PHILIPPINE OPHIOLITES AND THEIR TECTONIC SIGNIFICANCE
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摘要: 菲律宾出露有20余套规模各异的俯冲带上板块(SSZ)型蛇绿岩,它们的时代以晚中生代为主,仅少数为新生代。大多数菲律宾蛇绿岩出露相对完整,包括由二辉橄榄岩、方辉橄榄岩、纯橄岩等组成的变质地幔岩,和堆晶辉石岩、辉长辉绿岩等深成岩,以及枕状玄武岩、熔岩等喷出岩,甚至燧石岩等上覆沉积物,部分发育席状岩墙群和与蛇绿岩相关的构造混杂岩及变质基底。其中喷出岩在地球化学特征上整体表现出类似MORB和IAT的REE配分模式,具LILE富集和HFSE (如Nb、Ta相对La、Th)弱到中等程度亏损的特征。通过对菲律宾蛇绿岩的形成年代、岩石组合、地球化学特征及构造环境的分析,并与东南亚地区其他同时代蛇绿岩和周缘边缘海进行对比,将菲律宾蛇绿岩分为两部分。(1)菲律宾活动带蛇绿岩,该蛇绿岩带自西向东出露晚中生代弧前、新生代弧前扩张盆地和晚中生代岛弧、弧后盆地的残留,推测晚中生代蛇绿岩来自中特提斯洋向古太平洋板块俯冲所形成的沟-弧-盆体系,是菲律宾新生代岛弧岩浆活动的基底,而夹于晚中生代蛇绿岩之间的始新世蛇绿岩来自老的岛弧基底之上由于新特提斯洋俯冲形成的弧前扩张盆地。(2)菲律宾陆块蛇绿岩,其中巴拉望微陆块晚中生代蛇绿岩来源于古南海,而构造叠置于它们之上的新生代蛇绿岩则来源于古南海俯冲对应形成的边缘海,如苏禄海和南海;三宝颜微陆块或可能是古南海的南部被动大陆边缘,其蛇绿岩可能是古南海的残片,抑或三宝颜微陆块可能是婆罗洲南部东爪哇-西苏拉威西地体的延续,故该蛇绿岩又可能是新特提斯洋的残片。Abstract: Ophiolites are the fragments of subducted oceanic plates.There are more than 20 SSZ-types of ophiolites or ophiolitic complexes in the Philippine archipelago.Most of them are late Mesozoic in age,excluding some Eocene parts,such as the Coto Ophiolite in the Zambales,the Angat Ophiolite in the Southern Sierra Madre,the Central Cordillera basement,and Palawan ophiolites,and also except the Oligocene Amnay Ophiolite in the Mindoro Island.Philippine ophiolites show typical ophiolitic sequence,starting from serpentinized mantle rocks in the lower part,through layered to massive ultramafic and mafic cumulated gabbros and dike-sill complexes to volcanic rocks on the top.The serpentinized mantle rocks include residual lherzolites,harzburgites,websterites,lenses of dunite,whiles the volcanic succession consists of pillow basalts and massive lavas covered by deep-sea cherts.The volcanic rocks are characterized by a relative flat REE pattern of MORB-like,enriched in LILE and middle to weak depleted HFSE(such as Nb and Ta depleted relative to La and Th).
Based on their formation ages,emplacement mechanisms,geochemical characteristics and tectonic settings, the Philippine ophiolites could be subdivided into two distinct belts:the Philippine Mobile Belt Ophiolites and the Philippine micro-Continent Ophiolites.
We suppose that there should be a huge incipient arc and backarc basin,named the Philippine Incipient Arc and the Proto-Philippine Sea respectively,for the Philippine Mobile Belt Ophiolites.The former is comprised of late Mesozoic IA type ophiolites of the Philippine Mobile Belt and the Amami Plateau in the West Philippine Sea Basin.But the later represent by late Mesozoic MORB-like ophiolites of the Philippine Mobile Belt.And the both are formed by the subduction of the Meso-Tethys to the Proto-Pacific in Mesozoic. However,the Philippine Incipient Arc sequently split into 3 slices by opening of the West Philippine Sea Basin and Central Valley Basin in Eocene due to subduction of the Pacific and the Neo-Tethys.
The Philippine micro-Continent Ophiolites consist of the ophiolites of the Palawan micro-Continent and the Zamboanga Peninsula.The late Mesozoic ophiolites of the Palawan micro-Continent and the Darvel Bay Ophiolite of the NE Borneo share a same origin,all source from the Proto-South China Sea.The Eocene-Oligocene ophiolites of the Palawan micro-Continent,however,should be sourced from the Proto-South China Sea subduction-related Cenozoic marginal sea basins such as the Sulu Sea and the South China Sea.Since lacking valuable data to make more restrictions,the late Mesozoic Zamboanga Peninsula ophioliteis are probably fragments of the Proto-South China Sea,or as like as the Meratus Ophiolite in SW Borneo and the Balantak Ophiolite in east Sulawesi island,which are formed by subduction of the Neo-Tethys Ocean beneath the Borneo. -
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[1] Dilek Y.Ophiolite concept and its evolution[C]//Dilek Y, Newcomb S,eds.Ophiolite concept and the evolution of geological thought.USA:Geological society of America.2003, Special papers 373:1-16.
[2] Dilek Y,Furnes H.Ophiolite genesis and global tectonics:Geochemical and tectonic fingerprinting of ancient oceanic lithosphere[J].Geological Society of America Bulletin,2011, 123(3-4):387-411.
[3] Dilek Y,Furnes H.Ophiolites and their origins[J].Elements, 2014,10(2):93-100.
[4] 张旗,周国庆.中国蛇绿岩[M].北京:地质出版社.2001:1-15.[ZHANG Qi,ZHOU Guoqing.Ophiolites of China[M].Beijing:Science Press,2001:1 -15.]
[5] Dilek Y.Ophiolite pulses,mantle plumes and orogeny[C]//Dilek Y,Newcomb S,eds.Ophiolites in earth history.UK:Geological Society,London.2003,Special Publications 218:9-19.
[6] 潘桂棠,陈志梁,李兴振,等.东特提斯地质构造形成演化[M].北京:地质出版社.1997.[PAN Guitang,CHEN Zhiliang, LI Xingzhen,et al.Geological-tectonic evolution in the eastern Tethys[M].Beijing:Science Press,1997.] [8] Frisch W,Meschede M,Blakey R.Plate Tectonics:Continental Drift and Mountain Building[M].Springer.2011:49.
[9] Metcalfe I.Palaeozoic and Mesozoic geological evolution of the SE Asian region:Multidisciplinary constraints and implications for biogeography[C]//Hall R,Holloway J D,eds.Biogeography and geological evolution of SE Asia:Backhuys Publishers. 1998:25-41.
[10] Metcalfe I.Pre-Cretaceous evolution of SE Asian terranes[C]//Hall R,Blundell D J,eds.Tectonic evolution of Southeast Asia.UK:Geological Society,London.1996, Special Publications 106:97-122.
[11] Metcalfe I.Gondwana dispersion and Asian accretion:Tectonic and palaeogeographic evolution of eastern Tethys[J]. Journal of Asian Earth Sciences,2013,66:1-33.
[12] Hall R.Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific:Computer-based reconstructions, model and animations[J].Journal of Asian Earth Sciences, 2002,20(4):353-431.
[13] Hall R.Late Jurassic-Cenozoic reconstructions of the Indonesian region and the Indian Ocean[J].Tectonophysics,2012, 570:1-41.
[14] Hall R,Clements B,Smyth H R.Sundaland:Basement character,structure and plate tectonic development[R]. Proceedings,Indonesian Petroleum Association Thirty-Third Annual Convention and Exhibition.2009.
[15] Tamayo R A,Maury R C,Yumul G P,et al.Subduction-related magmatic imprint of most Philippine ophiolites:Implications on the early geodynamic evolution of the Philippine archipelago[J].Bulletin de la Sociétégéologique de France, 2004,175(5):443-460.
[16] Yumul G P.Westward younging disposition of Philippine ophiolites and its implication for arc evolution[J].Island Arc,2007,16(2):306-317.
[17] Aurelio M A,Peña R E.Geology of the Philippines(Second Edition)[M].Philippines:Mines and Geosciences Bureau (MGB),Department of Environment and Natural Resources. 2010:509.
[18] Deschamps A,Lallemand S.The West Philippine Basin:an Eocene to early Oligocene back arc basin opened between two opposed subduction zones[J].Journal of Geophysical Research, 2002,107(B12):EPM 1-1-EPM 1-24.
[19] Huang C Y,Yuan P B,Lin C W,et al.Geodynamic processes of Taiwan arc-continent collision and comparison with analogs in Timor,Papua New Guinea,Urals and Corsica[J]. Tectonophysics,2000,325(1):1-21.
[20] YumulG P,Dimalanta C B,Tamayo R A,et al.Collision, subduction and accretion events in the Philippines:A synthesis[J].Island Arc,2003,12(2):77-91.
[21] Yumul G P,Dimalanta C B,Maglambayan V B,et al.Tectonic setting of a composite terrane:a review of the Philippine island arc system[J].Geosciences Journal,2008,12(1):7-17.
[22] Aurelio M A,Peña R E,Taguibao K J L.Sculpting the Philippine archipelago since the Cretaceous through rifting,oceanic spreading,subduction,obduction,collision and strikeslip faulting:Contribution to IGMA5000[J].Journal of Asian Earth Sciences,2013,72:102-107.
[23] Faure M,Marchadier Y,Rangin C.Pre-Eocene synmetamorphic structure in the Mindoro-Romblon-Palawan area,West Philippines,and implications for the history of southeast Asia[J].Tectonics,1989,8(5):963-979.
[24] Geary E E,Harrison T M,Heizler M.Diverse ages and origins of basement complexes,Luzon,Philippines[J].Geology, 1988,16(4):341-344.
[25] Karig D E.Accreted terranes in the northern part of the Philippine archipelago[J].Tectonics,1983,2(2):211-236.
[26] Mitchell A,Hernandez F.Cenozoic evolution of the Philippine Archipelago[J].Journal of Southeast Asian Earth Sciences, 1986,1(1):3-22.
[27] Pubellier M,Quebral R,Rangin C,et al.The Mindanao collision zone:a soft collision event within a continuous Neogene strike-slip setting[J].Journal of Southeast Asian Earth Sciences, 1991,6(3):239-248.
[28] YumulG P,Dimalanta C B,Tamayo R A,et al.Geology of the Zamboanga Peninsula,Mindanao,Philippines:an enigmatic South China continental fragment?[C]//Malpas J F, et al,eds.Aspects of the tectonic evolution of China.UK:Geological Society of London.2004,Special Publications 226:289-312.
[29] Yumul Jr G P,Dimalanta C B,Tamayo Jr R A,et al.Geological features of a collision zone marker:the Antique Ophiolite Complex(Western Panay,Philippines)[J].Journal of Asian Earth Sciences,2013,65:53-63.
[30] Pubellier M,Monnier C,Maury R,et al.Plate kinematics, origin and tectonic emplacement of supra-subduction ophiolites in SE Asia[J].Tectonophysics,2004,392(1):9-36.
[31] Hamilton W B.Tectonics of the Indonesian region[M]:US Govt.Print.Off.1979.
[32] Yumul G P,Dimalanta C B,Marquez E J,et al.Onland signatures of the Palawan microcontinental block and Philippine mobile belt collision and crustal growth process:a review[J].Journal of Asian Earth Sciences,2009,34(5):610-623.
[33] Suzuki S,Takemura S,Yumul G P,et al.Composition and provenance of the Upper Cretaceous to Eocene sandstones in Central Palawan,Philippines:Constraints on the tectonic development of Palawan[J].Island Arc,2000,9(4):611-626.
[34] Suggate S M,Cottam M A,Hall R,et al.South China continental margin signature for sandstones and granites from Palawan,Philippines[J].Gondwana Research,2013.
[35] Sarewitz D R,Karig D E.Processes of allochthonous terrane evolution, Mindoro Island,Philippines[J].Tectonics, 1986,5(4):525-552.
[36] Deschamps A,Monie P,Lallemand S,et al.Evidence for Early Cretaceous oceanic crust trapped in the Philippine Sea Plate[J].Earth and Planetary Science Letters,2000,179(3):503-516.
[37] Ishizuka O,Taylor R N,Ohara Y,et al.Upwelling,rifting, and age-progressive magmatism from the Oki-Daito mantle plume[J].Geology,2013,41(9):1011-1014.
[38] Lewis S D,Hayes D E,Mrozowski C L.The origin of the West Philippine Basin by inter-arc spreading[C]//Blace G R,Zanoria F,eds.Geology and tectonics of Luzon and Marianas region.Manila,Philippines:Proceedings of the CCOPIOC-SEATAR Workshop.1982,SEATAR (Study of East Asia Tectonics and Resources)Committee Special Publication 1:31-51.
[39] Dimalanta C,Suerte L,Yumul G,et al.A Cretaceous suprasubduction oceanic basin source for Central Philippine ophiolitic basement complexes:Geological and geophysical constraints[J].Geosciences Journal,2006,10(3):305-320.
[40] Dimalanta C,Yumul G.Magmatic and amagmatic contributions to crustal growth of an island-arc system:The Philippine example[J].International Geology Review,2003,45(10):922-935.
[41] Dimalanta C,Yumul Jr G.Crustal thickening in an active margin setting(Philippines):the whys and the hows[J]. Episodes,2004,27(4):260-264.
[42] Dimalanta C B,Yumul G P.Magmatic and amagmatic contributions to crustal growth in the Philippine island arc system:Comparison of the Cretaceous and post-Cretaceous periods[J].Geosciences Journal,2006,10(3):321-329.
[43] Encarnación J.Multiple ophiolite generation preserved in the northern Philippines and the growth of an island arc complex[J].Tectonophysics,2004,392(1):103-130.
[44] Rangin C,Stephan J,Müller C.Middle Oligocene oceanic crust of South China Sea jammed into Mindoro collision zone (Philippines)[J].Geology,1985,13(6):425-428.
[45] Suerte L O,Yumul G P,Tamayo R A,et al.Geology,geochemistry and U-Pb SHRIMP age of the Tacloban Ophiolite Complex,Leyte island(central Philippines):implications for the existence and extent of the Proto-Philippine Sea Plate[J].Resource Geology,2005,55(3):207-216.
[46] Encarnacion J,Essene E,Mukasa S,et al.High-Pressure and-Temperature subophiolitic Kyanite-Garnet Amphibolites generated during Initiation of Mid-Tertiary subduction,Palawan, Philippines[J].Journal of Petrology,1995,36(6):1481-1503.
[47] Raschka H,Nacario E,Rammlmair D,et al.Geology of the ophiolite of central Palawan Island,Philippines[J].Ofioliti, 1985,10(2/3):375-390.
[48] Encarnación J P,Mukasa S B,Obille E C.Zircon U-Pb geochronology of the Zambales and Angat Ophiolites,Luzon, Philippines:Evidence for an Eocene arc-back arc pair[J]. Journal of Geophysical Research,1993,98(B11):19991-20004.
[49] Rangin C,Stephan JF,Butterlin J,et al.Collision néogène d'arcs volcaniques dans le centre des Philippines:stratigraphie et structure de la chaine d'Antique(île de Panay)[J].Bulletin de la SociétéGéologique de France,1991,162:465-477.
[50] Queano K L.Tectonic modeling of Northern Luzon,Philippines and regional implications[D].PHD Thesis:University of Hong Kong,2006,499.
[51] Queano K L,Marquez E J,Aitchison J C,et al.Radiolarian biostratigraphic data from the Casiguran ophiolite,northern Sierra Madre,Luzon,Philippines:stratigraphic and tectonic implications[J].Journal of Asian Earth Sciences,2013,65:131-142.
[52] Müller C.Biostratigraphy and geological evolution of the Sulu Sea and surrounding area[C]//Silver E,Rangin C,Breymann von M T,eds.Proceedings of the Ocean Drilling Program, Scientific Results.1991,124:121-131.
[53] Encarnacion J,Fernandez D,Mattinson J.Subduction initiation by extrusion tectonics? Evidence from the Palawan Ophiolite, Philippines[R].AGU Fall Meeting Abstracts.2001.
[54] Tamayo R A,Yumul G P,Maury R C,et al.Complex origin for the south-western Zamboanga metamorphic basement complex,Western Mindanao,Philippines[J].Island Arc, 2000,9(4):638-652.
[55] Ishida K,Suzuki S,Dimalanta C,et al.Radiolarian dating of ophiolites and the overlying turbidites in the Philippine Mobile Belt,Northern Luzon Island[R].The 24th Annual Geological Convention of the Geological Society of the Philippines. 2011.GEOCON.
[56] Ishida K,Suzuki S,Dimalanta C,et al.Recent progress in radiolarian research for ophiolites and the overlying turbidites, Philippine Mobile Belt,northern Luzon island[J]. Acta Geoscientica Sinica,2012,33(S1):29-31.
[57] Schweller W,Karig D,Bachman S.Original setting and emplacement history of the Zambales ophiolite,Luzon,Phillipines, from stratigraphic evidence[C]//Hayes D,ed.The tectonic and geologic evolution of Southeast Asian seas and islands:Part 2.Washington DC:American Geophysical Union. 1983:124-138.
[58] Schweller W J,Roth P H,Karig D E,et al.Sedimentation history and biostratigraphy of ophiolite-related Tertiary sediments, Luzon,Philippines[J].Geological Society of America Bulletin,1984,95(11):1333-1342.
[59] Hawkins J W,Evans C A.Geology of the Zambales Range, Luzon,Philippine islands:Ophiolite derived from an island arc-back arc basin pair[C]//Hayes D E,ed.The tectonic and geologic evolution of Southeast Asian seas andislands:Part 2. Washington DC:American Geophysical Union. 1983:95-123.
[60] Yumul Jr G,Dimalanta C.Geology of the Southern Zambales Ophiolite Complex,(Philippines):juxtaposed terranes of diverse origin[J].Journal of Asian Earth Sciences,1997, 15(4):413-421.
[61] Pearce J A.Supra-subduction zone ophiolites:The search for modern analogues[C]//Dilek Y,Newcomb S,eds.Ophiolite concept and the evolution of geological thought.USA:Geological Society of America,2003,Special Papers 373:269-294.
[62] De Jesus J V,Yumul G P,Faustino D V.The Cansiwang Melange of southeast Bohol(central Philippines):Origin and tectonic implications[J].Island Arc,2000,9(4):565-574.
[63] Yumul Jr G,Dimalanta C,Faustino D,et al.Upper mantlelower crust dikes of the Zambales Ophiolite Complex(Philippines):Distinct short-lived,subduction-related magmatism[J].Journal of volcanology and geothermal research,1998, 84(3):287-309.
[64] Faustino D V,Yumul G P,Dimalanta C B,et al.Volcanichypabyssal rock geochemistry of a subduction-related marginal basin ophiolite:Southeast Bohol Ophiolite-Cansiwang Melange Complex,Central Philippines[J].Geosciences Journal, 2006,10(3):291-303.
[65] Hawkins J W.Geology of supra-subduction zones:Implications for the origin ofophiolites[C]//Dilek Y,Newcomb S, eds.Ophiolite concept and the evolution of geological thought.USA:Geological Society of America,2003,Special Paper 373:227-268.
[66] Pearce J,Peate D.Tectonic implications of the composition of volcanic arc magmas[J].Annual Review of Earth and Planetary Sciences,1995,23:251-286.
[67] Pearce J A.Geochemical fingerprinting of oceanic basalts with applications to ophiolite classification and the search for Archean oceanic crust[J].Lithos,2008,100(1):14-48.
[68] Pearce J A.Immobile element fingerprinting of ophiolites[J].Elements,2014,10(2):101-108.
[69] Sun S S,Mcdonough W F.Chemical and isotopic systematics of oceanic basalts:implications for mantle composition and processes[C]//Saunders A D,Norry M J,eds.Magmatism in the ocean basins.UK:Geological Society,London.1989, Special Publications 42:313-345.
[70] Perez A C,Faustino-Eslava D V,Yumul Jr G P,et al.Enriched and depleted characters of the Amnay Ophiolite upper crustal section and the regionally heterogeneous nature of the South China Sea mantle[J].Journal of Asian Earth Sciences, 2013,65:107-117.
[71] Yumul Jr G P,Jumawan F T,Dimalanta C B.Geology,geochemistry and chromite mineralization potential of the Amnay Ophiolitic Complex,Mindoro,Philippines[J].Resource Geology,2009,59(3):263-281.
[72] Tamayo R A,Yumul G P,Maury R C,et al.Petrochemical investigation of the Antique Ophiolite(Philippines):Implications on volcanogenic massive sulfide and podiform chromitite deposits[J].Resource Geology,2001,51(2):145-164.
[73] Queaño K L,Ali J R,Aitchison J C,et al.Geochemistry of Cretaceous to Eocene ophiolitic rocks of the Central Cordillera:Implications for Mesozoic-early Cenozoic evolution of the northern Philippines[J].International Geology Review, 2008,50(4):407-421.
[74] Yumul Jr G,Dimalanta C,Tamayo Jr R,et al.Geology and geochemistry of the Rapu-Rapu ophiolite complex,eastern Philippines:Possible fragment of the proto-Philippine Sea Plate[J].International Geology Review,2006,48(4):329-348.
[75] Shervais J W.Ti-V plots and the petrogenesis of modern and ophiolitic lavas[J].Earth and Planetary Science Letters, 1982,59(1):101-118.
[76] Pearce J A,Cann J R.Tectonic setting of basic volcanicrocks determined using trace-element analyses[J].Earth and Planetary Science Letters,1973,19(2):290-300.
[77] Pearce J A.Trace element characteristics of lavas from destructive plate boundaries[C]//Thorpe R,ed.Orogenic andesites and related rocks.Chichester:Wiley.1982:528-548.
[78] Geary E E,Kay R W,Reynolds J C,et al.Geochemistry of mafic rocks from the Coto block,Zambales ophiolite,Philippines:trace element evidence for two stages of crustal growth[J].Tectonophysics,1989,168(1):43-63.
[79] Monnier C,Girardeau J,Pubellier M,et al.The central ophiolite belt of Irian Jaya(Indonesia):petrological and geochemical evidence for a back-arc basin origin[J].Comptes Rendus de l'Academie des Sciences Series ⅡA Earth and Planetary Science,2000,331(11):691-699.
[80] Dimalanta C,Salapare R,Faustino-Eslava D,et al.Post-emplacement history of the Zambales Ophiolite Complex:Insights from petrography,geochronology and geochemistry of Neogene clastic rocks[J].Journal of Asian Earth Sciences, 2014.
[81] Queaño K,Marquez E,Dimalanta C,et al.Mesozoic piece of oceanic lithosphere in Western Luzon:From the rocks of Northwestern Ilocos Norte to the Zambales Ohiolite Complex[R].The 24th Annual Geological Convention of the Geological Society of the Philippines.2011.GEOCON.
[82] Queaño K L,Dimalanta C B,Yumul Jr G P,et al.The Zambales Ophiolites Complex,Philippines revisited:Implications for its Tethys origin[J].Acta Geoscientica Sinica, 2012,33(S1):58-58.
[83] Encarnación J,Mukasa S B,Evans C A.Subduction components and the generation of arc-like melts in the Zambales ophiolite,Philippines:Pb,Sr and Nd isotopic constraints[J].Chemical Geology,1999,156(1):343-357.
[84] Bachman S B,Lewis S D,Schweller W J.Evolution of a forearc basin,Luzon Central Valley,Philippines[J].AAPG Bulletin,1983,67(7):1143-1162.
[85] Yumul Jr G P,Dimalanta C B,Marquez E J,et al.Onland signatures of the Palawan microcontinental block and Philippine mobile belt collision and crustal growth process:a review[J].Journal of Asian Earth Sciences,2009,34(5):610-623.
[86] Jaques A,Chappell B.Petrology and trace element geochemistry of the Papuan ultramafic belt[J].Contributions to Mineralogy and Petrology,1980,75(1):55-70.
[87] Queano K L,Ali J R,Milsom J,et al.North Luzon and the Philippine Sea Plate motion model:Insights following paleomagnetic, structural,and age-dating investigations[J]. Journal of Geophysical Research,2007,112(B5).
[88] Ballantyne P.Petrology and geochemistry of the plutonic rocks of the Halmahera ophiolite,eastern Indonesia,an analogue of modern oceanic forearcs[C]//Parson L M,Murton B J,Browning P,eds.Ophiolites and their modern oceanic analogues.UK:Geological Society,London 1992,Special Publications 60:179-202.
[89] Hall R.The Eurasian SE Asian margin as a modern example of an accretionary orogen[C]//Cawood P A,Kroner A, eds.Earth accretionary systems in space and time.UK:Geological Society,London.2009,Special Publications 318:351-372.
[90] OmangS A,Barber A.Origin and tectonic significance of the metamorphic rocks associated with the Darvel Bay Ophiolite, Sabah,Malaysia[C]//Hall R,Blundell D,eds.Tectonic evolution of Southeast Asia.UK:Geological Society,London. 1996,Special Publications 106:263-279.
[91] Wakita K,Miyazaki K,Zulkarnain I,et al.Tectonic implications of new age data for the Meratus complex of south Kalimantan, Indonesia[J].Island Arc,1998,7(1-2):202-222.
[92] Rangin C,Bellon H,Benard F,et al.Neogene arc-continent collision in Sabah,northern Borneo (Malaysia)[J].Tectonophysics, 1990,183(1):305-319.
[93] Yuwono Y,Priyomarsono S,Maury T R,et al.Petrology of the Cretaceous magmatic rocks from Meratus Range,southeast Kalimantan[J].Journal of Southeast Asian Earth Sciences, 1988,2(1):15-22.
[94] Yeh K,Cheng Y.The first finding of early Cretaceous radiolarians from Lanyu,the Philippine sea plate[J].Bull.Nat'l Museum Nat.Sci.,2001,13:111-145.
[95] 余梦明,闫义,黄奇瑜.花东海盆洋壳火山岩地球化学特征及其与菲律宾吕宋岛Isabela蛇绿岩的关系初探[C].第三届地球系统科学大会,上海,2014.[YU Mengming,YAN Yi,HUANG ChiYue.The geochemistryof the Huatung basin basement volcanic rocks,and its relationship comparing to the Isabela Ohiolite,Luzon,Philiipne[C].The 3rd Conference on Earth System Science,CESS,Shanghai,2014.] [96] Spadea P,Dantonio M,Thirlwall M F.Source characteristics of the basement rocks from the Sulu and Celebes basins (western Pacific):Chemical and isotopic evidence[J].Contributions to Mineralogy and Petrology,1996,123(2):159-176.
[97] Hickey-Vargas R.Isotope characteristics of submarine lavas from the Philippine Sea:implications for the origin of arc and basin magmas of the Philippine tectonic plate[J].Earth and Planetary Science Letters,1991,107(2):290-304.
[98] Silver E A,Rangin C.Development of the Celebes Basin in the context of western Pacific marginal basin history[C]//Silver E A,Rangin C,von Breymann M T,eds.Proceedings of the Ocean Drilling Program,Celebes and Sulu seas.1991, 124:767-771.
[99] Tu K,Flower M F,Carlson R W,et al.Magmatism in the South China Basin:1.Isotopic and trace-element evidence for an endogenous Dupal mantle component[J].Chemical Geology, 1992,97(1):47-63.
[100] Hickey-Vargas R.Basalt and tonalite from the Amami Plateau, northern West Philippine Basin:New Early Cretaceous ages and geochemical results,and their petrologic and tectonic implications[J].Island Arc,2005,14(4):653-665.
[101] Cullen A B.Transverse segmentation of the Baram-Balabac Basin,NW Borneo:refining the model of Borneo's tectonic evolution[J].Petroleum Geoscience,2010,16(1):3-29.
[102] Hall R,Van Hattum M W,Spakman W.Impact of India-Asia collision on SE Asia:the record in Borneo[J].Tectonophysics, 2008,451(1):366-389.
[103] Hinz K,Fritsch J,Kempter E,et al.Thrust tectonics along the north-western continental margin of Sabah/Borneo[J].Geologische Rundschau,1989,78(3):705-730.
[104] Schlüter H,Hinz K,Block M.Tectono-stratigraphic terranes and detachment faulting of the South China Sea and Sulu Sea[J].Marine Geology,1996,130(1):39-78.
[105] Steuer S,Franke D,Meresse F,et al.Time constraints on the evolution of southern Palawan Island,Philippines from onshore and offshore correlation of Miocene limestones[J]. Journal of Asian Earth Sciences,2013,76:412-427.
[106] Rangin C,Silver E A.Neogene tectonic evolution of the Celebes-Sulu basins:new insights from Leg 124drilling[C]//Silver E A,Rangin C,Breymann von M T,eds. Proceedings of the Ocean Drilling Program,Scientific Results. 1991,124:51-63.
[107] Rangin C,Spakman W,Pubellier M,et al.Tomographic and geological constraints on subduction along the eastern Sundaland continental margin(South-East Asia)[J].Bulletin de la Sociétégéologique de France,1999,170(6):775-788.
[108] Zhu B Q,Wang H F,Chen Y W,et al.Geochronological and geochemical constraint on the Cenozoic extension of Cathaysian lithosphere and tectonic evolution of the border sea basins in East Asia[J].Journal of Asian Earth Sciences, 2004,24(2):163-175.
[109] Replumaz A,Tapponnier P.Reconstruction of the deformed collision zone between India and Asia by backward motion of lithospheric blocks[J].Journal of Geophysical Research, 2003,108(B6).
[110] 鲁宝亮,王璞臖,梁建设,等.古南海构造属性及其与特提斯和古太平洋构造域的关系[J].吉林大学学报:地球科学版,2014,5:1441-1450.[LU Baoliang,WANG Pujun,LIANG Jianshe,et al.Structural properties of Paleo-South China Sea and their relationship whit the Tethys and Paleo-Pacific tectonic domain[J].Journal of Jilin University (Earth Science Edition),2014 ,5:1441-1450.]
[111] Liu W N,Li C F,Li J,et al.Deep structures of the Palawan and Sulu Sea and their implications for opening of the South China Sea[J].Marine and Petroleum Geology,2014, 58:721-735.
[112] Li C F,Lin J,Kulhanek D K.South China Sea tectonics:opening of the South China Sea and its implications for southeast Asian tectonics,climates,and deep mantle processes since the late Mesozoic[R].IODP Sci.Prosp. 2013.
[113] 李三忠,索艳慧,刘鑫,等.南海的基本构造特征与成因模型,问题与进展及论争[J].海洋地质与第四纪地质, 2012,32(6):35-53. [LI Sanzhong,SUO Yanhui,LIU Xin,et al.Basic structural pattern and tectonic models of the South China Sea:problems,advances and controversies[J].Marine Geology and Quaternary Geology,2012,32(6):35-53.]
[114] Holloway N H.North Palawan block,Philippines-its relation to Asian mainland and role in evolution of South China Sea[J].AAPG Bulletin,1982,66(9):1355-1383.
[115] Taylor B,Hayes D E.The tectonic evolution of the South China Basin[C]//Hayes D E,ed.The tectonic and geologic evolution of Southeast Asian seas and islands:Geophys. Monogr.1980:89-104.
[116] Taylor B,Hayes D E.Origin and history of the South China Sea basin[C]//Hayes D E,ed.The tectonic and geologic evolution of Southeast Asian seas and islands:Part 2:Geophys. Monogr.1983,27:23-56.
[117] 夏俄原,黄慈流.南海中生代特提斯期沉积盒地的发现与找寻中生代含油气盆地的前景[J].地学前缘,2000,7(3):227-238. [XIA Kanyuan,HUANG Ciliu.The discovery of Meso-Tethys sedimentary basins in the South China Sea and their oil and gas perspective[J].Earth Science Frontiers,2000,7(3):227-238.]
[118] 刘海龄,谢国发,阎贫,等.南沙海区中生界岩相分布及构造特征[J].海洋与湖沼,2007,38(3):272-278. [LIU Hailing,XIE Guofa,YAN Pin,et al.Tectonic implication of Mesozoic marine deposits in the Nansha Islands of the South China Sea[J].Oceanologia et Limnology Sinica, 2007,38(3):272-278.]
[119] 吴世敏,周蒂,刘海龄.南沙地块构造格局及其演化特征[J].大地构造与成矿学,2004,28(1):23-28. [WU Shimin,ZHOU Di,LIU Hailing.Tectonic framework and evolutionary characteristics of Nansha block,South China Sea[J].Geotectonica et Metallogenia,2004,28(1):23-28.]
[120] 周蒂,吴世敏,陈汉宗.南沙海区及邻区构造演化动力学的若干问题[J].大地构造与成矿学,2005,29(3):339-345. [ZHOU Di,WU Shimin,CHEN Hanzong.Some remarks on the tectonic evolution of Nansha and its adjacent regions in Southern South China Sea[J].Geotectonica et Metallogenia, 2005,29(3):339-345.]
[121] Zhou X,Sun T,Shen W,et al.Petrogenesis of Mesozoic granitoids and volcanic rocks in South China:a response to tectonic evolution[J].Episodes,2006,29(1):26.
[122] Zhou X M,Li W X.Origin of Late Mesozoic igneous rocks in Southeastern China:implications for lithosphere subduction and underplating of mafic magmas[J].Tectonophysics, 2000,326(3):269-287.
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