簡易檢索 / 詳目顯示

研究生: 李麗
Li Li
論文名稱: 南海東北部大陸邊緣揭陽凹陷新生代構造演化之研究及斷坳油氣資源特徵
Tectonic Evolution of Jieyang Depression on the Northeastern South China Sea Continental Margin and the Characteristics of Oil-Gas Resources in Fault-depression
指導教授: 葉孟宛
Yeh, Meng-Wan
學位類別: 博士
Doctor
系所名稱: 地球科學系
Department of Earth Sciences
論文出版年: 2020
畢業學年度: 108
語文別: 中文
論文頁數: 208
中文關鍵詞: 南海大陸邊緣減薄陸殼伸展速度伸展加速度揭陽凹陷
英文關鍵詞: South China Sea, continental margin, continental crust thinning, extension rate, extension acceleration, Jieyang Depression
DOI URL: http://doi.org/10.6345/NTNU202000561
論文種類: 學術論文
相關次數: 點閱:146下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報
  • 目錄 致謝 I 摘要 III 目錄 VI 圖目錄 IX 表目錄 XIII 第一章 序論 1 1.1 前言 1 1.2 文獻探討及前人研究 10 1.2.1 南海的打開與演化 13 1.2.2 南海東北部盆地形成機制與演化 15 1.2.3 南海東北部油氣資源回顧 17 1.3 研究目的 18 第二章 區域地質背景 19 2.1 潮汕坳陷的形成與其演化 19 2.2 臺西南盆地的形成與其演化 20 2.3 東沙隆起的形成與其演化 20 2.4 澎湖盆地的形成與其演化 21 2.5 臺西盆地的形成與其演化 21 2.6 各盆地形成演化史之比較 22 第三章 資料與方法 23 3.1 震測剖面 23 3.2 平衡剖面 38 3.2.1 平衡剖面的基本原理 39 3.2.2 平衡剖面的製作方法 40 3.2.3 平衡剖面的製作工具 41 3.2.4 2Dmove平衡剖面演算法 41 3.2.5 伸展與沉降量、速度、加速度計算方法 44 第四章 結果 46 4.1 地質架構 46 4.1.1 震測解釋結果 46 4.1.2 二維平衡剖面結果 66 4.1.3 地質構造解釋結果 81 4.2 平衡剖面水準、垂直方向變化計算結果 84 第五章 討論 87 5.1 揭陽凹陷地質架構和構造特徵 88 5.1.1 地層特徵 88 5.1.2 地質架構 91 5.1.3 構造特徵 93 5.2 構造演化 94 5.2.1 水準變化情況 95 5.2.2 垂直變化情況 102 5.3 地質地貌改組 105 5.4 油氣 113 5.4.1 常規油氣 113 5.4.2 非常規油氣 116 第六章 結論 121 參考文獻 124 附錄 150 附錄1 2D move平衡剖面資料記錄 150 附錄2 讀博士班期間發表有審查制度之學術論文 208

    Alvarez, F., J. Virieux and X. L. Pichon (1984). Thermal consequences of lithosphere extension over continental margins the initial stretching phase. Geophys 78(2),389-411.
    Arsene, G. (1985). Exploration Seismology: Sheriff and Geldart. Cambridge University Press, Cambridge
    A. W. Bally. (1975). Continental margins—an overview: abstract. cspg special publications.
    Bonvalot, S., Balmino, G., Briais, A., M. Kuhn, Peyrefitte, A., Vales N., Biancale, R., Gabalda, G., Reinquin, F., Sarrailh, M. (2012). World Gravity Map. Commission for the Geological Map of the World. Eds. BGI-CGMW-CNES-IRD, Paris
    Braun, J. and C. Beaumont (1989). A physical explanation of the relation between flank uplifts and the breakup unconformity at rifted continental margins. Geology 17, 760-764.
    Briais, A., Patriat, P., Tapponnier, P. (1993). Updated interpretation of magnetic anomalies and seafloor spreading stages in the south china sea: implications for the tertiary tectonics of southeast asia. Journal of Geophysical Research Solid Earth 98, 6299-6328.
    Buck, W.R. (1986). Small-scale convection induced by passive rifting: the cause for uplift of rift shoulders. Earth & Planetary Science Letters 77, 362-372.
    Cameselle, A.L., Ranero, C.R., Franke, D., Barckhausen, U. (2015). The continent-ocean transition on the northwestern South China Sea. Basin Research 29, 73-95.
    Chamberlin, R.T. (1910). The Appalachian folds of central Pennsylvania. The Journal of Geology 18, 228-251.
    Chen, L. (2014). Stretching factor estimation for the long-duration and multi-stage continental extensional tectonics: Application to the Baiyun Sag in the northern margin of the South China Sea. Tectonophysics 611, 167-180.
    Clift, P., G. H. Lee, N. Anh Duc, U. Barckhausen, H. Van Long and S. Zhen (2008). Seismic reflection evidence for a Dangerous Grounds miniplate: No extrusion origin for the South China Sea. Tectonics 27(3).
    Cohen, k.m., Finney, S.C., Gibbard, P.L., Fan, J.-X. (2017). The ICS International Chronostratigraphic Chart. Episodes 36, 199-204.
    Crosby, A., White, N., Edwards, G., Shillington, D.J. (2008). Evolution of the Newfoundland–Iberia conjugate rifted margins. Earth and Planetary Science Letters 273, 214-226.
    Cukur, D., Horozal, S., Lee, G.H., Kim, D.C., Han, H.C., Kang, M.H. (2011). Structural evolution of the northern East China Sea Shelf Basin interpreted from cross-section restoration. Marine Geophysical Research 32, 363-381.
    Dahlstrom, C. D. A. (1969). Balanced cross sections. Canadian Journal of Earth Scince 6.
    Daly MC, Cooper MA, Wilson I, Smith DG, Hooper BGD. (1991). Cenozoic plate tectonics and basin evolution in Indonesia Marine and Petroleum Geology 8, 2-21.
    Dauteuil, O., Deschamps, F., Bourgeois, O., Mocquet, A., Guillocheau, F. (2013). Post-breakup evolution and palaeotopography of the North Namibian Margin during the Meso-Cenozoic. Tectonophysics 589, 103-115.
    Davis, M., Kusznir, N. (2004). Depth-dependent lithospheric stretching at rifted continental margins. In: KARNER, G. D. (ed.) Proceedings of NSF Rifted Margins Theoretical Institute. Columbia University Press, New York 92-136.
    Dickinson, W.R. (1974). Plate tectonics and sedimentation. Tectonics and Sedimentation, 1-27.
    Ding W, Li M, Zhao L, Ruan A, Wu Z. (2011). Cenozoic tectono-sedimentary characteristics and extension model of the Northwest Sub-basin, South China Sea Geoscience Frontiers 2, 509-517
    Ding Weiwei, Sun Zhen, Mohn Geoffroy, Michae Nirrengarten, Tugend Julie, Manatschal Gianreto, Li Jiabiao. (2019). Lateral evolution of the rift-to-drift transition in the South China Sea: Evidence from multi-channel seismic data and IODP Expeditions 367 & 368 drilling results. Earth and Planetary Science Letters.
    Dong, D., Zhang, G., Zhong, K., Yuan, S., Wu, S. (2009). Tectonic evolution and dynamics of deepwater area of Pearl River Mouth basin, northern South China Sea. Journal of Earth Science 20, 147-159.
    Dongdong, D., Gongcheng, Z., Kai, Z., Shengqiang, Y., Shiguo, W.(2009 ).Tectonic evolution and dynamics of deepwater area of Pearl River Mouth basin, northern South China Sea 20, 147-159.
    Driscoll, N.W., Karner, G.D. (1998). Lower crustal extension across the Northern Carnarvon basin, Australia: Evidence for an eastward dipping detachment. Journal of Geophysical Research: Solid Earth 103, 4975-4991.
    Elia, d.A., Sylvie, L., Marie-Odile, B., Nicolas, B., Marc, F., Cécile, R., Marcia, M., Pascal, G. (2005). Structure and evolution of the eastern Gulf of Aden conjugate margins from seismic reflection data. Geophysical Journal International 160, 869-890.
    Falvey, D. A. (1974). The development of continental margins in plate tectonic theory. Appea Journal 14(1).
    Fang Zhao, Tiago M. Alves, Shaohong Xia, Wei Li, Lei Wang, Lijun Mi, Shiguo Wu, Jinghe Cao, Chaoyan Fan. (2019).Along-strike segmentation of the South China Sea margin imposed by inherited pre-rift basement structures. Earth and Planetary Science Letters.
    Franke, D. (2013). Rifting, lithosphere breakup and volcanism: Comparison of magma-poor and volcanic rifted margins. Marine and Petroleum Geology 43: 63-87.
    Franke, D., Savva, D., Pubellier, M., Steuer, S., Mouly, B., Auxietre, J.-L., Meresse, F., Chamot-Rooke, N. (2014). The final rifting evolution in the South China Sea. Marine and Petroleum Geology 58, 704-720.
    Gao, J., Wu, S., McIntosh, K., Mi, L., Yao, B., Chen, Z., Jia, L. (2015). The continent–ocean transition at the mid-northern margin of the South China Sea. Tectonophysics 654, 1-19.
    Geoffroy, L. (2005). Volcanic passive margins. Comptes Rendus Geoscience 337(16), 1395-1408.
    Hall and Robert (2013). Contraction and extension in northern Borneo driven by subduction rollback. Journal of Asian Earth Sciences 76(Complete), 399-411.
    Hall, R. (2002). Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific: computer-based reconstructions, model and animations. Journal of Asian Earth Sciences 20, 353-431.
    Hall, R., Ali, J.R., Anderson, C.D. (1995). Cenozoic motion of the Philippine Sea Plate: Palaeomagnetic evidence from eastern Indonesia. Tectonics 14, 1117-1132.
    Hall, Robert. (2013). Contraction and extension in northern Borneo driven by subduction rollback. Journal of Asian Earth Sciences 76, 399-411.
    Hamilton, W. B. (1979). Tectonics of the indonesian region. U. S. Geol. Surv. Prof. Paper 1078.
    Han, J. , Xu, G. , Li, Y. , Zhuo, H. (2016). Evolutionary history and controlling factors of the shelf breaks in the pearl river mouth basin, northern south china sea. Marine & Petroleum Geology 77, 179-189.
    Hayes, D.E., Nissen, S.S., Buhl, P., Diebold, J., Bochu, Y., Zeng, W., Chen, Y. (1995). Throughgoing crustal faults along the northern margin of the South China Sea and their role in crustal extension. Journal of Geophysical Research: Solid Earth 100, 22435-22446.
    He, J. , Garzanti, E. , Cao, L. , Wang, H. . (2019). The zircon story of the pearl river (china) from cretaceous to present. ,201, 103078.
    Hippolyte, J.C., Müller, C., Kaymakci, N., Sangu, E. (2010). Dating of the Black Sea Basin: new nannoplankton ages from its inverted margin in the Central Pontides (Turkey) Geological Society, London, Special Publications 340, 113-136.
    Holloway, N. H. (1982). North Palawan block, Philippines-its relation to Asian mainland and role in evolution of South China Sea. Aapg Bulletin 66(9), 1355-1383.
    Honza, E., Fujioka, K. (2004). Formation of arcs and backarc basins inferred from the tectonic evolution of Southeast Asia since the Late Cretaceous. Tectonophysics 384, 23-53.
    Hsu, S.-K., Yeh, Y.-c., Doo, W.-B., Tsai, C.-H. (2004). New Bathymetry and Magnetic Lineations Identifications in the Northernmost South China Sea and their Tectonic Implications. Marine Geophysical Researches 25, 29-44.
    Huang, C.-Y., Yen, Y., Zhao, Q., Lin, C.-T. (2012). Cenozoic stratigraphy of Taiwan: Window into rifting, stratigraphy and paleoceanography of South China Sea. Chinese Science Bulletin 57, 3130-3149.
    Huang, T. (1984). Planktic foraminiferal biostratigraphy and datum planes in the Neogene sedimentary sequence in Taiwan. 46(1-3), 0-106.
    Huang, W. and Wang, P. (2006). Sediment mass and distribution in the South China Sea since the Oligocene. Science in China Series D: Earth Sciences 49(11), 1147-1155.
    Huismans, R. S. and Beaumont C. (2008). Complex rifted continental margins explained by dynamical models of depth-dependent lithospheric extension. Geology 36(2), 163.
    Hutchison, C.S., BERGMAN, S.C., SWAUGER, D.A., GRAVES, J.E.(2000). A Miocene collisional belt in north Borneo: uplift mechanism and isostatic adjustment quantified by thermochronology. Journal of the Geological Society 157, 783-793.
    Ingersoll, R. V. (1988). Tectonics of sedimentary basins. Geological Society of America Bulletin 100, 1704-1719.
    Ingersoll, R. V. (2008). Reconstructing southern California Circum-Pacific tectonics, geologic evolution, and ore deposits: Arizona Geological Society Digest 22, 409-417.
    Kusznir, N. J. and Karner G. D. (2007). Continental lithospheric thinning and breakup in response to upwelling divergent mantle flow: application to the Woodlark, Newfoundland and Iberia margins. Geological Society, London, Special Publications 282(1), 389-419.
    Larsen, H.C., Mohn, G., Nirrengarten, M., Sun, Z. (2018). Rapid transition from continental breakup to igneous oceanic crust in the South China Sea. Nature Geoscience.
    Lebedev, S. and Nolet, G. (2003). Upper mantle beneath Southeast Asia from S velocity tomography. Journal of Geophysical Research Solid Earth 108.
    Lee, Tung-Yi and Lawver, L. A. (1995). Cenozoic plate reconstruction of Southeast Asia. Tectonophysics 251(1-4), 85-138.
    Lei, J., Zhao, D., Steinberger, B., Wu, B., Li, Z. (2009). New seismic constraints on the upper mantle structure of the Hainan Plume. Translated World Seismology 173, 33-50.
    Leloup, P.H., Lacassin, R., Tapponnier, P., Schärer, U., Zhong, D., Liu, X., Zhang, L., Ji, S., Phan, T.T. (1995). The ailao shan-red river shear zone (Yunnan, China), tertiary transform boundary of indochina. Tectonophysics 251, 3-10.
    Li C F, Zhou Z, Li J, et al., (2007). Structures of the northeasternmost South China Sea continental margin and ocean basin: geophysical constraints and tectonic implications. Marine Geophysical Researches 28, 59-79.
    Li, C.F., Xu, X., Lin, J., Sun, Z., Zhu, J., Yao, Y., Zhao, X., Liu, Q., Kulhanek, D.K., Wang, J., Song, T., Zhao, J., Qiu, N., Guan, Y., Zhou, Z., Williams, T., Bao, R., Briais, A., Brown, E.A., Chen, Y., Clift, P.D., Colwell, F.S., Dadd, K.A., Ding, W., Almeida, I.H., Huang, X.-L., Hyun, S., Jiang, T., Koppers, A.A.P., Li, Q., Liu, C., Liu, Z., Nagai, R.H., Peleo-Alampay, A., Su, X., Tejada, M.L.G., Trinh, H.S., Yeh, Y.-C., Zhang, C., Zhang, F., Zhang, G.-L. (2014). Ages and magnetic structures of the South China Sea constrained by deep tow magnetic surveys and IODP Expedition 349. Geochemistry, Geophysics, Geosystems 15, 4958-4983.
    Li, C. F., Li, J., Ding, W., Franke, D., Yao, Y., Shi, H., Zhao, X. (2015). Seismic stratigraphy of the central South China Sea basin and implications for neotectonics. Journal of Geophysical Research: Solid Earth 120(3), 1377-1399.
    Li, Jianhua, Zhang, Yueqiao, Dong, Shuwen, Johnston, Stephen T. (2014). Cretaceous tectonic evolution of south china: a preliminary synthesis. Earth-Science Reviews 134, 98-136.
    Li Jie, Lin Changsong, Chen Pingfu. (1999). Sea level change and sequence chronostratigraphy of the yinggehai-huangliu formation in the qiongdongnan basin. geological review 45:514-520
    Li, Li. (2019). Structures of northeastern South China Sea continental margin: geophysical constraints and tectonic evolution implications. Fresenius Environmental Bulletin 29,16818-1629.
    Li, M., Jin, X., Li, J., Ding, W., Fang, Y., Liu, J., Tang, Y. (2011). Seismic sequence and depositional evolution of slope basins in mid-northern margin of the South China Sea. Chinese Journal of Oceanology and Limnology 29(5),1113-1127.
    Li Mingbi, Jin Xianglong, Li Jiabiao, Ding Weiwei, Fang Yinxia, Liu Jianhua, Tang Yong (2011). Seismic sequence and depositional evolution of slope basins in mid-northern margin of the south china sea. Chinese Journal of Oceanology and Limnology (05), 199-213.
    Li, Q., Jian, Z., Li, B. (2004). Oligocene–Miocene Planktonic Foraminifer Biostratigraphy, Site 1148, Northern South China Sea. In Prell, W.L., Wang, P., Blum, P., Rea, D.K., and Clemens, S.C. (Eds.), Proc. ODP, Sci. Results 184, 1-26.
    Li, S., Yu, S., Zhao, S., Liu, X., Gong, S., Suo, Y., Dai, L., Ma, Y., Xu, L., Cao, X., Wang, P., Sun, W., Yang, Z., Zhu, J. (2013). Tectonic transition and plate reconstructions of the east asian continental magin. Marine Geology & Quaternary Geology 33, 65-94.
    Li, Z.-X. and Li X.-H. (2007). Formation of the 1300-km-wide intracontinental orogen and postorogenic magmatic province in Mesozoic South China: A flat-slab subduction model. Geology 35(2), 179-182.
    Li, Z.-X., Li, X.-H., Chung, S.-L., Lo, C.-H., Xu, X., Li, W.-X. (2012). Magmatic switch-on and switch-off along the South China continental margin since the Permian: Transition from an Andean-type to a Western Pacific-type plate boundary. Tectonophysics 532-535, 271-290.
    Li, Z.X., Powell, C.M. (2001). An outline of the palaeogeographic evolution of the Australasian region since the beginning of the Neoproterozoic. Earth Science Reviews.
    Licht, A., van Cappelle, M., Abels, H.A., Ladant, J.B., Trabucho-Alexandre, J., France-Lanord, C., Donnadieu, Y., Vandenberghe, J., Rigaudier, T., Lécuyer, C., Terry Jr, D., Adriaens, R., Boura, A., Guo, Z., Soe, A.N., Quade, J., Dupont-Nivet, G., Jaeger, J.J. (2014). Asian monsoons in a late Eocene greenhouse world. Nature 513, 501-506.
    Lin, A. T. (2001). Cenozoic stratigraphy and tectonic development of the west Taiwan basins [Ph. D. thesis]. Oxford: University of Oxford.
    Lin, A.T., Watts, A.B., Hesselbo, S.P. (2003). Cenozoic stratigraphy and subsidence history of the South China Sea margin in the Taiwan region. Basin Research 15, 453-478.
    Liu, B., Xia, B., Li, X., Zhang, M., Niu, B., Zhong, L., Jin, Q., Ji, S.(2006). Southeastern extension of the Red River fault zone (RRFZ) and its tectonic evolution significance in western South China Sea 49, 839-850.
    Liu, Q. and He, L. (2015). Discussion on several problems in tectono-thermal modeling of rift basins. Chinese J. Geophysics 58(2), 601-612.
    Lüdmann, T. and Wong, H. K. (1999). Neotectonic regime on the passive continental margin of the northern South China Sea. Tectonophysics 311(1), 113-138.
    Lüdmann, T., Kin Wong, H., Wang, P. (2001). Plio–Quaternary sedimentation processes and neotectonics of the northern continental margin of the South China Sea. Marine Geology 172, 331-358.
    Lüdmann, T., Wong, H.K. (1999). Neotectonic regime on the passive continental margin of the northern South China Sea. Tectonophysics 311, 113-138.
    Ma Ruigang, Liu Chuanlian, Li Qianyu, Jin Xiaobo. (2019). Calcareous nannofossil changes in response to the spreading of the South China Sea basin during Eocene-Oligocene. Journal of Asian Earth Sciences.
    Masini, E., Manatschal, G., Mohn, G., Weissert, H. (2013). The Alpine Tethys rifted margins: Reconciling old and new ideas to understand the stratigraphic architecture of magma-poor rifted margins. Sedimentology 60, 174-196.
    Matthews, K.J., Seton, M., Müller, R.D. (2012). A global-scale plate reorganization event at 105−100Ma. Earth and Planetary Science Letters 355-356, 283-298.
    Mccaffrey, R. (1996). Slip partitioning at convergent plate boundaries of SE Asia. Geological Society London Special Publications 106(1), 3-18.
    McKenzie, D. P. (1978). Some remarks on the development of sedimentary basins. Earth and Planetary Science Letters 40, 25-32.
    Mitchum, R. M., Vail, P. R., Sangree, J. B. (1977). Stratigraphic interpretation of seismic reflection patterns in depositional sequences. In, Seismic Stratigraphy Applications to Hydrocarbon Exploration. AAPG Memoir 26, 117-133.
    Nissen, Susan Spangler, Hayes, Dennis E., Buhl, Peter, Diebold, John, Bochu, Yao, Zeng, Weijun, Chen, Yongqin. (1995). Deep penetration seismic soundings across the northern margin of the south china sea. Journal of Geophysical Research Solid Earth, 100(B11), 22407-22433.
    Petex (2015). Midland valley move 2015 version .
    Prell, W.L., Kutzbach, J.E. (1992). Sensitivity of the Indian monsoon to forcing parameters and implications for its evolution. Nature 360, 647-652.
    Ramsayer, G.R. (1979). Seismic stratigraphy, a fundamental exploration tool. Offshore Technology Conference Proceedings 3, 1859-1867.
    Roberts, A.M., Lundin, E.R., Kuszir, N.J. (1997). Subsidence of the Vøring Basin and the influence of the Atlantic continental margin. Journal of the Geological Society. Geological Society, London, Special Publications 154, 551-557.
    Rowley, D.B., Sahagian, D.J.G. (1986). Depth-dependent stretching: A different approach. Geology 14, 32-35.
    Sangree, J. B. and Widmier, J. M. (1979). Interpretation of depositional facies from seismic data. Geophysics 44(2), 131-160.
    Savva, D., Pubellier, M., Franke, D., Chamot-Rooke, N., Meresse, F., Steuer, S., Auxietre, J.L. (2014). Different expressions of rifting on the South China Sea margins. Marine and Petroleum Geology 58, 579-598.
    Sdrolias, M., Roest, W.R., Müller, R.D. (2004). An expression of Philippine Sea plate rotation: the Parece Vela and Shikoku Basins. Tectonophysics 394, 69-86.
    Shao, W. Y., Chung, S. L., Chen, W. S., et al., (2015). Old continental zircons from a young oceanic arc, eastern Taiwan: implications for Luzon subduction initiation and Asian accretionary orogeny. Geology, 43(6).
    Shi, H., He, M., Zhang, L., Yu, Q., Pang, X., Zhong, Z., Liu, L. (2014). Hydrocarbon geology,accumulation pattern and the next exploration strategy in the eastern pearl river mouth basin. China Offshore Oil & Gas 26, 12-22.
    Shi, X., Kohn, B., Spencer, S., Guo, X., Li, Y., Yang, X., Shi, H., Gleadow, A. (2011). Cenozoic denudation history of southern Hainan Island, South China Sea: Constraints from low temperature thermochronology. Tectonophysics 504, 100-115.
    Sibuet, J. C.; Yeh Y. C.; Lee C. S. (2016). Geodynamics of the South China Sea. Tectonophysics, 1-22.
    Snedden, J. W. and C. Liu (2010). A compilation of phanerozoic sea-level change, coastal onlaps and recommended sequence designations. AAPG Bulletin: Search and Discovery no. 40594.
    Snedden, J. W. and C. Liu (2010). sea level change and coastal onlaps. AAPG.
    Sun, J., Ni, X., Bi, S., Wu, W., Ye, J., Meng, J., Windley, B.F. (2015). Synchronous turnover of flora, fauna and climate at the Eocene–Oligocene Boundary in Asia. Scientific Reports 4. , 7463
    Sun, Q., Wu, S., Yao, G., Lü, Fuliang. (2009). Characteristics and formation mechanism of polygonal faults in qiongdongnan basin, northern south china sea. Journal of Earth Science, 20(1), 180-192.
    Tapponnier, P., Peltzer, G., Dain, A.Y.L., Armijo, R. (1982). Propagating extrusion tectonics in Asia: new insights from simple experiments with plasticine. Geology 10.
    Tapponnier, P., Peltzer, G., Armijo, R. (1986). On the mechanics of the collision between india and asia. Geological Society, London, Special Publications 19(1), 113-157.
    Taylor, B., Hayes, D.E. (1980) The Tectonic Evolution of the South China Basin. The Tectonic and Geologic Evolution of Southeast Asian Seas and Islands. American Geophysical Union 89-104.
    Taylor, B., Hayes, D.E. (1983). Origin and history of the South China Sea basin. Washington Dc American Geophysical Union Geophysical Monograph 27, 23-56.
    Vail P R, Mitchum R M Jr, Todd R G, Widmier J M, Thompson S Ⅲ, Dangree J B, Bubb J N, Hatlelid W G. (1977). Seismic stratigraphy and global changes of sea level. In: Payton C E (ed.), Seismic Stratigraphy – Applications to Hydrocarbon Exploration. AAPG Mem. 26, 49-212.
    Wang K L, Chung S L, O'Reilly S Y, et al., (2004). 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.
    Wang Pinxian, Huang Chi-Yue, Lin Jian, Jian Zhimin,Sun Zhen, Zhao Minghui. (2019). The South China Sea is not a mini-Atlantic: plate-edge rifting vs intra-plate rifting. National Science Review.
    Wang, T.K., Chen, M.-K., Lee, C.-S., Xia, K. (2006). Seismic imaging of the transitional crust across the northeastern margin of the South China Sea. Tectonophysics 412, 237-254.
    Wei Zhi Liao, Andrew T. Lin, Char Shine Liu, Jung Nan Oung, Wang Yunshuen. (2016). A study on tectonic and sedimentary development in the rifted northern continental margin of the South China Sea near Taiwan. Special section: The South China Sea deep-water: Stratigraphy, sedimentology, and resources, Interpretation Vol. 4, No. 3 , SP47–SP65.
    White, N.J., Jackson, J.A., McKenzie, D.P. (1986). The relationship between the geometry of normal faults and that of the sedimentary layers in their hanging walls. Journal of Structural Geology 8, 897-909.
    Whitmarsh, R.B., White, R.S., Horsefield, S.J., Sibuet, J.-C., Recq, M., Louvel, V. (1996). The ocean-continent boundary off the western continental margin of Iberia: Crustal structure west of Galicia Bank. Journal of Geophysical Research: Solid Earth 101, 28291-28314.
    Xie, X. , R. Dietmar Müller, Ren, J. , Jiang, T. , Zhang, C. (2008). Stratigraphic architecture and evolution of the continental slope system in offshore hainan, northern south china sea. Marine Geology 247(3-4), 129-144.
    Xu Shaohua, Han Jianhui, Wang Yingmin, He Min, Pang Xiong, Chen Weitao, Gong Chenglin, Qin Chunyu, Li Xiaogang, Xu Shang (2020). How much systems-tract scale, three-dimensional stratigraphic variability is present in sequence stratigraphy? An answer from the middle Miocene Pearl River Mouth Basin. AAPG Bulletin, 104(6), 1261–1285.
    Yang, F., Sun, Z., Zhou, Z., Wu, Z., Gao, D., Li, Q. (2012). The Evolution of the South China Sea Basin in the Mesozoic–Cenozoic and Its Significance for Oil and Gas Exploration: A Review and Overview. Aapg Memoir 100, 397-418.
    Yang, F., Z. Sun, Z. Zhou, Z. Wu, D. Gao and Q. Li. (2013). The Evolution of the South China Sea Basin in the Mesozoic–Cenozoic and Its Significance for Oil and Gas Exploration 397-418.
    Yang, Y.-T. (2013). An unrecognized major collision of the Okhotomorsk Block with East Asia during the Late Cretaceous, constraints on the plate reorganization of the Northwest Pacific. Earth-Science Reviews 126, 96-115.
    Yeh, Y.-C., S.-K. Hsu, W.-B. Doo, J.-C. Sibuet, C.-S. Liu and C.-S. Lee. (2012). Crustal features of the northeastern South China Sea: insights from seismic and magnetic interpretations. Marine Geophysical Research 33(4), 307-326.
    Yu, H. S. and Chou, Y. W. (2001). Characteristics and development of the flexural forebulge and basal unconformity of Western Taiwan Foreland Basin 333(1), 277-291.
    Zhao, Z. , Sun, Z. , Sun, L. , Wang, Z. , Sun, Z. . (2016). Cenozoic tectonic subsidence in the qiongdongnan basin, northern south china sea. Basin Research 30(S1).
    Zhang, H. , Shao, L. , Zhang, G. , Cui, Y. , Zhao, Z. , Hou, Y. . (2020). The response of cenozoic sedimentary evolution coupled with the formation of the south china sea. Geological Journal 1-22.
    Zhou, D. (2008). RASC/CASC: Example of Creative Application of Statistics in Geology. Natural Resources Research 17(3), 145-154.
    Zhou, D., Ru, Ke, Chen, Han Zong. (1995a). Kinematics of Cenozoic extension on the South China Sea continental margin and its implications for the tectonic evolution of the region. Tectonophysics 251(1-4).
    Zhou, D., Ru, K., Chen, H.-z. (1995b). Kinematics of Cenozoic extension on the South China Sea continental margin and its implications for the tectonic evolution of the region. Tectonophysics 251, 161-177.
    Zhou, D., Wang, W.Y., Wang, J.L., Pang, X., Cai, D.S., Sun, Z. (2006). Mesozoic subduction-accretion zone in northeastern South China Sea inferred from geophysical interpretations. Science China Earth Sciences 49(5), 471-482.
    Zhu, W. (2010). Petroleum geology in deepwater area of northern continental margin in South China Sea. Acta Petrolei Sinica 31, 521-527.

    Khain.V.E, 楊永強, 1991. 板塊構造理論的現狀及發展趨勢. 世界地質(01), 57-58.
    M.T.Halbouty, 1979. 中國科學院蘭州地質研究所譯, 大油田地質學. 甘肅人民出版社.
    Payton C.E., 牛毓荃, 徐懷大, 陳俊生, 吳律等譯, 1980. 震測地層學:在油氣勘探中的應用. 石油工業出版社.
    曹昌桂, 翁榮南, 楊肇穆, 李元偉, 王明惠, 汪玉清, 湯守立, 1992, 臺南盆地中生界油氣潛能研究與應用, 礦冶 36, 32-45.
    戴金星, 1980. 我國臺灣油氣地質梗概. 石油勘探與開發 (1), 33-41.
    丁巍偉, 王渝明, 陳漢林, 楊樹鋒, 吳能有, 2004. 台西南盆地構造特徵與演化. 浙江大學學報(理學版) 31(2), 206.
    丁巍偉, 黎明碧, 何敏, 唐勇, 方銀霞, 2009. 南海中北部陸架-陸坡區新生代構造-沉積演化. 高校地質學報 (03), 57-68.
    董冬冬, 吳時國, 張功成, 袁聖強, 2008. 南海北部深水盆地的裂陷過程及裂陷期延遲機制探討. 科學通報 53.
    董冬冬, 2008. 南海北部陸緣深水區構造演化及其資源效應. (博士論文, 中國科學院研究生院(海洋研究所)).
    方石, 孫求實, 謝榮祥, 黃龍, 2012. 平衡剖面技術原理及其研究進展. 科技導報, 030(008), 73-79.
    葛新, 許鳳鳴, 尉曉瑋, 門相勇, 2008. 地震儲層預測技術在沉積相研究中的應用. 石油天然氣學報(05), 14, 277-280.
    郝滬軍, 林鶴鳴, 楊夢雄, 薛懷豔, 陳雋. 2001. 潮汕坳陷中生界——油氣勘探的新領域. 中國海上油氣.地質 (03), 157-163.
    郝滬軍, 張向濤, 2003. 重磁資料在潮汕坳陷中生界油氣勘探中的應用. 中國海上油氣 51-55.
    郝滬軍, 施和生, 張向濤, 江天才, 湯守立, 2009. 潮汕坳陷中生界及其石油地質條件―基於LF35-1-1探索井鑽探結果的討論 中國海上油氣 21,151-156
    韓文功, 印興耀, 王興謀, 李振春, 劉洪文, 2006. 地震技術新進展 (上冊). 中國石油大學出版社.
    何家雄, 夏斌, 陳恭洋, 孫東山, 2006. 臺西南盆地中新生界石油地質與油氣勘探前景 新疆石油地質 27,3988-3402
    紀中雲, 趙汗青, 王海平, 李春雷, 2014. 潮汕坳陷中生界含油氣系統 石油地質與工程 28,9-15
    江為為, 劉伊克, 郝天珧, 宋海斌, 2001. 四川盆地綜合地質、地球物理研究. 地球物理學進展 16(1).
    孔媛, 許中傑, 程日輝, 王嘹亮, 張莉, 2012. 南海圍區中生代構造古地理演化. 世界地質 31, 693-703.
    李安春, 黃傑, 蔣恒毅, 萬世明, 2011. 漸新世以來南海北部陸坡區沉積演化及其對構造的回應. 地球物理學報 54(12), 3233-3245.
    李小明, 王嶽軍, 譚凱旋, 彭頭平, 2005. 雲開地塊中新生代隆升剝露作用的裂變徑跡研究. 科學通報 (06), 75-81.
    李占東, 王鵬, 張日新, 李麗, 郝滬軍, 黃進達, 2019. 臺灣大地構造格局及其對油氣的地質意義. 地球物理學進展 34(5), 1776–1784.
    梁勁, 王明君, 陸敬安,等, 2013. 南海北部神狐海域含天然氣水合物沉積層的速度特徵. 天然氣工業 33(7), 29-35.
    林殿順, 2015. 天然氣水合物資源潛能調查:震測、地熱及地球化學調查 (4/4) 含天然氣水合物地層的構造與沉積特徵研究. 經濟部中央地質調查所報告 104(11E),41.
    林鶴鳴, 郝滬軍, 2002. 珠江口盆地東部和臺灣西部海域中生界地質構造特徵. 中國海上油氣 16(4), 231-237.
    林間, 李家彪, 徐義剛, 孫珍, 夏少紅, 黃小龍, 解習農, 李春峰, 丁巍偉, 周志遠, 張帆, 羅怡鳴, 2019. 南海大洋鑽探及海洋地質與地球物理前沿研究新突破. 海洋學報 41(10),125–140.
    劉安, 吳世敏, 程衛華, 2011. 珠江口盆地東沙隆起的沉降史及其動力機制. 海洋學報 33,117-124
    劉濤, 2019. 珠江口盆地東南部揭陽凹陷a區油氣地質條件及勘探前景. 海洋地質前沿 (6), 39-45.
    劉伊克, 常旭, 2003. 四川盆地埋藏沉降史模擬. 地球物理學報46(2),203-208.
    劉昭蜀, 2000. 南海地質構造與油氣資源. 第四紀研究 20(1), 69-77.
    柳保軍, 龐雄, 王家豪, 任建業, 劉軍, 鄭金雲, 向緒洪, 蔡國富, 吳宇翔, 2019. 珠江口盆地深水區伸展陸緣地殼減薄背景下的沉積體系回應過程及油氣勘探意義. 石油學報 40,124-138.
    任建業, 龐雄, 雷超, 袁立忠, 劉軍, 楊林龍, 2015. 被動陸緣洋陸轉換帶和岩石圈伸展破裂過程分析及其對南海陸緣深水盆地研究的啟示. 地學前緣 022(001), 102-114.
    龐雄, 陳長民, 施和生, 舒譽, 邵磊, 何敏, 申俊, 2005. 相對海平面變化與南海珠江深水扇系統的回應.地學前緣 012(003), 167-177.
    龐雄, 申俊, 袁立忠, 連世勇, 何敏, 舒譽, 2006. 南海珠江深水扇系統及其油氣勘探前景. 石油學報 27(3). 11-15
    龐雄, 陳長民, 邵磊, 王成善, 朱明, 連世勇, 吳湘傑, 2007. 白雲運動:南海北部漸新統-中新統重大地質事件及其意義. 地質論評 53(2), 145-151.
    邵磊, 趙夢, 喬培軍, 龐雄, 吳夢霜, 2013. 南海北部沉積物特徵及其對珠江演變的回應. 第四紀研究 33(4), 760-770.
    邵磊, 崔宇馳, 喬培軍, 朱偉林, 鐘鍇, 周俊燊, 2019. 南海北部古河流演變對歐亞大陸東南緣早新生代古地理再造的啟示. 古地理學報21(02), 32-47.
    沉俊卿, 2000. 臺灣地區的油氣儲集斷層封閉. 石油季刊 36(2), 33-40.
    施和生, 何敏, 張麗麗, 餘秋華, 龐雄, 鐘志洪, 劉麗華, 2014. 珠江口盆地(東部)油氣地質特徵、成藏規律及下一步勘探策略. 中國海上油氣 26, 11-22.
    塗先見, 2013. 基於信號分類的地震層位元追蹤方法研究. 博士論文, 電子科技大學.
    王國燦, 曹凱, 張克信, 王岸, 劉超, 孟豔甯, 徐亞東, 2011. 青藏高原新生代構造隆升階段的時空格局. 中國科學(地球科學) 041(003), 332-349.
    王國純, 1993. 臺灣海峽地質構造特徵及油氣探討. 石油學報14(3), 10-19.
    王國純, 1997. 台西盆地構造單元劃分探討. 中國海上油氣:地質.
    孫珍, 趙中賢, 李家彪, 周蒂, 王章穩, 2011. 南沙地塊內破裂不整合與碰撞不整合的構造分析. 地球物理學報 212-225.
    湯守立, 翁榮南, 徐永耀, 楊昭男, 1999. 臺灣西南海域臺南盆地的演化初論, 臺灣石油地質 33, 125-149.
    韋一, 張克信, 季軍良, 宋博文, 江尚松, 柯學, 2013. 青藏高原柴達木盆地新生代沉積充填速率演化及其對構造隆升的回應. 地質通報 032(001), 105-110.
    翁榮南, 2012. 南日島盆地的石油系統及油氣潛能. 礦冶:中國礦冶工程學會會刊 (220), 85-94.
    吳明賢, 2013. 臺灣西南海域深水地區探勘願景. 石油季刊 49(3), 1-16.
    吳時國, 王吉亮, 2018. 南海神狐海域天然氣水合物試采成功後的思考. 科學通報 63(01), 8-14.
    吳曉川, 蒲仁海, 薛懷豔, 楊夢雄, 姚佑承, 2019. 珠江口盆地揭陽凹陷珠海組海底扇含氣性檢測與分析. 地球物理學報(7), 2732-2747.
    許淑梅, 吳鵬, 張威, 張海洋, 劉智, 戴黎明,李健偉,李靈波. (2013). 南海關鍵地質歷史時期的古海岸線變化, 海洋地質與第四紀地質 033(001), 1-10.
    姚伯初, 1997. 南海西南海盆的海底擴張及其構造意義. 南海地質研究(009), 20-36.
    姚伯初, 1998. 南海新生代的構造演化與沉積盆地. 南海地質研究(00), 6-22.
    鄢全樹, 石學法, 2007. 海南地幔柱與南海形成演化. 高校地質學報 13, 311-322.
    楊國權, 潘正良, 樂友喜, 譚俊敏, 1997. 儲層橫向預測綜合描述在油氣勘探中的應用. 石油物探(S1), 94-96.
    楊林龍, 2018. 南海北部陸緣大型拆離斷層系的發育演化機制及其對深水盆地群的控制作用(博士論文).
    易海, 鐘廣見, 馬金鳳, 2007. 臺西南盆地新生代斷裂特徵與盆地演化. 石油實驗地質 560-564.
    印興耀, 韓文功, 李振春, 王興謀, 劉洪文, 2006. 地震技術新進展 (下冊). 地震技術新進展, (下冊). 中國石油大學出版社.
    趙中賢, 孫珍, 謝輝, 顏承志, 李元平, 2011. 白雲深水區新生代沉降及岩石圈伸展變形. 地球物理學報 54(12), 3336-3343.
    張克信, 孟豔甯, 陳銳明, 王國燦, 曹凱, 劉超, 向樹元, 洪漢烈, 寇曉虎, 徐亞東, 陳奮甯, 孟豔甯, 陳銳明, 2008. 青藏高原新生代主要隆升事件:沉積回應與熱年代學記錄. 中國科學:地球科學 038(012), 1575-1588.
    張向鵬, 楊曉薇, 2007. 平衡剖面技術的研究現狀及進展. 煤田地質與勘探 35, 78-35.
    張日新, 2013. 臺灣西部前陸盆地前凸起遷移與潮汕凹陷的震測相分析與其在南海北部大陸邊緣盆地演化之意涵.
    鐘三雄, 王詠絢, 陳柏淳等, 2005. 臺灣西南海域天然氣水合物四年期科技計畫之初步成果第二屆資源工程研討會論文集 119-123.
    周蒂, 胡登科, 何敏, 連世勇, 2008. 深部地層時深轉換中的擬合式選擇問題. 地球科學-中國地質大學學報 105-111.
    周蒂, 孫珍, 陳漢宗, 丘元禧, 2005. 南海及其圍區中生代岩相古地理和構造演化. 地學前緣 12, 204-218.
    周蒂, 王萬銀, 龐雄, 王家林, 蔡東升, 孫珍, 2006. 地球物理資料所揭示的南海東北部中生代俯衝增生帶. 中國科學:地球科學 3-12.
    鐘廣見, 2003. 中建南盆地新生代地層發育特徵. 海洋地質環境與資源學術研討會論文摘要彙編.
    祝建軍, 2012. 台西盆地新生界構造—沉積充填演化特徵及其石油地質意義.博士論文
    朱偉林, 2010. 南海北部深水區油氣地質特徵. 石油學報 31, 521-527.
    朱偉林, 2014. 全球構造演化與含油氣盆地. 科學出版社.

    無法下載圖示 本全文未授權公開
    QR CODE