探討碰撞帶的熱事件: 以熱定年方式探討西北喜馬拉雅和菲律賓中部之構造事件

Monika; 莫妮卡

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/66141

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	楊燦堯(Tsanyao Frank Yang)
dc.contributor.author	Monika	en
dc.contributor.author	莫妮卡	zh_TW
dc.date.accessioned	2021-06-17T00:23:17Z	-
dc.date.available	2013-06-27
dc.date.copyright	2012-06-27
dc.date.issued	2012
dc.date.submitted	2012-05-31
dc.identifier.citation	References: Anderson, T., 2002. Correction of common lead in U-Pb analyses that do not report 204Pb. Chemical Geology 192, 59-79. Aoya, M., Mizukami, T., Uehara, S.-i., Wallis, S.R., 2009. High-P metamorphism, pattern of induced flow in the mantle wedge, and the link with plutonism in paired metamorphic belts. Terra Nova 21, 67-73. Aurelio, M.A. and Peña, R.E., 2002, Geology and Mineral Resources of the Philippines – Volume 1: Geology. Department of Environment and Natural Resources – Mines and Geosciences Bureau, 391pp. Banno, S., Nakajima, T., 1991. Metamorphic belts of Japan. Episodes 14, 280-285. Bautista, B. C., Bautista, M. L. P., Oike, K., Wu, F. T., Punongbayan, R. S., 2001. A new insight on the geometry of subduction slabs in northern Luzon, Philippines. Tectonophysics 339, 279-310. Bellon, H., Rangin, C., 1991. Geochemistry and isotopic dating of Cenozoic volcanic arc sequences around the Celebes and Sulu Seas. Proceedings of the Ocean drilling Program Scientific Results. Vol. 124. Boynton, W. V., 1984. Geochemistry of the rare earth elements: meteorite studies, in: Henderson P. (ed.), Rare earth element geochemistry, Elsevier. pp. 63-114. Brandon, M. T., Vance, J. A., 1992. Tectonic evolution of the Cenozoic Olympic subduction complex, Washington State, as deduced from fission track ages for detrital zircons. Am. J. Sci. 292, 565-636. Brandon, M. T., 1996. Probability density plots for fission track grain-age samples. Radiation Measurements 26, 663-676. Burbank, D. W., Beck, R. A., Mulder, T., 1996. The Himalayan foreland basin, In: Yin, A., Harrison, T.M. (eds.) The tectonics of Asia, New York: Cambridge University Press, 149-188. Bureau of Mines and Geosciences, 1982, Geology and Mineral Resources of the Philippines – Volume 1. Manila, 175pp. Caagusan, N., 1966. Petrography of the metamorphic rocks of Northern Mindoro. Bulletin of the Institute of Philippine Geology, 1(1): 22-46. Chatterjee, B.C., 1976. Petrology and structural geology of the Mandi Granite, Mandi District, Himachal Pradesh. Geolo. Surv. India Misc. Publ. v 24, pp. 302-315. Charvet, J., Lapierre, H. and Yu, Y., 1994. Geodynamic significance of the Mesozoic volcanism of southeastern China. Journal of Southeast Asian Earth Sciences 9, 387-396. Chen, C., Lee, C., Lu, H., Hsieh, P., 2008. Generation of Late Cretaceous silicic rocks in SE China: Age, major element and numerical simulation constraints. Journal of Asian Earth Sciences 31, 479–498. Chen, Huang-Lin., (2010). Geochemical data and dating results from Mindoro, Philippines and their tectonic implications. Master’s Thesis. Chiu, H-Y., Chung, S-L., Wu, F-Y., Liu, D., Liang, Y-H., Lin, I-J., Iizuka, Y., Xie, L-W., Wang, Y., Chu, M-F., 2009. Zircon U-Pb and Hf isotopic constraints from eastern Transhimalayan batholiths on the precollisional magmatic and tectonic evolution in southern Tibet. Tectonophysics 477, 3-19. Concepcion, R.A.B., Dimalanta, C.B., Yumul, G.P., Faustino-Eslava, D.V., Queano, K.L., Tamayo, R.A. and Imai, A., 2011. International Journal of Earth Sciences, Vol. 101, No. 1, 273-290. doi : 10.1007/s00531-011-0643-5 DeCelles, P.G., Robinson, D.M., Quade, J., Ojha, T.P., Garzione, C.N., Copeland, P., and Upreti, B.N., 2001, Stratigraphy, structure and tectonic evolution of the Himalayan fold-thrust belt in western Nepal. Tectonics, v. 20, p. 487–509, doi: 10.1029/2000TC001226. Defant, M. J., Maury, R. C., Ripley, E. M., Feigenson, M. D., Jacques, D., 1991. An example of island-arc petrogenesis: Geochemistry and petrology of the Southern Luzon Arc, Philippines. Journal of Petrology 32, 455-500. Dimalanta, C.B. and Yumul, G.P.Jr., 2003, Magmatic and amagmatic contributions to crustal growth of an island arc system: The Philippine example. International Geology Review, 45, 922−935. Dimalanta, C.B. and Yumul, G.P.Jr., 2004, Crustal thickening in an active margin setting (Philippines): The whys and the hows. Episodes, 27, 260−264. Dimalanta, C. B., Suerte, L.O., Yumul, G. P. Jr., Tamayo, R.A. Jr. , Ramos E.G.L., 2006. A Cretaceous supra-subduction oceanic basin source for Central Philippine ophiolitic basement complexes: Geological and geophysical constraints. Geosciences Journal 10, 305-320. Dimalanta, C., Ramos, E., Yumul, G., Bellon, H., 2009. New features from the Romblon Island Group: Key to understanding the arc–continent collision in Central Philippines. Tectonophysics 479, 120-129. Draganits, E., Grasemann, B., Janda, C., Wiesmayr, G., 2004. Brief outline of the tectonic history of the NW Himalayas with emphasis on Spiti. Albertiana 30 (Suppl.), 11-20. DuFrane, S. A., Asmerom, Y.,Mukasa, S. B., Morris, J. D., Dreyer, B. M., 2006. Subduction and melting processes inferred from U-Series, Sr–Nd–Pb isotope, and trace element data, Bicol and Bataan arcs, Philippines. Geochimica et Cosmochimica Acta 70, 3401–3420 Encarnacion, J., Mukasa, S.B., 1997. Age and geochemistry of an 'anorogenic' crustal melt and implications for T-type granite petrogenesis. Lithos 42, 1-13. Encarnacion, J.P., Essene, E.J., Mukasa, S.B., Hall, C.H., 1995. High pressure and temperature subophiolitic kyanite-garnet amphibolites generated during initiation of mid tertiary subduction, Palawan, Philippines. Journal of Petrology 36, 1481-1503. Faure, M., Marchadier, Y., Rangin, C., 1989. Pre-Eocene synmetamorphic structure in the Mindoro-Romblon-Palawan area, west Philippines and implications for the history of southeast Asia. Tectonics 8, 963-979. Faure, M., Ishida, K., 1990. The Mid-Upper Jurassic olistostrome of the west Philippines: a distinctive keymarker for the North Palawan block. Journal of Southeast Asian Earth Sciences 4, 61-67. Fleischer, R. L., Price, P. B., Walker, R. M., 1975. Nuclear tracks in solids: Principles and applications, University of California press. Francisco, F. U., 1956. The Pre-Tertiary rocks of Buruanga Peninsula, Panay Island, Philippines. Eight Pacific Science Congress Proceedings 2, 482-502. Gabo, J.A., Dimalanta, C. B., Queaño, K. L., Yumul Jr., G. P., Imai, A., 2009. Geology and geochemistry of the clastic sequences from Northwestern Panay (Philippines): Implications for provenance and geotectonic setting. Tectonophysics 479, 111-119. Galbraith, R. F., 1990. The Radial plot: Graphical assessment of spread in ages, Nucl Tracks Radiation Measurements 17, 207-214. Gansser, A., 1964. Geology of the Himalaya. Interscience Publication, John Wiley and Sons Ltd., London, 289pp Garver, J. I., Reiners, P. W., Walker, L. J., Ramage, J. M., Perry, S. E., 2005. Implications for timing of Andean uplift from thermal resetting of radiation-damaged zircon in the Cordillera Huayuash, Northern Peru. The Journal of Geology 113, 117-138. Gervasio, F.C., 1967. Age and nature of orogenesis of the philippines. Tectonophysics 4, 379-402. Green, P. F., Duddy, I. R., Gleadow, A. J. W., Tingate, P. T., and Laslett, G. M., 1986. Thermal annealing of fission tracks in apatite, I, qualitative description. Chemical Geology 59, 237-253. Gupta, L. N., 1970. Petrology of the metabasites and associated rocks north-east of Mandi (H. P.). Jour. Indian Geos. Assoc. 12, 9-14. Hall, R., 2002, Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific: computer-based reconstructions, model and animations. Journal Asian Earth Sciences, 20, 353−431. Hamilton, W., 1979. Tectonics of the Indonesian Region. U. S. Geological Survey Professional Paper 1078. United States Government Printing Office, Washington. Harrison, T. M., Yin, A., Ryerson, F. J., 1998. Orographic evolution of the Himalaya and Tibet. In: Crowley, T. J., Burke, K. (eds.) Tectonic Boundary Conditions for Climate Reconstruction, New York: Oxford Univ. Press. 39-72 Hashimoto, W., Sato, T., 1973. Geological structure of North Palawan, and its bearing on the Geological History of the Philippines. In: Kobayashi, T., Toriyama, R. (Eds.), Geology and Paleontology of SE Asia, pp. 145-161. Hayes, D.E., Lewis, S.D., 1984. A geophysical study of the Manila Trench, Luzon, Philippines 1. crustal structure, gravity and regional tectonic evolution. J. Geophys. Res. 89, 9171–9195. Heim, A. and Gansser, A., Central Himalaya, Denks. Schweiz. Naturf. Gessel., Zürich, 1939, p. 246. Hinz, K., Schlüter, H.U., 1985. Geology of the Dangerous Grounds, South China Ses, and the Continental-Margin off Southwest Palawan - Results of Sonne Cruises SO-23 and SO-27. Energy 10, 297-315. Hodges, K. V., Parrish, R. R., Housh, T. B., Lux, D. R., Burchfiel, B. C., Royden, L. H. & Chen, Z. 1992. Simultaneous Miocene extension and shortening in the Himalayan Orogen. Science, 258, 1466–9. Hodges, K. V., Wobus, C., Ruhl, K., Schildgen, T., Whipple, K., 2004. Quaternary deformation, river steepening, and heavy precipitation at the front of the Higher Himalayan ranges, Earth Planet. Sci. Lett. 220, 379–389. Holloway, N. H., 1982. North Palawan block, Philippines: its relation to Asian mainland and role in evolution of South China Sea. American Association of Petroleum Geologists Bulletin 66, 1355-83. 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 Research 25, 29-44. Hubbard, M. S., Harrison, T. M., 1989. 40Ar/39Ar age constraints on deformation and metamorphism in the MCT zone and Tibetan Slab, eastern Nepal Himalaya. Tectonics, 8, 865-880. Ireland, T. R., Williams, I. S., 2003. Considerations in zircon geochronology by SIMS, in: Manchar, J. M., Hoskin, P. W. O. (Eds.), Zircon, Reviews of Mineralogy and Geochemistry 53, 215-241. Jain, A. K., Kumar, D., Sigh, S., Kumar, A., Lal, N., 2000. Timing, quantification and tectonic modeling of Pliocene-Quaternary movements in the NW Himalaya: evidence from fission track dating. Earth Planet. Sci. Lett., 179, 437-451. Jain, A. K., Kumar, D., Sigh, S., Kumar, A., Lal, N., 2009. Detrital-zircon fission track ages from the Lower Cenozoic sediments, NW Himalayan foreland basin: Clues for exhumation and denudation of the Himalaya during the India-Asia collision. Geological Society of America Bulletin, 121, 3-4, 519-535. Karig, D. E., 1983. Accreted terranes in the northern part of the Philippine archipelago. Tectonics 2, 211-32. Kerntke, M., Tarkian, M. and Baumann, A., 1992, Petrographic, geochemical and geochronologic investigation of the porphyrycopper deposit Atlas Mining on Cebu Island (Philippines). www.dr-kerntke.de/html/body_abstract_2.html. Kiessling, W., Flügel, E., 2000. Late Paleozoic and Late Triassic Limestones from North Palawan Block (Philippines): Microfacies and Paleogeographical Implications. Facies 43, 39-78. Knittel, U., 2011. Rhyolite aged 83 Ma from Mindoro: Evidence for Late Yanshanian magmatism in the Palawan Continental terrane, Philippines, Island Arc 20, 138-146. Knittel, U., Daniels, U., 1987. Sr-isotopic composition of marbles from the Puerto Galera area (Mindoro, Philippines); additional evidence for a Paleozoic age of a metamorphic complex in the Philippine island arc: Geology 15, 136-138. Knittel, U., Hung, C.-H., T.F. Yang, Iizuka, Y., 2010. Permian arc magmatism in Mindoro, the Philippines: An early Indosinian event in the Palawan Continental Terrane. Tectonophysics 493, 113-117. Lal, N., Mehta, Y.P., Kumar, A., Jain, A.K., 1999. Cooling and exhumation history of the Mandi granite and adjoining tectonic units, Himachal Pradesh, and estimation of closure temperature from external surface of zircon. In: Jain, A. K., Manickavasagam R. M. (Eds.), Geodynamics of the NW Himalaya, Gondwana Res. Group Memoir 6, 207-216. Li, X., Li, Z., Li, W., Wang, Y., 2006. Initiation of the Indosinian Orogeny in south China: evidence for a Permian magmatic arc on Hainan Island: The Journal of Geology. 114, 341-353. Li, Z., Li, X., 2007. Formation of the 1300-km-wide intracontinental orogen and postorogenic magmatic province in Mesozoic South China: A flat-slab subduction model: Geology 35,. 179. Liu, T-K, Hsieh, S., Chen, Y-G, Chen, W-S, 2001. Thermo-kinematic evolution of the Taiwan oblique-collision mountain belt as revealed by zircon fission track dating. Earth and Planetary Science Letters 186, pp. 45-56. Lo, C.-H., Chung, S.-L., Lee, T.-Y. and Wu, G.-Y., 2002. Age of the Emeishan flood magmatism and relations to Permian-Triassic boundary events. Earth and Planetary Science Letters 198, 449-458. Ludwig, K.R., 2003. Isoplot v. 3.0: a geochronological toolkit for Microsoft Excel. Berkeley Geochronology Center, Special Publication No. 4, 70 pp. Maslin, M.A., Li, X.S., Loutre, M.-F., Berger, A., 1998. The contribution of orbital forcing to the progressive intensification of Northern Hemisphere glaciation, Quat. Sci. Rev. 17, 411–426. McCabe, R., Almasco, J. and Diegor, W., 1982. Geologic and paleomagnetic evidence for a possible Miocene collision in western Panay, Central Philippines. Geology 10, 325-329. McDougall, I. and Harrison T. M. (1999). Geochronology and thermochronology by the 40Ar/39Ar method. 2nd edition, Oxford University Press, Oxford, 269pp. Mehta, P. K., 1977. Geochronology of the Kulu-Mandi belt: Its implications for the Himalayan tectogenesis. Geol. Rundschau, 6, 156-188. Meigs, A. J., Burbank, D. W., Beck, R. A., 1995. Middle-late Miocene (>10 Ma) formation of the Main Boundary thrust in the western Himalaya. Geology, 23, 423-426. Miller, C., Klotzli, U., Frank, W., Thoni, M., Grasemann, B., 2000. Proterozoic crustal evolution in the NW Himalaya (India) as recorded by circa 1.80 Ga mafic and 1.84 Ga granitic magmatism. Precambrian Research 103, 191-206. Milsom, J., Sardjono, Susilo, A., 2001. Short-wavelength, high-amplitude gravity anomalies around the Banda Sea, and the collapse of the Sulawesi orogen. Tectonophysics 333, 61–74. Mitchell, A.H.G., Estacio, R., Flores, R., Lazo, E., Salvado, H., Santiago, A., 1985. Geology of Central Palawan. Journal of the Geological Society of the Philippines 34, 1-43. Mitchelle, A. H. G, Hernandez, F., Dela Cruz, A. P., 1986. Cenozoic evolution of the Philippine Archipelago. Journal of Southeast Asian Earth Sciences 1, No. 1, pp. 3-22. Mitchell, A.H.G. and Leach, T.M., 1991. Epithermal Gold in the Philippines: Island Arc Metallogenesis, Geothermal Systems and Geology. Academic Press, London, 457pp. MMAJ-JICA, 1983. Report on Geological Survey of Mindoro Island, Phase II. Metal Mining Agency of Japan 76p. Molnar P., 2004, Late Cenozoic increase in accumulation rates of terrestrial sediment: how might climate change have affected erosion rates? Annu. Rev. Earth Planet. Sci. 32, 67–89. Mullen, E., 1983. MnO/TiO2/P2O5: a minor element discriminant for basaltic rocks of oceanic environments and its implications for petrogenesis: Earth and Planetary Science Letters, v. 62. Najman, Y., Johnson, K., White, N., Oliver, G., 2004. Evolution of the Himalayan foreland basin, NW India. Basin Research, doi: 10.1111/j.1365-2117.2003.00223.x Najman, Y.M.R., Pringle, M.S., Johnson, M.R.W., Robertson, A.H.F. and Wijbrans, J.R., 1997. Laser 40Ar/39Ar dating of single detrital muscovite grains from early foreland basin sediments in India: Implications for early Himalayan evolution. Geology, 25, 535-538. Najman, Y.M.R., Garzanti, E., 2000. Reconstructing early Himalayan tectonic evolution and paleogeography from Tertiary foreland basin sedimentary rocks, northern India. GSA Bulletin, Vol 112, No. 3, 435-449. Neumayer, J., Wisemayr, G., Janda, C., Grasemann, B., Draganits, E., 2004. Eohimalayan fold and thrust belt in the NW-Himalaya (Lingti-Pin Valleys): Shortening and depth to detachment calculation. Austrian Journal of Earth Sciences, 95/96, 28-36. Pandey, A. K., Sachen, H. K., Virdi, N. S., 2004. Exhumation history of a shear zone constrained by microstructural and fluid inclusion technique: an example from the Satluj valley, NW Himalaya, India. Jour. Asian Earth Sci., 23, 391-406. Payot, B.D., Arai, S., Tamayo, R.A.,Yumul, G.P., 2009. What underlies the Philippine island arc? Clues from the Calaton Hill, Tablas island, Romblon (Central Philippines). Journal of Asian Earth Sciences 36, 371-389. Pearce, J. A., Harris, N. B. W., Tindle, A. G., 1984. Trace-element discrimination diagrams for the tectonic interpretation of granitic rocks. Journal of Petrology 25, 956-983. Pena, E.R., 2008. Lexicon of Philippine Stratigraphy 2008. Geological Society of the Philippines, Manila. Pubellier, M., Monnier, C., Maury, R. and Tamayo, R.A.Jr., 2004. Plate kinematics, origin and tectonic emplacement of supra-subduction ophiolites in SE Asia. Tectonophysics, 392, 9−36. Qiang, X., Li, Z., Powell, C.M., Zheng, H., 2001. Magnetostratigraphic record of the Late Miocene onset of the East Asian monsoon, and Pliocene uplift of northern Tibet, Earth Planet. Sci. Lett. 187, 83–93. Queaño, K. L., Ali, J. R., Milsom, J., Aitchison, J. C., Pubellier, M., 2007. North Luzon and the Philippine Sea Plate motion model: Insights following paleomagnetic, structural, and age dating investigations. Journal of Geophysical Research Vol. 112. doi:10.1029/2006JB004506. Rangin, C., Stephan, J.F., Muller, C., 1985. Middle Oligocene oceanic crust of the South China Sea jammed into Mindoro collision zone, Philippines: Geology, v. 13, p. 425-428. Rangin, C., Stephan, J.F., Butterlin, J., Bellon, H., Muller, C., Chorowicz, J., Baladad, D., 1991. Collision néogène d’arcs volcaniques dans le centre des Philippines: stratigraphie et structure de la chaine d’Antique (île de Panay). Bulletin Societe Géologique du France 162, 465–477. Reiners, P.W., Ehlers, T.A., Mitchell, S.G., Montgomery, D.R., 2003. Coupled spatial variations in precipitation and long-term erosion rates across the Washington Cascades, Nature 426, 645–647. Reiners, P.W. and Brandon, M.T., 2006. Using thermochronology to understand orogenic erosion. Annual Reviews Earth Planetary Sciences, 34, 419-466. doi: 10.1146/annurev.earth.34.031405.125202 Renne, P.R., Swisher, C.C., Deino, A.L., Karner, D.B., Owens, T.L., DePaolo, D.J., 1998. Intercalibration of standards, absolute ages and uncertainties in 40Ar/39Ar dating. Chem. Geol. 145, 117–152. Sarewitz, D.R., Karig, D.E., 1986. Processes of allochthonous terrane evolution, Mindoro Island, Philippines: Tectonics, 5, p. 525-552. Saini, H. S., Nagpaul, K. K., Sharma, K. K., 1976. Fission track ages from the Pandeh-Baggi area, Himachal Himalaya and their tectonic interpretation. Tectonophysics 46, pp. 87-98. Sajona, F.G., Bellon, H., Maury, R.C., Pubellier, M., Quebral, R.D., Cotten, J., Bayon, F.E., Pagado, E. and Pamatian, P., 1997. Tertiary and Quaternary magmatism in Mindanao and Leyte (Philippines): geochronology, geochemistry and tectonic setting. Journal of Asian Earth Sciences, 15, 121−153. Schlup., M, Carter, A., Cosca, M., Steck, A., 2003. Exhumation history of eastern Ladakh revealed by 40Ar/39Ar and fission-track ages: the Indus River-Tso Morari transect, NW Himalaya. Jour. Geol. Society, London, vol. 160, 385-399. Schlüter, H.U., Hinz, K., Block, M., 1996. Tectono-stratigraphic terranes and detachpment faulting of the South China Sea and Sulu Sea. Marine Geology 130, 39-78. Searle, M. P., Noble, S. R., Hurford, A. J., Rex, D. C., 1999. Age of crustal melting, emplacement and exhumation history of the Shivling leucogranite, Garhwal Himalaya. Geol. Mag. 136 (5) pp 513-525. Sibuet, J.-C., Hsu, S.-K., Le Pichon, X., Le Formal, J.-P., Reed, D., Moore, G., Liu, C.-S., 2002. East Asia plate tectonics since 15 Ma: constraints from the Taiwan region. Tectonophysics 344, 103–134. Sláma, J., Kosler, J., Condon, D.J., Crowley, J.L., Gerdes, A., Hanchar, J.M., Horstwood, M.S.A., Morris, G.A., Nasdala, L., Norberg, N., Schaltegger, U., Schoene, B., Tubrett, M.N., Whitehouse, M.J., 2008. Plesovice zircon -- A new natural reference material for U-Pb and Hf isotopic microanalysis. Chemical Geology 249, 1-35. Solidum, R. U., Castillo, P. R., and Hawkins, J. W., 2003. Geochemistry of lavas from Negros Arc, west central Philippines: Insight into the contribution from the subducting slab. Geochem. Geophys. Geosys. 4(10), 9008, doi: 10.1029/2003GC000513. Sorkhabi, R.B., Stump, E., Foland, K.A., Jain, A.K., 1997. Fission-track and 40Ar/39Ar evidence for episodic denudation of the Gangotri granites in the Garhwal Higher Himalaya, India, Tectonophysics 260, 187–199. Suzuki, S., Asiedu, D., Takemura, S., Yumul, G.P., David, S.D., 2001. Composition of sandstones from the Cretaceous to Eocene successions in Central Palawan, Philippines. Journal of the Geological Society of the Philippines 56, 31-42. Suzuki, S., Takemura, S., Yumul, G.P., David, S.D., Asiedu, D.K., 2000. Composition and provenance of the Upper Cretaceous to Eocene sandstones in Central Palawan, Philippines: Constraints on the tectonic development of Palawan. Island Arc 9, 611-626. Tamayo, R. A., Yumul, G. P., Maury, R. C., Polve, M., Cotton, J., Bohn, M., 2001. Petrochemical Investigation of the Antique Ophiolite (Philippines): Implications on Volcanogenic Massive Sulfide and Podiform Chromite Deposits. Resource Geology 51, 145-164. Taylor, B., and D. Hayes, 1980. The tectonic evolution of the South China Sea, in: The tectonic and geologic evolution of Southeast Asian Seas and Islands, edited, pp. 89-104, American Geophysical Union, Washington. Taylor, B., and D. Hayes, 1983. Origin and history of the South China Sea basin, in: The tectonic and geologic evolution of Southeast Asian seas and islands, part 2, edited, pp. 23–56, American Geophysical Union, Washington. Thiede, R. C., Bookhagen, B., Arrowsmith, J.R., Sobel, E. R., Strecker, M. R., 2004. Climate control on rapid exhumation along the Southern Himalayan Front. Earth Planet. Sci. Lett., 222, 791-806. Tsutsumi, Y., Miyashita, A., Terada, K., Hidaka, H., 2009. SHRIMP U-Pb dating of detrital zircons from the Sanbagawa Belt, Kanto Mountains, Japan: need to revise the framework of the belt. Journal of Mineralogical and Petrological Sciences 101, 12-24. UNDP-BMG (United Nations Development Program and Philippine Bureau of Mines and Geo-Sciences) 1983. Cenozoic geological evolution of southwestern Panay and adjacent areas. The Philippine Geologist 37, no. 4, 16-36. UNDP, 1985. Geology of Central Palwan. In: Programme, U.N.D. (Ed.), Technical Report New York, p. 45. Valdiya, K. S., 2001. Reactivation of terrane-defining boundary thrusts in central sector of the Himalaya: Implication. Current Science, vol. 81, no. 11. Vannay, J.C., Grasemann, B., 2001. Himalayan inverted metamorphism and syn-convergence extension as a consequence of a general shear extrusion, Geol. Mag., 138 (3), 253-276. Vannay, J.C., Grasemann, B., Rahn, M., Frank, W., Carter, A., Baudraz, V., Cosca, M., 2004. Miocene to Holocene exhumation of metamorphic crustal wedges in the NW Himalaya: evidence for tectonic extrusion coupled to fluvial erosion, Tectonics 23, doi: 10.1029/2002TC001429. Wagner, G., Haute, V. D., 1992. Fission-Track Dating. Kluwer Academic Publishers, Dordrecht, Netherlands, 285pp. Wakita, K., and Metcalfe, I., 2005, Ocean plate stratigraphy in East and Southeast Asia: Journal of Asian Earth Sciences, v. 24, p. 679-702. Walia, M., Yang, T. F., Liu, T. K., Kumar, R., Chung, L., 2008. Fission track dates of Mandi granite and adjacent tectonic units in Kulu-Beas valley, NW Himalaya, India. Radiation Measurements 43, S343-S347. Walia, M., Yang, T. F., Knittel, U., Liu, T-K, Lo, C. H., Chung, S. L., Teng, L. S., Dimalanta, C. B., Yumul, G. P., Yuan, . M., 2011. Cenozoic tectonics in the Buruanga Peninsula, Panay Island, Central Philippines, as constrained by U/Pb, 40Ar/39Ar and Fission Track thermochronometers. Submitted. Wang, Y., Zhang, X., Sun, L., and Wan, J., 2007, Cooling history and tectonic exhumation stages of the south-central Tibetan Plateau (China): Constrained by 40Ar/39Ar and apatite fission track thermochronology: Journal of Asian Earth Sciences, v. 29, p. 266-282. Willett, S.D., 1999. Orogeny and orography: the effects of erosion on the structure of mountain belts. J. Geophys. Res. 104:28957–81 Wolfart, R., Cepek, P., Gramann, F., Kemper, E., Porth, H., 1986. Stratigraphy of Palawan Island. Newsletters on Stratigraphy 16, 19-48. Wood, D., 1980, The application of a Th-Hf-Ta diagram to problems of tectonomagmatic classification and to establishing the nature of crustal contamination of basaltic lavas of the British Tertiary volcanic province: Earth and Planetary Science Letters, v. 50, p. 11-30. Xu, X., O’Reilly, S.Y., Griffin, W.L., Wang, X., Pearson, N., He, Z., 2007. The crust of Cathaysia: age, assembly and reworking of two terranes. Precambrian research 158(1-2), 51-78. Yang, T. F., Tien, J-L, Chen, C-H, Lee, T., Punongbayan, R. S., 1995. Fission track dating of volcanics in the northern part of the Taiwan-Luzon Arc: eruption ages and evidence for crustal contamination. Journal SE Asian Earth Science 11, 81-93. Yang, T. F., Chen, C-H, Tien, R. L., Song, S. R., Liu, T. K., 2003. Remnant magmatic activity in the Coastal Range of East Taiwan after arc-continent collision: fission-track data and 3He/4He ratio evidence. Radiat.. Meas., 36, 343-349. Yang, T. F., Wang, J. R., Lo, C. H., Chung, S. L., Tien, J. L., Xu, R., Deng, W. M. 1999. The thermal history of the Lhasa Block, South Tibetan Plateau based on FTD and Ar-Ar dating. Radiation Measurements 31, 627-632. Yang, T.F., Lee, T., Chen, C-H., Cheng, S-N., Knittel, U., Punongbayan, R.S., Rasdas, A.R., 1996. A double island arc between Taiwan and Luzon: consequence of ridge subduction. Tectonophysics 258, 85-101. Yin, A. and Harrison, T. M., 2000. Geologic evolution of the Himalyan-Tibetan orogen. Ann. Rev. Earth Planet. Sci., 28, 211-280. Yu, J.-H., O'Reilly, S.Y., Wang, L., Griffin, W.L., Zhou, M.-F., Zhang, M. and Shu, L., 2010. Components and episodic growth of Precambrian crust in the Cathaysia Block, South China: Evidence from U-Pb ages and Hf isotopes of zircons in Neoproterozoic sediments. Precambrian Research 181(1-4): 97-114. Yu, J.-H., Wang, L., O'Reilly, S.Y., Griffin, W.L., Zhang, M., Li, C. and Shu, L., 2009. A Paleoproterozoic orogeny recorded in a long-lived cratonic remnant (Wuyishan terrane), eastern Cathaysia Block, China. Precambrian Research 174 (3-4): 347-363. Yumul, G. P., Dimalanta, C. B., Tamayo, R. A., Maury, R. C., 2003. Collision, subduction and accretion events in the Philippines: A synthesis. The Island Arc 12, 77-91. Yumul, G. P., Jr., Dimalanta, C. B., Tamayo, R. A., Jr., and Bellon, H., 2003. Silicic arc volcanism in Central Luzon, Philippines: Characterization of its space, time, and geochemical relationship: The Island Arc, v. 12, p. 207–218. Yumul Jr., G.P., Dimalanta, C.B., Tamayo Jr., R.A., 2005. Indenter-tectonics in the Philippines: example from the Palawan microcontinental block – Philippine mobile belt collision. Resource Geology 55, 189-198. Yumul, G.P., Dimalanta C.B., Maglambayan V.B.,Marquez E.J. 2008. Tectonic setting of a composite terrane: A review of the Philippine island arc system. Geoscience Journal, 12, 7-17. Yumul Jr., G.P., Dimalanta, C.B., Tamayo Jr., R.A., 2009a. Onland signatures of the Palawan microcontinental block and Philippine mobile belt collision and crustal growth process: A review. Journal of Asian Earth Sciences 34, 610-623. Yumul, G. P., Jumawan, F. T., Dimalanta, C. B., 2009b. Geology, Geochemistry and Chromite Mineralization Potential of the Amnay Ophiolitic Complex, Mindoro, Philippines. Resource Geology 59(3), 263-281. Zamoras, L.R., Matsuoka, A., 2001. Malampaya Sound Group : a Jurassic-Early Cretaceous accretionary complex in Busuanga Island, North Palawan Block (Philippines). Joural of the Geological Society of Japan 107, 316-336. Zamoras, L. R., Matsuoka, A., 2004. Accretion and postaccretion tectonics of the Calamian Islands, North Palawan block, Philippines. The Island Arc 13, 506-519. Zamoras, L. R., Montes, M. G. A., Queano, K. L., Marque, E. J., Dimalanta, C. B., Gabo, J. A. S., Yumul, G. P. Jr., 2008. The Buruanga Peninsula and the Antique Range: Two contrasting terranes in Northwest Panay, Philippines featuring an arc-continent collision zone. Island Arc 17, 443-457. Zhang, S.-B., Zheng, Y.-F., Wu, Y.-B., Zhao, Z.-F., Gao, S., Wu, F.-Y., 2006. Zircon U-Pb age and Hf-O isotope evidence for Paleoproterozoic metamorphic event in South China. Precambrian Research 151, 265-288. Zhisheng, A., Kutzbach, J.E., Prell, W.L., Porter, S.C., 2001,Evolution of Asian monsoons and phased uplift of the Himalaya–Tibetan plateau since Late Miocene times, Nature 411, 62–66. Zhou, J-C, Wang, X-L, Qiu, J-S, 2009. Geochronology of Neoproterozoic mafic rocks and sandstones from northeastern Guizhou, South China: Coeval arc magmatism and sedimentation. Precambrian Research 170, 27-42.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/66141	-
dc.description.abstract	Abstract The work presented in this dissertation is the outcome of research carried out in the Himalaya and the Central Philippine. Rock samples were collected from the studied areas and a combination of radiometric dating techniques was applied in an effort to get better insight into various aspects in respective areas. New fission track data document the cooling and exhumation history of Kulu-Beas Valley in NW Himalaya, India. There is a large set of existing thermochronological data from the eastern and northern parts of NW Himalaya, while, there is very little thermochronological data from the southern part. For this study, (between lattitude 31°30’-32°20’ and longitude 76°30’-77°15’), the cooling history through 250°C-110°C has been investigated by FT chronology on zircon and apatite. The young Pliocene-Pleistocene cooling ages obtained in this study are in good harmony with the ages obtained from neighboring Sutlej Valley and these ages show very good correlation with the precipitation in this part. It is suggested, based on our data that the “zone of high erosion” that lies in the Sutlej Valley extends up to the Beas Valley. In addition, the pattern of ages suggests non-uniform exhumation for different units of NW Himalaya. Late Miocene cooling ages from the fault zone are related to the activity on the thrusts present in the area. Tectonic reconstructions of the Philippines are severely hampered by a paucity of geochronologic and exhumation age constraints. First time reported apatite and zircon fission track, 40Ar/39Ar and U/Pb data from Central Philippines place time constraints on the collision of Palawan Continental Terrane (PCT) with Philippine Mobile Belt (PMB). In Mindoro, the geochronological data from different parts of the metamorphic complex show different age patterns. From the north coast, we obtained Permian U/Pb ages while from the southern exposure of the metamorphics, the ages are very young. Moreover, old inherited zircons are reported from the west and also from the southern part but such old zircons are not observed in the samples from the north coast. U/Pb ages from the metamorphics of Palawan are distinctly different in ages. Results are compared with the age obtained from Tablas Island where Romblon Metamorphics are exposed. The results reveal diverse protolith ages for metamorphics in these islands. In addition, the data provide clues for the provenance of detrital zircons from Panay Island, Mindoro Island and Palawan. The very young cooling ages, as constrained by low-temperature fission track dating, indicate recent and non-uniform exhumation. Layout of the Thesis This dissertation is divided into eight chapters. The different chapters are designed to address problems pertaining to individual areas. Chapter 1 provides an introduction about the areas and the potential problems I have tried to deal with in this study. Here, I also discuss, in short, about the existing problems that need to be addressed. Chapter 2 deals with the methodology used in this study. I provide detailed description of each method used and their principles. Chapter 3 describes the regional geology of the areas in general. Various units of Himalaya and tectonic setting of the Philippine is discussed here. Chapter 4 gives the details of work done in NW-Himalaya and the results obtained using FT dating. The results have revealed very young exhumation in this part of the NW Himalaya. In Chapter 5, I discuss about the samples collected from Panay Island, which were analyzed to constrain various issues related to collision of Palawan Continental Terrane with Philippine Mobile Belt. These samples were dated using a combination of Fission Track Dating, 40Ar/39Ar Dating and U/Pb Dating methods. North-east of the Panay lies the island of Mindoro. NW Mindoro and later East Mindoro was targeted in an attempt to use thermochronology in revealing its affinity to PCT and the relation of detrital zircons with South China during Mesozoic (Chapter 6). The results reveal diverse protolith ages for the Mindoro Metamorphics. In Chapter 7, the results of U/Pb dating from Central Palawan are discussed. Chapter 8 summarizes the results and interpretations.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T00:23:17Z (GMT). No. of bitstreams: 1 ntu-101-D93224007-1.pdf: 10739006 bytes, checksum: 00fa77dd2e5a04c6c86981df944a6afb (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	Table of contents ………… i Abstract ii Acknowledgements iv Table of Contents vi List of Figures ix List of Tables xi Chapter 1. Introduction 1 Chapter 2. Geological Background 10 2.1 Introduction 11 2.2 Geology of the Himalaya 11 2.2.1 Transhimalaya (TH) 12 2.2.2 Indus-Yarlung Suture Zone (IYSZ) 14 2.2.3 Higher Himalayas (HH) 14 2.2.4 Lesser (Lower) Himalaya (LH) 15 2.2.5 Sub-Himalaya (SH) 15 2.2.6 Main Central Thrust (MCT) 16 2.2.7 Main Boundary Thrust (MBT) 16 2.3 Tectonic setting and geology of the Philippine 17 Chapter 3. Methods and Materials 24 3.1 Introduction 25 3.2 U-Pb dating 27 3.3 40Ar/39Ar dating 29 3.4 Fission Track dating 30 3.5 Geochemical analyses 33 Chapter 4. Exhumation and cooling history of Kulu-Beas area in NW Himalaya, India 34 Abstract 35 4.1 Introduction 35 4.2 Regional geology and related geochronology 37 4.3 Fission track analyses 41 4.4 Results and interpretations/Discussion 42 4.4.1 HHC 43 4.4.2 Mandi Granite 51 4.4.3 Fault Zone 51 4.4.4 Sub-Himalaya (SH) 53 4.5 Wider geological implications 54 4.5.1 Exhumation of the NW Himalaya 54 4.5.2 Climate change as the cause of accelerated erosion 55 4.6 Conclusions 56 4.7 Acknowledgements 57 Chapter 5. Cenozoic tectonics in Buruanga Peninsula: as constrained by various thermochronometers 58 Abstract 59 5.1 Introduction 59 5.2 Geological setting 63 5.3 Sample Description 68 5.4 Results 72 5.4.1 U-Pb dating 72 5.4.2 40Ar/39Ar dating 81 5.4.3 Fission Track dating 84 5.4.4 Geochemistry 88 5.5 Discussion 90 5.5.1 The significance of the age data for regional geology 90 5.5.2 The significance of the age data for collision history 94 5.6 Conclusions 100 5.7 Acknowledgements 101 Chapter 6. Diverse protolith ages for Mindoro Metamorphics 103 Abstract 104 6.1 Introduction 104 6.2 Geological setting 106 6.3 Metamorphic suits of Palawan Continental Terrane 108 6.4 Sample description 110 6.4.1 Samples for U/Pb dating 110 6.4.2 Samples for fission track dating 112 6.5 Results 112 6.5.1 U/Pb dating 112 6.5.2 Fission track dating 123 6.6 Discussion 126 6.7 Conclusions 133 6.8 Acknowledgments 134 Chapter 7. No Paleozoic metamorphics in Palawan (the Philippines): Evidence from single grain U-Pb zircons dating of detrital zircons 135 Abstract 136 7.1 Introduction 136 7.2 Regional geology 138 7.2.1 North Palawan: Malampaya Sound Group 140 7.2.2 Central Palawan 141 7.3 Analytical method 145 7.4 Results 146 7.5 Discussion 160 7.6 Conclusions 167 7.7 Acknowledgments 168 Chapter 8. Concluding remarks 169 References 173 Supplement I: 40Ar/39Ar analytical data for samples from Panay Island 185
dc.language.iso	en
dc.subject	氬氬定年	zh_TW
dc.subject	喜瑪拉雅	zh_TW
dc.subject	菲律賓	zh_TW
dc.subject	巴拉望陸塊	zh_TW
dc.subject	鈾鉛定年	zh_TW
dc.subject	核飛跡定年	zh_TW
dc.subject	fission track dating	en
dc.subject	40Ar/39Ar dating	en
dc.subject	Himalaya	en
dc.subject	Philippines	en
dc.subject	Palawan continental terrane	en
dc.subject	U-Pb dating	en
dc.title	探討碰撞帶的熱事件: 以熱定年方式探討西北喜馬拉雅和菲律賓中部之構造事件	zh_TW
dc.title	Deciphering thermo-tectonic events at collision zones: insight from various thermo-chronometers as applied to NW Himalaya and Central Philippines	en
dc.type	Thesis
dc.date.schoolyear	100-2
dc.description.degree	博士
dc.contributor.oralexamcommittee	陳正宏(C H Chen),鄧屬予(Louis Teng),劉聰桂(T-K Liu),鍾孫霖(Sun-Lin Chung),李元希(Yuan Hsi Lee)
dc.subject.keyword	喜瑪拉雅,菲律賓,巴拉望陸塊,鈾鉛定年,核飛跡定年,氬氬定年,	zh_TW
dc.subject.keyword	Himalaya,Philippines,Palawan continental terrane,U-Pb dating,fission track dating,40Ar/39Ar dating,,	en
dc.relation.page	189
dc.rights.note	有償授權
dc.date.accepted	2012-05-31
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

文件中的檔案：

檔案	大小	格式
ntu-101-1.pdf 未授權公開取用	10.49 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。