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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
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dc.contributor.advisor | 侯文祥 | |
dc.contributor.author | Yu-Ju Tsai | en |
dc.contributor.author | 蔡玉如 | zh_TW |
dc.date.accessioned | 2021-06-07T17:48:21Z | - |
dc.date.copyright | 2013-03-15 | |
dc.date.issued | 2013 | |
dc.date.submitted | 2013-02-19 | |
dc.identifier.citation | 1.呂光洋、杜銘章、向高世(1999),台灣兩棲動物爬行圖鑑。中華民國自然生態保育協會,大自然雜誌社出版。
2.呂光洋、陳添喜、高善、孫承矩、朱哲民、蔡添順、何一先、鄭正寬(1996),台灣野生動物資源調查 : 兩棲類動物資源調查手册,行政院農委會。 3.李文傑(2002),橙腹樹蛙生殖行為及生態學之研究,國立台灣師範大學生物學系,碩士論文。 4.吳和瑾、林春富、葉大詮、呂光洋(2010),圈養狀況下之斑腿樹蛙生活史,台灣生物多樣性研究。 5.吳華蓉(2004),白頷樹蛙蝌蚪溫度生理學之研究,國立彰化師範大學生物學系,碩士論文。 6.林春富(1999),諸羅樹蛙之生態學及繁殖行為研究,特有生物保育研討會,特有生物保育研究中心。 7.徐睿伶(2008),低海拔地區人工水池棲地白頷樹蛙蝌蚪越冬之研究,東海大學生學系,碩士論文。 8.陳王時(2003),台灣31種蛙蛙類圖鑑,社團法人台北市野鳥學會。 9.陳君翔(2006),台灣阿里山山椒魚棲地狀況與生物活動力關係研究,國立台灣大學生物環境系統工程學研究所,碩士論文。 10.陳金鈴(2003),斑腿泛樹蛙繁殖習性的觀察,生物學通報,中國。 11.陳賜隆(1992),翡翠樹蛙生殖行為及生態學之研究,國立台灣師範大學生物學系,碩士論文。 12.張文亮(2000),農田水路生態工程設計與技術之研發,行政院農委會99年度科技計畫研究報告。 13.張淑美(1989),白頷樹蛙生殖行為之研究,國立台灣大學動物學研究所,碩士論文。 14.張源修(2009),以兩棲類活動能力探討水岸生態工程設計,國立台灣大學生物環境系統工程學研究所,博士論文。 15.溫華霞(2001),太魯閣國家公園布洛灣地區莫氏樹蛙生殖生態學研究,國立東華大學自然資源管理研究所,碩士論文。 16.楊懿如(1987),台北樹蛙生殖行為之研究,國立台灣大學動物學研究所,碩士論文。 17.楊懿如(2002),賞蛙圖鑑:台灣蛙類野外觀察指南,中華民國自然與生態攝影學會。 18.楊懿如(2008),台灣兩棲動物野外調查手冊,行政院農業委員會林務局。 19.楊懿如(2012A),外來種斑腿樹蛙控制與監測計畫,行政院農委會林務局委託研究計劃。 20.楊懿如(2012B),臺灣兩棲類資源調查與教育宣導推廣計畫,行政院農委會林務局委託研究計劃。 21.楊懿如(2012C),台灣新發現的外來種斑腿樹蛙(Polypedates megacephalus)紀錄,臺灣博物 30 (4):76-79。 22.劉建男(1996),台灣樹棲性兩棲類皮膚減少水分散失能力之研究,國立成功大學生物學研究所,碩士論文。 23.Barnes, J. and J. Smith and J. Platter (2007) ,Climbing and adhesion in tree frogs. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 146 (4) : 144-145. 24.Barnes, W. J. P. and P. J. P. Goodwyn, M. Nokhbatolfoghahai, S. N. Gorb (2011), Elastic modulus of tree frog adhesive toe pads. Journal of Comparative Physiology A 197 (10) : 969-978 . 25.Branko, H. and A. T. Mitchell (2012), Recovery of amphibian species richness and composition in a chronosequence of secondary forests, northeastern Costa Rica. Biological Conservation 146 (1) : 170-176. 26.Brodeur J. C. and J. V. Candioti and S. Soloneski and M. L. Larramendy and A. E. Ronco (2012), Evidence of Reduced Feeding and Oxidative Stress in Common Tree Frogs (Hypsiboas pulchellus) from an Agroecosystem Experiencing Severe Drought. Journal of Herpetology 46( 1) : 72-78. 27.Caleb, O.B. and O. William and H. Annika (2013), Differences in the Effects of Selective Logging on Amphibian Assemblages in Three West African Forest Types. Biotropica 45 (1) : 94-101. 28.Francis Lemckert (1999), Impacts of selective logging on frogs in a forested area of northern New South Wales. Biological Conservation 89 (3) : 321-328. 29.Osborne, T. and C. Morrison and C. G. Morley (2008), Habitat Selection and Phenology of the Fiji Tree Frog,Platymantis vitiensis: Implications for Conservation. J ournal of Herpetology 42 (4) : 699-707. 30.Smith, J. M. and W. J. P. Barnes and J. R. Downie and Ruxton (2006), Adhesion and allometry from metamorphosis to maturation in hylid tree frogs: a sticky problem. Journal of Zoology 270 (2) : 372-383. 31.Trumbo D. R. and A. A. Burgett and R. L. Hopkins and E. G. Biro and J. M. Chase and J. H. Knouft (2012), Integrating local breeding pond, landcover, and climate factors in predicting amphibian distributions. Landscape Ecology 27 (8) : 1183-1196. 32.Ueda, H. (1986), Reproduction of Chirixalus eiffingeri (Boettger). Scientific Reports of Laboratory of Amphibian Biology.Hiroshima 8 : 109-116. 33.台灣濕地保護聯盟,1996,http://www.wetland.org.tw/。 34.行政院農委會特有生物研究保育中心-台灣野生動物資料庫查詢系統,http://www.tbn.org.tw/twd97/SpeciesList.asp 35.兩棲類資源調查資訊網,2008,http://tad.froghome.org/。 36.李鵬翔、楊懿如,1999,楊懿如的青蛙學堂,http://www.froghome.idv.tw/ | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/15589 | - |
dc.description.abstract | 原棲地在中國及東南亞一帶的斑腿樹蛙,於2006年經由進口水草的途徑進入台灣。斑腿樹蛙與台灣原生種的白頷樹蛙體型外觀及棲息地相似,分布於海拔600m以下墾地環境。台灣至今尚未有研究顯示此兩種樹蛙,在棲息地或食物上具有競爭排擠的效應,但兩棲類資源調查團隊調查發現,斑腿樹蛙已逐漸擴散台灣西半部,2010年鶯歌碧龍宮周邊同時紀錄到白頷樹蛙及斑腿樹蛙,至2011年斑腿樹蛙已成優勢種。因此,本研究以兩棲類對於棲地利用,量化其行為能力,探討兩物種間的競爭排擠效應。實驗依棲息環境條件,比較草、木材、紅磚及混凝土等四種基質,配合四種坡度角度,及台灣夏、冬兩季溫濕度變化模擬,量測兩種樹蛙的吸附能力。並實測其體長、體重及跳高能力。實驗結果得知,斑腿樹蛙(♀)的跳高能力約為白頷樹蛙(♀)的95%,斑腿樹蛙(♂)的跳高能力約為白頷樹蛙(♂)的87%,證明斑腿樹蛙體型雖占優勢,但其跳高能力卻較差。以夏、冬兩季乾濕環境四個模組的比較,吸附能力由強至若排序為斑腿樹蛙(♂)、白頷樹蛙(♂)、白頷樹蛙(♀)、斑腿樹蛙(♀),雄蛙的吸附能力比雌蛙強。兩種樹蛙對於四種基質的吸附力表現,由強至弱排序為紅磚、柳安木、混凝土、牛筋草,基質表面粗糙度與濕度也會影響蛙類的吸附能力。樹蛙的四肢趾端有吸盤,在移動過程為利用跳躍至基質上方再以吸盤吸附,與無吸盤之蛙類相比,其活動能力較佳,故在坡度工程設計上限可提高至60°。本研究乃探討此種生物利用陸水域空間之活動能力差異性,作為判斷斑腿樹蛙是否對白頷樹蛙利用棲地的影響與威脅,提供在棲地未來保育白頷樹蛙生態工程設計之參考依據,及營造不適合斑腿樹蛙生存的棲地環境。 | zh_TW |
dc.description.abstract | Polypedates megacephalus, a tree frog species whose native habitats are China and Southeast Asia, invaded Taiwan via activities of importing aquatic-grass in 2006. The appearance and habitats of Polypedates megacephalus are similar to Polypedates braueri which is endemic amphibian species in Taiwan. Polypedates megacephalus inhabits agricultural ground at elevation below 600 meters. To date, previous studies in aiwan were limited to determine the effects of the competition on the habitats and food resources between the 2 species. However, according to Taiwan Amphibian Research Team's record, the population of Polypedates megacephalus has extended to western Taiwan gradually. In 2010 both species population were recorded at Yinko, Bi-Long Gong simultaneously, but in 2011 Polypedates megacephalus had became dominant species in that area. Therefore, in this study, we aimed to quantify the behavioral abilities of both species thoroughly in accordance with the habitat demand and investigate the effects on the competition to the habitats and food resources between them. We measured both species' body length, weight, and jumping ability in precision. Then, we conducted different experiments based on Polypedates megacephalus and Polypedates braueri's habitat conditions: their adhesion abilities responded to different materials like, grass, wood, brick and concrete, coordinated the angles of the slope and simulated the temperature and humidity in Taiwan's summer and winter. The results had shown that the jumping abilities of female Polypedates megacephalus is 95% of female Polypedates braueri and the male Polypedates megacephalus is 87% of male Polypedates braueri. This study shows that even though Polypedates megacephalus is physically larger then Polypedates braueri, but their jumping ability is worse. Base on summer and winter's dry and humility conditions on our four different simulated models, the study results demonstrated that from the strongest to worse adhesion abilities are, male Polypedates megacephalus, male Polypedates braueri, female Polypedates braueri, female Polypedates meagacephalus . We also tested both species adhesion abilities on 4 different type of materials; the easiest to worse adhesion materials are listed: brick, wood, concrete, to grass. We found out that the coarse of the material surface and the humidity of the material both will effect their adhesion abilities. Because of the suctions on both species' toe-pads, their motilities and jumping abilities are higher then other amphibian, therefore, in the engineering construction on the slope, we could raised the slope to 60 degree higher. Our research investigated the differences of amphibian motilities in terrestrial and freshwater habitats to determine whether Polypedates megacephalus cause effects and treats on habitat demand of Polypedates braueri, and this could provide reference basis for the design of ecological engineer for amphibian habitat conservation purpose in the future. | en |
dc.description.provenance | Made available in DSpace on 2021-06-07T17:48:21Z (GMT). No. of bitstreams: 1 ntu-102-R99622034-1.pdf: 3131920 bytes, checksum: 212c2da57574971bb8b0af7b0e8428bb (MD5) Previous issue date: 2013 | en |
dc.description.tableofcontents | 目 錄
口試委員會審定書………………………………………………………….…. i 誌謝……………………………………………………………………………. ii 中文摘要…………………………………………………………………….... iii 英文摘要……………………………………………………………………… iv 目錄……………………………………………………………………………..vi 圖目錄……………………………………………………………………...…viii 表目錄……………………………………………………………………….......x 第一章 緒論……………………………………………………………......... 1 1.1 研究動機與目的……………………………………………………... 1 1.2 研究對象……………………………………………………………... 4 1.3 研究內容與流程……………………………………………………. ..5 第二章 文獻回顧……………………………………………………………. 6 2.1 兩棲類物種簡介……………………………………………………... 6 2.2 兩棲類生理與棲地……………………………………………......... 10 2.3 生物實驗相關理論…………………………………………………. 15 第三章 材料與方法………………………………………………………... 17 3.1 取樣與分群…………………………………………………………. 18 3.1.1 樣區選定與取樣方式………………………………………..…. 18 3.1.2 分群方式………………………………………………………... 20 3.2 棲地環境模擬材料…………………………………………………. 21 3.3 生物量測方式………………………………………………………. 23 3.3.1 生物基本資料…………………………………………………... 23 3.3.2 行為能力量測………………………………………………..…. 23 3.4 研究方法…………………………………………….……………… 24 3.4.1 棲地氣候模擬…………………………………………………... 24 3.4.2棲地基質、坡度變化模擬……………………………………… 26 第四章 結果與討論…………………………………………………….….. 28 4.1兩種樹蛙之身體計量與跳高能力量測結果……………………….. 28 4.1.1 成蛙體形分析…………………………………………………... 28 4.1.2 成蛙跳高能力分析……………………………………………... 30 4.2 兩種樹蛙在不同季節之吸附能力差異……………………………. 32 4.3兩種樹蛙利用不同基質與坡度之吸附能力差異………………….. 42 4.4 各種基質之適當坡度設計…………………………………………. 47 第五章 結論與建議………………………………………………………... 49 5.1 結論……………………………………………………………….… 49 5.2 建議…………………………………………………………………. 50 參考文獻………………………………………………………….………..… 52 附錄一 生物基本資料…………………………………………………..…..55 附錄二 兩種樹蛙於不同基質與坡度之吸附能力………………………... 59 附錄三 生物照片…………………………………………………………... 63 | |
dc.language.iso | zh-TW | |
dc.title | 外來種斑腿樹蛙與原生種白頷樹蛙對棲地之活動能力比較研究 | zh_TW |
dc.title | The Adhesion Ability in Habitat Research of Introduced Polypedates megacephalus and Native Polypedates braueri | en |
dc.type | Thesis | |
dc.date.schoolyear | 101-1 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 楊懿如,喻新,張源修 | |
dc.subject.keyword | 斑腿樹蛙,白頷樹蛙,吸附力,基質,棲地設計, | zh_TW |
dc.subject.keyword | Polypedates megacephalus,Polypedates braueri,Adhesion ability,material,Habitat design, | en |
dc.relation.page | 65 | |
dc.rights.note | 未授權 | |
dc.date.accepted | 2013-02-19 | |
dc.contributor.author-college | 生物資源暨農學院 | zh_TW |
dc.contributor.author-dept | 生物環境系統工程學研究所 | zh_TW |
顯示於系所單位: | 生物環境系統工程學系 |
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