關渡草澤地之巢鼠族群生態及遺傳結構

Show-Yueh Jiang; 姜壽嶽

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/9573

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	林雨德(Yu-Teh Lin)
dc.contributor.author	Show-Yueh Jiang	en
dc.contributor.author	姜壽嶽	zh_TW
dc.date.accessioned	2021-05-20T20:29:22Z	-
dc.date.available	2008-08-04
dc.date.available	2021-05-20T20:29:22Z	-
dc.date.copyright	2008-08-04
dc.date.issued	2008
dc.date.submitted	2008-07-31
dc.identifier.citation	Aars J, Dallas JF, Piertney SB, et al. (2006) Widespread gene flow and high genetic variability in populations of water voles Arvicola terrestris in patchy habitats. Molecular Ecology 15, 1455-1466. Abdelkrim J, Pascal M, Samadi S (2005) Island colonization and founder effects: the invasion of the Guadeloupe islands by ship rats (Rattus rattus). Molecular Ecology 14, 2923-2931. Balloux F, Goudet J (2002) Statistical properties of population differentiation estimators under stepwise mutation in a finite island model. Molecular Ecology 11, 771-783. Bence SL, Stander K, Griffiths M (2003) Habitat characteristics of harvest mouse nests on arable farmland. Agriculture Ecosystems & Environment 99, 179-186. Berthier K, Charbonnel N, Galan M, Chaval Y, Cosson JF (2006) Migration and recovery of the genetic diversity during the increasing density phase in cyclic vole populations. Molecular Ecology 15, 2665-2676. Boonstra R (1994) Population-Cycles in Microtines - the Senescence Hypothesis. Evolutionary Ecology 8, 196-219. Bowen BS (1982) Temporal Dynamics of Microgeographic Structure of Genetic-Variation in Microtus-Californicus. Journal of Mammalogy 63, 625-638. Briani DC, Palma ART, Vieira EM, Henriques RPB (2004) Post-fire succession of small mammals in the Cerrado of central Brazil. Biodiversity and Conservation 13, 1023-1037. Buckley J (1977) Barn Owl Predation on Harvest Mouse. Mammal Review 7, 117-121. Churchfield S, Hollier J, Brown VK (1997) Community structure and habitat use of small mammals in grasslands of different successional age. Journal of Zoology 242, 519-530. Cornuet JM, Luikart G (1996) Description and power analysis of two tests for detecting recent population bottlenecks from allele frequency data. Genetics 144, 2001-2014. Dirienzo A, Peterson AC, Garza JC, et al. (1994) Mutational Processes of Simple-Sequence Repeat Loci in Human-Populations. Proceedings of the National Academy of Sciences of the United States of America 91, 3166-3170. Excoffier, L. G. Laval, and S. Schneider (2005) Arlequin ver. 3.0: An integrated software package for population genetics data analysis. Evolutionary Bioinformatics Online 1:47-50. Falush D, Stephens M, Pritchard JK (2003) Inference of population structure using multilocus genotype data: Linked loci and correlated allele frequencies. Genetics 164, 1567-1587. Fretwell, S. D. and Lucas, H. J. (1970) Ideal free distribution. Acta Biotheory 19:16-21. Garza JC, Williamson EG (2001) Detection of reduction in population size using data from microsatellite loci. Molecular Ecology 10, 305-318. Goodman SJ (1997) R-ST Calc: a collection of computer programs for calculating estimates of genetic differentiation from microsatellite data and determining their significance. Molecular Ecology 6, 881-885. Goudet J (1995) FSTAT (Version 1.2): A computer program to calculate F-statistics. Journal of Heredity 86, 485-486. Hallett JG, Oconnell MA, Honeycutt RL (1983) Competition and Habitat Selection - Test of a Theory Using Small Mammals. Oikos 40, 175-181. Hall-Martin AJ (1992) Distribution and status of the African elephant Loxodonta africana in South Africa, 1652-1992. Koedoe, 35, 65-88 Haim A, Izhaki I (1994) Changes in Rodent Community during Recovery from Fire - Relevance to Conservation. Biodiversity and Conservation 3, 573-585. Harley EH (2003) agarst (version 3.3): a program for calculating allele frequencies, gst and rst from microsatellite data plus a number of other population genetic estimates and outputting files formatted for various other population genetic programs. Department of Chemical Pathology. University of Cape Town, Rondebosch, South Africa Harris S (1979) History, Distribution, Status and Habitat Requirements of the Harvest Mouse (Micromys-Minutus) in Britain. Mammal Review 9, 159-171. Holm S (1979) A Simple Sequentially Rejective Multiple Test Procedure. Scandinavian Journal of Statistics 6, 65-70. Ishiwaka R, Mori T (1999) Early development of climbing skills in harvest mice. Animal Behaviour 58, 203-209. Jackson JA, Patenaude NJ, Carroll EL, Baker CS (2008) How few whales were there after whaling? Inference from contemporary mtDNA diversity. Molecular Ecology 17, 236-251. Janova E, Heroldova M, Bryja J (2008) Conspicuous demographic and individual changes in a population of the common vole in a set-aside alfalfa field. Annales Zoologici Fennici 45, 39-54. Johnson W and Lavigne DM, (1999) The Mediterranean monk seal(Monachus monachus) in ancient history and literature. Leiden: Netherlands Commission for International Nature Protection. Johnson JA, Toepfer JE, Dunn PO (2003) Contrasting patterns of mitochondrial and microsatellite population structure in fragmented populations of greater prairie-chickens. Molecular Ecology 12, 3335-3347. Kaikusalo, A. (1972) Vaivaishiiri. Pp 417-428 in Siivonen, L. (ed.) Suomen nisakkaat, vol. 1. keuruu, Otava. Kalendar R (2007) FastPCR: a PCR primer and probe design and repeat sequence searching software with additional tools for the manipulation and analysis of DNA and protein. Kalinowski ST, Taper ML, Marshall TC (2007) Revising how the computer program CERVUS accommodates genotyping error increases success in paternity assignment. Molecular Ecology 16, 1099-1106. Kearney N, Handasyde K, Ward S, Kearney M (2007) Fine-scale microhabitat selection for dense vegetation in a heathland rodent, Rattus lutreolus: Insights from intraspecific and temporal patterns. Austral Ecology 32, 315-325. Keller I, Nentwig W, Largiader CR (2004) Recent habitat fragmentation due to roads can lead to significant genetic differentiation in an abundant flightless ground beetle. Molecular Ecology 13, 2983-2994. Kuroe M, Ohori S, Takatsuki S, Miyashita T (2007) Nest-site selection by the harvest mouse Micromys minutus in seasonally changing environments. Acta Theriologica 52, 355-360. Layme VMG, Lima AP, Magnusson WE (2004) Effects of fire, food availability and vegetation on the distribution of the rodent Bolomys lasiurus in an Amazonian savanna. Journal of Tropical Ecology 20, 183-187. Lee YC (2001) Habitat use among sympatric small mammals at Kuan-Du salt marsh. Unpublished M.S. Thesis. Institute of Zoology, National Taiwan University. Lima M, Keymer JE, Jaksic FM (1999) El Nino-southern oscillation-driven rainfall variability and delayed density dependence cause rodent outbreaks in western South America: Linking demography and population dynamics. American Naturalist 153, 476-491. Lin MZ (1994) The relations between landscape changes and avian communities in Guandu, Taiwan. Unpublished M.S. Thesis. Institute of Biology, Fu Jen Catholic University. Luikart G, Allendorf FW, Cornuet JM, Sherwin WB (1998) Distortion of allele frequency distributions provides a test for recent population bottlenecks. Journal of Heredity 89, 238-247. Luikart G, Cornuet JM (1998) Empirical evaluation of a test for identifying recently bottlenecked populations from allele frequency data. Conservation Biology 12, 228-237. Masters P (1993) The Effects of Fire-Driven Succession and Rainfall on Small Mammals in Spinifex Grassland at Uluru-National-Park, Northern-Territory. Wildlife Research 20, 803-813. Migula, P., Grodzinski, W., Jasinski, A. & Musialek, B. (1970) Vole and mouse plagues in South Eastern Poland in the years 1945-1967. Acta Theriologica 15, 233-250 Ohta T (1982) Linkage Disequilibrium Due to Random Genetic Drift in Finite Subdivided Populations. Proceedings of the National Academy of Sciences of the United States of America-Biological Sciences 79, 1940-1944. Piechocki, R. (1958) Die Zwergmaus, Micromys minutus Pallas. Neue Brehm-Bucherei no. 22. Wittenberg, Lutherstadt. Pickens BA (2007) Understanding the population dynamics of a rare, polyvoltine butterfly. Journal of Zoology 273, 229-236. Piry S, Luikart G, Cornuet JM (1999) BOTTLENECK: A computer program for detecting recent reductions in the effective population size using allele frequency data. Journal of Heredity 90, 502-503. Pritchard JK, Stephens M, Donnelly P (2000) Inference of population structure using multilocus genotype data. Genetics 155, 945-959. Proctor MF, McLellan BN, Strobeck C, Barclay RMR (2005) Genetic analysis reveals demographic fragmentation of grizzly bears yielding vulnerably small populations. Proceedings of the Royal Society B-Biological Sciences 272, 2409-2416. Royama, T. (1992) Analytical Population Dynamics. Chapman & Hall, London. Rozen S and Skaletsky H. 'Primer3 on the WWW for general users and for biologist programmers.' In S. Krawetz, S. Misener, eds. Bioinformatics Methods and Protocols in the series Methods in Molecular Biology. Humana Press, Totowa, NJ, 2000, pages 365-386 Sambrook J, Fritsch EF, Maniatis T (1989) Molecular cloning: a laboratory Manual. 2nd edn. Cold Spring Laboratory Press, New York. Schweizer M, Excoffier L, Heckel G (2007) Fine-scale genetic structure and dispersal in the common vole (Microtus arvalis). Molecular Ecology 16, 2463-2473. Sinsch U (1992) Structure and Dynamic of a Natterjack Toad Metapopulation (Bufo-Calamita). Oecologia 90, 489-499. Sleptov, M. M. (1947) “The biology of Micromys minutus ussuricus B-Ham” In: Fauna I ekologiya gryzunov. 2. Materialy k poznaniyu fauny I flory SSSR, n.s.n 8, 69-100. (In Russian). Spear SF, Peterson CR, Matocq MD, Storfer A (2006) Molecular evidence for historical and recent population size reductions of tiger salamanders (Ambystoma tigrinum) in Yellowstone National Park. Conservation Genetics 7, 605-611. Stenseth NC, Falck W, Chan KS, et al. (1998) From patterns to processes: Phase and density dependencies in the Canadian lynx cycle. Proceedings of the National Academy of Sciences of the United States of America 95, 15430-15435. Stenseth NC, Viljugrein H, Saitoh T, et al. (2003) Seasonality, density dependence, and population cycles in Hokkaido voles. Proceedings of the National Academy of Sciences of the United States of America 100, 11478-11483. Stewart WA, Dallas JF, Piertney SB, et al. (1999) Metapopulation genetic structure in the water vole, Arvicola terrestris, in NE Scotland. Biological Journal of the Linnean Society 68, 159-171. Tallmon DA, Draheim HM, Mills LS, Allendorf FW (2002) Insights into recently fragmented vole populations from combined genetic and demographic data. Molecular Ecology 11, 699-709. Tkadlec E, Zejda J (1998) Small rodent population fluctuations: The effects of age structure and seasonality. Evolutionary Ecology 12, 191-210. Trites AW, Deecke VB, Gregr EJ, Ford JKB, Olesiuk PF (2007) Killer whales, whaling, and sequential megafaunal collapse in the North Pacific: A comparative analysis of the dynamics of marine mammals in Alaska and British Columbia following commercial whaling. Marine Mammal Science 23, 751-765. Trout, R. C. (1976) An ecological study of populations of wild Harvest mice (Micromys minutus soricinus Hermann). Unpublished Ph.D. thesis, University of London. Van Oosterhout C, Hutchinson WF, Wills DPM, Shipley P (2004) MICRO-CHECKER: software for identifying and correcting genotyping errors in microsatellite data. Molecular Ecology Notes 4, 535-538. Waser PM, Elliott LF (1991) Dispersal and Genetic-Structure in Kangaroo Rats. Evolution 45, 935-943. Whitlock MC (1992) Temporal Fluctuations in Demographic Parameters and the Genetic Variance among Populations. Evolution 46, 608-615. Yarnell RW, Scott DM, Chimimba CT, Metcalfe DJ (2007) Untangling the roles of fire, grazing and rainfall on small mammal communities in grassland ecosystems. Oecologia 154, 387-402. Zane L, Bargelloni L, Patarnello T (2002) Strategies for microsatellite isolation: a review. Molecular Ecology 11, 1-16 Zenger KR, Richardson BJ, Vachot-Griffin AM (2003) A rapid population expansion retains genetic diversity within European rabbits in Australia. Molecular Ecology 12, 789-794. Zhang M, Wang K, Wang Y, et al. (2007) Recovery of a rodent community in an agro-ecosystem after flooding. Journal of Zoology 272, 138-147.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/9573	-
dc.description.abstract	台北市立關渡自然公園提供了巢鼠(Micromys minutus)不同品質的棲地類型棲息。本研究目的為探討：(1) 棲地演替是否會影響巢鼠之族群遺傳結構 (2) 巢鼠族群波動如何影響巢鼠之族群遺傳結構。研究樣區區分為密生、疏生以及疏密混生的棲地類型，而巢鼠較偏好密生的棲地類型；然而在2000年至2005年間棲地的演替使得樣區內密生棲地的面積大幅下降，造成巢鼠偏好棲息的棲地面積減少且分佈破碎化。雖然密生棲地的分布在2000年至2005年間造成巢鼠分佈破碎化，但其遺傳結構在空間上並無明顯的分化。而在2000及2005年皆由M-ratio偵測到族群曾歷經瓶頸效應，而mode-shift及異型合子偏高此兩方法皆未偵測到瓶頸效應，顯示瓶頸效應並非發生於近期，而是更早的歷史事件造成此兩年皆偵測到瓶頸效應。在年內則由於夏季的族群低點，造成2005年的夏季前後的族群有顯著的遺傳上的分化。綜合以上結果，關渡草澤地的棲地演替會在短時間內造成巢鼠族群在空間上以及時間上的遺傳結構變化。	zh_TW
dc.description.abstract	The Guandu salt marsh in the Guandu Nature Park (Taipei, Taiwan) offered habitat patches of different qualities for the harvest mouse (Micromys minutus). The current research aimed to find out (1) if succession could influence the genetic structure of the harvest mouse and (2) how population dynamics affected the genetic structure of the harvest mouse. Study site were categorized into dense, sparse, and mix patches. Dense patches were preferred by Micromys minutus. However, the overall area of dense patches decreased greatly during the succession occurred between 2000 and 2005. The decrease of dense patches not only reduced but also fragmented the habitats suitable for the harvest mouse. The harvest mouse population was fragmented along with dense patches, yet the population did not become structured genetically with significance. I detected bottleneck effect with M-ratio(M<0.68) but not mode-shift and heterozygosity excess in both year, which indicated that bottleneck probably occurred in the past distant enough that the signature of bottleneck detectable by mode-shift and heterozygosity excess has been erased. Within each year, population size became very low in summer, and the genetic differentiation was significant between spring and autumn population in 2005. Overall, the results suggest that salt marsh succession can influence the genetic structure of the harvest mouse in Guandu salt marsh spatially and temporal in a short period of time.	en
dc.description.provenance	Made available in DSpace on 2021-05-20T20:29:22Z (GMT). No. of bitstreams: 1 ntu-97-R93b44009-1.pdf: 1080032 bytes, checksum: d14d957190b08e6113a5798ca54f4cad (MD5) Previous issue date: 2008	en
dc.description.tableofcontents	中文摘要 1 Abstract 2 Introduction 3 Materials & methods 7 Study site 7 Trapping 7 Habitat patch types 9 Isolation of microsatellite 10 Statistical analyses 11 Results 18 Population ecology 18 Population size and sex ratio 18 Recruitment and Disappearance 19 Habitat succession and harvest mice distribution 20 Reproductive success 21 Genetic structure of the harvest mouse population 21 Variation of microsatellite 21 Bottleneck between years 22 Bottleneck between seasons (temporal differentiation) 23 Spatial distribution and genetic differentiation 23 Discussion 25 Succession and population size 25 Succession and spatial distribution 26 Bottleneck effect among years 27 Seasonal dynamics of harvest mice and its effects on genetic structure 29 Conclusion 33 Reference 34 Table. 41 Figure. 50 Appendix 58
dc.language.iso	en
dc.title	關渡草澤地之巢鼠族群生態及遺傳結構	zh_TW
dc.title	Population Ecology and Genetic Structure of Harvest Mice (Micromys minutus) in Guandu Salt Marsh	en
dc.type	Thesis
dc.date.schoolyear	96-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	于宏璨(Hon-Tsen Yu),李壽先(Shou-Hsien Li),林良恭(Liang-Kong Lin)
dc.subject.keyword	瓶頸效應,棲地異質性,Micromys minutus,微隨體基因座,族群波動,族群遺傳,演替,	zh_TW
dc.subject.keyword	bottleneck,habitat heterogeneity,Micromys minutus,microsatellite,population dynamics,population genetics,succession,	en
dc.relation.page	65
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2008-08-01
dc.contributor.author-college	生命科學院	zh_TW
dc.contributor.author-dept	生態學與演化生物學研究所	zh_TW
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