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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 李培芬 | |
dc.contributor.author | Fu-An Tsai | en |
dc.contributor.author | 蔡富安 | zh_TW |
dc.date.accessioned | 2021-06-16T09:31:38Z | - |
dc.date.available | 2017-02-17 | |
dc.date.copyright | 2017-02-17 | |
dc.date.issued | 2017 | |
dc.date.submitted | 2017-02-15 | |
dc.identifier.citation | Barnes, D. K. 1997. Ecology of tropical hermit crabs at Quirimba Island, Mozambigue: distribution, abundance and activity. Marine Ecology Progress Series 154:133-142.
Barnes, D. K. 2002. Ecology of subtropical hermit crabs in SW Madagascar: refuge-use and dynamic niche overlap. Marine Ecology Progress Series 238:163-172. Brook, S., A. Grant, and D. Bell. 2009. Can land crabs be used as a rapid ecosystem evaluation tool? A test using distribution and abundance of several genera from the Seychelles. Acta Oecologica 35:711-719. Bundhitwongrut, T., K. Thirakhupt, and A.-o. Pradatsundarasar. 2014. Population ecology of the land hermit crab Coenobita rugosus (anomura, Coenobitidae) at Cape Panwa, Phuket island, Andaman coast of Thailand. The journal of the Natural History Society of Siam 60:31-51. Burggren, W. W., and B. R. McMahon. 1988. Biology of the land crabs. Cambridge University Press, New York. Burnham, K. P., and D. R. Anderson. 2003. Model selection and multimodel inference: a practical information-theoretic approach. Springer Science & Business Media. de Wilde, P. A. W. J. 1973. On the ecology of Coenobita clypeatus in Curacao with reference to reproduction, water economy and osmoregulation in terrestrial hermit crabs. Studies on the Fauna of Curaçao and other Caribbean Islands 44:1-138. Fox, J., and G. Monette. 1992. Generalized collinearity diagnostics. Journal of the American Statistical Association 87:178-183. Gedan, K. B., J. Bernhardt, M. D. Bertness, and H. M. Leslie. 2011. Substrate size mediates thermal stress in the rocky intertidal. Ecology 92:576-582. Hamasaki, K., S. Kato, S. Hatta, Y. Murakami, S. Dan, and S. Kitada. 2014. Larval development and emigration behaviour during sea-to-land transition of the land hermit crab Coenobita brevimanus Dana, 1852 (Crustacea: Decapoda: Anomura: Coenobitidae) under laboratory conditions. Journal of Natural History 48:1061-1084. Horton, T., A. Kroh, N. Bailly, N. Boury-Esnault, S. N. Brandão, M. J. Costello, S. Gofas, et al. 2016. World Register of Marine Species (WoRMS). WoRMS Editorial Board. Laidre, M. E. 2013. Foraging across ecosystems: diet diversity and social foraging spanning aquatic and terrestrial ecosystems by an invertebrate. Marine Ecology 34:80-89. McNatty, A., K. L. Abbott, and P. J. Lester. 2009. Invasive ants compete with and modify the trophic ecology of hermit crabs on tropical islands. Oecologia 160:187-194. Morrison, L. W., and D. A. Spiller. 2006. Land hermit crab (Coenobita clypeatus) densities and patterns of gastropod shell use on small Bahamian islands. Journal of Biogeography 33:314-322. Page, H., and S. Willason. 1983. Feeding activity patterns and carrion removal by terrestrial hermit crabs at Enewetak Atoll, Marshall Islands. Pacific Science 37:151-156. Page, H. M., and S. W. Willason. 1982. Distribution Patterns of Terrestrial Hermit Crabs at Enewetak Atoll, Marshall-Islands. Pacific Science 36:107-117. Rahayu, D. L., H.-T. Shih, and P. K. L. Ng. 2016. A new species of land hermit crab in the genus Coenobita Latreille, 1829 from Singapore, Malaysia and Indonesia, previously confused with C. cavipes Stimpson, 1858 (Crustacea: Decapoda: Anomura: Coenobitidae). Raffles Bulletin of Zoology 34:470-488. Schiller, C., D. Fielder, I. Brown, and A. Obed. 1991. Reproduction, early life-history and recruitment. Pages 13-34 The coconut crab: aspects of Birgus latro biology and ecology in Vanuatu. Canberra. Aciar Monographs. Szabó, K. 2012. Terrestrial hermit crabs (Anomura: Coenobitidae) as taphonomic agents in circum-tropical coastal sites. Journal of Archaeological Science 39:931-941. Walker, S. e. 1994. Gastropod Fossils Used by the Living Terrestrial Hermit Crab, Coenobita clypeatus, on Bermuda. Wentworth, C. K. 1922. A scale of grade and class terms for clastic sediments. The Journal of Geology 30:377-392. Wheatly, M. G., W. W. Burggren, and B. R. McMahon. 1984. The effects of temperature and water availability on ion and acid-base balance in hemolymph of the land hermit crab Coenobita clypeatus. The Biological Bulletin 166:427-445. 李政璋, and 邱郁文. 2013. 半島陸蟹: 恆春半島陸蟹導覽. 國立海洋生物博物館, 屏東縣. 沖縄県教育委員会. 2006. レロчЭロэ生息実態調査報告書. 沖縄県教育委員会. 施習德. 2012. 東沙島潮間帶至陸域蟹類與寄居蟹調查. Pages 1-110 in 海洋國家公園管理處, editor. 成果報告書. 國立中興大學. 洪吏院. 2008. 形態與分子證據闡述陸寄居蟹屬 (Coenobita) 之階段性陸棲演化與物種分類鑑定. 臺灣大學漁業科學研究所學位論文:1-98. 許嘉軒. 2015. 驗證造成台灣周遭生態島之灰白陸寄居蟹(Coenobita rugosus)體型差異機制, 高雄市. 許嘉軒, and S.-T. Choi. 2016. 短掌陸寄居蟹的天堂-東吉嶼. 自然保育季刊:28-35. 陳瑞谷. 2015. 非洲大蝸牛對東沙島灰白陸寄居蟹族群結構的影響. 台灣生物多樣性研究 17:331-341. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/59652 | - |
dc.description.abstract | 陸寄居蟹為雜食性碎屑食者,並擁有背負移動、更換貝殼的習性,扮演物質與能量循環重要的角色,探討陸寄居蟹的生態學,有助於建構生態系統能量與物質循環之知識。本研究以陸寄居蟹的空間生態學作為主題,檢視海岸環境中的分布樣貌,並探索導致分布變異可能的環境因子,以較小的地景尺度環境因子解釋陸寄居蟹族群空間分布之差異。
分布調查的結果顯示在東北角地區,龍洞至鹽寮海濱公園北端,台2線向海側的海岸環境中,陸寄居蟹的優勢呈度依序為皺紋陸寄居蟹、凹足陸寄居蟹與短掌陸寄居蟹。到海距離,在三種陸寄居蟹之間有偏好差異。皺紋陸寄居蟹的族群量經估算約為51810到228047隻;凹足陸寄居蟹約為858隻。皺紋陸寄居蟹的族群穩定,性別比為1比1。 藉由廣義線性模型,可以發現,樣點周圍的底質類型,是對皺紋陸寄居蟹的相對豐度最主要的影響因子。而距海遠近、海岸線的自然度、與周圍自然植被面積等因子,也存在關聯性。由上述這些因素在模型中,可獨立於空間自相關之外,解釋了皺紋陸寄居蟹的分布變異。 本研究進一步發展了,利用拍照測量:螯指、步足末節長,與部分個體的前盾甲長,即可估測所有皺紋陸寄居蟹個體之前盾甲長的方法。此方法更簡便於直接測量前盾甲長,提供了未來陸寄居蟹族群調查方法,可改善動物福利,降低操作難度的調查策略參考。 | zh_TW |
dc.description.abstract | Terrestrial/ land hermit crabs are omnivorous scavengers, carrying, move, and change gastropods shell, which play an important role of maters, nutrient and energy cycling. Investigating ecology of land hermit crab will improve the knowledge construction to maters and energy dynamic of ecosystem. This research focus on land hermit crabs’ spatial ecology, inspect the distribution pattern in sea shore area, furthermore, mine the potential environmental factors which induce the distribution variance, explain the variance of land hermit crabs’ population distribution by landscape scale environmental factors.
Distribution survey shows that, Coenobita rugosus are more dominant than Coenobita cavipes and Coenobita brevimanus, in the seashore area, side by the Provincial Highway 2 (Taiwan) from Longdong to Yanliao ,in Northeast Taiwan. Three Coenobita species have different habitat preference on the distance to sea. Estimated population size of C. rugosus are around 51810 to 228047 crabs, and C. cavipes are around 858 crabs. C. rugosus have stable population status, sex-ratio is 1:1. The Generalized linear models reveal that major type of substrate around is the most important factor that affect relative abundance, and also distance to sea, natural shore length and natural vegetation coverage are correlate to relative abundance of C. rugosus. Forenamed factors can describe the distribution variance of C. rugosus, independently without spatial auto-correlation. This research also developed a method, which can estimate all sizes of C. rugosus shield lengths, by photo-measuring each crab’s chela movable finger and second left walking leg dactyls, and some samples’ shield length. This procedure is much convenience than directly measure the shield lengths, in hence provide a referance for future land hermit crab population survey strategy, which can bring down operation difficulty, and upgrade animal welfare. | en |
dc.description.provenance | Made available in DSpace on 2021-06-16T09:31:38Z (GMT). No. of bitstreams: 1 ntu-106-R02b44014-1.pdf: 4176872 bytes, checksum: b067e59be08b8bd1d562362ea103586c (MD5) Previous issue date: 2017 | en |
dc.description.tableofcontents | 摘要 1
Abstract 2 前言 6 材料與方法 9 研究樣區與取樣設計 9 陸生寄居蟹分布調查與捕捉 10 體型測量與體型估算模型 10 性別辨識 11 標記與再捕捉 11 環境資料蒐集 11 周圍底質類型 12 到溪流與海之距離 12 自然與水泥化海岸線長度 12 植被類型面積 12 土地利用類型面積 12 資料分析 13 結果 15 三種陸寄居蟹的棲地偏好 15 到海之距離 15 自然海岸線長度與自然植被的土地利用類型面積 15 灰白陸寄居蟹族群之分布樣貌 16 標記、再捕捉,進行族群估算與移動記錄 16 灰白陸寄居蟹的前盾甲長估測模型 16 灰白陸寄居蟹之族群現況 17 以環境因子解釋灰白陸寄居蟹之分布 17 解釋變數篩選 17 周圍底質類型 18 到海之距離與自然海岸線長度 18 自然植被的土地利用類型面積 18 討論 19 陸寄居蟹的分布樣貌 19 陸寄居蟹分布與環境因子的相關性 20 陸寄居蟹的體型量測 22 東北角陸寄居蟹的保育 22 引用文獻 24 附錄一、柴山與東北角陸寄居蟹群聚之差異 50 附錄二、先期試驗:時間、日期對捕捉數量之影響 50 附錄三、陸寄居蟹的貝殼使用 51 | |
dc.language.iso | zh-TW | |
dc.title | 東北角海岸陸生寄居蟹之分布 | zh_TW |
dc.title | Distribution of terrestrial hermit crabs (Genus Coenobita) in Northeast seashore area of Taiwan | en |
dc.type | Thesis | |
dc.date.schoolyear | 105-1 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 何平合,邱郁文,柯佳吟 | |
dc.subject.keyword | 陸寄居蟹,雜食性碎屑食者,前盾甲長,廣義線性模型, | zh_TW |
dc.subject.keyword | terrestrial hermit crab,omnivorous scavengers,shield length,Generalized linear model, | en |
dc.relation.page | 54 | |
dc.identifier.doi | 10.6342/NTU201603813 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2017-02-15 | |
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 |
顯示於系所單位: | 生態學與演化生物學研究所 |
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