Journal
BIOLOGY LETTERS
Volume 11, Issue 10, Pages -Publisher
ROYAL SOC
DOI: 10.1098/rsbl.2015.0689
Keywords
developmental plasticity; thermal tolerance; behavioural thermoregulation; evaporative cooling
Categories
Funding
- Natural Sciences and Engineering Council of Canada
- NSERC
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Amphibious fishes often emerse (leave water) when faced with unfavourable water conditions. How amphibious fishes cope with the risks of rising water temperatures may depend, in part, on the plasticity of behavioural mechanisms such as emersion thresholds. We hypothesized that the emersion threshold is reversibly plastic and thus dependent on recent acclimation history rather than on conditions during early development. Kryptolebias marmoratus were reared for 1 year at 25 or 30 degrees C and acclimated as adults (one week) to either 25 or 30 degrees C before exposure to an acute increase in water temperature. The emersion threshold temperature and acute thermal tolerance were significantly increased in adult fish acclimated to 30 degrees C, but rearing temperature had no significant effect. Using a thermal imaging camera, we also showed that emersed fish in a low humidity aerial environment (30 degrees C) lost significantly more heat (3.3 degrees C min(-1)) than those in a high humidity environment (1.6 degrees C min(-1)). In the field, mean relative humidity was 84%. These results provide evidence of behavioural avoidance of high temperatures and the first quantification of evaporative cooling in an amphibious fish. Furthermore, the avoidance response was reversibly plastic, flexibility that may be important for tropical amphibious fishes under increasing pressures from climatic change.
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