Bees can ingest the spores while cleaning contaminated comb, grooming or by trophallaxis ². Foragers can also pick up the spores from contaminated water sources ². Once inside the gut, the spores infect the midgut and multiply, allowing infection to spread quickly. Since this disease is transmitted through normal social behaviours, even strong colonies can become infected without showing obvious signs.

For decades, these pathogens were referred to as Nosema apis and Nosema ceranae. However, recent genomic work has shown both species are more closely related to the genus Vairimorpha, clustering with Vairimorpha necatrix, rather than the species Nosema bombycis in the genus Nosema ³. Although the scientific names have changed, the disease is still commonly referred to as Nosema or Nosemosis in the apiculture industry. It is important to note that this taxonomic update does not change how the disease is diagnosed or managed. 

Across Canada, research shows a clear shift toward V. ceranae being the dominant species. In a study on Nova Scotia colonies, all positive Vairimorpha samples contained V. ceranae, with V. apis not detected at all ⁴. Similar reports in other provinces, such as Ontario and Alberta, found that in polymerase chain reaction (PCR) surveys, V. ceranae was more common than V. apis ⁵.

Diagnosing Vairimorpha infections relies on microscopy, which allows beekeepers to quantify the spores. These spores represent the mature, environmentally resistant stage of the parasite, so spore counts provide an indirect measure of infection intensity. However, because the spores of V. ceranae and V. apis are difficult to distinguish, species-level identification requires polymerase chain reaction (PCR) to detect genetic differences between the microsporidia ².

Seasonal monitoring is essential because Vairimorpha levels fluctuate throughout the year. In Nova Scotia, McCallum et al. (2020) have shown that spore loads spike in May, then drop through the summer, with a smaller increase in spore loads in the fall ³. In Ontario, Emsen et al. (2020) have shown that infection intensity and prevalence of V. ceranae are highest in spring and summer seasons, and slightly lower in the fall ⁷. These seasonal trends emphasize the value of spring and fall testing for providing meaningful information on spore counts. 

Understanding the treatment of this disease is essential, like how fumagillin works and when it is most effective, when making management decisions. Next week’s blog will explore how Fumagillin interacts with the parasite inside the bee and how effective this is. 

 Written by Kaitlyn Newton, ATTTA Seasonal Apiculturist

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

References:

1. Sammataro, D. and Avitabile, A. 2021. A Beekeeper’s Handbook: Fifth Edition. Cornell University Press. 
2. Pernal, S.F. and Clay, H. 2013. Honey Bee Diseases & Pests, Third Edition. Canadian Association of Professional Apiculturists, Beaverlodge, AB, Canada, 68 pp. 
3. McCallum, R., Olmstead, S., Shaw, J. and Glasgow, K., 2020. Evaluating efficacy of Fumagilin-B® against nosemosis and tracking seasonal trends of Nosema spp. in Nova Scotia honey bee colonies. Journal of Apicultural Science, 64(2), pp.277-286.
4. Bojko, J., Becnel, J., Bessette, E., Edwards, S., Gao, J., Huang, W.F., Katanić, N., Khalaf, A., Li, T., Snow, J.W. and Solter, L.F., 2025. Nosema or Vairimorpha: genomic/proteomic support to a complex socio-economic issue rooted in taxonomic change. Journal of Invertebrate Pathology, 212, p.108376. 
5. McCallum, R., Olmstead, S., Shaw, J. and Glasgow, K., 2020. Evaluating efficacy of Fumagilin-B® against nosemosis and tracking seasonal trends of Nosema spp. in Nova Scotia honey bee colonies. Journal of Apicultural Science, 64(2), pp.277-286.
6. Emsen, B., Guzman-Novoa, E., Hamiduzzaman, M.M., Eccles, L., Lacey, B., Ruiz-Pérez, R.A. and Nasr, M., 2016. Higher prevalence and levels of Nosema ceranae than Nosema apis infections in Canadian honey bee colonies. Parasitology research, 115(1), pp.175-181.
7. Emsen, B., De la Mora, A., Lacey, B., Eccles, L., Kelly, P.G., Medina-Flores, C.A., Petukhova, T., Morfin, N. and Guzman-Novoa, E., 2020. Seasonality of Nosema ceranae infections and their relationship with honey bee populations, food stores, and survivorship in a North American region. Veterinary sciences, 7(3), p.131.

Last week the Atlantic Tech Transfer Team for Apiculture organized and facilitated a beekeeping workshop in partnership with the PEI Beekeepers’ Association. This workshop took place over 2 days, with several guest speakers, covered a wide range of beekeeping topics and providing the opportunity for new and experienced beekeepers to network and learn from each other. This week’s blog will highlight some of the discussions that took place during the event.

Review of PEIBA Spring Workshop

On April 24^th and 25^th ATTTA, partnered with the PEI Beekeeping Association, hosted a spring beekeeping workshop in Charlottetown. The event was attended by approximately 15 beekeepers from the Island and from New Brunswick, and there was an additional 4 guest speakers in attendance. The event started with a provincial update from Cameron Menzies (provincial apiarist) on the PEI beekeeping industry. In 2025 there was approximately 30 commercial beekeepers managing over 5000 colonies. There was an estimated 4675 PEI hives provided for pollination. 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 last 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%). It is worth noting that for imported hives 16% of colonies were inspected, which is in excess of the required 10%. Last winter (2024-2025) the island had a sustainable winter loss of 23% of colonies, and beekeepers are still in the process of determining their winter loss for 2025-2026.

Cameron Menzies, PEI provincial apiarist, providing an industry update at the 2026 Spring Workshop.

Stephen Farmer (Vice President of PEI Beekeepers’ Association) provided an update on behalf of the beekeeping association. Currently, the PEIBA has 114 members which consists of beekeepers, supporters of the industry and students. The province is excited to be hosting the Atlantic Bee Tour this summer, which will take place on July 31^st and August 1^st.

Rémi Padé (Véto-pharma) discussed Apivar 2.0®, Amiflex® and Bactobee®. Only Apivar 2.0® and Amiflex® are registered in Canada both of which have the active ingredient amitraz. Apivar 2.0® has a few important differences from the original Apivar® product. Apivar 2.0® is a larger strip than Apivar®, with a lower concentration of amitraz, which results in an equal delivery of amitraz as the original formulation. The design of the plastic strips has improved tabs for hanging strips between frames, which helps increase contact of the product with bees and mites. Additionally, Apivar 2.0® does not have a withdrawal period prior to placing honey supers. Amiflex®, also containing the active ingredient amitraz (1.99%), is administered to colonies as a gel. Amiflex® works as a flash treatment, which can quickly knock down mite populations, but needs to be complimented with long-term release products as part of an integrated pest management approach.

To conclude the first day of presentations, JoAnn Pineau (Executive Director of the PEI Wild Blueberry Growers’ Association) gave an update on the association’s activities. JoAnn highlighted recent events of the association such as the Maritime Wild Blueberry Conference, upcoming events such as the PEIWBGA field day (details to be determined), and research priorities of the association.

To start the second day of the workshop, Dr. Andrew Byers (ATTTA Program Lead) discussed the ATTTA program, and highlighted some of ATTTA’s research and extension work. There are several upcoming training events that will be of interest to beekeepers including: New Brunswick Beekeepers’ Association Workshop (Memramcook – May 23), Queen Production Workshop (Bible Hill – June 17), and a summer technical session (Parrsboro – June 29).

Kayla Gaudet (ATTTA) gave a presentation on ATTTA’s Regional Varroa Mite, and amitraz efficacy testing for the region. This upcoming season will be the third and final year of data collection for this project. Additionally, Kayla discussed Varroa mite monitoring and the accuracy of both alcohol washes and sticky boards. The take home message is that monitoring (washes, sticky boards, or a combination of the two techniques) is essential for a successful Varroa mite management program.

Andrew Byers then discussed Tropilaelaps mites including the biology of the mite and the threat the mite presents to the Canadian beekeeping industry. Overall, there is still a lot of unknowns around the risk and management of Tropilaelaps mites to the beekeeping industry. ATTTA will be publishing a blog and factsheet on Tropilaelaps mites in the near future to share current knowledge of the biology of the mite and current research regarding monitoring and management of this pest which is happening globally.

Kayla Gaudet presented on wax moth management. Wax moth is primarily an issue with stored beekeeping equipment but can also be a problem with weaker colonies. The moths prefer infesting stored combs that are not actively populated by bees. Cultural practices are one of the most useful tools for beekeepers to prevent wax moth infestations. This includes proper storage of used hive equipment and hive products. All hive equipment should be stored in a closed building or storage container and should not be left outside.

Andrew Byers provided an update on growing degree days research, tools and applications for wild blueberry pollination. Across Nova Scotia and New Brunswick there is a network of weather stations which provide real-time data on weather conditions, and provide the required data for predicting the growing degree days of wild blueberries for a localized area. The PEI wild blueberry industry is aiming towards having networked weather stations installed on the island in the future, which provide a great benefit for determining wild blueberry plant development and planning for pollination.

To conclude the workshop, Kayla Gaudet discussed queen production and queen banking. Kayla discussed past research regarding indoor and outdoor queen banking in Canada, and within the Maritimes. The ATTTA team has been working towards doing an outdoor queen banking trial, with plans in place to set-up a trial this coming fall.

Thank you to all beekeepers and speakers who participated in last week’s workshop. The event was an excellent opportunity to learn and engage with beekeepers. The ATTTA team wishes all PEI beekeepers an enjoyable and successful 2026 beekeeping season.

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