刺鼠(Niviventer coxingi)及高山白腹鼠(Niviventer culturatus)溫度生理與其海拔分佈之比較

Ya-Ting Chen; 陳雅婷

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75166

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.author	Ya-Ting Chen	en
dc.contributor.author	陳雅婷	zh_TW
dc.date.accessioned	2021-07-01T08:12:04Z	-
dc.date.available	2021-07-01T08:12:04Z	-
dc.date.issued	2001
dc.identifier.citation	王德華、王祖望(1989)。小哺乳動物在高寒環境中的生存對策：Ⅰ高原鼠兔跟根田鼠非顫抖性產熱(NST)的季節性變化。獸類學報，10 (1): 41-53。王德華、王祖望、奉勇(1991) 小哺乳動物在高寒環境中的生存對策：Ⅲ甘肅鼠兔的熱能調節及高寒地區小哺乳動物對環境的適應趨同。高寒草甸生態系統，3 : 125-137。伍淑蕙(1999)。台灣大學附設山地實驗農場梅峰地區植物相與植群之研究。國立台灣大學森林學研究所碩士論文，198頁。李玲玲、張簡琳玟、鄭錫奇、李筠筠(1992)。太魯閣國家雄園囓齒類動物相調查。太魯閣國家雄園管理處，72頁。宗浩、夏武平(1987)。高原鼠兔(Ochotona curzoniae)和達烏爾鼠兔(Ochotona daurica)的晝夜活動節律與能量代謝的研究及比較—關於兩種鼠兔的功能性分類的探討。高原生物學集刊6 : 105-114 林良恭、歐保羅、於名振(1987)。阿里山遊樂區小型哺乳動物之調查。東海學報，28 : 669-682。林德恩(1998)。不同海拔梭德氏赤蛙蝌蚪耗氧量的比較。國立台灣大學動物學研究所碩士論文，69頁。馮祚建(1997)。高原動物對特殊環境的適應。海峽兩岸自然保育與生物地理研討會論文集，15-36頁。張仕緯(1991)。面天山區刺鼠(Niviventer coxingi)之族群生態研究。國立台灣大學動物學研究所碩士論文，53頁陳德治(1999)。溫泉與冷水域日本樹蛙的生殖及其蝌蚪溫度生理學之比較。國立台灣大學動物學研究所碩士論文，59頁曾縉祥、王祖望、師治賢(1984)。高山地區高原鼢鼠的代謝特點與若干生理指標的觀察。高原生物學集刊。3 : 163-171。裴家騏(1993)。刺鼠的日活動模式。野生動物保育彙報及通訊。1(2) : 4-5。劉一新(1990)。溪頭地區赤腹松鼠及刺鼠族群跟棲地關係之研究。國立台灣大學森林所碩士論文，54頁。劉炯錫(1990)。陽明山國家雄園菜雄坑山區囓齒動物與植物社會關係之研究。國立台灣大學森林所碩士論文，67頁。蘇建平、王祖望、胡曉梅(1991)。高原鼢鼠的基礎代謝和非顫抖性產熱及其在冷適應中的意義。高寒草甸生態系統，3 : 139-147。 Bouverot, P. (1985). Adaptation to altitude-hypoxia in vetebrates. Springer-Verlag Berlin Heidelberg press, pp.179. Brattstrom, B. H. (1968). Thermal acclimation in anuran amphibians as a function of latitude and altitude. Comp. Biochem. Physiol., 24 : 93-111. Chappell, M. A. & G. A. Bartholomew. (1981). Activity and thermo-regulation of the antelope ground squirrel Ammospermophilus leucurus in winter and summer. Physiol. Zool., 54(2) : 215-223. Claussen, D. L. (1977). Thermal acclimation in Ambystomatid salamanders. Comp. Biochem. Physiol., 58A : 333-340. Depocas, F. & J. S. Hart. (1957). Use of the Pauling oxygen analyser for measurement of oxygen consumption of animals in open-circuit systems and in short-lag, closed-circuit apparatus. J. Appl. Physiol., 10 : 388-392. Elgar, M. A. & P. H. Harvey. (1987). Basal metabolic rates in mammals: allometry, phylogeny and ecology. Func. Ecol., 1 : 25-36. Feder, M. E. (1982). Effect of developmental stage and body size on oxygen consumption of anuran larvae : a reappraisal. J. Exp. Zool., 220 : 33-42. Gettinger, R. D. (1975). Metabolism and themoregulation of a fossorial rodent, the northerm pocket gopher (Thomomys talpoides). Physiol. Zool., 48 : 311-322. Goodfriend, W., D. Ward & A. Subach. (1991). Standard operative temperatures of two desert rodents, Gerbillus allenbyi and Gerbillus pyramidum : the effects of mophology, microhabitat and environmental factors. J. Therm. Biol., 16(3): 157-166. Gordon, C. J. (1993). Temperature regulation in laboratory rodents. Cambridge University Press, pp.223. Hayes, J. P. (1989). Field and maximal metabolic rates of deer mice (Peromyscus maniculatus) at low and high altitudes. Physiol. Zool., 62(3) : 732-744. Hayssen, V. & R. C. Lay. (1985). Basal metabolic rates in mammals: taxonomic differences in the allometry of BMR and body mass. Comp. Biochem. Physiol., 81A : 741-754. Heller, H. C. & D. M. Gates. (1971). Altitudinal zonation of chipmunks (Eutamias): energy budgets. Ecology., 52(3) : 424-433. Hill, R.W. (1972). Determination of oxygen consumption by use of the paramagnetic oxygen analyser. J. Appl. Physiol., 33 : 261-262. Hock, R. J. & J. C. Robert. (1966). Effect of altitude on oxygen consumption of deer mice : relation of temperature and season. Can. J. Zool., 44: 365-369. Hou. P-CL & S-P Huang. (1999). Metabolic and ventilatory respones to hypoxia in two altitudinal populations of the toad, Bufo bankorensis. Comp. Biochem. Physiol., 124A : 413-421. Huey, R. B. (1991). Physiological consequences of habitat selection. Amer Natur., 137 : 91-115. Hutchison, V. H. (1980). The concept of critical thermal maximum. Am. J. Physiol., 237R : 367-368. Iverson, S. L. & B. N. Turner. (1974). Winter weight dynamics in Microtus pennsylvanicus. Ecology, 55 : 1030-1041. Kingsolver, J. G. & R. B. Huery. (1998). Evolutionary analyses of morphological plasticity in thermally variable environments. Amer. Zool., 38 : 545-560. Lovegrove, B. G. (1987). Thermoregulation in the subterranean rodent georychus capensis (Rodentia: Bathyergidae). Physiol. Zool. 60(1):174-180 Lovegrove, B. G. (2000). The zoogeography of mammalian basal metabolic rate. American Naturalist, 156(2) : 201-219. McNab, B. K. (1963). A model of the energy budget of a wild mouse. Ecology, 44 : 521-532. McNab, B. K. (1966). The matabolism of fossorial rodents : A study of convergence. Ecology, 47(5) : 712-733. McNab, B. K. (1980). On estimating thermal conductance in endotherms. Physiol Zool., 53(2) : 145-156. McNab, B. K. (1988). Complications inherent in scaling the basal rate of metabolism in mammals. The Quaterly Review of Biology, 63(1) : 25-54. Mcnab B K. (1992). The comparative energetics of rigid endothermy the Arvicolidae. J. Zool. (London), 227 (4),: 585-606. McNab, B. K. (1995). Energy expenditure and conservation in frugivorous and mixed-diet carnivorans. J. Mamml., 76(1) : 206-222. McNab, B. K. & P. Morrison. (1963). Body temperature and metabolism in subspecies of Peromyscus from arid and mesic environment. Ecol. Mono. 33 : 63-82. Musser, G. G. (1981). Notes on systematics of Indo-Malayan Murid rodents, and descriptions of new genera and species from Ceylon, Sulawesi, and the Philippines. Bull. Amer. Mus. Nat. Hist., 168 : 229-234. Navas, C. A. (1997). Thermal extremes at high elevations in the Andes : physiological ecology of frogs. J. Therm. Biol., 22(6) : 467-477. Pauls, R. W. (1979). Body temperature dynamics of the red squirrel (Tamiasciurus hudsonicus) : adaptations for energy conservation. Can. J. Zool., 57(7) : 1349-1354. Pauls, R. W. (1981). Energetics of the red squirrel : a laboratory study of the effects of temperature, seasonal acclimation, use of the nest and exercise. J. Therm. Biol., 6 : 79-86. Pearson, O. P. (1947). The rate of metabolism of some small mammals. Ecology, 28 : 127-145. Plessis, A. D., T. Eramus & G. I. H. Kerly. (1989). Thermoregulatory patterns of two sympatric rodnts : Otomys unisulcatus and Parotomys brantsii. Comp. Biochem. Physiol., 94A(2) : 215-220. Richter, T. A., P. I. Webb & J. D. Skinner. (1997). Limits to the distribution of the southern African ice rat (Otomys sloggetti) : Thermal physiology or competitive exclusion Func. Ecol., 11(2) : 240-246. Schmidt-Nielsen, K. (1975). Scaling in biology : the consequences of size. J. Exp. Biol., 194 : 287-308. Schmidt-Nielsen, K. (1997). Animal physiology — adaptation and environment. Cambridge University Press, pp.198. Stanier, M. W. & L. E. Mount. (1984). Energy balance and temperature regulation. Cambridge University Press, pp.151 Wang, D. & Z. Wang. (1996). Seasonal Variations in thermogenesis and energy requirements of plateau pikas Ochotona curzoniae and root voles Microtus oeconomus. Acta Theriologica., 41(3) : 225-236. Weiner, J. & G. Heldmaier (1986). Metabolism and thermoregulation in two caces of djungaian hamsters : Phodopus sungorus sungorus and P.s. campbelli. Comp. Biochem. Physiol., 86A(4) : 639-642. Wolton, R. J. (1983). The activity of free-ranging wood mice Apodemus sylvaticus. J. Anim. Ecol., 52 : 781-794. Wynne-Edwards, K. E. (1998). Evolution of parental care in Phodopus : Conflict between adaptations for survival and adaptations for rapid reproduction. Amer. Zool., 38 : 238-250. Yu, H. T., Y. P. Fang, C. W. Chou, S. W. Huang & F. H. Yew (1996). Chromosomal evolution in three species of Murid rodents of Taiwan. Zool. Studies., 35(3) : 195-199.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75166	-
dc.description.abstract	溫度生理的適應是影響動物海拔分佈的因數之一，其中能代表溫度生理的特質包括基礎代謝率(Basal metabolic rate, BMR)、溫度中性區(Thermal neutral zone, TNZ)及耐受溫度(Critical temperature)等。刺鼠(Niviventer coxingi)與高山白腹鼠(Niviventer culturatus)同屬於囓齒目(Rodentia)中的鼠科(Muridae)白腹鼠屬(Niviventer)，刺鼠主要分佈於中低海拔，而高山白腹鼠則出現在中高海拔地區。本實驗之目的是比較刺鼠與高山白腹鼠溫度生理的異同，並討論其對兩種鼠類海拔分佈的影響。實驗對象主要是1998年九月到2000年四月間不同季節取自南投梅峰的高山白腹鼠與臺北陽明山的刺鼠，另外亦有從觀霧、棲蘭、阿里山及梅蘭林道等中海拔地區捕捉零星個體，共84隻刺鼠與高山白腹鼠，測量的項目包括代謝率，TNZ及CTmax (maximum critical temperature)等。實驗結果發現高山白腹鼠的代謝率有明顯的季節性變化，而刺鼠代謝率的季節變化不明顯；春夏季時高山白腹鼠的代謝率較刺鼠低，但秋冬時高山白腹鼠的代謝率會高過刺鼠。刺鼠的TNZ範圍較寬(8℃)，高山白腹鼠較窄(6℃)，且TNZ高點都以刺鼠為高，呈現出刺鼠的溫度適應性較強及高山白腹鼠較不適應高溫環境的特徵，在CTmax與體溫的比較上，刺鼠也表現出對高溫有較佳的適應能力。由此推測環境溫度過高對高山白腹鼠來說是一項限制因數。	zh_TW
dc.description.abstract	Thermal physiology, e.g. basal metabolic rate (BMR), thermal neutral zone (TNZ) and critical temperature, can be an important factor that influence the altitudinal distribution of animals. In Taiwan, Niviventer coxingi lives at low to middle altitude, whereaver N. culturatus a congener lives at high to middle altitude. They may live sympatrically at altitude of l500?2000m. This study was designed to compare their thermal physiology and to examine how this may affect in their altitudinal distribution. The animals used in this study were captured at Nantou Hsien Mei-feng farm (N. culturatus) and Yangmeanshan (N. coxingi) in different seasons from Sept 1998 to Apr. 2000. A few others were captured in Kuan-wu, Chilan, Alishan and Meilan. Altogether 84 rats were used. This animals were measured for their metabolic rate, TNZ and CTmax (maximum critical temperature). The results indicated that the BMR varies significantly with season in N. culturatus but not in N. coxingi. In spring and summer, the BMR of N. culturatus is lower than that of N. coxing, but it is reverse in fall and winter. The TNZ of N. coxingi (8℃) are wider than N. culturatus(6℃), and the high temperature of TNZ in N. coxingi is always higher than that of N. culturatus .These results indicate that N. coxingi can adapt to higher temperature, but not N. culturatus . Some results were shown in CTmax and body temperature. According to these results, the high environment temperature may be a limiting factor in altitudinal distribution of N. culturatus.	en
dc.description.provenance	Made available in DSpace on 2021-07-01T08:12:04Z (GMT). No. of bitstreams: 0 Previous issue date: 2001	en
dc.description.tableofcontents	前言……………………………………………………………………………………………………………………1 材料與方法……………………………………………………………………………………………………………5 一、實驗動物及採集地點…………………………………………………………………………………………5 (一) 梅峰農場 …………………………………………………………………………………………………5 (二) 陽明山國家公園 …………………………………………………………………………………………6 (三) 其他捕捉地點 ……………………………………………………………………………………………7 二、實驗流程………………………………………………………………………………………………………7 (一) 基礎代謝率 ………………………………………………………………………………………………8 (二) CTmax與體溫上限之測量…………………………………………………………………………………10 (三) 統計分析 …………………………………………………………………………………………………11 結果……………………………………………………………………………………………………………………13 1、基礎代謝率 ……………………………………………………………………………………………………13 (l) 刺鼠…………………………………………………………………………………………………………13 (2) 高山白腹鼠…………………………………………………………………………………………………14 (3) 刺鼠與高山白腹鼠之比較…………………………………………………………………………………15 2、TNZ的季節變化…………………………………………………………………………………………………15 (l) 刺鼠…………………………………………………………………………………………………………15 (2) 高山白腹鼠…………………………………………………………………………………………………16 (3) 刺鼠與高山白腹鼠之比較…………………………………………………………………………………16 3、體溫變化 ………………………………………………………………………………………………………16 4、CTmax……………………………………………………………………………………………………………17 (l) 刺鼠…………………………………………………………………………………………………………17 (2) 高山白腹鼠…………………………………………………………………………………………………17 (3) 刺鼠與高山白腹鼠之比較…………………………………………………………………………………18 (4) CTmax 與形質特徵上的關係………………………………………………………………………………18 5、體溫上限 ………………………………………………………………………………………………………18 (l) 刺鼠…………………………………………………………………………………………………………19 (2) 高山白腹鼠…………………………………………………………………………………………………19 (3) 刺鼠與高山白腹鼠之比較…………………………………………………………………………………19 討論……………………………………………………………………………………………………………………21 1、基礎代謝率 ……………………………………………………………………………………………………21 2、TNZ………………………………………………………………………………………………………………25 3、Ctmax與體溫變化………………………………………………………………………………………………26 4、影響兩者海拔分佈的可能原因 ………………………………………………………………………………27 參考文獻………………………………………………………………………………………………………………29 表………………………………………………………………………………………………………………………36 圖………………………………………………………………………………………………………………………44
dc.language.iso	zh-TW
dc.title	刺鼠(Niviventer coxingi)及高山白腹鼠(Niviventer culturatus)溫度生理與其海拔分佈之比較	zh_TW
dc.title	Thermal physiology of Niviventer coxingi and N.culturatus and its relationship with their altitudinal distribution	en
dc.date.schoolyear	89-2
dc.description.degree	碩士
dc.relation.page	49
dc.rights.note	未授權
dc.contributor.author-dept	生命科學院	zh_TW
dc.contributor.author-dept	動物學研究所	zh_TW
顯示於系所單位：	動物學研究所

文件中的檔案：

沒有與此文件相關的檔案。

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。