Daily variation in body mass and thermoregulation in male Hwamei (Garrulax canorus) at different seasons
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- 作者:Lidan Zhao ; Runmei Wang ; Yunan Wu ; Mengsi Wu ; Weihong Zheng ; Jinsong Liu
- 关键词:Hwamei (Garrulax canorus) ; Body mass ; Body temperature ; Diurnal rhythm ; Metabolic rate
- 刊名:Avian Research
- 出版年:2015
- 出版时间:December 2015
- 年:2015
- 卷:6
- 期:1
- 全文大小:591KB
- 参考文献:Arens JR, Cooper SJ (2005) Seasonal and diurnal variation in metabolism and ventilation in house sparrows. Condor 107:433鈥?44CrossRef
Aschoff J, Pohl H (1970) Der ruheumsatz von v枚geln als funktion der tazeszeitund der k枚rpergr枚sse. J Ornithol 111:38鈥?7CrossRef
Auld JR, Agrawal AA, Relyea RA (2010) Re-evaluating the costs and limits of adaptive phenotypic plasticity. Proc R Soc Lond B 277:503鈥?11CrossRef
Beldade P, Mateus ARA, Keller RA (2011) Evolution and molecular mechanisms of adaptive developmental plasticity. Mol Evol 20:1347鈥?363
Burns DJ, Ben-Hamo M, Bauchinger U, Pinshow B (2013) Huddling house sparrows remain euthermic at night, and conserve body mass. J Avian Biol 44:198鈥?02CrossRef
Bush NG, Brown M, Downs CT (2008) Seasonal effects on thermoregulatory responses of the Rock Kestrel, Falco rupicolis. J Ther Biol 33:404鈥?12CrossRef
Chamane SC, Downs CT (2009) Seasonal effects on metabolism and thermoregulation abilities of the Red-winged Starling (Onychognathus morio). J Ther Biol 34:337鈥?41CrossRef
Cooper SJ (2007) Daily and seasonal variation in body mass and visible fat in mountain chickadees and juniper titmice. Wilson J Ornithol 119:720鈥?24CrossRef
Doucette LI, Geiser F (2008) Seasonal variation in thermal energetics of the Australian owlet-nightjar (Aegotheles cristatus). Comp Biochem Physiol A 151:615鈥?20CrossRef
Hill RW (1972) Determination of oxygen consumption by use of the paramagnetic oxygen analyzer. J Appl Physiol 33:261鈥?63PubMed
Karasov WH (2011) Digestive physiology: a view from molecules to ecosystem. Am J Physiol 301:R276鈥揜284
Lehikoinen E (1987) Seasonality of the daily weight cycle in wintering passerines and its consequences. Ornis Scand 18:216鈥?26CrossRef
Li SH, Li JW, Han LX, Yao CT, Shi HT, Lei FM, Yen CW (2006) Species delimitation in the Hwamei Garrulax canorus. Ibis 148:698鈥?06CrossRef
Li YG, Yang ZC, Wang DH (2010) Physiological and biochemical basis of basal metabolic rates in Brandt鈥檚 voles (Lasiopodomys brandtii) and Mongolian gerbils (Meriones unguiculatus). Comp Biochem Physiol A 157:204鈥?11CrossRef
Liknes ET, Swanson DL (2011) Phenotypic flexibility of body composition associated with seasonal acclimatization in passerine birds. J Ther Biol 36:363鈥?70CrossRef
Lindsay CV, Downs CT, Brown M (2009) Physiological variation in Amethyst Sunbirds (Chalcomitra amethystina) over an altitudinal gradient in summer. J Ther Biol 34:190鈥?99CrossRef
Liu JS, Li M (2006) Phenotypic flexibility of metabolic rate and organ masses among tree sparrows Passer montanus in seasonal acclimatization. Acta Zool Sin 52:469鈥?77
Liu JS, Wang DH, Sun RY (2005) Climatic adaptations in metabolism of four species of small birds in China. Acta Zool Sin 51:24鈥?0
MacKinnon J, Phillipps K (2000) A Field Guide to the Birds of China. Oxford University Press, London
McKechnie AE (2008) Phenotypic flexibility in basal metabolic rate and the changing view of avian physiological diversity: a review. J Comp Physiol B 178:235鈥?47CrossRef PubMed
McKechnie AE, Lovegrove BG (2002) Avian facultative hypothermic responses: a review. Condor 104:705鈥?24CrossRef
McKechnie AE, Wolf BO (2004) The allometry of avian basal metabolic rate: good predictions need good data. Physiol Biochem Zool 77:502鈥?21CrossRef PubMed
McKechnie AE, Freckleton RP, Jetz W (2006) Phenotypic plasticity in the scaling of avian basal metabolic rate. Proc R Soc Lond B 273:931鈥?37CrossRef
McNab BK (2006) The relationship among flow rate, chamber volume and calculated rate of metabolism in vertebrate respirometry. Comp Biochem Physiol A 145:287鈥?94CrossRef
McNab BK (2009) Ecological factors affect the level and scaling of avian BMR. Comp Biochem Physiol A 152:22鈥?5CrossRef
Nzama SN, Downs CT, Brown M (2010) Seasonal variation in the metabolism-temperature relation of House Sparrows (Passer domesticus) in KwaZulu-Natal, South Africa. J Ther Biol 35:100鈥?04CrossRef
Petit M, Lewden A, V茅zina F (2014) How dose flexlibility in body mass composition relate to seasonal changes in metabolic performance in a small passerine wintering at northern latitude? Physiol Biochem Zool 87:539鈥?49CrossRef PubMed
Piersma T, Drent J (2003) Phenotypic flexibility and the evolution of organismal design. Trends Ecol Evol 18:228鈥?33CrossRef
Pohl H, West GC (1973) Daily and seasonal variation in metabolic response to cold during rest and exercise in the common redpoll. Comp Biochem Physiol A 45:851鈥?67CrossRef PubMed
Polo V, Carrascal LM (2008) Nocturnal body mass loss in coal tits Periparus ater: the combined effects of ambient temperature and body reserves. Acta Zool Sin 54:615鈥?21
Prinzinger R, Prebmar A, Schleucher E (1991) Body temperature in Birds. Comp Biochem Physiol A 99:499鈥?06CrossRef
Schmidt-Nielsen K (1997) Animal Physiology: Adaptation and Environment. Cambridge University Press, London
Smit B, McKechnie AE (2010) Avian seasonal metabolic variation in a subtropical desert: basal metabolic rates are lower in winter than in summer. Funct Ecol 24:330鈥?39CrossRef
Starck JM (2009) Phenotypic plasticity, cellular dynamics, and epithelial turnover of the intestine of Japanese quail (Coturnix coturnix japonica). J Zool 238:53鈥?9CrossRef
Swanson DL (1990) Seasonal variation in cold hardiness and peak rates of cold-induced thermogenesis in the dark-eyed junco, Junco hyemalis. Auk 107:561鈥?66
Swanson DL (2001) Are summit metabolism and thermogenic endurance correlated in winter- acclimatized passerine birds? J Comp Physiol B 171:475鈥?81CrossRef PubMed
Swanson DL (2010) Seasonal metabolic variation in birds: functional and mechanistic correlates. In: Thompson CF (ed) Current Ornithology. Springer, Berlin, pp 75鈥?29
Swanson DL, Merkord C (2013) Seasonal phenotypic flexibility of flight muscle size in small birds: a comparison of ultrasonography and tissue mass measurements. J Ornithol 154:119鈥?27CrossRef
Swanson DL, Zhang YF, Liu JS, Merkord CL, King MO (2014) Relative roles of temperature and photoperiod as drivers of metabolic flexibility in dark-eyed juncos. J Exp Biol 217:866鈥?75CrossRef PubMed
V茅zina F, Jalvingh K, Dekinga A, Piersma T (2006) Acclimation to different thermal conditions in a northerly wintering shorebird is driven by body mass-related changes in organ size. J Exp Biol 209:3141鈥?154CrossRef PubMed
Weathers WW, Caccamise F (1978) Seasonal acclimatization to temperature in monk parakeets. Oecologia 35:173鈥?83CrossRef
Wiersma P, Mu帽oz-Garcia A, Walker A, Williams JB (2007) Tropical birds have a slow pace of life. Proc Natl Acad Sci 104:9340鈥?345CrossRef PubMed Central PubMed
Wikelski M, Spinney L, Schelsky W, Scheuerlein A, Gwinner E (2003) Slow pace of life in tropical sedentary birds: a common-garden experiment on four stonechat populations from different latitudes. Proc R Soc Lond B 270:2383鈥?388CrossRef
Wu MS, Xiao YC, Yang F, Zhou LM, Zheng WH, Liu JS (2014) Seasonal variation in body mass and energy budget in Chinese bulbuls (Pycnonotus sinensis). Avian Res 5:4CrossRef
Wu MX, Zhou LM, Zhao LD, Zhao ZJ, Zheng WH, Liu JS (2015) Seasonal variation in body mass, body temperature and thermogenesis in the Hwamei, Garrulax canorus. Comp Biochem Physiol A 179:113鈥?19CrossRef
Xia SS, Yu AW, Zhao LD, Zhang HY, Zheng WH, Liu JS (2013) Metabolic thermogenesis and evaporative water loss in the Huamei Garrulax canorus. J Therm Biol 38:576鈥?81CrossRef
Yuni LPEK, Rose RW (2005) Metabolism of winter-acclimatized New Holland honeyeaters Phylidonyris novaehollandiae from Hobart, Tasmania. Acta Zool Sin 51:338鈥?43
Zheng GM, Zhang CZ (2002) Birds in China. China Forestry Publishing House, Beijing
Zheng WH, Li M, Liu JS, Shao SL (2008a) Seasonal acclimatization of metabolism in Eurasian tree sparrows (Passer montanus). Comp Biochem Physiol A 151:519鈥?25CrossRef
Zheng WH, Liu JS, Jang XH, Fang YY, Zhang GK (2008b) Seasonal variation on metabolism and thermoregulation in Chinese bulbul. J Therm Biol 33:315鈥?19CrossRef
Zheng WH, Lin L, Liu JS, Pan H, Cao MT, Hu YL (2013a) Physiological and biochemical thermoregulatory responses of Chinese bulbuls Pycnonotus sinensis to warm temperature: Phenotypic flexibility in a small passerine. J Therm Biol 38:483鈥?90CrossRef
Zheng WH, Lin L, Liu JS, Xu XJ, Li M (2013b) Geographic variation in basal thermogenesis in little buntings: Relationship to cellular thermogenesis and thyroid hormone concentrations. Comp Biochem Physiol A 164:240鈥?46CrossRef
Zheng WH, Li M, Liu JS, Shao SL, Xu XJ (2014a) Seasonal variation of metabolic thermogenesis in Eurasian tree sparrows Passer montanus over a latitudinal gradient. Physiol Biochem Zool 87:704鈥?18CrossRef PubMed
Zheng WH, Liu JS, Swanson DL (2014b) Seasonal phenotypic flexibility of body mass, organ masses, and tissue oxidative capacity and their relationship to RMR in Chinese bulbuls. Physiol Biochem Zool 87:432鈥?44CrossRef PubMed
Zungu MM, Brown M, Downs CT (2013) Seasonal thermoregulation in the burrowing parrot (Cyanoliseus patagonus). J Therm Biol 38:47鈥?4CrossRef PubMed - 作者单位:Lidan Zhao (1)
Runmei Wang (1)
Yunan Wu (1)
Mengsi Wu (1)
Weihong Zheng (1) (2)
Jinsong Liu (1) (2)
1. School of Life and Environmental Sciences, Wenzhou University, Wenzhou, 325035, China
2. Key Laboratory of Water Environment and Marine Biological Resources Protection in Zhejiang Province, Wenzhou University, Wenzhou, 325035, China - 刊物类别:Zoology;
- 刊物主题:Zoology;
- 出版者:BioMed Central
- ISSN:2053-7166
文摘
Background Acclimatization to winter conditions is an essential prerequisite for survival of small passerines of the northern temperate zone. In the present study, we measured diurnal variations in body mass, body temperature and basal metabolic rate (BMR) for seasonally acclimatized Hwameis (Garrulax canorus).