[ | E-mail | Share ]
Contact: Emily Murphy
emurphy@press.uchicago.edu
773-702-7521
University of Chicago Press Journals
As small and active flying mammals, bats have very high mass-specific energy requirements and as such continually adjust their rates of activity and metabolism in response to ambient temperature and other seasonal variation. In particular, during the autumn mating season, male bats must carefully balance time spent foraging (to gain enough fat to last the winter hibernation) with time spent finding a mate. Because both activities require significant effort, how do male bats do it? In an upcoming issue of Physiological and Biochemical Zoology, Nina Becker and colleagues reveal that the answer lies in the bats' resting metabolic rate.
In their study, the group monitored the thermoregulation, energy intake, activity, and metabolism of free-ranging Daubenton's bats Myotis daubentonii during this insectivorous species' main activity period of the year (mid-April to mid-October).
Becker et al. found that during spring, when ambient temperatures are low, prey is scarce, and the male bats are reproductively inactive, M. daubentonii used daily torpor (decreased body temperature) to balance their energy budgets.
In summer, when temperatures and abundance of insects increase, bats shift their behavior away from long and frequent bouts of torpor and toward more intake of food. In males it is predicted that this increase in feeding is done in anticipation of the impending mating season, when energy requirements are high but low insect abundance and significant time spent finding a mate (and therefore not foraging) mean that food intake will be at its lowest during the animals' entire period of activity.
In autumn, for male M. daubentonii to accommodate the high energy demands of reproduction and low energy intake and also sufficiently prepare for hibernation, Becker and colleagues report that the bats do not increase torpor, as they do in spring, but instead employ metabolic compensation to reduce resting metabolic rate. In this way, energy expenditures are reduced and thus the low amount of food the bats consume is enough for them to survive the winter. The exact mechanism allowing this reduction in resting metabolic rate is still in question, but the authors speculate it is likely due to a decrease in activity of either the digestive system or the brain.
###
Becker, Nina I., Marco Tschapka, Elisabeth K. V. Kalko, and Jorge A. Encarnao. "Balancing the Energy Budget in Free-Ranging Male Myotis daubentonii Bats." Physiological and Biochemical Zoology 86:3 (May/June 2013).
Physiological and Biochemical Zoology (http://journals.uchicago.edu/PBZ) publishes original research in animal physiology and biochemistry, with a specific emphasis on studies that address the ecological and/or evolutionary aspects of physiological and biochemical mechanisms. Studies at all levels of biological organization from the molecular to the whole organism are welcome, and work that integrates levels of organization to address important questions in behavioral, ecological, evolutionary, or comparative physiology is particularly encouraged.
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
[ | E-mail | Share ]
Contact: Emily Murphy
emurphy@press.uchicago.edu
773-702-7521
University of Chicago Press Journals
As small and active flying mammals, bats have very high mass-specific energy requirements and as such continually adjust their rates of activity and metabolism in response to ambient temperature and other seasonal variation. In particular, during the autumn mating season, male bats must carefully balance time spent foraging (to gain enough fat to last the winter hibernation) with time spent finding a mate. Because both activities require significant effort, how do male bats do it? In an upcoming issue of Physiological and Biochemical Zoology, Nina Becker and colleagues reveal that the answer lies in the bats' resting metabolic rate.
In their study, the group monitored the thermoregulation, energy intake, activity, and metabolism of free-ranging Daubenton's bats Myotis daubentonii during this insectivorous species' main activity period of the year (mid-April to mid-October).
Becker et al. found that during spring, when ambient temperatures are low, prey is scarce, and the male bats are reproductively inactive, M. daubentonii used daily torpor (decreased body temperature) to balance their energy budgets.
In summer, when temperatures and abundance of insects increase, bats shift their behavior away from long and frequent bouts of torpor and toward more intake of food. In males it is predicted that this increase in feeding is done in anticipation of the impending mating season, when energy requirements are high but low insect abundance and significant time spent finding a mate (and therefore not foraging) mean that food intake will be at its lowest during the animals' entire period of activity.
In autumn, for male M. daubentonii to accommodate the high energy demands of reproduction and low energy intake and also sufficiently prepare for hibernation, Becker and colleagues report that the bats do not increase torpor, as they do in spring, but instead employ metabolic compensation to reduce resting metabolic rate. In this way, energy expenditures are reduced and thus the low amount of food the bats consume is enough for them to survive the winter. The exact mechanism allowing this reduction in resting metabolic rate is still in question, but the authors speculate it is likely due to a decrease in activity of either the digestive system or the brain.
###
Becker, Nina I., Marco Tschapka, Elisabeth K. V. Kalko, and Jorge A. Encarnao. "Balancing the Energy Budget in Free-Ranging Male Myotis daubentonii Bats." Physiological and Biochemical Zoology 86:3 (May/June 2013).
Physiological and Biochemical Zoology (http://journals.uchicago.edu/PBZ) publishes original research in animal physiology and biochemistry, with a specific emphasis on studies that address the ecological and/or evolutionary aspects of physiological and biochemical mechanisms. Studies at all levels of biological organization from the molecular to the whole organism are welcome, and work that integrates levels of organization to address important questions in behavioral, ecological, evolutionary, or comparative physiology is particularly encouraged.
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Source: http://www.eurekalert.org/pub_releases/2013-04/uocp-sip041513.php
doctor who Phil Ramone louisville Kevin Ware Injury Video Richard Griffiths FGCU Reid Flair
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.