Journal article
The role of nest surface temperatures and the brain in influencing ant metabolic rates
Journal of thermal biology, Vol.60, pp.132-139
08/2016
PMID: 27503725
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Source: InCites
Abstract
Thermal limits of insects can be influenced by recent thermal history: here we used thermolimit respirometry to determine metabolic rate responses and thermal limits of the dominant meat ant, Iridomyrmex purpureus. Firstly, we tested the hypothesis that nest surface temperatures have a pervasive influence on thermal limits. Metabolic rates and activity of freshly field collected individuals were measured continuously while ramping temperatures from 44°C to 62°C at 0.25°C/minute. At all the stages of thermolimit respirometry, metabolic rates were independent of nest surface temperatures, and CTmax did not differ between ants collected from nest with different surface temperatures. Secondly, we tested the effect of brain control on upper thermal limits of meat ants via ant decapitation experiments ('headedness'). Decapitated ants exhibited similar upper critical temperature (CTmax) results to living ants (Decapitated 50.3±1.2°C: Living 50.1±1.8°C). Throughout the temperature ramping process, 'headedness' had a significant effect on metabolic rate in total (Decapitated V̇CO2 140±30µlCO2mg(-1)min(-1): Living V̇CO2 250±50 CO2mg(-1)min(-1)), as well as at temperatures below and above CTmax. At high temperatures (>44°C) pre- CTmax the relationships between I. purpureus CTmax values and mass specific metabolic rates for living ants exhibited a negative slope whilst decapitated ants exhibited a positive slope. The decapitated ants also had a significantly higher Q10:25-35°C when compared to living ants (1.91±0.43 vs. 1.29±0.35). Our findings suggest that physiological responses of ants may be able to cope with increasing surface temperatures, as shown by metabolic rates across the thermolimit continuum, making them physiologically resilient to a rapidly changing climate. We also demonstrate that the brain plays a role in respiration, but critical thermal limits are independent of respiration levels.
Details
- Title
- The role of nest surface temperatures and the brain in influencing ant metabolic rates
- Creators
- Nigel R Andrew - University of New EnglandBehnaz Ghaedi - University of New EnglandBerlizé Groenewald - Stellenbosch University
- Publication Details
- Journal of thermal biology, Vol.60, pp.132-139
- Publisher
- Elsevier
- Identifiers
- 991013087510002368
- Copyright
- (c) 2016 Elsevier Ltd. All rights reserved.
- Academic Unit
- Faculty of Science and Engineering
- Language
- English
- Resource Type
- Journal article