Your search keyword '"Brigham, R. Mark"' showing total 4 results

1. Thermoregulatory variation among populations of bats along a latitudinal gradient.

Author

Dunbar, Miranda B. and Brigham, R. Mark

Subjects

*HIBERNATION, *BODY temperature regulation, *SLEEP behavior in animals, *BATS, *MAMMALS

Abstract

Most studies of hibernation physiology sample individuals from populations within a single geographic area, yet some species have large ranges meaning populations likely experience area-specific levels of energetic challenges. As well, few studies have assessed within-season variation. Since physiological adjustments often are influenced by environmental factors, and the types of environments vary with geography, we expected variance in hibernation patterns among geographically separated populations. Our specific goal was to measure intraspecific variation in torpid metabolic rate (TMR) and body temperature ( Tb) as a function of ambient temperature ( Ta) for a non-migratory and migratory species to determine whether there is a continuum in physiological responses based on latitude. We chose big brown ( Eptesicus fuscus) and eastern red bats ( Lasiurus borealis) as model species and sampled individuals from populations throughout each species’ winter range. In both species, individuals from southern populations maintained higher TMR at cooler Tas and lower TMR at warmer Tas than those from northern populations. Big brown bats from southern populations regulated Tb during torpor at higher levels and there was no significant difference in Tb between populations of eastern red bats. Although metabolic responses were similar across the gradient between species, the effect was more dramatic in big brown bats. Our data demonstrate a continuum in thermoregulatory response, ranging from classic hibernation in northern populations to a pattern more akin to daily torpor in southern populations. Our research highlights the potential usefulness of bats as model organisms to address questions about within-species physiological variation in wild populations. [ABSTRACT FROM AUTHOR]

Published

2010

2. Social thermoregulation exerts more influence than microclimate on forest roost preferences by a cavity-dwelling bat.

Author

Willis, Craig K. R. and Brigham, R. Mark

Subjects

BODY temperature regulation, PHYSIOLOGICAL control systems, EPTESICUS, BATS, ANIMAL models in research, TEMPERATURE, ECOLOGY, FIELD research, MAMMALS

Abstract

Nest or roost temperature ( T roost) is thought to impact reproductive fitness in many endotherms but few studies have directly tested the hypothesis that naturally occurring variability in nest or roost microclimate is large enough to affect reproductive success. We conducted a field experiment to test whether roost selection by cavity-dwelling, reproductive female big brown bats ( Eptesicus fuscus) is more strongly influenced by roost microclimate or a physical characteristic of roosts that facilitates social thermoregulation (i.e., cavity volume). We quantified spatial variability in T roost within different-sized, unoccupied cavities and also recorded T roost in occupied vs unoccupied roost trees. We used equations relating energy use and ambient temperature for big brown bats to calculate values of daily energy expenditure from T roost data because energy is a currency that likely affects reproductive fitness. We found no difference between maximum and minimum T roost, spatial variability in T roost, or predicted energy expenditure in more-preferred vs less-preferred roosts. However, there was a significant difference between T roost and predicted energy expenditure when we compared occupied vs unoccupied roosts. The presence of bats increased T roost by as much as 7°C, and there was a significant positive correlation between the number of bats occupying a roost, maximum daily T roost, and energy savings. We calculate that, on average, a normothermic individual would save about 6.5 kJ/day (roughly 9% of the daily energy budget) by roosting in an occupied cavity relative to roosting alone and that savings may increase to 40 kJ/day (about 53% of the energy budget) for an individual roosting in a group of 45 bats. Our findings suggest that variability in microclimate among potential roost or nest sites may be less important to some cavity-dwelling endotherms than has been suggested in previous studies. Our results reinforce the importance of sociality and social thermoregulation to the roosting ecology of forest-living bats and socially roosting or nesting endotherms in general. [ABSTRACT FROM AUTHOR]

Published

2007

3. Development of thermoregulation and torpor in a marsupial: energetic and evolutionary implications.

Author

Geiser, Fritz, Westman, Wendy, McAllan, Bronwyn M., and Brigham, R. Mark

Subjects

BODY temperature regulation, PHYSIOLOGICAL control systems, MARSUPIALS, MAMMALS, PHYSIOLOGY

Abstract

Altricial mammals and birds become endothermic at about half the size of adults and presumably would benefit energetically from entering torpor at that time. Because little is known about torpor during development in endotherms, we investigated whether after the establishment of endothermic thermoregulation (i.e. the ability to maintain a high body temperature during cold exposure), Sminthopsis macroura, a small (∼25 g) insectivorous marsupial, is capable of entering torpor and whether torpor patterns change with growth. Endothermic thermoregulation was established when the nest young reached a body mass of ∼10 g, and they were capable of entering torpor early during development at ∼10–12 g, lending some support to the view that torpor is a phylogenetically old mammalian trait. Torpor bout length shortened significantly and the minimum metabolic rate during torpor increased as juveniles approached adult size, and consequently total daily energy expenditure increased steeply with age. Relationships between total daily energy expenditure and body mass during development of S. macroura (slope ∼1.3) differed substantially from the relationship between basal metabolism and body mass in adult endotherms (slope ∼0.75) suggesting that the energy expenditure–size relationship during the development differs substantially from that in adults under thermo-neutral conditions. Our study shows that while torpor can substantially reduce energy expenditure during development of endotherms and hence is likely important for survival during energy bottlenecks, it also may enhance somatic growth when food is limited. We therefore hypothesize that torpor during the development in endotherms is far more widespread than is currently appreciated. [ABSTRACT FROM AUTHOR]

Published

2006

4. Thermal energetics of female big brown bats (Eptesicus fuscus).

Author

Willis, Craig K. R., Lane, Jeffrey E., Liknes, Eric T., Swanson, David L., and Brigham, R. Mark

Subjects

BATS, BODY temperature regulation, VESPERTILIONIDAE, MAMMALS, FREE-tailed bats, ANTS

Abstract

Copyright of Canadian Journal of Zoology is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2005