2014
DOI: 10.1086/675342
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Partitioning of Evaporative Water Loss into Respiratory and Cutaneous Pathways in Wahlberg's Epauletted Fruit Bats (Epomophorus wahlbergi)

Abstract: The relative contributions of respiratory and cutaneous evaporation to total evaporative water loss (TEWL) and how the partitioning of these two avenues varies with environmental temperature has received little attention in bats. We trained Wahlberg's epauletted fruit bats (Epomophorus wahlbergi) captured in Pretoria, South Africa, to wear latex masks while hanging in respirometry chambers, and we measured respiratory evaporative water loss (REWL) and cutaneous evaporative water loss (CEWL) over air temperatur… Show more

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Cited by 22 publications
(16 citation statements)
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“…We can also not exclude the possibility the T b s we recorded are indicative of a stress‐response (e.g., Muise, Menzies, & Willis, 2018). However, given the extended pre‐exposure acclamatory period, which is similar or longer than that of previous work (Cory Toussaint & McKechnie, 2012; Minnaar, Bennett, Chimimba, & McKechnie, 2014), and the standard deviation of post‐exposure T b was generally <3°C, we argue that if there is an effect of stress it is likely consistent among individuals. We recommend that future studies prolong cold exposure times and track changes in T b as bats enter torpor.…”
Section: Discussionsupporting
confidence: 68%
“…We can also not exclude the possibility the T b s we recorded are indicative of a stress‐response (e.g., Muise, Menzies, & Willis, 2018). However, given the extended pre‐exposure acclamatory period, which is similar or longer than that of previous work (Cory Toussaint & McKechnie, 2012; Minnaar, Bennett, Chimimba, & McKechnie, 2014), and the standard deviation of post‐exposure T b was generally <3°C, we argue that if there is an effect of stress it is likely consistent among individuals. We recommend that future studies prolong cold exposure times and track changes in T b as bats enter torpor.…”
Section: Discussionsupporting
confidence: 68%
“…There are two possible explanations for this result. First, it may indicate that torpid bats do not use cutaneous pathways of gas exchange; however, this would be contrary to previous studies indicating that they do (Herreid and Schmidt-Nielsen, 1966;Makanya and Mortola, 2007;Minnaar et al, 2014;Muñoz-Garcia et al, 2012), including one study on big brown bats (Herreid et al, 1968). Perhaps big brown bats are unique in the relative contribution of passive gas exchange to whole body respiration.…”
Section: Resultsmentioning
confidence: 69%
“…By limiting the pathway for passive gas exchange, Pd may cause an increase in pulmonary gas exchange (either active or passive; sensu Szewczak and Jackson, 1992) and elevate water loss to the environment. During hibernation, when O 2 requirements (and CO 2 production) are low, healthy bats may exchange gases passively through their thin, highly vascularized wing membranes (Herreid et al, 1968;Herreid and SchmidtNielsen, 1966;Minnaar et al, 2014); however, the proportion of O 2 obtained this way is debated. Cutaneous respiration should be advantageous over pulmonary respiration for conserving energy during winter hibernation, when resources are scarce.…”
Section: Introductionmentioning
confidence: 99%
“…Bats also have relatively high field metabolic rates associated with flying, which increase their RWL [16] and they have vascularized membranous wings that increase surface area significantly, thus potentially increasing CEWL [15]. In support of this idea, CEWL was found to contribute over 50% of the TEWL in Kuhl's pipistrelle, Pipistrellus kuhlii, and Wahlberg's epauletted fruit bat, Epomophorus wahlbergi at moderate ambient temperatures (T a ), reaching 80% at T a s below 208C, when bats were torpid [17,18]. If CEWL is indeed the main avenue of water loss in bats in general, it is reasonable to assume that desert bats are subject to selection pressures to modify the resistance of the skin to diffusion of water vapour.…”
Section: Introductionmentioning
confidence: 98%