Larger antelopes are sensitive to heat stress throughout all seasons but smaller antelopes only during summer in an African semi-arid environment
Heat stress can limit the activity time budget of ungulates due to hyperthermia, which is relevant for African antelopes in ecosystems where temperature routinely increases above 40 °C. Body size influences this thermal sensitivity as large bodied ungulates have a lower surface area to volume ratio...
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| Vydáno v: | International journal of biometeorology Ročník 58; číslo 1; s. 41 - 49 |
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| Hlavní autoři: | , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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Berlin/Heidelberg
Springer Berlin Heidelberg
01.01.2014
Springer Nature B.V |
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| ISSN: | 0020-7128, 1432-1254, 1432-1254 |
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| Abstract | Heat stress can limit the activity time budget of ungulates due to hyperthermia, which is relevant for African antelopes in ecosystems where temperature routinely increases above 40 °C. Body size influences this thermal sensitivity as large bodied ungulates have a lower surface area to volume ratio than smaller ungulates, and therefore a reduced heat dissipation capacity. We tested whether the activity pattern during the day of three antelope species of different body size—eland, blue wildebeest and impala—is negatively correlated with the pattern of black globe temperature (BGT) during the day of the ten hottest days and each season in a South African semi-arid ecosystem. Furthermore, we tested whether the larger bodied eland and wildebeest are less active than the smaller impala during the hottest days and seasons. Our results show that indeed BGT was negatively correlated with the diurnal activity of eland, wildebeest and impala, particularly during summer. During spring, only the activity of the larger bodied eland and wildebeest was negatively influenced by BGT, but not for the smallest of the three species, the impala. We argue that spring, with its high heat stress, coupled with poor forage and water availability, could be critical for survival of these large African antelopes. Our study contributes to understanding how endothermic animals can cope with extreme climatic conditions, which are expected to occur more frequently due to climate change. |
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| AbstractList | Heat stress can limit the activity time budget of ungulates due to hyperthermia, which is relevant for African antelopes in ecosystems where temperature routinely increases above 40 °C. Body size influences this thermal sensitivity as large bodied ungulates have a lower surface area to volume ratio than smaller ungulates, and therefore a reduced heat dissipation capacity. We tested whether the activity pattern during the day of three antelope species of different body size-eland, blue wildebeest and impala-is negatively correlated with the pattern of black globe temperature (BGT) during the day of the ten hottest days and each season in a South African semi-arid ecosystem. Furthermore, we tested whether the larger bodied eland and wildebeest are less active than the smaller impala during the hottest days and seasons. Our results show that indeed BGT was negatively correlated with the diurnal activity of eland, wildebeest and impala, particularly during summer. During spring, only the activity of the larger bodied eland and wildebeest was negatively influenced by BGT, but not for the smallest of the three species, the impala. We argue that spring, with its high heat stress, coupled with poor forage and water availability, could be critical for survival of these large African antelopes. Our study contributes to understanding how endothermic animals can cope with extreme climatic conditions, which are expected to occur more frequently due to climate change. Heat stress can limit the activity time budget of ungulates due to hyperthermia, which is relevant for African antelopes in ecosystems where temperature routinely increases above 40 °C. Body size influences this thermal sensitivity as large bodied ungulates have a lower surface area to volume ratio than smaller ungulates, and therefore a reduced heat dissipation capacity. We tested whether the activity pattern during the day of three antelope species of different body size--eland, blue wildebeest and impala--is negatively correlated with the pattern of black globe temperature (BGT) during the day of the ten hottest days and each season in a South African semi-arid ecosystem. Furthermore, we tested whether the larger bodied eland and wildebeest are less active than the smaller impala during the hottest days and seasons. Our results show that indeed BGT was negatively correlated with the diurnal activity of eland, wildebeest and impala, particularly during summer. During spring, only the activity of the larger bodied eland and wildebeest was negatively influenced by BGT, but not for the smallest of the three species, the impala. We argue that spring, with its high heat stress, coupled with poor forage and water availability, could be critical for survival of these large African antelopes. Our study contributes to understanding how endothermic animals can cope with extreme climatic conditions, which are expected to occur more frequently due to climate change.[PUBLICATION ABSTRACT] Heat stress can limit the activity time budget of ungulates due to hyperthermia, which is relevant for African antelopes in ecosystems where temperature routinely increases above 40 °C. Body size influences this thermal sensitivity as large bodied ungulates have a lower surface area to volume ratio than smaller ungulates, and therefore a reduced heat dissipation capacity. We tested whether the activity pattern during the day of three antelope species of different body size—eland, blue wildebeest and impala—is negatively correlated with the pattern of black globe temperature (BGT) during the day of the ten hottest days and each season in a South African semi-arid ecosystem. Furthermore, we tested whether the larger bodied eland and wildebeest are less active than the smaller impala during the hottest days and seasons. Our results show that indeed BGT was negatively correlated with the diurnal activity of eland, wildebeest and impala, particularly during summer. During spring, only the activity of the larger bodied eland and wildebeest was negatively influenced by BGT, but not for the smallest of the three species, the impala. We argue that spring, with its high heat stress, coupled with poor forage and water availability, could be critical for survival of these large African antelopes. Our study contributes to understanding how endothermic animals can cope with extreme climatic conditions, which are expected to occur more frequently due to climate change. Heat stress can limit the activity time budget of ungulates due to hyperthermia, which is relevant for African antelopes in ecosystems where temperature routinely increases above 40 degree C. Body size influences this thermal sensitivity as large bodied ungulates have a lower surface area to volume ratio than smaller ungulates, and therefore a reduced heat dissipation capacity. We tested whether the activity pattern during the day of three antelope species of different body size-eland, blue wildebeest and impala-is negatively correlated with the pattern of black globe temperature (BGT) during the day of the ten hottest days and each season in a South African semi-arid ecosystem. Furthermore, we tested whether the larger bodied eland and wildebeest are less active than the smaller impala during the hottest days and seasons. Our results show that indeed BGT was negatively correlated with the diurnal activity of eland, wildebeest and impala, particularly during summer. During spring, only the activity of the larger bodied eland and wildebeest was negatively influenced by BGT, but not for the smallest of the three species, the impala. We argue that spring, with its high heat stress, coupled with poor forage and water availability, could be critical for survival of these large African antelopes. Our study contributes to understanding how endothermic animals can cope with extreme climatic conditions, which are expected to occur more frequently due to climate change. Heat stress can limit the activity time budget of ungulates due to hyperthermia, which is relevant for African antelopes in ecosystems where temperature routinely increases above 40 °C. Body size influences this thermal sensitivity as large bodied ungulates have a lower surface area to volume ratio than smaller ungulates, and therefore a reduced heat dissipation capacity. We tested whether the activity pattern during the day of three antelope species of different body size-eland, blue wildebeest and impala-is negatively correlated with the pattern of black globe temperature (BGT) during the day of the ten hottest days and each season in a South African semi-arid ecosystem. Furthermore, we tested whether the larger bodied eland and wildebeest are less active than the smaller impala during the hottest days and seasons. Our results show that indeed BGT was negatively correlated with the diurnal activity of eland, wildebeest and impala, particularly during summer. During spring, only the activity of the larger bodied eland and wildebeest was negatively influenced by BGT, but not for the smallest of the three species, the impala. We argue that spring, with its high heat stress, coupled with poor forage and water availability, could be critical for survival of these large African antelopes. Our study contributes to understanding how endothermic animals can cope with extreme climatic conditions, which are expected to occur more frequently due to climate change.Heat stress can limit the activity time budget of ungulates due to hyperthermia, which is relevant for African antelopes in ecosystems where temperature routinely increases above 40 °C. Body size influences this thermal sensitivity as large bodied ungulates have a lower surface area to volume ratio than smaller ungulates, and therefore a reduced heat dissipation capacity. We tested whether the activity pattern during the day of three antelope species of different body size-eland, blue wildebeest and impala-is negatively correlated with the pattern of black globe temperature (BGT) during the day of the ten hottest days and each season in a South African semi-arid ecosystem. Furthermore, we tested whether the larger bodied eland and wildebeest are less active than the smaller impala during the hottest days and seasons. Our results show that indeed BGT was negatively correlated with the diurnal activity of eland, wildebeest and impala, particularly during summer. During spring, only the activity of the larger bodied eland and wildebeest was negatively influenced by BGT, but not for the smallest of the three species, the impala. We argue that spring, with its high heat stress, coupled with poor forage and water availability, could be critical for survival of these large African antelopes. Our study contributes to understanding how endothermic animals can cope with extreme climatic conditions, which are expected to occur more frequently due to climate change. |
| Author | van Langevelde, F. Prins, H. H. T. Hetem, R. S. Shrestha, A. K. Meyer, L. Fuller, A. van Wieren, S. E. de Bie, S. |
| Author_xml | – sequence: 1 givenname: A. K. surname: Shrestha fullname: Shrestha, A. K. email: anil.shrestha2002@gmail.com organization: Resource Ecology Group, Wageningen University – sequence: 2 givenname: S. E. surname: van Wieren fullname: van Wieren, S. E. organization: Resource Ecology Group, Wageningen University – sequence: 3 givenname: F. surname: van Langevelde fullname: van Langevelde, F. organization: Resource Ecology Group, Wageningen University – sequence: 4 givenname: A. surname: Fuller fullname: Fuller, A. organization: Brain Function Research Group, University of Witwatersrand – sequence: 5 givenname: R. S. surname: Hetem fullname: Hetem, R. S. organization: Brain Function Research Group, University of Witwatersrand – sequence: 6 givenname: L. surname: Meyer fullname: Meyer, L. organization: Brain Function Research Group, University of Witwatersrand – sequence: 7 givenname: S. surname: de Bie fullname: de Bie, S. organization: Resource Ecology Group, Wageningen University – sequence: 8 givenname: H. H. T. surname: Prins fullname: Prins, H. H. T. organization: Resource Ecology Group, Wageningen University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/23417331$$D View this record in MEDLINE/PubMed |
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| Publisher | Springer Berlin Heidelberg Springer Nature B.V |
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| References_xml | – reference: ZarJBiostatistical analysis2009New JerseyPrentice-Hall Englewood Cliffs – reference: HetemRSMitchellDMaloneySKMeyerLCRFickLGKerleyGIHFullerAFever and sickness behavior during an opportunistic infection in a free-living antelope, the greater kudu Tragelaphus strepsicerosAm J Physiol Regul Integr Comp Physiol200829424625410.1152/ajpregu.00570.2007 – reference: KleinDRFairallNComparative foraging behaviour and associated energetics of Impala and BlesbokJ Appl Ecol19862348950210.2307/2404031 – reference: DemmentMVan SoestPA nutritional explanation for body-size patterns of ruminant and nonruminant herbivoresAm Nat198512564167210.1086/284369 – reference: MaloneySMossGCartmellTMitchellDAlteration in diel activity patterns as a thermoregulatory strategy in black wildebeest Connochaetes gnouJ Comp Physiol A Neuroethol Sens Neural Behav Physiol20051911055106410.1007/s00359-005-0030-4 – reference: LyonBSouthern Africa summer drought and heat waves: observations and coupled model behaviorJ Clim2009226033604610.1175/2009JCLI3101.1 – reference: Owen-SmithNMegaherbivores: The influence of very large size in ecology1988CambridgeCambridge University Press10.1017/CBO9780511565441 – reference: LewisJGGame domestication for animal production in Kenya: activity patterns of eland, oryx, buffalo and zebu cattleJ Agric Sci19778955156310.1017/S0021859600061323 – reference: MidgleyDCPitmanWVMiddletonBJSurface water resources of South Africa 19901994Pretoria, South AfricaWater Research Commission – reference: LimaSLZollnerPATowards a behavioral ecology of ecological landscapesTrends Ecol Evol1996111311351:STN:280:DC%2BC3M7itFCjtQ%3D%3D10.1016/0169-5347(96)81094-9 – reference: BrownJSVigilance, patch use and habitat selection: foraging under predation riskEvol Ecol Res199914971 – reference: HetemRSde WittBAFickLGFullerAKerleyGIHMeyerLCRMitchellDMaloneySKBody temperature, thermoregulatory behaviour and pelt characteristics of three colour morphs of springbok Antidorcas marsupialisComp Biochem Physiol A Mol Integr Physiol200915237938810.1016/j.cbpa.2008.11.011 – reference: du ToitJTYetmanCAEffects of body size on the diurnal activity budgets of African browsing ruminantsOecologia200514331732510.1007/s00442-004-1789-7 – reference: HueyRPhysiological consequences of habitat selectionAm Nat19911379111510.1086/285141 – reference: NatoriYPorterWPModel of Japanese serow Capricornis crispus energetics predicts distribution on Honshu, JapanEcol Appl2007171441145910.1890/06-1785.1 – reference: Hofmeyr MD (1981) Thermal physiology of selected African ungulates with emphasis on the physical properties of the pelage [PhD thesis]. University of Cape Town, Cape Town, South Africa – reference: IlliusAGordonIThe allometry of food intake in grazing ruminantsJ Anim Ecol19875698999910.2307/4961 – reference: PhillipsPKHeathJEDependency of surface temperature regulation on body size in terrestrial mammalsJ Therm Biol19952028128910.1016/0306-4565(94)00061-M – reference: DunbarRIMKorstjensAHLehmannJTime as an ecological constraintBiol Rev2009844134291:STN:280:DC%2BD1MrjvVShsQ%3D%3D10.1111/j.1469-185X.2009.00080.x – reference: AhrestaniFSVan LangeveldeFHeitkönigIMAPrinsHHTContrasting timing of parturition of Chital Axis axis and gaur Bos gaurus in tropical South India—the role of bodymass and seasonal forage qualityOikos20121211300131010.1111/j.1600-0706.2011.20244.x – reference: BeekmanJHPrinsHHTFeeding strategies of sedentary large herbivores in East Africa, with emphasis on the African buffalo, Syncerus cafferAfr J Ecol19892712914710.1111/j.1365-2028.1989.tb00937.x – reference: HaimASkinnerJDA comparative study of metabolic rates and thermoregulation of two African antelopes, the steenbok Raphicerus campestris and the blue duiker Cephalophus monticolaJ Therm Biol19911614514810.1016/0306-4565(91)90036-2 – reference: PorterWPBudarajuSStewartWERamankuttyNCalculating climate effects on birds and mammals: Impacts ob biodiversity, conservation, population parameters and global community structureAmer Zool20004059763010.1668/0003-1569(2000)040[0597:CCEOBA]2.0.CO;2 – reference: Taylor CR (1974) Low metabolism of Zebu cattle during droughts: A domestic animal strategy for survival in hot desert. Proceeding of international congress in physiological science. Jerusalem satellite symposium, p 1 – reference: CabanacMFreglyMJBlatteisCMThe place of behaviour in physiologyHand book of physiology1996OxfordAmerican Physiological Society and Oxford University Press15231536 – reference: MaloneySFullerAMitchellDClimate change: is the dark Soay sheep endangered?Biol Lett2009582610.1098/rsbl.2009.0424 – reference: HetemRSMaloneySKFullerAMeyerLCMitchellDValidation of a biotelemetric technique, using ambulatory miniature black globe thermometers, to quantify thermoregulatory behaviour in ungulatesJ Exp Zool A Ecol Genet Physiol200730734235610.1002/jez.389 – reference: Owen-SmithNForaging responses of Kudus to seasonal changes in food resources: elasticity in constraintsEcology1994751050106210.2307/1939429 – reference: PeterRHThe ecological implications of body size1986New YorkCambridge University Press – reference: AcocksJMemoirs of the botanical survey South Africa1988PretoriaBotanical Research Institute – reference: BellRA grazing ecosystem in the SerengetiSci Am1971225869310.1038/scientificamerican0771-86 – reference: BunnellFLGillinghamMPHudsonRJWhiteRGForaging behaviour: Dynamics of dinning outBioenergetics of wild herbivores1985Boca RatonCRC5399 – reference: HetemRStraussWFickLMaloneySMeyerLShobrakMFullerAMitchellDVariation in the daily rhythm of body temperature of free-living Arabian oryx Oryx leucoryx: Does water limitation drive heterothermy?J Comp Physiol B Biochem Syst Environ Physiol20101801111111910.1007/s00360-010-0480-z – reference: ChoshniakIBen-KohavNTaylorCRobertshawDBarnesRDobsonABelkinVShkolnikAMetabolic adaptations for desert survival in the Bedouin goatAm J Physiol Regul Integr Comp Physiol19952681101 – reference: O’ConnorTGKikerGACollapse of the Mapungubwe society: vulnerability of pastoralism to increasing aridityClim Change200466496610.1023/B:CLIM.0000043192.19088.9d – reference: WangTHungCRandallDThe comparative physiology of food deprivation: from feast to famineAnnu Rev Physiol20066822325110.1146/annurev.physiol.68.040104.105739 – reference: HutRAKronfeld-SchorNVan der VinneVDe la IglisiaHIn search of temporal niche: environmental factorsProgr in Brain Res201219928110.1016/B978-0-444-59427-3.00017-4 – reference: MaloiyGKanuiTTowettPWambuguSMiaronJWanyoikeMEffects of dehydration and heat stress on food intake and dry matter digestibility in East African ruminantsComp Biochem Physiol A Mol Integr Physiol20081511851901:STN:280:DC%2BD1crjt1GgsA%3D%3D10.1016/j.cbpa.2008.06.019 – reference: Schmidt-NielsenKWhy is animal size so important?1984New YorkCambridge University Press10.1017/CBO9781139167826 – reference: Bartholomew GA (1964) The roles of physiology and behaviour in the maintenance of homeostasis in the desert environment. 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