Journal
GLOBAL CHANGE BIOLOGY
Volume 27, Issue 2, Pages 297-311Publisher
WILEY
DOI: 10.1111/gcb.15400
Keywords
aquatic insects; climate change vulnerability; elevation; latitude; metabolic rate; thermal performance curve; thermal tolerance
Funding
- U.S. National Science Foundation [DEB-1046408, DEB1045960, DEB-1045991]
- Graduate Research Fellowship [DGE-1321845]
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A fundamental gap in climate change vulnerability research is the lack of understanding of the relative thermal sensitivity of ectotherms, particularly aquatic insects. This study found that tropical mayflies exhibit greater thermal sensitivity in metabolism compared to temperate mayflies, while temperate and tropical stoneflies did not show clear differences, possibly due to differences in evolutionary history or ecological roles. Thus, caution should be exercised when making broad generalizations about the vulnerability of tropical ectotherms.
A fundamental gap in climate change vulnerability research is an understanding of the relative thermal sensitivity of ectotherms. Aquatic insects are vital to stream ecosystem function and biodiversity but insufficiently studied with respect to their thermal physiology. With global temperatures rising at an unprecedented rate, it is imperative that we know how aquatic insects respond to increasing temperature and whether these responses vary among taxa, latitudes, and elevations. We evaluated the thermal sensitivity of standard metabolic rate in stream-dwelling baetid mayflies and perlid stoneflies across a similar to 2,000 m elevation gradient in the temperate Rocky Mountains in Colorado, USA, and the tropical Andes in Napo, Ecuador. We used temperature-controlled water baths and microrespirometry to estimate changes in oxygen consumption. Tropical mayflies generally exhibited greater thermal sensitivity in metabolism compared to temperate mayflies; tropical mayfly metabolic rates increased more rapidly with temperature and the insects more frequently exhibited behavioral signs of thermal stress. By contrast, temperate and tropical stoneflies did not clearly differ. Varied responses to temperature among baetid mayflies and perlid stoneflies may reflect differences in evolutionary history or ecological roles as herbivores and predators, respectively. Our results show that there is physiological variation across elevations and species and that low-elevation tropical mayflies may be especially imperiled by climate warming. Given such variation among species, broad generalizations about the vulnerability of tropical ectotherms should be made more cautiously.
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