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Low heat tolerance and high desiccation resistance in nocturnal bees and the implications for nocturnal pollination under climate change

Víctor H. González, Rachel E. V. Manweiler, Adam R. Smith, Kennan Oyen, David Cardona, William T. Wcislo

2023Scientific Reports20 citationsDOIOpen Access PDF

Abstract

Abstract Predicting insect responses to climate change is essential for preserving ecosystem services and biodiversity. Due to high daytime temperatures and low humidity levels, nocturnal insects are expected to have lower heat and desiccation tolerance compared to diurnal species. We estimated the lower (CT Min ) and upper (CT Max ) thermal limits of Megalopta , a group of neotropical, forest-dwelling bees. We calculated warming tolerance (WT) as a metric to assess vulnerability to global warming and measured survival rates during simulated heatwaves and desiccation stress events. We also assessed the impact of body size and reproductive status (ovary area) on bees’ thermal limits. Megalopta displayed lower CT Min , CT Max , and WTs than diurnal bees (stingless bees, orchid bees, and carpenter bees), but exhibited similar mortality during simulated heatwave and higher desiccation tolerance. CT Min increased with increasing body size across all bees but decreased with increasing body size and ovary area in Megalopta , suggesting a reproductive cost or differences in thermal environments. CT Max did not increase with increasing body size or ovary area. These results indicate a greater sensitivity of Megalopta to temperature than humidity and reinforce the idea that nocturnal insects are thermally constrained, which might threaten pollination services in nocturnal contexts during global warming.

Topics & Concepts

NocturnalBiologyDesiccationEcologyCritical thermal maximumPollinationDesiccation toleranceClimate changeAcclimatizationPollenPlant and animal studiesInsect and Arachnid Ecology and BehaviorInsect and Pesticide Research
Low heat tolerance and high desiccation resistance in nocturnal bees and the implications for nocturnal pollination under climate change | Litcius