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姓名	鍾育晴(Yu-Ching Chung)  查詢紙本館藏	畢業系所	地球科學學系
論文名稱	利用淺層反射震測探討米崙臺地之地下構造 (Imaging Subsurface Structure of the Milun Tableland from a Shallow Seismic Reflection Survey)
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摘要(中)	米崙臺地(Milun Table)位於花東縱谷最北端，其西側以米崙斷層(Milun Fault)為界。 米崙斷層為第一類活動斷層，陸地上北起七星潭海岸、南至花蓮市美崙山西南側，前 人研究為左移兼具逆移性質，約呈南北走向。先前的學者根據米崙臺地的地型特徵， 認為米崙臺地上存在其他的次要斷層，包括民意斷層、七星潭斷層和南濱斷層等，曾 有人提出這些次要斷層為米崙斷層活動造成的壓縮型開花構造(Positive Flower Structure)，但由於這些斷層近期的活動構造並不明顯，所以無法了解斷層的特性與地 下分布幾何形態，故本研究測線橫跨米崙斷層、米崙臺地北邊並探測這些次要構造的 幾何特徵及其活動性質。本研究團隊於 2019 年 5 月，以震盪震源車(Mini Vib)為震源， 在花蓮七星潭沿岸區域施測反射震測測線。利用 240 波道系統收集訊號，以共同深度 點(Common Depth Point, CDP)概念整理並進行資料處理，震測剖面深度可達約 3 秒，解 析深度約 1 秒(約 1 公里)。研究結果顯示七星潭震測測線可看到米崙斷層北邊出海口位 置及其上盤背斜構造，並從地下構造中可看見因擠壓而產生的斷裂面，呈現典型的開 花狀構造特徵。
摘要(英)	The Milun Tableland bounded on the west by the Milun Fault is located at the northernmost Longitudinal Valley based on the geological survey. The Milun Fault is considered as an active fault, which starts from the Qixingtan coast in the north to the southwest of Meilun Mountain in Hualien City in the south. Previous studies have showed that the Milun Fault is a left-lateral strike-slip active fault, with a nearly north-south strike. Also, based on the topographic characteristics of the Milun Tableland, there were other secondary faults on the Milun Tableland, including the Mingyi, Qixingtan, and Nanbin faults. It has been proposed that this secondary faults are Positive Flower Structures caused by the activities of the Milun Fault, but few geophysical data exist to show the characteristics and the geometry of the subsurface distribution of the Milun fault. Therefore, in this study, a seismic reflection profile located at the north end of the Milun Tableland along the north coastline was planned and conducted across the Milun fault to explore the geometric features of this fault zone. The seismic field work was conducted in May 2019 with the Mini Vib truck as the seismic source and a 240-channel system with a 4 m geophone spacing as the receiver. The length of the seismic profile is around 2.5 km. The deepest seismic reflectors in this study can be observed around 1 second two-way travel time (around 1 kilometer). As a result, four seismic reflectors (unconformities) and sevral faults can be picked up in the profile and an anticline is observed beneath the Milun Tableland. Based on the geometry of faults and unconformities, this region is under compression with a typical flower structure and been through significant deformation.
關鍵字(中)	★ 米崙斷層 ★ 反射震測 ★ 米崙台地 ★ 開花構造	關鍵字(英)	★ Milun Fault ★ Seismic Reflection Survey ★ Milun Tableland ★ Positive Flower Structure
論文目次	中文摘要 .......................................................................................................................................................... I 英文摘要 ......................................................................................................................................................... II 致謝................................................................................................................................................................ III 目錄................................................................................................................................................................. V 圖目錄 ........................................................................................................................................................... VII 表目錄............................................................................................................................................................ IX 第一章 緒論.................................................................................................................................................. 1 1.1 研究動機與目的................................................................................................................................... 1 1.2 文本大綱 .............................................................................................................................................. 8 第二章 研究區域地質背景........................................................................................................................... 9 2.1 地質架構 .............................................................................................................................................. 9 2.1.1 地層分布....................................................................................................................................... 9 2.1.2 斷層分布......................................................................................................................................10 2.1.3 米崙臺地......................................................................................................................................11 2.2 文獻回顧 .............................................................................................................................................20 2.2.1 陸上反射震測..............................................................................................................................20 2.2.2 海上反射震測..............................................................................................................................20 2.2.3 地震活動性..................................................................................................................................21 2.2.4 地表變形......................................................................................................................................21 2.2.5 地質鑽探與漕溝..........................................................................................................................22 第三章 研究方法 .........................................................................................................................................34 3.1 反射震測原理......................................................................................................................................34 3.2 震測儀器設備......................................................................................................................................38 3.3 野外工作設置......................................................................................................................................44 3.3.1 儀器測試......................................................................................................................................44 3.3.2 測線規劃......................................................................................................................................44 3.3.3 施測參數......................................................................................................................................44 3.4 資料處理步驟......................................................................................................................................50 3.5 折射震測原理以及資料處理步驟 .......................................................................................................62 第四章 震測資料結果 .................................................................................................................................70 v 第五章 討論與結論 .....................................................................................................................................76 5.1 斷層、地震分布與震測資料之對比....................................................................................................76 5.2 地表變形與震測資料之關聯性 ...........................................................................................................76 5.3 米崙臺地之構造形成 ..........................................................................................................................76 5.4 折射震測與反射震測結果...................................................................................................................77 5.5 結論.....................................................................................................................................................77 參考文獻 ........................................................................................................................................................80
參考文獻	[1] Ashok kumar dubey. (n.d.). Understanding an Orogenic Belt. Retrieved from https://doi.org/10.1007/978-3-319-05588-6 [2] Chen, C., Lee, J., Chen, Y., & Rou-fei chen, R. (2014, June). Campaigned GPS on Present- Day Crustal Deformation in Northernmost Longitudinal Valley Preliminary Results, Hualien Taiwan. Retrieved from doi: 10.3319/TAO.2013.12.25.01(TT) [3] Hsu, T. L. (1955). The earthquakes of Taiwan. Quart. J. Bank Taiwan, 7, 148-164. [4] Hsu, Y., Chang, C., Yen, J., Kuo-chen, H., & Wang, C. (2019, June). Investigating the Structure of the Milun Fault from Surface Ruptures of the 2018 Hualien Earthquake. Retrieved from doi: 10.3319/TAO.2018.09.28.01 [5] Kuo‐chen, H., Guan, Z., Sun, W., Jhong, P., & Brown, D. (2018, October 17). Aftershock Sequence of the 2018 Mw 6.4 Hualien Earthquake in Eastern Taiwan from a Dense Seismic Array Data Set. Retrieved from https://doi.org/10.1785/0220180233 [6] Liew, P., Pirazzoli, P., Hsieh, M., Arnold, M., Barusseau, J., Fontugne, M., & Giresse, P. (1993). Holocene Tectonic Uplift Deduced from Elevated Shorelines, Eastern Coastal Range of Taiwan. Retrieved from Tectonophysics, 222, 55–68. (SCI) [7] Lin, L., Hsu, H., Liu, C., Chao, K., Ko, C., Chiu, S., ... Chen, S. (2019). Marine 3D Seismic Volumes from 2D Seismic Survey with Large Streamer Feathering. Retrieved from https://link.springer.com/article/10.1007%2Fs11001-019-09391-9 [8] Pegah, E., & Liu, H. (2016, April). Application of Near-Surface Seismic Refraction Tomography and Multichannel Analysis of Surface Waves for Geotechnical Site Characterizations: A Case Study. Retrieved from http://dx.doi.org/10.1016/j.enggeo.2016.04.021 89 [9] Tung, H., Chen, H., Hsu, Y., Hu, J., Chang, Y., & Kuo, Y. (2019, June). Triggered Slip on Multifaults after the 2018 Mw 6.4 Hualien Earthquake by Continuous GPS and InSAR Measurements. Retrieved from doi: 10.3319/TAO.2019.04.03.01 [10] Yilmaz. (2001). Seismic Data Analysis. Retrieved from http://dx.doi.org/10.1190/1.9781560801580 [11] Yu, S., Chen, H., & Kuo, L. (1997). Velocity Field of GPS Stations in the Taiwan Area. Retrieved from Tectonophysics 274 (1997) 41-59 [12] 何邦碩(1974)，花蓮近海海域地球物理初步測勘，海洋彙刊，第 12 期，第 39-47 頁。 [13] 朱傚祖、游明聖(1995)，花東縱谷活動斷層調查研究，行政院國家科學委員會專題 研究計畫成果報告。 [14] 林明聖(1998)，米崙礫岩臺地上的橫移斷層系統，東臺灣研究，共 3 頁 13-30。 [15] 廖宏祥(2006)，米崙斷層淺層震測研究，國立中正大學地震研究所碩士論文，共 92 頁。 [16] 經濟部中央地質調查所特刊(2009)，第二十三號。 [17] 林啟文(2012)，臺灣活動斷層分布圖 2012 年版說明書，經濟部中央地質調查所特 刊，第 26 號，第 1-30 頁。 [18] 曾雅筑(2019)，臺灣東部花蓮地區米崙活動斷層之古地震研究，國立中央大學應用 地質研究所碩士論文，共 154 頁。 [19] 斷層活動特性分析與評估(2/4)。 [20] 中央氣象局網站。 [21] 經濟部中央地質調查所網站。 [22] 經濟部活動斷層地質敏感區變更計畫書(2020)，F1011 米崙斷層。
指導教授	郭陳澔(Hao Kuo-Chen)	審核日期	2021-7-21
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