由阿朗壹古道的區域地質展示中央山脈南段的構造

Ching-An Lee; 李謦安

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/60147

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	盧佳遇(Chia-Yu Lu)
dc.contributor.author	Ching-An Lee	en
dc.contributor.author	李謦安	zh_TW
dc.date.accessioned	2021-06-16T09:59:12Z	-
dc.date.available	2017-11-17
dc.date.copyright	2017-02-08
dc.date.issued	2016
dc.date.submitted	2016-11-30
dc.identifier.citation	Angelier, J. (1979) Determination of mean principal directions of stresses for a given fault population: Tectonophysics, v. 56, p. 17–26. Angelier, J. (1994) Fault slip analysis and paleostress reconstruction: Continental deformation, v. 4. Angelier, J., Barrier, E., Chu, H. T. (1986) Paleostress trajectories related to plate collision in the foothills fold-thrust belt of Taiwan: Mem. Geol. Soc. China. no. 7, p. 201-217. Bachman, S. B., Lewis, SD. and Schweller, W.J. (1983) Evolution of a forearc basin, Luzon Central Valley, Philippines: American Association of Petroleum Geologists Bulletin, v. 67, p. 1143-1162. Chang, C. P., Angelier, J., and Huang, C. Y. (2000) Origin and evolution of a mélange: the active plate boundary and suture zone of the Longitudinal Valley, Taiwan: Tectonophysics, v. 325, no. 1-2, p. 43-62. Chang, C. P., Angelier, J., and Lu, C. Y. (2009) Polyphase deformation in a newly emerged accretionary prism: Folding, faulting and rotation in the southern Taiwan mountain range: Tectonophysics, v.466, p. 395–408. Chen, Y. G. and Liu, T. K. (1993) Holocene Radiocarbon Dates in Hengchun Peninsula and Their Neotectonic Implications: Journal of the Geological Society of China, v. 36, p. 457-479. Cheng, Y. M. and Haung, C. Y. (1975) Biostratigraphic study in the west Hengchun Hill: ACTA Geologica Taiwanica, NTU , no. 18, p. 49-59. Chi, W. C., Reed D. L., Moore G., Nguyen, T., Liu, C. S., Lundberge, N. (2003) Tectonic wedging along the rear of the offshore Taiwan accretionary prism, Tectonophysics, v. 374, p. 199-217. Fisher, D., Lu, C. Y., and Chu, H. T. (2002) Taiwan Slate Belt: Insights into the ductile interior of an arc-continent collision, 2002, in., Geology and Geophysics of an Arc-continent collision, Taiwan, Byrne T. B., and Liu, C.-S., eds, Boulder, Colorado: Geol. Soc. Am, v. Special Paper 358, P 93-106. Hayes, D. E., and Lewis, S. D. (1984) A geophysical study of the Manila Trench, Luzon, Philippines 1. Crustal structure, gravity, and regional tectonic evolution : Journal of Geophysical Research, v. 89, p. 9171-9195. Huang, C. Y., Shyu, C. T., Lin, S. B., Lee, T. Q., and Sheu, D. D. (1992) Marine geology in the arc-continent collision zone off southeastern Taiwan: implication for late Neogene evolution of the Coastal Range：Marine Geology, v. 107, p. 183-212. Huang, C. Y., P.B., Y., C.W., L., Wang, T. K., and Chang, C. P. (2000) Geodynamic processes of Taiwan arc-continental collision and comparison with analogs in Timor, Papua New Guinea, Urals and Corsica: Tectonophysics, v. 325, p. 1-21 Huang, C.Y., Yuan, P.B. and Tsao, S.J. (2006) Temporal and spatial records of active arc-continent collision of Taiwan: A synthesis: GSA Bulletin, v. 118, no. 3/4, p. 274-288. Hudleston, P.J. (1973) Fold morphology and some geometrical implications of theories of fold development, Tectonophysics, no. 16, p. 1–46. Jones, M. E. and Preston, R. M. F. (1987) Deformation of Sediments and Sedimentary Rocks: Goelogical Society Special Publication. no.29. Karig, D. E. (1983) Accreted Terranes in the Northern Part of the Philippine Archipelago: Tectonics, v. 2, no. 2, p. 211-236. Katsumata, M., and Sykes, L. R. (1969) Plate convergence and deformation, North Luzon Ridge, Philippines: Tectonophysics, v. 168, no. 221-237. Lallemand, S. E. and Tsien, H. H. (1997) An introduction to active collision in Taiwan: Tectonophysics, v.274, p. 1-4. Lewis, K. B. (1971) Slumping on a continental slope inclined at 1°–4°: Sedimentology, v. 16, p.97-110. Lewis, S. D., and Hayes, D. E. (1984) A geophysical study of the Manila Trench, Luzon, Philippines: 2. Fore arc basin structural and stratigraphic evolution: Journal of Geophysical Research, v. 89, p. 9196-9214. Lin, A.T., Yao, B., Hsu, S. K., Liu, C. S., Huang, C. Y. (2009) Tectonic features of the incipient arc–continent collision zone of Taiwan: implications for seismicity: Tectonophysics, v. 479, p. 28–42. Liu, C.S., Liu, S.Y., Lallemand, S.E., Lundberg, N. and Reed, D.L. (1998) Digital elevation model offshore Taiwan and its tectonic implications: TAO, v. 9 no. 4, p. 705-738. Lu, C. Y., Sun, L. J., Lee, J. C., Liou, Y. S., and Liou, T. S. (1989) The shear structures in the Miocene Lushan Formation of the Suao area,Eastern Taiwan. : Proc.Geol. Soc. China, v. 32, no.2, p. 121-137. Lu, C. Y., and Hsu, J. K. (1992) Tectonic Evolution of the Taiwan Mountain Belt: Petrol. Geol. Taiwan, v. 27, p. 15-35. Lu, C. Y., and Malavieille, J. (1994) Oblique Convergence, Indentation and Rotation Tectonics in the Taiwan Mountain Belt - Insights from Experimental Modeling: Earth and Planetary Science Letters, v. 121, no. 3-4, p. 477-494. 123. Lu, C. Y., Chang, K. J., Jeng, F. S., and Jian, W. T. (1998) Impact of basement high on the structure and kinematics of the western Taiwan thrust wedge: insights from sandbox models. : Terrestrial Atmospheric and Oceanic Sciences, v. 9, no. 533-550. Lu, C. Y., Chang, K. J., Malavieille, J., Chan, Y. C., P, Chang. C., and Lee, J. C. (2001) Structural Evolution in the southeastern Central Range, Taiwan: Western Pacific Earth Sciences, v. 1, no. 2, p. 213-226. Lundberg, N., Reed, D. L., Liu, C. S., and Lieske, J. (1992) Structural controls on orogenic sedimentation, submarine Taiwan colliosion: ACTA Geologica Taiwanica, NTU ,no. 30, p. 131-140. Lundberg, N., Reed, D. L., Liu, C. S., and Lieske, J. (1997) Forearc-basin closure and arc accretion in the submarine suture zone south of Taiwan: Tectonophysics, v. 274, no. 1-3, p. 5-23 Malavieille, J. (2010) Impact of erosion, sedimentation, and structural heritage on the structure and kinematics of orogenic wedges: Analog models and case studies: GSA Today, v. 20, no. 1, p. 1-10. Matsubara, Y., and Seno, T. (1980) Paleogeographic reconstruction of the Philippine Sea at 5 my BP: Earth and Planetary Science Letters ,v. 51, p. 406-414. Minster, J. B. a. J., T.H. (1979) Rotation vectors for the Philippine and Rivera plates: Eos, Trans: Amer. Geophys. Union, v. 60, p. 598. Pelletier, B. and Stephan, J.F. (1986) Middle Miocene obduction an late Miocene beginning of collision registered in the Hengchun Peninsula: Geodynamic implications for evolution of Taiwan: Tectonophysics, v. 125, p.133-160. Pelletier, B., Stephan, J.F., Blanchet, R., Muller, C. and Hu, H.N. (1984) Geology Of The Hengchun Peninsula, Southern Taiwan: Arguments For A Middle Miocene Obduction And For An Arc-Continent Collision Since Upper Miocene: Sino-French Colloquium on Geodynamics of the Eurasian-Philippine Sea Plate Boundary, Taipei, ROC, p. 64-65. Pelletier and Hu (1984) New Structural Data Along Two Transects Across The Southern Half Of The Central Range Of Taiwan: Mem. Geol. Soc. China. no. 6, p. 1-19. Ramsay, J.G. (1967) Folding and Fracturing of Rocks, McGraw-Hill, New York. Reed, D. L., Lundberg, N., Liu, C.-S., and B.-Y., K. (1992) Structural relation along the margins of the offshore Taiwan accretionary wedge: implications for accretion and crustal kinematics: ACTA Geologica Taiwanica, NTU ,no. 30, p. 150-122. Richard, M., Bellon, H., Maury, R. C., Barrier, E., and Juang, W. S. (1986) Miocene to recent &c-alkaline volcanism in eastern Taiwan: K-Ar ages and petrography: Tectonophysits, v. 125, p. 87-102. Sarewitz, D. R., and Karig, D. E. (1986) Geologic evolution of Western Mindoro Island and the Mindoro Suture Zone, Philippines: Journal of Southeast Asian earth sciences, v. 1, no. 117-141. Seno, T. (1977) The instantaneous rotation vector of the Philippine Sea plate relative to the Eurasian plate: Tectonophysics ,v. 42, no. 209-226. Seno, T., and Maruyama, S. (1984) Paleogeographic reconstruction and origin of the Philippine Sea: Tectonophysics, v. 102, no. 53-84. Seno, T., Moriyama, T., Stein, S., Woods, D. F., Demets, C., Argus, D., and Gordon, R. (1987) Redetermination of the Philippine Sea Plate motion: Eos Trans. AGU, v. 68, no. 1474. Suppe, J. (1981) Mechanics of mountain building and metamorphism in Taiwan: Mem. Geol. Soc. China, v. 4, p. 67-89. Suppe, J. (1984) Kinematics of arc-continent collision, flipping of subduction and back-arc spreading near Taiwan: Mem. Geol. Soc. China, v. 6, p. 21-33. 125 Suppe, J. (2007) Absolute fault and crustal strength from wedge tapers: Geology, v. 35, no. 12, p. 1127-1130. Teng, L. S. (1987) Stratigraphic records of the late cenozoic Penglai Orogeny of Taiwan. ACTA Geologica Taiwanica, NTU ,no. 25, p. 205-224. Teng, L. S. (1990) Geotectonic evolution of late Cenozoic arc-continental collision in Taiwan: Tectonophysics, v. 183, p. 57-76 Taylor, B., and Hayes, D. E. (1980) The tectonic evolution of the South China Sea Basin: Geophysical Monograph, v. 23. Taylor, B., and Hayes, D. E. (1983) Origin And History Of The South China Sea Basin: Geophysical Monograph v. 27, p. 23-56. Yamamoto, Y., Nidaira, M., Ohta, Y. and Ogawa, Y. (2009) Formation of chaotic rock units during primary accretion processes: Examples from the Miura–Boso accretionary complex, central Japan, Island Arc, no. 18, p. 496–512. Yu, S. B., and Chen, H. Y. (1994) Global Positional System meansurements of crustal deformation in the Taiwan arc-continent collision zone: Terrestr. Atmos. Oceanic Sci., v. 5, p. 477-498. 六角兵吉和牧山鶴彥 (1934) 高雄洲恆春油田調查報告。台灣總督府殖產局出版，第 660 號。顏士傑和林瓊瑤 (2007) 歷史的道路－琅嶠－卑南道。內政部營建署臺灣國家公園，主題報導。朱傚祖 (1994) 從擦痕判斷斷層與褶皺孰先孰後。地質，第 14 卷，第一期。鄧屬予，李建成，徐志彬 (2002) 海岸山脈蕃薯寮層的軟質沉積形變。經濟部中央地質調查所彙刊，第 15 號，第 103-137 頁。宋國城 (1987) 恆春半島晚新第三紀地層及其古沉積環境之研究。國立臺灣大學地質學研究所博士論文，共190 頁。宋國城 (1991) 臺灣地質圖幅及說明書，圖幅第六九、七十、七二號，恆春半島。經濟部中央地質調查所，共 77 頁。張敏 (1985) 台灣南部恆春半島新第三系之生物地層。國立臺灣大學地質研究所碩士論文，共 65 頁。陳文山 (1985) 台灣南部恆春半島之地質。國立臺灣大學地質研究所碩士論文，共 106 頁。陳文山 (1992) 恆春半島墾丁層層位及時代的檢討。經濟部中央地質調查所特刊，第 6 期，第 135-142 頁。陳文山，李偉彰，黃能偉，顏一勤，楊志成，楊小青，陳勇全和宋時驊 (2005) 恆春半島增積岩體的構造與地層特性：全新世恆春斷層的活動性。西太平洋地質科學，第 5 卷，第 129-154 頁。陳文山、方中權、劉力豪、楊小青、顏一勤、黃能偉、楊志成、陳勇全、龔慧敏、賴慈華、費立沅 (2006) 台灣地區上新世至全新世的沈積同時變形構造-地震岩的沈積環境：西太平洋地質科學，第 6 卷，第 191–220 頁。陳敏祥 (1994) 恆春半島楓港溪斷層發育機制之研究。國立成功大學地球科學研究所碩士論文，共121頁。陳麗雯 (2006) 台灣東南海域弧前盆地之構造演化特徵。國立臺灣大學海洋研究所碩士論文，共100 頁。李珀儂 (2008) 南台灣恆春區域新期構造運動之研究。國立臺灣大學地質科學研究所碩士論文，共92 頁。黃欽煌 (2013) 由砂箱模型透視台灣南部弧前基磐隱沒機制及前緣增基系統。國立臺灣大學地質科學研究所碩士論文，共126 頁。詹新甫 (1974) 恆春半島之地層與構造並申論中新世傾瀉層。台灣省地質調查所彙刊，第 24 號，第 99-108 頁。顏滄波，鄒玉華和吳慶餘 (1984) 恆春半島地質與地球物理研究。國科會報告。方中權 (2006) 台灣的沉積構造。地球科學文教基金會發行。
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/60147	-
dc.description.abstract	臺灣南部的恆春半島及臺東為初始碰撞演化至聚合的關鍵樞紐區。最初為菲律賓海板塊朝西北方斜向聚合歐亞板塊，隱沒作用造成呂宋島火山島弧及台灣島的增積岩體，後期發展出南北向的台灣造山帶，因此我們可由現今臺灣南部的野外構造研究可窺知臺灣造山初期的樣貌及演化關鍵。恆春半島保留了臺灣從隱沒帶到造山帶的增積楔形體構造演化證據，而該區的詳細研究卻十分有限。前人於太麻里—金崙海岸沿線進行研究，藉由從構造地形圖、野外地質調查等方法，分析類背斜褶皺以及剪切帶的構造，發現了中央山脈南段紀錄了臺灣島造山的豐富構造演變史，包含一系列的向東伸向構造並造成地層倒轉，以及橫移壓縮作用造成左移斷層。因此本研究欲延續前人研究近一步的詳細記錄整合野外構造特徵，以屏東縣牡丹鄉旭海村為中心，朝北以塔瓦溪為界，以台東縣南田—屏東縣旭海海岸的「旭海—觀音鼻自然保留區」中的阿朗壹古道為主，往南於旭海—大流海岸沿線進行野外考察，達旭海溪及省道台26線海岸處。阿朗壹古道中不僅保存了珍貴的生態環境與生物多樣性，也保存了豐富的地質活動紀錄。本研究除使用基礎野外地質量測方法，另採用了5m DTM數值地形模型圖，配合GPS定位標記位態資料，呈現觀察到的構造特徵，並結合地形資料來掌握構造分布。在野外繪製素描以及側視構造剖面圖後，更使用以UAV拍攝影像完成的三維真實模型，在室內觀察徒步不可及的地形高處。以FaultKin軟體整合斷層及褶皺所指示的應力方向之後，利用截切關係分期並與前人研究的結果比較，發現向東伸向的逆衝斷層和褶皺以及橫移壓縮構造為斜向聚合的關鍵證據，再藉由地理位置及構造延續性，發現與前人研究之中央山脈東南側有關。最後結合了應力分期資料，提出小區域的演化模型解釋本研究區的構造變形歷史。	zh_TW
dc.description.abstract	Southern Taiwan, including Pingtung peninsula and Taitung, is the incipient oblique convergent zone of Eurasian plate and Philippine Sea plate. Subduction activity formed the Luzon volcanic arc and accretionary wedge offshore southern Taiwan. So that we can infer the incipient feature structure from the topography and outcrop study of southern Taiwan. Hengchun peninsula remained the structural evolution evidence about Taiwan as subduction zone to orogenic zone inside the accretionary wedge. Previous studies observed some mountain building history by analyzing the antiformal syncline and shear zone by the tomography and field survey along the Taimali to Jinlun coastline Such as east-vergent structures which formed the overturned formation and left lateral faults which caused by transpression process. In this study, we continued the former studies and integrate the records of the structure from the field survey to complete the structure evolution story. The field survey of this study is in the Reserve area from Nantien to Syuhai, Southeast coastline of Taiwan, also known as A-Lan-Yi Trail, which preserving the ecological environment and biodiversity with abundant geological activity record. Furthermore, to map the distribution of regional structures with topography in this accessible area, I applied the 5m DTM (Digital Terrian Model) to mark the bedding attitudes with GPS data, then I adopted the true 3D model based on unmanned aerial vehicle-derived images to observe the inaccessible high area. Afterword, I use FaultKin to calculate the striation data for paleo-stress direction and divide it to different stages by the crosscutting relationship then compare the result with former studies. This study provides a strong evidence of back-thrusting and back-folding deformation during the incipient oblique collision stage, and as well as the discovered structures in this area show the similar kinematic history as the eastern flank of Central Range. Finally, after concluding the paleo-stress stages to above-mentioned results, I propose a possible evolution model with deformation history of this study area.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T09:59:12Z (GMT). No. of bitstreams: 1 ntu-105-R02224210-1.pdf: 53391296 bytes, checksum: 14b8a9ec8d6c2da547f186c3a7cf1809 (MD5) Previous issue date: 2016	en
dc.description.tableofcontents	口試委員審定書 I 致謝 II 摘要 III Abstract IV 圖目錄 VIII 表目錄 XII 第一章、緒論 1 1.1 研究目的及動機 1 1.2 研究區域 3 1.3 章節內容 5 第二章、前人研究 6 2.1地質歷史背景 6 2.2 恆春半島地層劃分 12 2.3中央山脈南段地質背景概述 15 2.4 旭海地區前人研究 22 第三章、研究方法 26 3.1 野外地質研究 26 3.2資料量測方法 27 3.2.1 地層位態 27 3.2.2 27 3.2.3 27 3.3 資料彙整方法 30 3.3.1地層位態 30 3.3.2褶皺位態 34 3.3.3 褶皺形貌描述 36 3.3.4 斷層與剪切帶 38 3.3.5 運動學三軸與斷層機制解(Faultkin for Windows, v. 7.4.3) 40 3.4 採集標本及磨製薄片 42 3.4.1 採集標本 42 3.4.2 磨製薄片 42 3.4.3 薄片觀察 42 第四章、野外露頭分段觀察及描述 43 4.1 阿朗壹古道區域(AL) 44 4.1.1 阿朗壹古道區域北段觀音鼻露頭觀察 51 4.1.2 阿朗壹古道區域南段露頭觀察 57 4.2 旭海溪區域(SH) 61 4.2.1 羊仔溪露頭觀察 62 4.2.2 旭海溪北支流露頭觀察 63 4.2.3 旭海溪南支流露頭觀察 63 4.2.4 台26線東岸露頭觀察 64 4.3 大流溪區域(DL) 65 4.3.1 大流溪區域露頭觀察 66 4.3.2 台26線73.8.km處小溪溝露頭觀察 66 第五章、資料處理及分析 68 5.1 褶皺的幾何形貌 68 5.2 褶皺資料處理 74 5.3 斷層擦痕資料處理 78 5.4 褶皺與擦痕古應力方向比較 84 5.5 鉛筆狀構造分析 88 5.6 薄片觀察 91 第六章、討論 94 6.1 構造分期結果討論 94 6.2 中央山脈南段東側的逆時針旋轉 96 6.3 研究區內地質圖探討 99 6.4 模型模擬比對 101 6.5 區域構造演化模型 102 第七章、結論 104 參考文獻 105 附錄一、層面位態資料 112 附錄二、鉛筆狀構造資料 114 附錄三、擦痕資料 115 附錄四、圖版 129
dc.language.iso	zh-TW
dc.subject	野外地質調查	zh_TW
dc.subject	橫移壓縮作用	zh_TW
dc.subject	向東伸向構造	zh_TW
dc.subject	斷層及褶皺分析	zh_TW
dc.subject	field survey	en
dc.subject	east vergent structure	en
dc.subject	transpression	en
dc.subject	faults and folds analysis	en
dc.title	由阿朗壹古道的區域地質展示中央山脈南段的構造	zh_TW
dc.title	Structure of Southern Central Range: Insights from A-Lan-Yi area	en
dc.type	Thesis
dc.date.schoolyear	105-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	朱傚祖(Hao-Tsu Chu),張中白(Chung-Pai Chang),詹瑜璋(Yu-Chang Chan),張國楨(Kuo-Chen Chang)
dc.subject.keyword	野外地質調查,向東伸向構造,橫移壓縮作用,斷層及褶皺分析,	zh_TW
dc.subject.keyword	field survey,east vergent structure,transpression,faults and folds analysis,	en
dc.relation.page	172
dc.identifier.doi	10.6342/NTU201603772
dc.rights.note	有償授權
dc.date.accepted	2016-12-01
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	地質科學研究所	zh_TW
顯示於系所單位：	地質科學系

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