The costs of keeping cool: behavioural trade-offs between foraging and thermoregulation are associated with significant mass losses in an arid-zone bird

Avian responses to high environmental temperatures include retreating to cooler microsites and/or increasing rates of evaporative heat dissipation via panting, both of which may affect foraging success. We hypothesized that behavioural trade-offs constrain the maintenance of avian body condition in...

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Bibliographic Details
Published in:Oecologia 2019-09, Vol.191 (1), p.205-215
Main Authors: van de Ven, T. M. F. N., McKechnie, A. E., Cunningham, S. J.
Format: Article
Language:English
Subjects:
Air temperature
Animal breeding
Anthropogenic factors
Aridity
Biomedical and Life Sciences
Birds
Body condition
Body mass
Breeding
Climate change
Climatic changes
Desert environments
Deserts
Ecology
Foraging
Foraging behavior
GLOBAL CHANGE ECOLOGY – ORIGINAL RESEARCH
Hot weather
Hydrology/Water Resources
Life Sciences
Males
Nest provisioning
Nests
Occupancy
Plant Sciences
Prey
Probability theory
Provisioning
Success
Sunrise
Sunset
Temperature
Temperature dependence
Temperature effects
Thermoregulation
Thermoregulatory behavior
Tradeoffs
Weather
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Summary:Avian responses to high environmental temperatures include retreating to cooler microsites and/or increasing rates of evaporative heat dissipation via panting, both of which may affect foraging success. We hypothesized that behavioural trade-offs constrain the maintenance of avian body condition in hot environments, and tested predictions arising from this hypothesis for male Southern Yellow-billed Hornbills (Tockus leucomelas) breeding in the Kalahari Desert. Operative temperatures experienced by the hornbills varied by up to 13 °C among four microsite categories used by foraging males. Lower prey capture rates while panting and reductions associated with the occupancy of off-ground microsites, resulted in sharp declines in foraging efficiency during hot weather. Consequently, male body mass (M b) gain between sunrise and sunset decreased with increasing daily maximum air temperature (T max), from ~ 5% when T max < 25 °C to zero when T max = 38.4 °C. Overnight M b loss averaged ~ 4.5% irrespective of T max, creating a situation where nett 24-h M b loss approached 5% on extremely hot days. These findings support the notion that temperature is a major determinant of body condition for arid-zone birds. Moreover, the strong temperature dependence of foraging success and body condition among male hornbills provisioning nests raises the possibility that male behavioural trade-offs translate into equally strong effects of hot weather on female condition and nest success. Our results also reveal how rapid anthropogenic climate change is likely to substantially decrease the probability of arid-zone birds like hornbills being able to successfully provision nests while maintaining their own condition.
ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-019-04486-x