福山試驗林大赤鼯鼠（Petaurista petaurista）之食性、活動範圍及活動模式

Chi-Chien Kuo; 郭奇芊

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75064

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.author	Chi-Chien Kuo	en
dc.contributor.author	郭奇芊	zh_TW
dc.date.accessioned	2021-07-01T08:11:40Z	-
dc.date.available	2021-07-01T08:11:40Z	-
dc.date.issued	1999
dc.identifier.citation	王立言，1987。溪頭地區大赤鼯鼠之行為及生態研究。國立台灣大學動物學研究所碩士論文。37頁。台灣省林業試驗所，1989。台灣省林業試驗所福山試驗林原生植物名錄。林試所林業叢刊，No 29。李培芬，1983。大赤鼯鼠之生殖與生態研究。國立台灣大學動物學研究所碩士論文。73頁。呂勝由，陳舜英，1996。香楠及霧社楨楠地理分佈與分類之研究。台灣林業科學，11(3):239-244．林則桐，1994。福山試驗林植被之研究。全球變遷：福山森林生態系長期研究。行政院國家科學委員會。林國詮，黃吳清標，劉哲政。1997。福山試驗林天然闊葉樹之物候現象。台灣林業科學，12(3):347-353．周蓮香，1997。鳥類族群與棲地之關係（一）。福山森林生態系研究。行政院國家科學委員會。柳榗，1968。台灣植物群落分類之研究（I）：台灣植物群系之分類。林業試驗所試驗報告第166號。25頁。堀川安市，1932。台灣哺乳動物圖說。台灣博物學會發行。109頁。郭城孟，1997。福山地區森林植群及物候之研究。全球變遷：福山森林生態系長期研究。行政院國家科學委員會。陳兼善（著），於名振（增益）。1984。台灣脊椎動物誌（下）。台灣商務印書館。633頁。張豐緒、王鑫、王穎、林曜松、呂光洋、劉小如、徐國士，1986。哈盆地區自然資源之調查。行政院農業委員會。102頁。 Agetsuma, N. 1995. Dietary selection by Yakushima macaques (Macaca fuscata yakui): the influence of food availability and temperature. Int. J. Primatol., 16(4): 611-627. Aide, T. M. 1988. Herbivory as a selective agent on the timing of leaf production in a tropical understory community. Nature, 336: 574-575. Altmann, J. 1974. Observational study of behavior: sampling method. Behaviour, 49(3-4): 227-265. Anderson, D. J. 1982. The home range: a new nonparametric estimation technique. Ecology, 63: 103-112. Ando, M. & S. Shiraishi. 1993. Gliding flight in the Japanese giant flying squirrel Petaurista leucogenys. J. Mamm. Soc. Japan 18(1): 19-32. Ando, M., Funakoshi, K. & S. Shiraishi. 1983. Use patterns of nests by the Japanese giant flying squirrel, Petaurista leucogenys. Sci. Bull. Fac. Agr., Kyushu Univ. 38(1): 27-43. (in Japanese, English abstract). Ando, M., Shiraishi, S. & T. A. Uchida. 1985. Food habits of the Japanese giant flying squirrel, Petaurista leucogenys. J Fac. Agr., Kyushu Univ., 29(4): 189-202. Baba, M., Doi, T. & Y. Ono. 1982. Home range utilization and nocturnal activity of the giant flying squirrel, Petaurista leucogenys. Jap. J. Ecol. 32: 189-198. Bendel, P. R. & J. E. Gates. 1987. Home range and microhabitat partitioning of the southern flying squirrel (Glaucomys volans). J. Mamm., 68(2): 243-255. Boulanger, J. G. & G. C. White. 1990. A comparison of home-range estimators using Monte Carlo simulation. J. Wildl. Manage., 54: 310-315. Carey, A. B., Wilson, T. M., Maguire, C. C. & B. L. Biswell. 1997. Dens of northern flying squirrels in the Pacific northwest. J. Wildl. Manage., 61(3): 684-699. Caster, P. T., Heidt, G. A. & K. D. Stone. 1994. Faunal use of nest boxes in the Ouachita mountains of central Arkansas. Southw. Nat., 39(4): 380-382. Chapman, C. A. 1987. Flexibility in diets of three species of Costa Rican primates. Folia Primatol., 49: 90-105. Chapman, C. A. & L. J. Chapman. 1990. Dietary variability in primate populations. Primates, 31(1): 121-128. Clark, D. B. & D. A. Clark. 1991. Herbivores, herbivory, and plant phenology: patterns and consequences in a tropical rain-forest cycad. pp, 209-225, in Price, P. W., Lewinsohn, T. M., Fernandes, G. W. & W. R. Benson (eds.), Plant-animal interactions: evolutionary ecology in tropical and temperate regions. John Wiley & Sons, Inc. New York. Clutton-Brock, T. H. 1975. Feeding behaviour of red colobus and black and white colobus in East Africa. Folia Primatol., 23: 165-207. Clutton-Brock, T. H. 1977. Some aspects of intraspecific variation in feeding and ranging behavior in primates. pp. 539-556. in T. H. Clutton-Brock (eds.), Primate ecology. Academic Press, London. Coley, P. D. & J. A. Barone. 1996. Herbivory and plant defenses in tropical forests. Annu. Rev. Ecol. Syst., 27: 305-335. Corbet, G. B. & J. E. Hill. 1991. A world list of mammalian species. 3rd ed. Oxford University Press, Oxford. Corbet. G. B. & J. E. Hill. 1992. The mammals of the Indomalayan region: a systematic review. Oxford University Press, Oxford. Cork, S. J. & W. J. Foley. 1991. Digestive and metabolic strategies of arboreal mammalian folivores in relation to chemical defenses in temperate and tropical forests. pp. 134-166. in Palo, R. T. & C. T. Robbins (eds.), Plant defenses against mammalian herbivory. Boca Raton: CRP Press. Cowan, I. McT. 1936. Nesting habits of the flying squirrel Glaucomys sabrinus. J. Mamm., 17: 58-60. Dasilva, G. L. 1992. The western black-and-white colobus as a low-energy strategist: activity budgets, energy expenditure and energy intake. J. Anim. Ecol., 61: 79-91. Dasilva, G. L. 1994. Diet of Colobus polykomos on Tiwai island: selection of food in relation to its seasonal abundance and nutritional quality. Int. J Primatol., 15(5): 655-680. Davies, A. C., Bennett, E. L. & P. G. Waterman. 1988. Food selection by two south-east Asian colobine monkeys (Prebytis rubicunda and Prebytis melalophos) in relation to plant chemistry. Biol. J. Linn. Soc., 34: 33-56. DeCoursey, P. J. 1960. Phase control of activity in a rodent. Cold Spring Harbor Symp. Quant. Biol., 25: 49-55. DeCoursey, P. J. 1961. Effects of light on the circadian activity rhythm of the flying squirrel, Glaucomys volans. Z Vergl. Physiol., 44: 331-354. Dixon, K. D. & J. A. Chapman. 1980. Harmonic mean measure of animal activity areas. Ecology, 61: 1040-1044. Dolan, P. G. & D. C. Carter. 1977. Glaucomys volans. Mamm. Species, 78:1-6. Doran, D. 1997. Influence of seasonality on activity pattern, feeding behavior, ranging, and grouping patterns in Ta? chimpanzees. Int. J. Primatol., 18(2): 183-206. Dunnet, G. M., Harvie, A. E. & T. J. Smit. 1973. Estimating the proportions of various leaves in the diet of the opposum Trichosurus vulpecula Kerr, by fecal analysis. J. Applied Ecol., 10: 737-745. Estrada, A. 1984. Resource use by howler monkeys (Alouatta palliata) in the rain forest of Los Tuxtlas, Veracruz, Mexico. Int. J Primatol., 5(2):105-131. Freeland, W. J. & D. H. Janzen. 1974. Strategies in herbivory by mammals: the role of plant secondary compounds. Am. Nat., 108: 269-289. Fridell, R. A. & J. A. Litvaitis. 1991. Influence of resource distribution and abundance on home-range characteristics of southern flying squirrels. Can. J. Zool., 69: 2589-2593. Garber, P. A. 1987. Foraging strategies among living primates. Annu. Rev. Anthropol., 16: 339-364. Gilmore, R. M. & J. E. Gates. 1985. Habitat use by the southern flying squirrel at a hemlock-northern hardwood ecotone. J. Wildl. Manage., 49(3): 703-710. Glander, K. E. 1982. The impact of plant secondary compounds on primate feeding behaviour. Y. Phs. Anthropol., 25:1-18. Hall, D. S. 1991. Diet of the northern flying squirrel at Sagehen creek, California. J. Mamm., 72(3): 615-617. Harris, S., Creswell, W. J., Forde, P. G., Trewella, W. J., Woodland, T. & S. Wray. 1990. Home-range analysis using radio-tracking data: a review of problems and techniques particularly as applied to the study of mammals. Mamm. Review, 20: 97-123. Harrison, M. J. S. 1984. Optimal foraging strategies in the diet of the green monkey, Cercopithecus sabaeus, at Mt. Assirik, Senegal. Int. J. Primatol., 5(5): 435-471. Harvey, M. J. & R. W. Barber. 1965. Home range of Microtus ochrogaster as determined by a modified minimum area method. J. Mamm., 46: 398-408. Hayward, G. D. & R. Rosentreter. 1994. Lichens as nesting material for northern flying squirrels in the nothern Rocky Mountain. J. Mamm., 75(3): 663-673. Heidt, G. A. 1977. Utilization of nest boxes by the southern flying squirrel, Glaucomys volans, in central Arkansas. Proc. Arkansas Acad. Sci., 31: 55-57. Janzen, D. H. 1978. Complications in interpreting the chemical defenses of trees against tropical arboreal plant-eating vertebrates. pp. 73-84. in G. G. Montgomery (eds.), The ecology of arboreal folivores. Smithsonian Institution Press, Washington, D. C.. Jaremovic, R. V. & D. B. Croft. 1987. Comparison of techniques to determine eastern gray kangaroo home range. J. Wildl. Manage., 51(4): 921-931. Kawamichi, T. 1997. Seasonal changes in the diet of Japanese giant flying squirrels in relation to reproduction. J. Mamm., 78(1): 204-212. Kenward, R. 1990. RANGES IV. Software for analyzing animal location data. Inst. Terrestrial Ecol., Wareham, U.K. Kleiber, M. 1961. The fire of life: an introduction to animal energetics. John Wiley Press, New York. Kool, K. M. 1993. The diet and feeding behavior of the silver leaf monkey (Trachypithecus auratus sondaicus) in Indonesia. Int. J. Primatol., 14(5): 667-700. Layne, J. N. & M. A. V. Raymond. 1994. Communal nesting of southern flying squirrels in Florida. J. Mamm., 75(1): 110-120. Lee, G. E., White, G. C., Carrott, R. A., Bartmann, R. M. & A. W. Alldredge. 1985. Accessing accuracy of a radiotelemetry system for estimating animal locations. J. Wildl. Manage., 49: 658-663. Lee, L. L. 1994. Long-term ecological research in Fushan forest-mammal community. pp. 433-440, in Peng, C. I. & C. H. Chou (eds.), Biodiversity and terrestrial ecosystems. Institute of Botany, Academia Sinica Monograph Series No. 14, Taipei. Lee, P. F. 1998. Body size comparison of two giant flying squirrel species in Taiwan. Acta Zool. Taiwanica, 9(1): 51-57. Lee, P. F., Progulske, D. R. & Y. S. Lin. 1986. Ecological studies on two sympatric Petaurista species in Taiwan. Bull. Inst. Zool, Academic Sinica, 25(2): 113-124. Lehner, P. N. 1979. Handbook of ethological methods. Garland STPM Press. New York & London. Lindenmayer, D. B., Welsh, A., Donnelly, C. F. & R. A. Meggs. 1996. Use of nest trees by the mountain brushtail possum (Trichosurus caninus) (Phalangeridae: Marsupialia). I. Numbers of occupied trees and frequency of tree use. Wildl. Res., 23: 343-361. Lindroth, R. L. 1988. Adaptations of mammalian herbivores to plant chemical defences. pp. 415-445, in Spencer, K. C. (eds.), Chemical mediation of coevolution. Academic Press, San Diego. Loeb, S. C. 1993. Use and selection of red-cockaded woodpecker cavities by southern flying squirrels. J. Wildl. Manage., 57(2): 329-335. Mace, G. M., Harvey, P. H. & T. H. Clutton-Brock. 1984. Vertebrate home range size and energetic requirements. pp. 32-53, in Swingland, I. R. & P. J. Greenwood (eds.), The ecology of animal movement. Oxford University Press, Oxford. Madden, J. R. 1974. Female territoriality in a Sulfolk County, Long Island, population of Glaucomys volans. J. Mamm., 55: 647-652. Martin, P. & P. Bateson. 1993. Measuring behaviour: an introductory guide. 2nd ed. Cambridge University Press, Cambridge. Maser, C., Maser, Z., Witt, J. W. & G. Hunt. 1986. The northern flying squirrel: a mycophagist in southwestern Oregon. Can. J Zool., 64: 2086-2089. Maser, Z., Maser, C. & J. M. Trappe. 1985. Food habits of the northern flying squirrel (Glaucomys sabrinus) in Oregon. Can. J. Zool., 63: 1084-1088. McComb, W. C. & R. E. Noble. 1981. Microclimates of nest boxes and natural cavities in bottomland hardwoods. J. Wild. Manage., 45(1): 284-289. McNab, B. K. 1963. Bioenergetics and the determination of home range size. Am. Nat., 97: 133-140. McNab, B. K. 1978. Energetics of arboreal folivores: physiological problems and ecological consequences of feeding on an ubiquitous food supply. pp. 153-162. in G. G. Montgomery (eds.), The ecology of arboreal folivores. Smithsonian Institution Press, Washington, D. C. Mohr, C. O. 1947. Table of equivalent populations of North American small mammals. Am. Mild. Nat., 37: 223-249. Montgomery, G. G. & M. E. Sunquist. 1978. Habitat selection and use by two-toed and three-toed sloths. pp. 329-360. in G. G. Montgomery (eds.), The ecology of arboreal folivores. Smithsonian Institution Press, Washington, D. C. Moore, J. C. 1947. Nests of the Florida flying squirrel. Am. Mild. Nat., 38: 248-253. Murdoch, W. W. 1969. Switching in general predators: experiments on predator specificity and stability of prey population. Ecol. Monogr., 39: 335-354. Muul, I. 1968. Behavioral and physiological influences on the distribution of the flying squirrels, Glaucomys volans. Misc. Publ., Mus. Zool. Univ. Michigan, 134: 1-66. Muul, I. 1974. Geographic variation in the nesting habits of Glaucomys volans. J. Mamm., 55(4):840-844. Muul, I. & B. L. Lim. 1978. Comparative morphology, food habits, and ecology of some Malaysian arboreal rodents. pp. 361-368. in G. G. Montgomery (eds.), The ecology of arboreal folivores. Smithsonian Institution Press, Washington, D. C.. Nowak, R. M. 1991. Walker's mammals of the world. 5th ed. Volume 2. The Johns Hopkins University Press, Baltimore. Oates, J. F. 1987. Food distribution and foraging behavior. pp. 197-209. in Smuts, D. L., Cheney, D. L., Seyfarth, R. M., Wrangham, R. W. & T. T. Struhsaker (eds.), Primate societies. The University of Chicago Press, Chicago. Oates, J. F. 1988. The diet of Olive colobus monkey, Procolobus verus, in Sierra Leone. Int. J. Primatol., 9(5): 457-478. Opler, P. A. 1978. Interaction of plant life history components as related to arboreal herbivory. pp, 23-32, in G. G. Montgomery (eds.), The ecology of arboreal folivores. Smithsonian Institution Press, Washington, D. C.. Parra, R. 1978. Comparison of foregut and hindgut fermentation in herbivores. pp, 205-230, in G. G. Montgomery (eds.), The ecology of arboreal folivores. Smithsonian Institution Press, Washington, D. C.. Peres, C. A. 1994. Diet and feeding ecology of gray woolly monkeys (Lagothrix lagotricha cana) in central Amazonia: comparisons with other Atelines. Int. J. Primatol., 15(3): 333-372. Pielou, E. C. 1966. The measurement of diversity in different types of biological collections. J Theoret. Biol., 13: 131-144. Quin, D. G., Smith, A. P., Green, S. W. & H. B. Hines. 1992. Estimating the home ranges of sugar gliders (Petaurus breviceps) (Marsupialia: Petauridae), from grid-trapping and radiotelemetry. Wildl. Res., 19: 471-487. Rathcke, B. & E. P. Lacey. 1985. Phenological patterns of terrestrial plants. Ann. Rev. Ecol. Syst., 16: 179-214. Rosentreter, R., Hayward, G. D. & M. Wicklow-Howard. 1997. Northern flying squirrel food habits in the interior conifer forest in central Idaho, USA. Northwest Sci., 71(2): 97-102. Sailer, L. D., Gaulin, S. J. C., Boster, J. S. & J. A. Kurland. 1985. Measuring the relationship between dietary quality and body size in primates. Primates, 26(1): 14-27. Sawyer, S. L. & R. T. Rose. 1985. Homing in and ecology of the southern flying squirrel Glaucomys volans in southeastern Virginia. Am. Mild. Nat., 113 (2): 238-244. Schoener, T. W. 1971. Theory of feeding strategies. Annu. Rev. Ecol. Syst., 2: 369-404. Sonenshine, D. E., Lauer, D. M. Walker, T. C. & B. L. Elisberg. 1979. The ecology of Glaucomys volans in Virginia. Acta Theriol., 24: 363-377. Spencer, W. D. & R. H. Barrett. 1984. An evaluation of the harmonic mean measure for defining carnivore activity areas. Acta Zool. Fennica, 171: 255-259. Stapp, P. 1992. Energetic influences on the life history of Glaucomys volans. J. Mamm., 73(4): 914-920. Stapp, P., Pekins, P. J. & W. W. Mautz. 1991. Winter energy expenditure and the distribution of southern flying squirrel. Can. J. Zool., 69: 2548-2555. Stone, K. D., Heidt, G. A. & P. T. Caster. 1997. Using geographic information systems to determine home range of the southern flying squirrel (Glaucomys volans). Am. Mild. Nat., 137: 106-111. Stoner, K. E. 1996. Habitat selection and seasonal patterns of activity and foraging of mantled howling monkeys (Alouatta palliata) in northeastern Costa Rica. Int. J. Primatol., 17(1): 1-30. T?rm?l?, T., Hokkanen, H. & H. Vuorinen. 1980a. Activity time in the flying squirrel, Pteromys volans, in central Finland. Z. S?ugetierkunde., 45: 225-234. T?rm?l?, T., Vuorinen, H. & H. Hokkanen. 1980b. Timing of circadian activity in the flying squirrel in central Finland. Acta Theriol., 25, 38: 461-474. Watts, D. P. 1998. Seasonality in the ecology and life history of mountain gorillas (Gorilla gorilla beringei). Int. J. Primatol., 19(6): 929-948. Weigl, P. D. 1974. Study of the northern flying squirrel, Glaucomys sabrinus, by temperature telemetry. Am. Mildl. Nat., 92(2): 482-486. Weigl, P. D. 1978. Resource overlap: interspecific interactions and the distribution of the flying squirrels (Glaucomys volans and G. sabrinus). Am. Midl. Nat., 100: 83-96. Wells-Gosling, N. & L. R. Heaney. 1984. Glaucomys sabrinus. Mamm. Species, 229: 1-8. White, F. J. 1998. The importance of seasonality in primatology. Int. J. Primatol., 19(6): 925-927. White, G. & R. A. Garrot. 1990. Analysis of wildlife radio-tracking data. Academic Press, Inc. San Diego. Wilson, D. E. & D. M. Reeder. 1993. Mammal species of the world: a taxonomic and geographic reference. 2nd ed. Smithsonian Institution Press. Washington and London. Witt, J. W. 1992. Home range and density estimates for the northern flying squirrel, Glaucomys sabrinus, in western Oregon. J. Mamm., 73(4): 921-929. Worton, B. J. 1987. A review of models of home range for animal movement. Ecol. Modelling, 38: 277-298. Yanagawa, H., Tanaka, M., Inoue, T & M. Tanighchi. 1991. Annual and daily activities of the flying squirrels, Pteromys volans orii, in captivity. Honyurui Kagaku, 30(2): 157-166. (in Japanese, English abstract). Zabel, C. J. & J. R. Waters. 1997. Food preferences of captive northern flying squirrels from the Lassen National Forest in northeastern California. Northwest Sci., 71(2): 103-107.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75064	-
dc.description.abstract	植物的物候變化除了會影響植食性動物的食性外，亦會改變動物個體的活動模式。但是除了靈長類外，有關物候變化對於食葉性動物有何影響的研究相當稀少，因此本研究的目的除了是想利用直接觀察法以瞭解福山植物園中大赤鼯鼠（Petaurista petaurista）的食性組成及其變化外，亦想得知物候變化對於大赤鼯鼠食性的影響。另外，由於鼯鼠屬（Petaurista）的活動範圍及活動模式資料相當缺乏，因此本研究的另一個目的即是以無線電追蹤法得知大赤鼯鼠活動範圍、活動模式，並探討大赤鼯鼠食性變化對於活動模式的影響。 1997年7月至1998年12月的食性資料顯示大赤鼯鼠共食用了31種植種，其中以長尾尖葉櫧（Castanopsis cuspidata var. carlesii f. sessilis）所佔的比例最高（24.95％），其次依序為雀榕（Ficus superba）（14.67％）及?白饅頭果（Glochidion acuminatum）（12.18％）。植物部位方面則以幼葉（27.7％）被食用的比例最高，其次為成熟葉（24.0％）。由於葉片部位（包括成熟葉、幼葉、芽苞及葉柄）佔全年食性組成比例達74.0％，因此大赤鼯鼠可被視為食葉性動物（folivore），然而大赤鼯鼠的食性有明顯的月變化，其中冬季鼯鼠主要以成熟葉及葉柄為食，芽苞、幼葉及果實則是其春季主要食物來源，而夏，秋季大赤鼯鼠則以幼葉及果實為主食。物候資料顯示當芽苞出現量越多時，大赤鼯鼠食用此部位的比例亦隨之明顯增加（rs＝0.64, P＜0.01）；鼯鼠食用果實的比例則與成熟果實的出現量有正相關趨勢（rs＝0.44, P＝0.06）。另外，當幼葉的存在量增加時，成熟葉及葉柄被食用的比例則會顯著地減少（rs＝-0.47, -0.77; P＜0.05, 0.005）。 1997年10月至1998年11月，共有5隻大赤鼯鼠配戴無線電發報器，包括3隻雄性成體，1隻雌性成體及1隻雄性亞成體。95％最小凸多邊形法及95％調合平均法計算所得的活動範圍平均分別為2.52及3.17公頃，50％調合平均法則顯示5隻大赤鼯鼠的核心活動範圍平均為0.48公頃，其中3隻雄性成體的活動範圍及核心活動範圍均較雌性成體大，雄性亞成體最小。由活動模式變化狀況可看出大赤鼯鼠於下午七時至九時及清晨二時至五時的活動程度最高，日落及日出時間明顯會影響大赤鼯鼠活動高峰開始與結束的時間（rs＝0.90, 0.55, P＜0.001）。分析追蹤時間較長的3隻鼯鼠每晚總活動量與外在環境因數的關係發現溫度、雨量、夜晚長度及鼯鼠食用成熟葉的比例均有可能會影響大赤鼯鼠的活動狀況，但由於追蹤個體不多，因此需要對於較多的鼯鼠進行研究才能夠進一步確知大赤鼯鼠對於環境因數的反應為何。研究期間共觀察到27個大赤鼯鼠曾經使用過的巢穴，其中除了1個是位在枯木中，3個是建在崖薑蕨膨大的基部中外，其餘的均在活樹上。巢穴所在的活樹中以香楠所佔的比例最高（34.8％），且與當地植種組成比較後發現大赤鼯鼠會傾向於選擇香楠築巢（X2 goodness of fit, Yates correction for continuity, X2c＝4.15, P＜0.05），對於其他植種則無明顯的偏好。	zh_TW
dc.description.provenance	Made available in DSpace on 2021-07-01T08:11:40Z (GMT). No. of bitstreams: 0 Previous issue date: 1999	en
dc.description.tableofcontents	摘要……………………………………………………i 前言……………………………………………………1 研究對象描述…………………………………………3 研究地區描述…………………………………………4 材料及方法（一）食性觀察及物候調查…………………………6 （二）捕捉標放及無線電追蹤………………………9 （三）巢穴利用………………………………………12 結果（一）食性……………………………………………13 1 全年食性組成………………………………………13 2 食性月變化…………………………………………14 3 取食部位與物候變化………………………………17 4 植被組成與食性……………………………………17 （二）無線電追蹤……………………………………18 1 活動範圍……………………………………………18 2 定位點分佈狀態……………………………………20 3 移動距離……………………………………………21 4 活動模式……………………………………………21 （三）巢穴利用………………………………………23 討論（一）食性……………………………………………26 1 取樣方法……………………………………………26 2 食性組成及變化……………………………………26 （二）無線電追蹤……………………………………29 1 活動範圍……………………………………………29 2 活動模式……………………………………………31 （三）巢穴利用………………………………………32 參考文獻………………………………………………35 圖………………………………………………………44 表………………………………………………………57 附錄……………………………………………………65
dc.language.iso	zh-TW
dc.title	福山試驗林大赤鼯鼠（Petaurista petaurista）之食性、活動範圍及活動模式	zh_TW
dc.title	Diet, Home Range and Activity Pattern of Red-Giant Flying Squirrel (Petaurista petaurista) in Fushan Experimental Forest	en
dc.date.schoolyear	87-2
dc.description.degree	碩士
dc.relation.page	75
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。