Christopher TurbillWestern Sydney University · Hawkesbury Institute for the Environment
Christopher Turbill
About
42
Publications
9,986
Reads
How we measure 'reads'
A 'read' is counted each time someone views a publication summary (such as the title, abstract, and list of authors), clicks on a figure, or views or downloads the full-text. Learn more
1,604
Citations
Citations since 2017
Publications
Publications (42)
The 2019–2020 megafires in southeastern Australia extensively burnt forests including fire‐sensitive rainforests. Assessments of species' responses typically consider differences in occupancy or density between burnt and unburnt forest, but here we focus on how these fires influenced roost selection by a rainforest‐dependent bat. We radio‐tracked g...
The ghost bat (Macroderma gigas) is a carnivorous species of bat endemic to northern Australia that roosts in colonies of up to 1,500 individuals. The ghost bat produces a number of social vocalisations, but little is known about the species’ behaviour and what role social vocalisations play in interactions between conspecifics. The aim of this stu...
Generally, urbanization is a major threat to biodiversity; however, urban areas also provide habitats that some species can exploit. Flying-foxes (Pteropus spp.) are becoming increasingly urbanized; which is thought to be a result of increased availability and temporal stability of urban food resources, diminished natural food resources, or both. P...
Small insectivorous bats often enter a state of torpor, a controlled, reversible decrease in body temperature and metabolic rate. Torpor provides substantial energy savings and is used more extensively during periods of low temperature and reduced prey availability. We studied torpor use and activity of a small (10.1 ± 0.4 g) fishing bat, Myotis ma...
Maintaining a high and stable body temperature as observed in endothermic mammals and birds is energetically costly. Thus, it is not surprising that we discover more and more heterothermic species that can reduce their energetic needs during energetic bottlenecks through the use of torpor. However, not all heterothermic animals use torpor on a regu...
The ghost bat (Macroderma gigas) is a colonial and highly vocal species that is impacted by human visitation of caves. The ability to document behaviours inside the roost by recording vocalisations could provide an important new tool for the management of this disturbance-prone species by removing the need for in-person confirmation of reproductive...
Central to understanding animal ecology is how prey cope with the interacting risks of starvation and predation. This trade-off is modulated by the energy requirements of prey, yet relatively few studies have incorporated physiological mechanisms for energy savings when considering the behavioural response of prey to predation risk. In our study, w...
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
Many passerine birds are small and require a high mass-specific rate of resting energy expenditure, especially in the cold. The energetics of thermoregulation is, therefore, an important aspect of their ecology, yet few studies have quantified thermoregulatory patterns in wild passerines. We used miniature telemetry to record the skin temperature (...
Foraging activity is needed for energy intake but increases the risk of predation, and antipredator behavioural responses, such as reduced activity, generally reduce energy intake. Hence, the mortality and indirect effects of predation risk are dependent on the energy requirements of prey. Torpor, a controlled reduction in resting metabolism and bo...
Small hibernators are long-lived for their size because seasonal dormancy greatly reduces predation risk. Thus, within a year, hibernators switch between states of contrasting mortality risk (active season versus hibernation), making them interesting species for testing the predictions of life-history theory. Accordingly, we hypothesized that, with...
Torpor is thought to slow age-related processes and to sustain growth and fattening of young individuals. Energy allocation into these processes represents a challenge for juveniles, especially for those born late in the season. We tested the hypothesis that late-born juvenile garden dormice (Eliomys quercinus) fed ad libitum ('AL', n = 9) or inter...
Abstract Energy expenditure is a key mechanism underlying animal ecology, yet why individuals often differ in metabolic rate even under identical conditions remains largely unexplained. Individual variation in metabolism might be explained by correlations with other behavioral and physiological traits, with individual syndromes having environment-...
Small hibernating rodents have greater maximum lifespans and hence appear to age more slowly than similar-sized non-hibernators. We tested for a direct effect of hibernation on somatic maintenance and ageing by measuring seasonal changes in relative telomere length (RTL) in the edible dormouse Glis glis. Average RTL in our population did not change...
Prior to hibernation, juvenile hibernators have to sustain both somatic growth and fattening to reach a sufficient body mass to survive the following winter season. This high demand for energy is especially challenging for juveniles born late in the season, since they might already experience reduced food availability and decreasing temperatures. I...
Hibernation is commonly viewed as an adaptation that simply allows animals to survive periods of food shortage and climatically harsh conditions. Here, we review accumulating evidence suggesting that hibernation is part of a specific “slow-paced” mammalian life-history tactic that is associated with increased survival, retarded physiological aging,...
The timing of reproduction is one of the most crucial life history traits, with enormous consequences for the fitness of an individual. We investigated the effects of season and timing of birth on local survival probability in a small mammalian hibernator, the common dormouse (Muscardinus avellanarius). Local monthly survival probability was lowest...
Ageing can progress at different rates according to an individual's physiological state. Natural hypothermia, including torpor and hibernation, is a common adaptation of small mammals to survive intermittent or seasonal declines in environmental conditions. In addition to allowing energy savings, hypothermia and torpor have been associated with ret...
Red deer, Cervus elaphus, like other temperate-zone animals, show a large seasonal fluctuation in energy intake and expenditure. Many seasonal phenotypic adjustments are coordinated by endogenous signals entrained to the photoperiod. The cues determining variation in the resting metabolism of ungulates remain equivocal, however, largely because of...
An official journal of the Genetics Society, Heredity publishes high-quality articles describing original research and theoretical insights in all areas of genetics. Research papers are complimented by News & Commentary articles and reviews, keeping researchers and students abreast of hot topics in the field.
Survival probability is predicted to underlie the evolution of life histories along a slow-fast continuum. Hibernation allows a diverse range of small mammals to exhibit seasonal dormancy, which might increase survival and consequently be associated with relatively slow life histories. We used phylogenetically informed GLS models to test for an eff...
Background:
Senescence has been widely detected among mammals, but its importance to fitness in wild populations remains controversial. According to evolutionary theories, senescence occurs at an age when selection is relatively weak, which in mammals can be predicted by adult survival rates. However, a recent analysis of senescence rates found mo...
Mitochondrial DNA mutations create variation in the efficiency of the oxidative phosphorylation pathway and therefore cellular energy production. Mildly deleterious mutations may reduce the performance of sperm cells in particular, due to their high energy requirements and low number of mitochondria, yet have little or no effect on the viability of...
Small mammals appear to be less vulnerable to extinction than large species, but the underlying reasons are poorly understood. Here, we provide evidence that almost all (93.5%) of 61 recently extinct mammal species were homeothermic, maintaining a constant high body temperature and thus energy expenditure, which demands a high intake of food, long...
Knowledge about torpor in free-ranging subtropical bats is scarce and it is widely believed that low and stable ambient temperatures are necessary for prolonged torpor. We present temperature-telemetry data from free-ranging male (n = 4) and female (n = 4) subtropical vespertilionid bats, Nyctophilus bifax (approximately 10 g), exposed to pronounce...
Daily patterns of body temperature (T(b)) and energy expenditure in heterothermic endotherms are affected by changes in ambient temperature (T(a)) and selection of suitable microclimates, yet most laboratory studies employ constant T(a) to measure metabolic rates. In particular, exposure to a daily temperature cycle, even within rest shelters, may...
I measured the metabolic rate (MR) of four male southern forest bats (Vespadelus regulus; 5.5g) exposed to a diurnal increase in air temperature (T a) from 13 to 26°C, simulating conditions in natural tree roosts. Three bats remained in torpor throughout the day, despite the rise in T a, whereas one bat aroused at a T a of 25.2°C and was normotherm...
In summer, long-eared bats (Nyctophilus spp.) roost under bark and in tree cavities, where they appear to benefit from diurnal heating of roosts. In contrast, hibernation is thought to require a cool stable temperature, suggesting they should prefer thermally insulated tree cavities during winter. To test this prediction, we quantified the winter t...
Many bats hibernate to overcome a critical energy shortage in winter. However, unlike strictly seasonal hibernators, bats sometimes alternate prolonged torpor bouts with increased activity coinciding with periods of mild weather. Winter activity may be especially common in hibernating tree-roosting bats because they are less insulated from external...
Prolonged torpor or hibernation is commonly employed by bats found in temperate regions. In contrast, data on the use of prolonged torpor in bats from tropical or subtropical regions is entirely lacking. We used radio-telemetry to measure skin temperatures (T skin) of free-ranging Nyctophilus bifax (~11 g) during winter in a coastal subtropical hab...
The thermal physiology of tree-roosting bats has been rarely studied in the wild. I used temperature telemetry to locate and record the skin temperature (Tskin) of chocolate wattled bats (Chalinolobus morio, Vespertilionidae) roosting in tree cavities. In summer, male C. morio (n = 4) used torpor on 88% (15 of 17) of days. Bats entered torpor befor...
During roosting in summer, reproductive female bats appear to use torpor less frequently and at higher body temperatures (T
b) than male bats, ostensibly to maximise offspring growth. To test whether field observations result from differences in thermal physiology or behavioural thermoregulation during roosting, we measured the thermoregulatory res...
In south-eastern Australia, the greater long-eared bat (Nyctophilus timoriensis) has been rarely captured and is considered uncommon, although large areas within its range have received little survey effort. We collate existing capture records and present new data on N. timoriensis captures from recent fauna inventory surveys across the western slo...
Information about the thermal biology of bats in relation to their roosting behaviour is scant. I used temperature telemetry to locate roosts and record the thermoregulatory behaviour of male long-eared bats, Nyctophilus gouldi (9 g), during late spring in the Northern Tablelands of New South Wales. Bats roosted under bark and in tree cavities, whe...
Data on thermal energetics for vespertilionid bats are under-represented in the literature relative to their abundance, as are data for bats of very small body mass. Therefore, we studied torpor use and thermal energetics in one of the smallest (4 g) Australian vespertilionids, Vespadelus vulturnus. We used open-flow respirometry to quantify tempor...
Little is known about the use of heterothermy by wild bats during summer, especially for tree-roosting species. Because thermal conditions within tree roosts can fluctuate widely with ambient temperature, which affects thermoregulatory energy expenditure during diurnal roosting, we measured skin temperatures of free-ranging male Nyctophilus geoffro...
It is widely believed that torpor is mainly an adaptation of endotherms for cold stress and food limitation. We studied torpor use in the wild by a small tree-roosting microbat from a sub-tropical area during summer when food was abundant. Surprisingly, two torpor bouts per day were employed on each roost-day observed. The first bout occurred in th...
Little is known about the habitat preferences or general ecology of the south-eastern form (species) of Nyctophilus timoriensis, which has been captured rarely and sporadically across its range within the Murray Darling Basin (MDB). It was therefore of interest that 80 N. timoriensis were caught in harp traps out of a total of 935 bat captures duri...
Projects
Projects (4)
To develop new approaches to improve conservation management outcomes for the grey-headed flying-fox, specifically involving:
1) Population monitoring: Capitalise on new methodologies developed by the research team to monitor flying-foxes at nationally important camps.
2) Foraging resource mapping: Develop remotely sensed landscape-scale nectar availability maps to highlight spatially explicit targets for habitat conservation and restoration.
3) Heat stress mitigation: Test the efficacy of roost microclimate manipulation for mitigating heat stress.
To develop a mechanistic understanding of the movement ecology of flying-foxes, from local to continental scales.
With this project we address key issues in the field of movement research, and provide much-needed scientific underpinnings for policy and management of Australia's flying-foxes and other mobile species.
Our approach is guided by the emerging paradigm of ‘movement ecology’ that focuses on identifying behaviour from tracking data and revealing the mechanisms that drive patterns of movement.
Details: https://www.animalecologylab.org/flying-fox-movement-ecology.html
To develop a comprehensive understanding of the vulnerability of flying-foxes to extreme heat events, and provide a much-needed evidence base for management and conservation.
To make this ambitious aim tractable, our research program focuses on answering the following questions:
• What are the ecophysiological drivers of vulnerability of Australian flying-fox species to extreme heat events?
• How can we accurately predict extreme heat-related flying-fox die-offs occurring in the immediate future? [e.g. see our Flying-fox heat-stress forecaster]
• What are the implications of extreme heat events for the long-term persistence of flying-foxes and other wildlife?
• What management responses can help lessen the impacts of these events on flying-foxes and other wildlife?
Details: https://www.animalecologylab.org/flying-fox-heat-stress.html
