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Literature DB >> 28637837

Physiological thermal limits predict differential responses of bees to urban heat-island effects.

April L Hamblin¹, Elsa Youngsteadt¹, Margarita M López-Uribe², Steven D Frank³.

Abstract

Changes in community composition are an important, but hard to predict, effect of climate change. Here, we use a wild-bee study system to test the ability of critical thermal maxima (CTmax, a measure of heat tolerance) to predict community responses to urban heat-island effects in Raleigh, NC, USA. Among 15 focal species, CTmax ranged from 44.6 to 51.3°C, and was strongly predictive of population responses to urban warming across 18 study sites (r2 = 0.44). Species with low CTmax declined the most. After phylogenetic correction, solitary species and cavity-nesting species (bumblebees) had the lowest CTmax, suggesting that these groups may be most sensitive to climate change. Community responses to urban and global warming will likely retain strong physiological signal, even after decades of warming during which time lags and interspecific interactions could modulate direct effects of temperature.

Entities: Species

Keywords: bee; climate change; critical thermal maximum; heat tolerance; pollinator; urban warming

Mesh：

Year: 2017 PMID： 28637837 PMCID： PMC5493736 DOI： 10.1098/rsbl.2017.0125

Source DB: PubMed Journal: Biol Lett ISSN： 1744-9561 Impact factor: 3.703

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3. Physiological thermal limits predict differential responses of bees to urban heat-island effects.

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