# Secondary Compounds in Milkweed Nectar Negatively Impact Thermal Tolerance in Bumble Bees

**Authors:** Rachael Shippee, Cody Feuerborn, Allie Bradley, Hannah Jahnke, Heather M. Hines

PMC · DOI: 10.1002/ece3.72420 · Ecology and Evolution · 2025-11-09

## TL;DR

Bumble bees consuming milkweed nectar with cardenolides show reduced heat tolerance, suggesting dietary toxins may impact their resilience to climate stress.

## Contribution

This study reveals that field-realistic doses of cardenolides in nectar negatively affect bumble bee thermal tolerance, independent of overt behavioral impairments.

## Key findings

- Ouabain at field-realistic concentrations reduced bumble bees' ability to thermoregulate during heat stress.
- Milkweed nectar and milkweed honey had significant effects on heat tolerance, unlike most other honeys.
- Both milkweed-avoiding and milkweed-visiting bumble bee species showed reduced heat tolerance after ouabain exposure.

## Abstract

Bumble bees play a critical role in ecosystem health and pollination, but recently, populations have been in decline worldwide. One way to improve outcomes is to increase floral resource availability, which improves nutrition while alleviating the effects of other stressors, such as climate. In addition to macronutrients, floral nectar can contain both beneficial as well as toxic secondary compounds, including cardenolides and alkaloids, that may impact these bees. Given that pesticides can affect heat shock pathways and thus impact heat tolerance, natural toxic compounds in nectar could also impact heat response. In this study, we investigate how the consumption of toxic secondary compounds found in nectar impacts a bee's ability to thermoregulate during heat stress events. We studied thermal tolerance in bumble bees fed a variety of concentrations of ouabain, a commercially available cardenolide (a class of compounds common in milkweeds (Asclepias spp.)) as well as a variety of honeys and milkweed nectar. We found that increasing concentrations of ouabain resulted in a diminished ability to thermoregulate during heat stress events. Ouabain had a significant impact on thermal tolerance at concentrations both at and below both field‐realistic doses and levels that impair bee behavior, with effects matched by milkweed nectar. This effect was found both in a species that tends to avoid milkweeds (
B. impatiens
) and a species that commonly visits milkweeds (
B. griseocollis
). Nevertheless, with the exception of milkweed honey, multiple honey sources showed no marked effect on heat tolerance in these bees, suggesting most floral diets may not impact thermal response. These results reveal that plant defense toxins consumed in the diet may have sublethal impacts on stress responses in these bees.

This study shows that exposure to cardenolide toxins in floral nectar impacts heat tolerance in bumble bees at field‐realistic doses. Various honeys, aside from milkweed honey, did not impact heat tolerance in these bees. These data suggest that compounds in their diet may impact resilience of bees to global warming and that milkweed‐specialists may be less heat tolerant.

## Linked entities

- **Chemicals:** ouabain (PubChem CID 439501)

## Full-text entities

- **Chemicals:** cardenolide (MESH:D002298), alkaloids (MESH:D000470), Ouabain (MESH:D010042)
- **Species:** Bombus impatiens (common eastern bumble bee, species) [taxon 132113], Bombus griseocollis (species) [taxon 207634], Asclepias (genus) [taxon 21199], Bombus (bumble bees, genus) [taxon 28641], Apis mellifera (bee, species) [taxon 7460]

## Full text

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## Figures

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## References

54 references — full list in the complete paper: https://tomesphere.com/paper/PMC12597253/full.md

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Source: https://tomesphere.com/paper/PMC12597253