�첥��Ƶ researchers examined the early and late life stages of small developing carpenter bees in the presence and absence of maternal care and were surprised by the results.

TORONTO, Sept. 14, 2023 – Most wild bees are solitary, but one tiny species of carpenter bees fastidiously cares for and raises their offspring, an act that translates into huge benefits to the developing bee’s microbiome, development and health, found �첥��Ƶ researchers.

Not unlike the positive effect human mothers can have on their offspring, the maternal care of these carpenter bees (Ceratina calcarata) staves off an overabundance of harmful fungi, bacteria, viruses and parasites in the earliest stage of development.

Without maternal care the pathogen load of these developing bees ballooned – 85 per cent of were fungi, while eight per cent were bacteria – which can impact their microbiome, a critical component of bee health, as well as their development, immune system and gene expression. This can lead, for example, to changes in brain and eye development, and even behaviour. The biggest single fungus found was Aspergillus, known to induce stonebrood disease in honey bees, which mummifies the offspring. In later stages, the lack of care can lead to a reduced microbiome, increasing susceptibility to diseases and poor overall health.

The researchers looked at four overall developmental stages in the life of these carpenter bees starting with the larvae stage both in the presence and absence of maternal care.

“There are fitness affects resulting from these fungal infections. We are documenting the shifts in development, the shifts in disease loads, and it is a big deal because in wild bees there is a lot less known about their disease loads. We are highlighting all of these factors for the first time,” says senior author Sandra Rehan, a professor in York’s Faculty of Science.

The developmental changes sparked by which genes were expressed or supressed, upregulated or downregulated, along with disease loads, depending on the presence or lack of maternal care, created knock-on effects on the microbiome and bee health. These single mothers build one nest a year in the pith of dead plant stems where they give birth and tend to their offspring from spring to as late as fall. Anything that prevents the mother from caring for her young, increases risks of nest predation and parasitism, including excessive pruning of spring and fall stems, and can have huge consequences on their young.

The paper, , was published today in the journal Communications Biology. Lead author Katherine Chau of �첥��Ƶ is a Mitacs Elevate and Weston Family Foundation Microbiome Initiative postdoctoral fellow.

“We found really striking shifts in the earliest stages, which was surprising as we did not expect that stage to be the most significantly changed,” says Chau. “Looking at gene expression of these bees you can see how the slightest dysregulation early in development cascades through their whole formation. It is all interconnected and shows how vital maternal care is in early childhood development.”

This study provides metatranscriptomic insights on the impact of maternal care on developing offspring and a foundational framework for tracking the development of the microbiome. “It is a complex paper that provides layers of data and shows the power of genomics as a tool,” says Rehan. “It allows us to document the interactions between host and environment. I think that is the power of this approach and the new technologies and techniques that we are developing.”

She also hopes it will give people more insight into the hidden life of bees and their vast differences, but also similarities. “Often people see bees as a monolith, but when you understand the complexity of bees and that there are wild bees and managed bees, people are more likely to care about bee diversity,” says Rehan.

Additional authors on the paper are Mariam Shamekh, a former honors thesis student and a Natural Sciences and Engineering Research Council of Canada (NSERC) Undergrad Student Research Award recipient and Jesse Huisken, a PhD candidate and a NSERC Postgraduate scholarship recipient.

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TORONTO, June 17, 2022 – The local environment plays a pivotal role in the health and diversity of the gut microbiome of wild bees which could help detect invisible stressors and early indicators of potential threats, say �첥��Ƶ scientists in a new study.

Piloting a new frontier of metagenomics, the researchers sequenced whole genomes of three species of carpenter bees, a type of wild bee, in North America, Asia and Australia. This analysis allowed them to gain insights into the bee’s gut microbiome (bacteria and fungi), diet and viral load, as well as their environmental DNA.

Unlike social bees (like honeybees and bumblebees), the researchers found solitary bees get their microbiome, which is important for health, from their environment where they forge for food, rather than inheriting it from their nest mates. Carpenter bees burrow into woody plant stalks to lay eggs rather than in hives.

“This may make them better bio-indicators as they are much more sensitive to their environment,” says Faculty of Science Associate Professor , corresponding author of the research, , published today in the journal Communications Biology.

In Australia, the local populations had highly distinctive metagenomes and microbiomes; so much so that machine learning tools were able to reliably predict from which population each bee was drawn.

The research team also discovered crop pathogens in the microbiomes of carpenter bees which were previously only found in honeybees.

“These pathogens are not necessarily harmful to bees, but these wild bees could potentially be vectoring diseases that might have negative effects on agriculture,” says Rehan. Finding out how these pathogens are spreading in wild bees is important as bees contribute to ecological and agricultural health worldwide in addition to more than $200 billion in annual agricultural services.

Establishing a baseline of what a healthy microbiome looks like in wild bees allows scientists to compare species across continents and populations, and to figure out how diseases and harmful microbiota are being introduced and transmitted.

“We can really dissect bee health in a very systematic way looking at population genetics and parasite pathogen loads, healthy microbiomes and deviations,” says Rehan, whose Postdoctoral Research Associate, Wyatt Shell, led the study. “The long-term goal is really to be able to use these tools to be able to also detect early signatures of stress and habitats in need of restoration or conservation. To develop it almost like a diagnostic tool for bee health.”

Researchers believe they have captured the core microbiome of carpenter bees for the first time. They found beneficial bacteria in all three carpenter bee species which helped with metabolic and genetic functions. They also detected species of Lactobacillus, which is an essential beneficial bacteria group, imperative for good gut health and found across most bee lineages. Lactobacillus may protect against prevalent fungal pathogens, boost the immune system, and facilitate nutrient uptake.

However, a recently published paper in the journal Environmental DNA by Rehan and her graduate student Phuong Nguyen, , which studied the microbiome in brood and adult carpenter bees in cities, found they were lacking Lactobacillus.

“This raises red flags,” says Rehan. “We are continuing those studies to look at more nuanced urban, rural comparisons and long-term data to really understand these environmental stressors. Anytime we characterize a microbiome and see deviations from what we know to be normal, it can give us an indication of a population or species in threat.”

Overall, the results show metagenomic methods could provide important insights into wild bee ecology and health going forward.

“We've been piloting this research approach in a few species, but we're aiming to study dozens of wild bee species and broader comparisons are coming. These two studies are really establishing the foundation," she says. “The long-term goal is really to be able to use these tools to detect early signatures of stress in wild bees and thereby identify habitats in need of restoration or preservation. We are excited to be building the tools for a new era of wild bee research and conservation.”

The work was funded by NSERC Discovery Grants, Weston Family Foundation Microbiome Initiative funds, and the NSERC E.W.R. Steacie Memorial Fellowship to Rehan.

PHOTOS: Small carpenter bee - /news/wp-content/uploads/sites/242/2022/06/860-header-Small-carpenter-bee.jpg

Male carpenter bee (certina calcarata) - /news/wp-content/uploads/sites/242/2022/06/Male-ceratina-calcarata-side-copy-scaled.jpg

Carpenter bee (ceratina australensis) nest - /news/wp-content/uploads/sites/242/2022/06/Ceratina_australensis_nest.jpg

Carpenter bee (ceratina japonica) - /news/wp-content/uploads/sites/242/2022/06/Ceratina-japonica.jpg

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