2020
DOI: 10.1007/s00360-020-01322-0
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Phenotypic flexibility in heat production and heat loss in response to thermal and hydric acclimation in the zebra finch, a small arid-zone passerine

Abstract: To maintain constant body temperature (Tb) over a wide range of ambient temperatures (Ta) endothermic animals require large amounts of energy and water. In hot environments, the main threat to endothermic homeotherms is insufficient water to supply that necessary for thermoregulation. We investigated flexible adjustment of traits related to thermoregulation and water conservation during acclimation to hot conditions or restricted water availability, or both, in the zebra finch, Taeniopygia guttata a small arid… Show more

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Cited by 26 publications
(38 citation statements)
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“…), which occasionally matched the onset of panting. This behavior was also observed in Zebra finch (Taeniopygia guttata) individuals inside metabolic chambers when exposed to 40°C, favoring an increase in cutaneous evaporative heat loss (CEWL;Wojciechowski et al, 2021). However, during the metabolic trials, neither T b nor behaviors were registered, impeding formal analyses to evaluate their possible effects on Great tit thermoregulation.…”
mentioning
confidence: 92%
“…), which occasionally matched the onset of panting. This behavior was also observed in Zebra finch (Taeniopygia guttata) individuals inside metabolic chambers when exposed to 40°C, favoring an increase in cutaneous evaporative heat loss (CEWL;Wojciechowski et al, 2021). However, during the metabolic trials, neither T b nor behaviors were registered, impeding formal analyses to evaluate their possible effects on Great tit thermoregulation.…”
mentioning
confidence: 92%
“…This could be an explanation for the observation in our study. In addition, different adaptations to optimize heat loss in arid conditions, such as the ability to tolerate high body temperatures during facultative hyperthermia (Tieleman and Williams, 1999;Smit et al, 2013Smit et al, , 2016Nilsson et al, 2016), the dependence on wing-drooping as alternative heat dissipation behavior (Smit et al, 2016;Wojciechowski et al, 2021) or the reduction of metabolic rate (Williams and Tieleman, 2005;Wojciechowski et al, 2021) may also influence the temperature of panting onset. These factors clearly indicate new avenues for further research investigating the response of different species to dehydrating conditions.…”
Section: Discussionmentioning
confidence: 99%
“…The proportion of CWL and RWL to total evaporative water loss (TEWL) varies among species, but it is generally around 50% at moderate T a 's (Wolf and Walsberg, 1996;Tieleman and Williams, 2002;Ro and Williams, 2010). When T a approaches or exceeds T b , birds increase both cutaneous and respiratory water loss, but the latter to a greater extent (Wolf and Walsberg, 1996;Tieleman and Williams, 2002;Wojciechowski et al, 2021). With the exception of Columbiforms (McKechnie and Wolf, 2004), respiratory water loss is the main avenue of water loss when a bird is exposed to heat stress (Wolf and Walsberg, 1996;Tieleman and Williams, 2002;Wojciechowski et al, 2021).…”
Section: Introductionmentioning
confidence: 99%
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