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以作者查詢圖書館館藏 、以作者查詢臺灣博碩士 、以作者查詢全國書目 、勘誤回報 、線上人數:49 、訪客IP:18.117.232.165
姓名 江侑倫(Yu-Lun Chiang) 查詢紙本館藏 畢業系所 地球科學學系 論文名稱 台灣北部外海基隆海底火山區域之高解析地層構造研究 相關論文 檔案 [Endnote RIS 格式]
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至系統瀏覽論文 (2026-7-22以後開放)
摘要(中) 菲律賓海板塊在台灣東北部向西北方向隱沒至歐亞板塊的下面,因為南沖繩海槽張裂逐漸由東北向西南移動,因此,在台灣東北處,台灣造山運動從早期到晚期,由地殼抬升轉變為塌陷。台灣東北部正處於後碰撞時期,因為南沖繩海槽張裂,在台灣東北外海有多東北—西南走向的正斷層,使得台灣東北部外海多呈現半地塹和地塹的地形樣貌,在基隆外海,根據多音束水深(Multi-beam)以及單音束(Single-beam)的資料,在本研究區域發現有錐狀突起的構造,熱液活動旺盛,微震活動頻繁,本研究區域為基隆海底火山範圍,而出露的海底錐狀體是基隆海底火山頸,基隆海底火山頸周圍可發現許多噴氣。本研究使用新海研2號 0082-KL1、0093航次的水深、電火花反射震測、船載底質剖面和EA640的資料,在基隆海底火山附近收集了15條電火花反射震測剖面和15條與電火花反射震測剖面共線的底質剖面,來探討流體特徵、火成岩體特徵和噴氣分布,並且進而討論噴其分布的原因。本研究利用了電火花反射震測剖面觀察深部地層的流體特徵、火成岩體特徵和震波訊號極性反轉特徵,接著利用底質剖面和EA640的資料觀察噴氣特徵來去觀察特徵上面是否有噴氣出露至海床上,以便證實在電火花反射震測剖面上觀察到的特徵是否活躍中,利用研究結果來加以輔助說明、證實前人的研究,最後根據這些特徵可以發現火成岩體、流體特徵是沿著特定方向分布,此特定方向上可能有一個斷層帶存在,而岩漿沿著此斷層帶移棲至淺部地層,造成流體特徵……等特徵的產生。 摘要(英) In the northeastern Taiwan, the Philippine Sea Plate subducts northwestward beneath the Eurasian Plate in northeastern Taiwan. Because the extension of the southern Okinawa Trough gradually migrates from northeast to southwest, from the early stage to the late stage, the Taiwan orogen transferred from the collision stage to the collapse stage due to the reverse subduction polarity. Nowadays, the northeastern Taiwan is in the post-collisional stage, due to the extension of the southern Okinawa Trough, there are some NE-SW trending normal faults which caused the offshore northeastern Taiwan in the graben and half-graben features. In the Keelung offshore, according to multi-beam and single-beam data, there is a cone-shaped structure was found in this study area which is with strong hydrothermal activity and frequent microseismic activity. This study area is in the Keelung submarine volcano range, and the emergency submarine cone is the neck of the Keelung submarine volcano. Many gas plumes can be found around the neck of the Keelung submarine volcano. This study used the data of water depth, sparker seismic reflection survey, sub-bottom profiles and EA640 data which collected from NOR2-0082-KL1 and NOR2-0093.This study collected 15 sparker seismic reflection profiles and 15 collinear sub-bottom profiles of the spark reflection seismic profiles which are used to explore the fluid characteristics, igneous rock characteristics, and the distribution of gas plumes to discuss the reason for the distribution of these characteristics. Observing the fluid characteristics, igneous rock, and seismic signal reverse polarity characteristics of deep strata by using spark reflection seismic profiles in this study Then, using the bottom profiles and EA640 data to observe the gas plumes characteristics and prove whether there are gas plumes erupt to the seafloor which is above the features, in order to confirm whether the features which are observed on the sparker seismic reflection profiles are active. Using the research results to assist in explanation and previous research confirmation. Finally, based on these features, it can be found that the igneous rock characteristics and fluid characteristics are along the Distribution which is in a specific direction, there may be a fault zone in this specific direction, and the magma migrates to the shallow strata along this fault zone, causing fluid characteristics... and other characteristics. 關鍵字(中) ★ 基隆海底火山
★ 火成岩體
★ 震波訊號極性反轉關鍵字(英) ★ Keelung submarine volcano
★ igneous rock
★ seismic signal reverse polarity論文目次 摘要......................................................................................................................iv
Abstract ................................................................................................................. v
目錄.....................................................................................................................vii
圖目錄..................................................................................................................ix
表目錄.................................................................................................................xii
第一章、緒論....................................................................................................... 1
1-1 區域概況 ..................................................................................................... 1
1-2 研究動機 ..................................................................................................... 2
第二章、前人文獻整合....................................................................................... 8
2-1 海域 ............................................................................................................. 8
2-2 陸域 ............................................................................................................. 8
2-3 噴氣 ............................................................................................................. 9
2-4 磁力、解析訊號 ....................................................................................... 10
2-5 地震及斷層 ............................................................................................... 10
第三章、研究方法與資料處理流程................................................................. 22
3-1 研究方法 ................................................................................................... 22
3-2 資料收集 ................................................................................................... 23
3-3 電火花震測介紹 ....................................................................................... 24
3-3-1 電火花資料處理流程 ........................................................................ 25
3-4 船載聲納探測儀簡介 ............................................................................... 32
3-4-1 底質剖面儀資料處理流程 ................................................................ 33
3-5 多音束水深資料處理 ............................................................................... 53viii
3-6 Kongsberg EA640 資料處理 .................................................................. 55
第四章、研究結果............................................................................................. 60
4-1 電火花震測剖面解釋 ............................................................................... 60
4-1-1 火成岩體構造特徵 ............................................................................ 60
4-1-2 震波訊號極性反轉特徵與流體特徵 ................................................ 61
4-1-3 構造特徵 ............................................................................................ 63
4-2 船載底質剖面解釋 ................................................................................... 81
4-3 EA640 迴聲剖面解釋............................................................................... 83
4-3-1 火成岩體構造 .................................................................................... 83
4-3-2 震波訊號極性反轉特徵和流體特徵 ................................................ 84
第五章、討論..................................................................................................... 95
5-1 噴氣和流體特徵、火成岩體特徵和震波訊號極性反轉特徵分布的
可能原因.......................................................................................................... 95
第六章、結論..................................................................................................... 97
參考文獻........................................................................................................... 100
附錄................................................................................................................... 104參考文獻 [1]. Wu, Francis T. “Recent tectonics of Taiwan.,” Journal of Physics of the Earth, Vol.
26(SUPP), 1978. pp. 265-299.
[2]. Teng, L. S. “Geotectonic evolution of late Cenozoic arc-continent collision in
Taiwan.,” Tectonophysics, Vol 183(1-4), 1990, pp. 57-76.
[3]. Sibuet, J. C, Hsu, S. K, “How was Taiwan created ?,” Elsevier, Tectonophysics, Vol. 379,
2004. pp.159-181.
[4]. Teng, L.S. “Extensional collapse of the northern Taiwan mountain belt.,”. Geology, Vol.
24, 1996. pp. 949-952.
[5]. Wang, K.-L., Chung, S.-L., Chen, C.-H., Shinjo, R., Yang, T.-F., Chen, C.-H., “Postcollisional magmatism around northern Taiwan and its relation with opening of the
Okinawa Trough.,”. Tectonophysics Vol.308, 1999. pp. 363–376.
[6]. Deffontaines, B., Liu, C. S, Angelier, J., Lee, C. T., Sibuet, J. C, Tsai, Y. B., ... & Hsu, H.
H. “Preliminary neotectonic map of onshoreoffshore Taiwan.,”. Terr. Atmos. Ocean. Sci.,
Vol 12(SUPP), 2001. pp., 339-349.
[7]. Cheng, S. N., Shaw, C. F., & Yeh, Y. T. “Reconstructing the 1867 Keelung Earthquake
and Tsunami Based on Historical Documents.,”. Terr. Atmos. Ocean. Sci., Vol 27, 2016
pp. 3
[8]. Tsai, C. H., Hsu, S. K., Lin, S. S., Yang, T. F., Wang, S. Y., Doo, W. B., ... & Liang, C. W.
“The Keelung Submarine Volcano in the near-shore area of northern Taiwan and its
tectonic implication.,”. Journal of Asian Earth Sciences, Vol 149, 2017 pp. 86-92.
[9]. Tsai, C. H., Huang, C. L., Hsu, S. K., Doo, W. B., Lin, S. S., Wang, S. Y., ... & Liang, C.
W. “Active normal faults and submarine landslides in the Keelung Shelf off NE
Taiwan.,”. Terr. Atmos. Ocean. Sci., Vol 29, 2018 pp. 31-38.101
[10] 黃建程.“台灣基隆外海近海床地質構造與噴氣現象的探討,” 。 Vol. 國立中央大
學地球物理研究所(Master dissertation, 碩士論文),2017 pp. 第 1-148 頁
[11].Hsu, S.-K., Liu, C.-S., Shyu, C.-T., Liu, S.-Y., Sibuet, J.C., Lallemand, S., Wang, C.,
Reed, D., 1998b. “New gravity and magnetic anomaly maps in the Taiwan-Luzon region
and their preliminary interpretation.,”. Terr. Atmos. Ocean. Sci., Vol 9, 1998b pp. 509–
532.
[12].Doo, W.-B., Hsu, S.-K., Armada, L., “New magnetic anomaly map of the East Asia with
some preliminary tectonic interpretations.,”. Terr. Atmos. Ocean. Sci., Vol 26, 2015, pp.
73–81.
[13].Nguyen, Q. M., Hsu, S. K., Lin, A. T. S., & Yang, C. C. “Sedimentary sequences
offshore northeastern Taiwan and the offshore projection of the Shanjiao Fault
zone.,” Tectonophysics Vol. 826,2022 pp. 229254.
[14].Yu, H. S., & Lee, M. L. “Morphological and seismic characteristics of the North
Mienhua submarine canyon off northeastern Taiwan.,” Terr. Atmos. Ocean Sci., Vol 9,
1998, pp. 263-278.
[15].Teng, L.S. “Geotectonic evolution of Tertiary continental margin basins of Taiwan.,”台
灣石油地質, Vol. 27, 1992. pp.1-19
[16].Chang, J. H., Yang, E. Y. C., Hsu, H. H., Su, C. C., Liu, C. S., Chiu, S. D., ... & Shen, J.
S. “Seismic stratigraphic features of the Late Miocene-present unconformities and
related seismic units, northern offshore Taiwan.,” SEISMIC AND SEQUENCE
STRATIGRAPHY AND INTEGRATED STRATIGRAPHY, Vol 61, 2017.
[17].Yang, T. F., Lan, T. F., Lee, H. F., Fu, C. C., Chuang, P. C., Lo, C. H., ... & Lee, C. S.
“Gas compositions and helium isotopic ratios of fluid samples around Kueishantao, NE
offshore Taiwan and its tectonic implications.,” Geochemical Journal Vol 39(5), 2005.
pp. 469-480
[18].Stuart, F. M., Lass-Evans, S., Godfrey Fitton, J., & Ellam, R. M. “High 3He/4He ratios
in picritic basalts from Baffin Island and the role of a mixed reservoir in mantle
plumes.,” Nature, Vol 424(6944), 2003. pp. 57-59102
[19].Starkey, N. A., Stuart, F. M., Ellam, R. M., Fitton, J. G., Basu, S., & Larsen, L. M.
“Helium isotopes in early Iceland plume picrites: Constraints on the composition of high
3He/4He mantle.,” Earth and Planetary Science Letters, Vol 277(1-2), 2009. pp. 91-100
[20].Roest, W.R., Verhoef, J., Pilkington, M., “Magnetic interpretation using the 3-D analytic
signal.,”. Geophysics, Vol 57, 1992 pp. 116–125.
[21].Hsu, S. K., Sibuet, J. C., & Shyu, C. T. “High-resolution detection of geologic
boundaries from potential-field anomalies: An enhanced analytic signal
technique.,” Geophysics, Vol 61(2), 1996 pp. 373-386.
[22] 董倫道、林蔚、李柏村、張碩芳. “臺灣北部陸海域地區空中磁力探測,” Vol.
經濟部中央地質調查所報告, 2014, pp. 第 209-220 頁.
[23] Tsai, C. H., Hsu, S. K., Chen, S. C., Wang, S. Y., Lin, L. K., Huang, P. C., ... & Cho, Y.
Y. “Active tectonics and volcanism in the southernmost Okinawa Trough back-arc basin
derived from deep-towed sonar surveys.,”. Tectonophysics, Vol 817, 2021, pp. 229047.
[24] Sibuet, J. C, Deffontaines, B, Hsu, S. K, Thareau, N., Le Formal, J. P., & Liu, C. S.,
“Okinawa trough backarc basin: Early tectonic and magmatic evolution.,”. Journal of
Geophysical Research: Solid Earth, Vol. 103 No. B12, 1998, pp. 30245-30267.
[25] 陳冠宇. 台灣北部由造山帶至弧後張裂之陸域及海域構造研究,” Vol. 國立中央
大學地球物理研究所(Doctor dissertation, 博士論文), 2014, pp. 第 1-183 頁.
[26] 張致嘉. “台灣東北部北宜蘭構造的可能海域延伸,” 。 Vol. 國立中央大學地球物
理研究所(Master dissertation, 碩士論文),2023, pp. 第 1-138 頁
[27].Asia with some preliminary tectonic interpretations.,”. Terr. Atmos. Ocean. Sci., Vol 26,
2015 pp.73–81.
[28].Philip Kearey, Michael Brooks, Ian Hill. “An Introduction to Geophysical Exploration.
3rd ed.,” Blackwell Science, 1991.103
[29].J. Kluesner, D. Brothers, P. Hart, N. Miller, G. Hatcher. “Practical approaches to
maximizing the resolution of sparker seismic reflection data.,”. Marine Geophysical
Research, Vol 40, No. 3, 2019, pp. 279-301.
[30].Yan, L., Liu, Q., & Liu, X. “Study on the Igneous Rock Seismic Facies in Yingmai 32
Blocks.,”. Open Journal of Earthquake Research, Vol 9(5), 2020 pp. 417-426.
[31].Holford, S.P., Schofield, N., & Reynolds, P. (2017). “ Subsurface fluid flow focused by
buried volcanoes in sedimentary basins: Evidence from 3D seismic data, Bass Basin,
offshore southeastern Australia.,”. Interpretation, Vol 5(3), 2017 pp. SK39-SK50.
[32].Chen, C. H. “Igneous rocks of Taiwan.,”. Central Geological Survey.,1988.
[33].Chung, S. L., Yang, T. F., Lee, C. Y., & Chen, C. H. “The igneous provinciality in
Taiwan: consequence of continental rifting superimposed by Luzon and Ryukyu
subduction systems.,”. Journal of Southeast Asian Earth Sciences, Vol 11(2), 1995, pp.
73-80.
[34].Simm, R., & White, R. E. “Tutorial: Phase, polarity and the interpreter′s wavelet.,”. first
break, Vol 20(5), 2002.
[35].MORGAN, Eugene; VANNESTE, Maarten; VARDY, Mark. “Characterization of the
slope-destabilizing effects of gas-charged sediment via seismic surveys.,”. In: Offshore
Technology Conference. OTC, 2014, pp. D041S045R004.
[36].Iacopini, D., Butler, R. W. H., Purves, S., McArdle, N., & De Freslon, N. “ Exploring the
seismic expression of fault zones in 3D seismic volumes.,”. Journal of Structural
Geology, Vol 89, 2016 pp.54-73.指導教授 許樹坤(Shu-Kun Hsu) 審核日期 2024-7-23 推文 plurk
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