Datensatz: Data from: Cyclic bouts of extreme bradycardia counteract the highmetabolism of frugivorous bats
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Datum der Erstveröffentlichung
2018
Autor:innen
Voigt, Christian C.
ter Maat, Andries
Pollock, Henry S.
Burness, Gary
Desantis, Lanna M.
Andere Beitragende
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Published
Zusammenfassung
Active flight requires the ability to efficiently fuel bursts of costly locomotion while maximizing energy conservation during non-flying times. We took a multi-faceted approach to estimate how fruit-eating bats (Uroderma bilobatum) manage a high-energy lifestyle fueled primarily by fig juice. Miniaturized heart rate telemetry shows that they use a novel, cyclic, bradycardic state that reduces daily energetic expenditure by 10% and counteracts heart rates as high as 900 bpm during flight. Uroderma bilobatum support flight with some of the fastest metabolic incorporation rates and dynamic circulating cortisol in vertebrates. These bats will exchange fat reserves within 24 hr, meaning that they must survive on the food of the day and are at daily risk of starvation. Energetic flexibly in U. bilobatum highlights the fundamental role of ecological pressures on integrative energetic networks and the still poorly understood energetic strategies of animals in the tropics.
Zusammenfassung in einer weiteren Sprache
Fachgebiet (DDC)
570 Biowissenschaften, Biologie
Schlagwörter
energetics, torpor, Ecological physiology, Uroderma bilobatum
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O'MARA, M. Teague, Martin WIKELSKI, Christian C. VOIGT, Andries TER MAAT, Henry S. POLLOCK, Gary BURNESS, Lanna M. DESANTIS, Dina K. N. DECHMANN, 2018. Data from: Cyclic bouts of extreme bradycardia counteract the highmetabolism of frugivorous batsBibTex
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<dcterms:abstract>Active flight requires the ability to efficiently fuel bursts of costly locomotion while maximizing energy conservation during non-flying times. We took a multi-faceted approach to estimate how fruit-eating bats (Uroderma bilobatum) manage a high-energy lifestyle fueled primarily by fig juice. Miniaturized heart rate telemetry shows that they use a novel, cyclic, bradycardic state that reduces daily energetic expenditure by 10% and counteracts heart rates as high as 900 bpm during flight. Uroderma bilobatum support flight with some of the fastest metabolic incorporation rates and dynamic circulating cortisol in vertebrates. These bats will exchange fat reserves within 24 hr, meaning that they must survive on the food of the day and are at daily risk of starvation. Energetic flexibly in U. bilobatum highlights the fundamental role of ecological pressures on integrative energetic networks and the still poorly understood energetic strategies of animals in the tropics.</dcterms:abstract>
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</rdf:RDF>Kommentar zur Publikation
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