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Extreme heat exposure of host plants indirectly reduces solitary bee fecundity and survival

Jenna Walters, M. Barlass, Robin Fisher, Rufus Isaacs

2024Proceedings of the Royal Society B Biological Sciences15 citationsDOIOpen Access PDF

Abstract

Extreme heat poses a major threat to plants and pollinators, yet the indirect consequences of heat stress are not well understood, particularly for native solitary bees. To determine how brief exposure of extreme heat to flowering plants affects bee behaviour, fecundity, development and survival we conducted a no-choice field cage experiment in which Osmia lignaria were provided blueberry ( Vaccinium corymbosum ), phacelia ( Phacelia tanacetifolia ) and white clover ( Trifolium repens ) that had been previously exposed to either extreme heat (37.5°C) or normal temperatures (25°C) for 4 h during early bloom. Despite a similar number of open flowers and floral visitation frequency between the two treatments, female bees provided with heat-stressed plants laid approximately 70% fewer eggs than females provided with non-stressed plants. Their progeny received similar quantities of pollen provisions between the two treatments, yet larvae consuming pollen from heat-stressed plants had significantly lower survival as larvae and adults. We also observed trends for delayed emergence and reduced adult longevity when larvae consumed heat-stressed pollen. This study is the first to document how short, field-realistic bursts of extreme heat exposure to flowering host plants can indirectly affect bee pollinators and their offspring, with important implications for crop pollination and native bee populations.

Topics & Concepts

BiologyFecundityPollinatorPollenPollinationReproductive successBotanyHoney beeLarvaHost (biology)HorticultureEcologyPopulationSociologyDemographyPlant and animal studiesInsect and Pesticide ResearchInsect and Arachnid Ecology and Behavior
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