Low metabolism in a tropical bat from lowland Panama measured using heart rate telemetry: an unexpected life in the slow lane

Dechmann, Dina K. N.; Ehret, Severin; Gaub, Aline; Kranstauber, Bart; Wikelski, Martin

doi:10.1242/jeb.056010

Cited by 34 publications

(53 citation statements)

References 59 publications

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“…Here, we show that regardless of torpor bout length there is a strong correlation between f H and V · O 2 across a complete torpor bout and at rest, consistent with the potential for the f H method to reliably measure field energy expenditure. Although it has been suggested in the past that the f H method becomes prohibitively expensive when applied to animals smaller than 1 kg (Butler et al, 2004), miniaturised heart rate transmitters are becoming more readily available and can be used on animals as small as 10 g (Dechmann et al, 2011). Our study highlights the need for validation of this method for small heterothermic animals as torpor plays an important role in energy budgets for these animals and extrapolations from resting values are grossly inaccurate.…”

Section: Research Articlementioning

confidence: 91%

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Heart rate as a predictor of metabolic rate in heterothermic bats

Currie

Körtner

Geiser

2014

Journal of Experimental Biology

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While heart rate (f H ) has been used as an indicator of energy expenditure, quantitative data showing the relationship between these variables are only available for normothermic animals. To determine whether f H also predicts oxygen consumption (V · O2 ) during torpor, we simultaneously measured V · O2 , f H and subcutaneous body temperature (T sub ) of a hibernator, Gould's long-eared bats (Nyctophilus gouldi, 9 g, N=18), at ambient temperatures (T a ) between 0 and 25°C. At rest, f H of normothermic resting bats was negatively correlated with T a , with maximum f H of 803 beats min −1 (T a =5°C). During torpor, the relationship between f H and T a was curvilinear, and at low T sub (~6°C), f H fell to a minimum average of 8 beats min

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Section: Research Articlementioning

confidence: 91%

“…Unfortunately, current data are mainly limited to large homeothermic mammals and birds. However, in recent years technological advancements have led to the development of small, lightweight devices for f H telemetry, making measurements of f H in small animals feasible (Dechmann et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Heart rate as a predictor of metabolic rate in heterothermic bats

Currie

Körtner

Geiser

2014

Journal of Experimental Biology

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“…In other words, because bats are inactive during the warmer daytime, their requirements for non-activityassociated thermogenesis are likely to be more modest than those for nocturnally inactive taxa [although the very short daily foraging periods of some bats (e.g. Dechmann et al, 2011) raise the possibility that this might not always be the case]. Conversely, resting heat production capacity in rodents is correlated with torpor use, with ME negatively correlated with both minimum air temperature and torpid T b (Careau, 2013).…”

Section: Introductionmentioning

confidence: 99%

Summit metabolism and metabolic expansibility in Wahlberg's epauletted fruit bats (Epomophorus wahlbergi): seasonal acclimatisation and effects of captivity

Minnaar

Bennett

Chimimba

et al. 2013

Journal of Experimental Biology

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Summit metabolism (M sum ), the maximum rate of resting metabolic thermogenesis, has been found to be broadly correlated with climatic variables and the use of heterothermy in some endotherms. Far less is known about M sum and metabolic expansibility [ME, the ratio of M sum to basal metabolic rate (BMR)] in bats compared with many other endotherm taxa. We measured BMR and M sum during winter and summer in captive and wild populations of a pteropodid from the southern subtropics, Wahlberg's epauletted fruit bat (Epomophorus wahlbergi) in Pretoria, South Africa. The M sum of fruit bats ranged from 5.178±0.611 W (captive, summer) to 6.006±0.890 W (captive, winter), and did not vary significantly between seasons. In contrast, BMR decreased by 17-25% in winter. The combination of seasonally stable M sum but flexible BMR resulted in ME being significantly higher in winter than in summer, ranging from 7.24±1.49 (wild, summer) to 13.11±2.14 (captive, winter). The latter value is well above the typical mammalian range. Moreover, both M sum and ME were significantly higher in captive bats than in wild individuals; we speculate this represents a phenotypic response to a reduction in exerciseassociated heat production while in captivity. Our data for E. wahlbergi, combined with those currently available for other chiropterans, reveal that M sum in bats is highly variable compared with allometrically expected values for other mammals.KEY WORDS: Acclimatisation, Cold exposure, Helox, Phenotypic flexibility, Thermogenic capacity INTRODUCTIONThe lowest environmental temperature to which an endotherm can defend normothermic body temperature (T b ) is determined primarily by its maximum capacity for metabolic thermogenesis (Scholander et al., 1950). Summit metabolism (M sum ) is the maximum rate of resting metabolic thermogenesis in the absence of exercise-associated heat production (Swanson et al., 1996) [also referred to as cold-induced peak metabolic rate (Wiersma et al., 2007)]. Among mammals, metabolic expansibility [ME, the ratio of M sum to basal metabolic rate (BMR); also referred to as factorial aerobic scope] is typically 4-8, but may be as high as 10-13 (Careau, 2013;Hinds et al., 1993). Most avian ME values are similar to those typical of mammals, with maximum reported values of 9.0-9. production capacity is correlated with climate, with M sum generally being higher in species inhabiting colder regions (Rezende et al., 2004;Swanson and Garland, 2009).One endotherm order about which remarkably little is known in terms of resting heat production capacity is the Chiroptera. The first published estimate of M sum in a bat of which we are aware was for the molossid Tadarida brasiliensis, in which mass-specific M sum was equivalent to ~21× BMR (Canals et al., 2005). The very high ME value for T. brasiliensis contrasts with more recent data for three frugivorous phyllostomids (Artibeus lituratus, Sturnira lilium and Carollia perspicillata) in which ME ranged from 3.4 to 5.2 (Almeida and Cruz-Neto, 2011).A priori, two...

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“…In temperate latitudes with long, cold winters, many non-migratory bats hibernate for much of the year, usually in thermally stable hibernacula such as caves (Park et al, 2000;Ransome, 1990). Several tropical and subtropical species are also known to hibernate and/or use daily torpor under natural conditions in winter, and in some cases summer (Coburn et al, 1996;Cory Toussaint et al, 2010;Dechmann et al, 2011;Liu et al, 2011;Stawski et al, 2010;Turbill et al, 2003).…”

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confidence: 99%

“…A number of bat species in subtropical Australia are highly heterothermic (Stawski et al, 2010;Turbill et al, 2008;Turbill et al, 2003), and recent work in tropical central America has revealed that Molossus molossus maintains an almost continuous hypometabolic state (Dechmann et al, 2011). In subtropical Taiwan,…”

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Thermoregulation in free-ranging Nycteris thebaica (Nycteridae) during winter: No evidence of torpor

2013

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Bats are among the most heterothermic mammals, with nearly all species investigated under free-ranging conditions to date exhibiting some degree of daily torpor and/or hibernation. We investigated thermoregulation during late winter by seven Nycteris thebaica in a warm, semi-arid habitat in northern South Africa, using temperaturesensitive transmitters to measure skin temperature (T skin ). Unexpectedly, we found no evidence for any expression of daily torpor or hibernation based on a total of 86 days of data from 7 bats (one male and six females), despite air temperatures as low as ~ 10 ºC. Instead, daytime T skin was distributed unimodally with most values in the 33 -

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Low metabolism in a tropical bat from lowland Panama measured using heart rate telemetry: an unexpected life in the slow lane

Cited by 34 publications

References 59 publications

Heart rate as a predictor of metabolic rate in heterothermic bats

Heart rate as a predictor of metabolic rate in heterothermic bats

Summit metabolism and metabolic expansibility in Wahlberg's epauletted fruit bats (Epomophorus wahlbergi): seasonal acclimatisation and effects of captivity

Thermoregulation in free-ranging Nycteris thebaica (Nycteridae) during winter: No evidence of torpor

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