大屯火山群年代的不確定性

楊雅閔; Ya-Min Yang

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/99321

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	宋聖榮	zh_TW
dc.contributor.advisor	Sheng-Rong Song	en
dc.contributor.author	楊雅閔	zh_TW
dc.contributor.author	Ya-Min Yang	en
dc.date.accessioned	2025-08-22T16:10:22Z	-
dc.date.available	2025-08-23	-
dc.date.copyright	2025-08-22	-
dc.date.issued	2025	-
dc.date.submitted	2025-08-09	-
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Decrypting the sediment record of very late stage volcanic activities in Tatun volcano group, Northern Taiwan: evidence from ashy deposits. Terrestrial, Atmospheric and Oceanic Sciences, 36(1), 20. Huang, C. K. (1954). Basaltic hornblende from Tatun Volcanoes, Taiwan. Acta Geol. Taiwanica, 6, 1–12. Juang, W. S. (1993). Diversity and origin of Quaternary basaltic magma series in northern Taiwan. Bulletin of the National Museum of Natural Science, 4, 125–166. Juang, W. S., & Bellon, H. (1984). The potassium–argon dating of andesites from Taiwan. Proceedings of the Geological Society of China, 27, 86–100. Kelley, S. (2002). Excess argon in K–Ar and Ar–Ar geochronology. Chemical Geology, 188(1), 1–22. https://doi.org/https://doi.org/10.1016/S0009-2541(02)00064-5 Lee, J.-Y., Marti, K., Severinghaus, J. P., Kawamura, K., Yoo, H.-S., Lee, J. B., & Kim, J. S. (2006). A redetermination of the isotopic abundances of atmospheric Ar. 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F. (2009). Reply to Comment on “On the recent bimodal magmatic processes and their rates in the Torfajökull–Veidivötn area, Iceland” by K.M. Cooper. Earth and Planetary Science Letters, 281(1), 115–123. https://doi.org/https://doi.org/10.1016/j.epsl.2009.02.008 Shao, T., Xia, Y., Ding, X., Cai, Y., & Song, M. (2019). Zircon saturation in terrestrial basaltic melts and its geological implications. Solid Earth Sciences, 4(1), 27–42. https://doi.org/10.1016/J.SESCI.2018.08.001 Sharma, Y. P., Lal, N., Bal, K. D., Parshad, R., & Nagpaul, K. K. (1980). Closing temperatures of different fission track clocks. Contributions to Mineralogy and Petrology, 72, 335–336. Song, S.-R., Chen, T.-M., Tsao, S., Chen, H.-F., & Liu, H.-C. (2007). Lahars in and around the Taipei basin: Implications for the activity of the Shanchiao fault. Journal of Asian Earth Sciences, 31(3), 277–286. https://doi.org/https://doi.org/10.1016/j.jseaes.2006.07.017 Song, S.-R., Tsao, S., & Lo, H.-J. (2000b). Characteristics of the Tatun volcanic eruptions, North Taiwan: Implications for a cauldron formation and volcanic evolution. Journal of the Geological Society of China, 43(2), 361–378. Song, S.-R., Yang, T. F., Yeh, Y.-H., Tsao, S.-J., & Lo, H.-J. (2000a). The Tatun volcano group is active or extinct? Journal of the Geological Society of China, 43(3), 521–534. Szakács, A. (1994). Redefining active volcanoes: a discussion. Bulletin of volcanology, 56(5), 321-325. Teng, L. S. (1996). Extensional collapse of the northern Taiwan mountain belt. Geology, 24(10), 949–952. https://doi.org/10.1130/0091-7613(1996)024<0949:ECOTNT>2.3.CO;2 Turner, S., George, R., Jerram, D. A., Carpenter, N., & Hawkesworth, C. (2003). Case studies of plagioclase growth and residence times in island arc lavas from Tonga and the Lesser Antilles, and a model to reconcile discordant age information. 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Geochemical constraints for the Genesis of post-collisional magmatism and the geodynamic evolution of the northern Taiwan region. Journal of Petrology, 45(5), 975–1011. https://doi.org/10.1093/petrology/egh001 Wang, W. H., & Chen, C. H. (1990). The volcanology and fission track age dating of pyroclastic deposits in Tatun Volcano Group. Acta Geoligica Taiwanica, 28, 1–30. Watson, E. B., & Harrison, T. M. (1983). Zircon saturation revisited’ temperature and composition effects in a variety of crustal magma types. Earth and Planetary Science Letters, 64, 295–304. https://doi.org/10.1016/0012-821X(83)90211-X Yang, C. C., Liu, J. K., Huank, M. T., & Chen, W. S. (2004). DTM for mapping the volcanic landforms of Tatun Volcano Group in Northern Taiwan. Journal of Photogrammetry and Remote Sensing, 9(2), 1–8. Yang, T. F., Sano, Y., & Song, S. R. (1999). 3He/4He ratios of fumaroles and bubbling gases of hot springs in Tatun Volcano Group, North Taiwan. Nuovo Cimento Della Societa Italiana Di Fisica C, 22(3–4), 281–286. Zellmer, G. F., Rubin, K. H., Miller, C. A., Shellnutt, J. G., Belousov, A., & Belousova, M. (2015). Resolving discordant U-Th-Ra ages: Constraints on petrogenetic processes of recent effusive eruptions at Tatun Volcano Group, northern Taiwan. In Geological Society Special Publication, 422(1), 175–188. https://doi.org/10.1144/SP422.3 2. Chinese References 王執明、鄭穎敏、王源（1978）。臺北盆地之地質及沉積物研究，臺灣礦業，第30期，第4卷，第350-380頁。宋聖榮、楊燦堯、徐春田、蔡裕偉（2011）。大台北地區特殊地質災害調查與監測(二)-火山地質和地球化學調查與監測-四年總結報告。經濟部中央地質調查所。宋聖榮、楊燦堯、徐春田、蔡裕偉（2012）。火山地質與火山活動調查與監測，大台北地區特殊地質災害調查與監測第二期，計畫編號100-5226904000-01-01。經濟部中央地質調查所委託報告。李淑芬（1996）。大屯火山群七星火山亞群熔岩層序之研究。國立臺灣大學地質學研究所碩士論文，共136頁。曹恕中（1994）。大屯火山群火山岩的鉀氬年代分析。經濟部中央地質調查所彙刊，第九號，第137-154頁。莊文星、陳汝勤（1989）。臺灣北部火山岩之定年與地球化學研究。經濟部中央地質調查所彙刊，第5號，第31-66頁。陳正宏（1990）。台灣地質之一，台灣之火成岩。經濟部中央地質調查所，共137頁。黃鑑水（1988）。五萬分之一台灣地質圖及說明書-台北圖幅。經濟部中央地質調查所，共46頁。	-
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/99321	-
dc.description.abstract	過去已有許多研究嘗試利用各種定年方法與定年材料求得大屯火山群最近一次噴發的年代。然而，各研究結果互不相容，最後一次噴發年齡仍未有定論。大多數研究於20世紀末期進行，與近期相關研究則相隔逾二十年。隨著時間推移，定年設備與技術持續進步，且對不同定年方法之機制及所涉元素與礦物特性之理解更為深入，因而有機會重新評估前人定年結果，並與近期研究成果比較，以判定何種方法最適合用於大屯火山群最近噴發年代的測定。本研究於磺嘴山、七星山、紗帽山、烘爐山及竹子山等岩流露頭及岩芯樣本上，分別進行鈾釷定年與氬氬定年分析，並將結果與前人之鉀氬、氬氬、鈾鉛鋯石、鈾釷鐳及核飛跡等定年結果進行比較。重複樣本在鈾釷與氬氬定年分析中呈現顯著差異，推測主因為樣本組成複雜。鈾釷分析中識別出兩組具有顯著不同同位素組成與年齡之角閃石。各別井孔中的岩芯樣本基質的氬氬結果年齡相近，暗示岩流可能連續快速噴發；而氬氬角閃石年齡則較其基質年代為早。與先前資料比較，氬氬基質與鈾釷鐳定年所測年代通常為研究區中最年輕，且與同類研究結果相當吻合；核飛跡年代則始終屬於最老群，而鉀氬及氬氬全岩年代分佈廣泛。大屯火山群岩體年齡過於年輕，不適合鈾鉛鋯石分析，日後或需考慮採用鈾釷鋯石定年。整體而言，由於岩石組成複雜可能導致測得年代偏舊，實際噴發年齡很可能較目前測得結果年輕。	zh_TW
dc.description.abstract	Multiple studies in the past have attempted to obtain the most recent eruption age of the Tatun Volcanic Group (TVG) using various dating methods and dating materials available. Yet results among studies are incomparable, and the age of the last eruption remains inconclusive. Most studies were conducted at the end of the 20th century, with a two-decade gap before those done in the 21st century. With the passing of time, better equipments and techniques have been developed, and with a better understanding of the mechanics of different dating methods and the characteristics of the elements and minerals involved, it is now possible to re-evaluate previous dating results and compare them with more recent results to determine which method is most suitable for dating recent eruption ages in TVG. In this study, U-Th and Ar-Ar dating analyses were conducted on groundmass and mineral separates from Huangzuei, Cising, Shamao, Honlu, and Chutze lava flow outcrops and boreholes, then compared with past K-Ar, Ar-Ar, U-Pb zircon, U-Th-Ra, and fission track results. Duplicate samples produced divergent ages for both U-Th and Ar-Ar analyses. This is attributed to the samples being multiphase. Two amphibole populations of vastly different isotopic compositions and ages were identified in the U-Th analysis. Within each borehole, the Ar-Ar groundmass results show similar ages, suggesting that the lava flows erupted in quick succession. Ar-Ar hornblende ages predate their groundmass counterparts. But compared to previous data, Ar-Ar and U-Th-Ra results typically rank among the youngest ages in an area and compare well with similar studies. Fission track ages are consistently among the oldest, while K-Ar and Ar-Ar whole rock ages span across a broad range. The TVG rocks were too young for U-Pb zircon analysis, and U-Th zircon analysis may be needed. All bulk analyses may appear older due to multiphase, therefore, eruption age is likely younger than measured results.	en
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dc.description.tableofcontents	中文摘要 i Abstract ii CONTENTS iii LIST OF FIGURES v LIST OF TABLES x I. Introduction 1 II. Geological Background 2 III. Previous Studies 6 A. K–Ar and Ar–Ar Age Reports 6 B. U–Pb Zircon Age Report 8 C. U–Th–Ra Age Report 8 D. Fission Track Age Report 9 E. C–14 Age Reports 9 IV. Overview of Igneous Rock Dating Methods Applied to the TVG Region 10 A. K–Ar and Ar–Ar Analysis 10 B. U–Pb Zircon Analysis 12 C. U–Th–Ra Analysis 15 D. Fission Track Analysis 17 V. Methods 19 A. U–Th–Ra Analysis 22 B. Ar–Ar Analysis 29 VI. Results 30 A. U–Th–Ra Results 30 B. Ar–Ar Results 43 1. Outcrop Results 44 2. Borehole Sample Results 52 VII. Discussion 92 A. U–Th Analysis Comparison with Zellmer et al. (2015) 92 B. Ar–Ar Analysis Comparison with Chang et al. (2024) 98 C. Shamao U–Th and Ar–Ar Results Comparison 103 D. Age Dating Comparison with Previous Studies in the TVG Area 104 1. Cising Subgroup 106 2. Huangzuei Subgroup 117 3. Tatun Subgroup 122 4. Chutze Subgroup 126 E. Suitable Dating Methods for Recent Eruption Ages at TVG 131 F. Constraining TVG Recent Eruption Ages 134 G. Multiphase Amphiboles 135 VIII. Conclusion 135 IX. References 138 1. English References 138 2. Chinese References 147	-
dc.language.iso	en	-
dc.subject	火成岩定年	zh_TW
dc.subject	鈾釷定年	zh_TW
dc.subject	大屯火山群	zh_TW
dc.subject	近期噴發年代定年	zh_TW
dc.subject	氬氬定年	zh_TW
dc.subject	U-Th dating	en
dc.subject	Ar-Ar dating	en
dc.subject	recent eruption age dating	en
dc.subject	geochronology of igneous rocks	en
dc.subject	Tatun Volcanic Group	en
dc.title	大屯火山群年代的不確定性	zh_TW
dc.title	Evaluating the Inconsistencies in Geochronometric Data of the Tatun Volcano Group	en
dc.type	Thesis	-
dc.date.schoolyear	113-2	-
dc.description.degree	碩士	-
dc.contributor.oralexamcommittee	朱美妃;賴昱銘;葉孟宛	zh_TW
dc.contributor.oralexamcommittee	Mei-Fei Chu;Yu-Ming Lai;Meng-Wan Yeh	en
dc.subject.keyword	大屯火山群,火成岩定年,近期噴發年代定年,氬氬定年,鈾釷定年,	zh_TW
dc.subject.keyword	Tatun Volcanic Group,geochronology of igneous rocks,recent eruption age dating,Ar-Ar dating,U-Th dating,	en
dc.relation.page	148	-
dc.identifier.doi	10.6342/NTU202503882	-
dc.rights.note	同意授權(全球公開)	-
dc.date.accepted	2025-08-12	-
dc.contributor.author-college	理學院	-
dc.contributor.author-dept	地質科學系	-
dc.date.embargo-lift	2025-08-23	-
顯示於系所單位：	地質科學系

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