吉林大学学报(地球科学版) ›› 2019, Vol. 49 ›› Issue (1): 218-229.doi: 10.13278/j.cnki.jjuese.20180140

• 海洋地质与资源 • 上一篇    

西太平洋帕里西维拉海盆不对称性发育特征及其成因

殷征欣1, 李正元1, 沈泽中1, 汤民强1,2, 魏巍1, 刘强1, 谢明芮1, 蔡周荣3   

  1. 1. 国家海洋局南海调查技术中心, 广州 510275;
    2. 国家海洋局南海维权技术与应用重点实验室, 广州 510275;
    3. 中山大学海洋科学学院, 广州 510006
  • 收稿日期:2018-05-31 发布日期:2019-01-18
  • 通讯作者: 蔡周荣(1979-),副教授,主要从事构造地质方面的研究,E-mail:caizhr@mail.sysu.edu.cn E-mail:caizhr@mail.sysu.edu.cn
  • 作者简介:殷征欣(1987-),工程师,博士,主要从事海洋地质方面的研究,E-mail:yinzhengxin@smst.gz.cn
  • 基金资助:
    国家自然科学基金项目(41706055,41602092);国家海洋地质专项(DD20160147,DD20189643);国家重点研发计划(2017YFF0107405);广东省自然科学基金项目(2018A030313168,2018B030311030);国家海洋局南海维权技术与应用重点实验室开放基金(SCS1605);广东高校基本科研业务费项目(17lgpy57)

Asymmetric Geological Developments and Their Geneses of the Parece Vela Basin in Western Pacific Ocean

Yin Zhengxin1, Li Zhengyuan1, Shen Zezhong1, Tang Minqiang1,2, Wei Wei1, Liu Qiang1, Xie Mingrui1, Cai Zhourong3   

  1. 1. South China Sea Marine Survey and Technology Center, State Oceanic Administration, Guangzhou 510275, China;
    2. Key Laboratory of Technology and Application for Safeguarding of Marine Rights and Interests, State Oceanic Administration, Guangzhou 510275, China;
    3. School of Marine Science, Sun Yat-Sen University, Guangzhou 510006, China
  • Received:2018-05-31 Published:2019-01-18
  • Supported by:
    Supported by National Natural Science Foundation of China(41706055, 41602092),National Marine Geology Special Project of China (DD20160147,DD20189643),National Key Research and Development Program of China (2017YFF0107405),Natural Science Foundation of Guangdong Province (2018A030313168,2018B030311030),Key Laboratory Open Subject Funding from Key Laboratory of Technology and Application for Safeguarding of Marine Rights and Interests,SOA (SCS1605) and Basic Research Business Fees of Universities in Guangdong (17lgpy57)

摘要: 西太平洋帕里西维拉海盆是伊豆-小笠原-马里亚纳"沟-弧-盆"体系下众多弧后扩张盆地中最大的一个,地质、地球物理资料显示该海盆具有明显的不对称发育特征,但长期以来对其成因缺乏系统研究。本文深入分析了帕里西维拉海盆东西两侧的几何形态、地形地貌、沉积特征与地球物理特征,以及盆地南端东翼的缺失和西翼明显的弯曲构造特征,并结合海盆区域板块运动机制研究认为:盆地不对称性发育特征的成因主要在于盆地的构造发育背景、盆地两侧构造活动与沉积环境的差异,盆地东西两侧的不对称发育主要受盆地发育过程中两侧的构造过程与沉积环境控制;盆地南端东翼的缺失和西翼的弯曲构造更多地受到东侧加洛林板块特别是加洛林脊俯冲作用的影响。

关键词: 西太平洋, 帕里西维拉海盆, 弧后盆地, 不对称性发育, 成因

Abstract: The Parece Vela basin in Western Pacific Ocean is the largest of the numerous back-arc basins in the Izu-Ogasawara-Mariana trench-arc-basin system. It is characterized by obviously asymmetric development shown by regional geological and geophysical data. However, for a long time, the causes of its asymmetry have not been systematically studies. In this paper, the asymmetric geological characteristics in the Parece Vela basin are summarized in depth, including the asymmetries of geometry, topography, sedimentary characteristics and geophysical features between the eastern and western sides of the basin, the lack of the eastern wing and the curved structure in the west wing of the southern tip of the basin. Combined with the regional plate movement mechanism in this area, we believe that the asymmetric development of the basin were mainly caused by the tectonic development background and the differences of the tectonic activities and sedimentary environments on both sides of the basin. In the southern tip of the basin, the lack of the eastern wing and the curved structure in the west wing were mainly affected by the occurrence of subduction of the Calorine plate in the east, especially the Calorine ridge.

Key words: Western Pacific Ocean, Parece Vela basin, back-arc basin, asymmetric development, genesis

中图分类号: 

  • P595
[1] Karig D E.Origin and Development of Marginal Basins in the Western Pacific[J].Journal of Geophysical Research,1971,76(11):2542-2561.
[2] Uyeda S.Some Basic Problems in the Trench-Arc-Back-Arc System[C]//Island Arcs.Deep Sea Trenches and Back-Arc Basins.Washington DC:American Geophysical Union,1977:1-14.
[3] Uyeda S,Kanamori H.Back-Arc Opening and the Mode of Subduction[J].Journal of Geophysical Research:Solid Earth,1979,84(B3):1049-1061.
[4] Carlson R L,Melia P J.Subduction Hinge Migration[J].Tectonophysics,1984,102(1/2/3/4):399-411.
[5] Sdrolias M,Roest W R,Müller R D.An Expression of Philippine Sea Plate Rotation:The Parece Vela and Shikoku Basins[J].Tectonophysics,2004,394(1/2):69-86.
[6] Nakakuki T,Mura E.Dynamics of Slab Rollback and Induced Back-Arc Basin Formation[J].Earth and Planetary Science Letters,2013,361(1):287-297.
[7] Heuret A,Lallemand S.Plate Motions,Slab Dynamics and Back-Arc Deformation[J].Physics of the Earth and Planetary Interiors,2005,149(1/2):31-51.
[8] Martinez F,Okino K,Ohara Y,et al.Back-Arc Basins[J].Oceanography,2007,20(1):116-127.
[9] 石学法,李兵,鄢全树,等.西太平洋岛弧-弧后盆地热液活动及成矿作用[J].吉林大学学报(地球科学版),2016,46(4):1124-1138. Shi Xuefa,Li Bing,Yan Qaunshu,et al.Hydrothermal Activities and Mineralization in the Arc and Back-Arc Basin Systems,Western Pacific[J].Journal of Jilin University (Earth Science Edition),2016,46(4):1124-1138.
[10] Mrozowski C L,Hayes D E.The Evolution of the Parece Vela Basin,Eastern Philippine Sea[J].Earth and Planetary Science Letters,1979,46(1):49-67.
[11] Okino K,Shimakawa Y,Nagaoka S.Evolution of the Shikoku Basin[J].Journal of Geomagnetism and Geoelectricity,1994,46(6):463-479.
[12] Kasuga S,Ohara Y.A New Model of Back-Arc Spreading in the Parece Vela Basin,Northwest Pacific Margin[J].Island Arc,1997,6(3):316-326.
[13] Scott R,Kroenke L.Evolution of Back Arc Spreading and Arc Volcanism in the Philippine Sea:Interpre-tation of Leg 59 DSDP Results[J].Geophysical Monograph Series,1980,23:283-291.
[14] Ohara Y,Okino K,Snow J E.Tectonics of Unusual Crustal Accretion in the Parece Vela Basin[M]//Accretionary Prisms and Convergent Margin Tectonics in the Northwest Pacific Basin.Dordrecht,Heidelberg,London,New York:Springer Netherlands,2011:149-168.
[15] 吴时国,范建柯,董冬冬.论菲律宾海板块大地构造分区[J].地质科学,2013,48(3):677-692. Wu Shiguo,Fan Jianke,Dong Dongdong.Discussion on the Tectonic Division of the Phnippine Sea Plate[J].Chinese Journal of Geology,2013,48(3):677-692
[16] Maffione M,Morris A.The Onset of Fabric Development in Deep Marine Sediments[J].Earth and Planetary Science Letters,2017,474:32-39.
[17] Chung-Hwa P,Tamaki K,Kobayashi K.Age-Depth Correlation of the Philippine Sea Back-Arc Basins and Other Marginal Basins in the World[J].Tectonophysics,1990,181(1/2/3/4):351-371.
[18] Sasaki T,Yamazaki T,Ishizuka O.Arevised Spreading Model of the West Philippine Basin[J].Earth,Planets and Space,2014,66(1):83.
[19] Okino K,Kasuga S,Ohara Y.ANew Scenario of the Parece Vela Basin Genesis[J].Marine Geophysical Researches,1998,20(1):21-40.
[20] Hussong D M,Uyeda S,Blanchet R,et al.Tectonic Process and the History of the Mariana Arc:A Synthesis of the Results of Deep-Sea Drilling Project Leg 60[M]//Hussong D M,Uyeda S.Initial Reports of Deep-Sea Drilling Project.Washington DC:US Government Printing Office,1982:909-929.
[21] Yamazaki T,Murakami F,Saito E.Mode of Seafloor Spreading in the Northern Mariana Trough[J].Tectonophysics,1993,221(2):207-222.
[22] Kroenke L,Scott R,Balshaw K,et al.Initial Reports of Deep-Sea Drilling Project Leg 59[M].Washington DC:US Government Printing Office,1980:321-483.
[23] 辛春.菲律宾海海底的构造单元(沿北纬18°地学断面)[J].海洋石油,1990,10(5):3-12. Xin Chun.Tectonic Units at the Bottom of the Sea in the Philippines (Along the Northern Latitude 18°N)[J].Offshore Oil,1990,10(5):3-12.
[24] Watts A B,Weissel J K.Tectonic History of the Shikoku Marginal Basin[J].Earth and Planetary Science Letters,1975,25(3):239-250.
[25] Kobayashi K,Nakada M.Magnetic Anomalies and Tectonic Evolution of the Shikoku Inter-Arc Basin[J].Journal of Physics of the Earth,1978,26(Sup.):391-402.
[26] Shih T.MagneticLineations in the Shikoku Basin[M]//Vries Klein G,Kobayashi K,Chamley H,et al.Initial Report of the Deep Sea Drilling Project.Washington DC:US Government Printing Office,1980:783-788.
[27] Ohara Y,Yoshida T,Kato Y,et al.Giant Megamu-llion in the Parece Vela Backarc Basin[J].Marine Geophysical Researches,2001,22(1):47-61.
[28] Ohara Y,Okino K,Snow J E.KR03-01 Shipboard Scientific Party PreliminaryReport of Kairei KR03-01 Cruise:Amagmatic Tectonics and Lithospheric Composition of the Parece Vela Basin[J].Inter Ridge News,2003,12(1):27-29.
[29] Ohara Y,Fujioka K,Ishii T,et al.Peridotites and Gabbros from the Parece Vela Backarc Basin:Unique Tectonic Window in an Extinct Backarc Spreading Ridge[J].Geochemistry,Geophysics,Geosystems,2003,4(7):1-22.
[30] Ohara Y.The Godzilla Megamullion,theLargest Oceanic Core Complex on the Earth:A Historical Review[J].Island Arc,2016,25(3):193-208.
[31] Reagan M K,Heywood L,Goff K,et al.Geodynamic Implications of Crustal Lithologies from the Southeast Mariana Forearc[J].Geosphere,2018,14(1):1-22.
[32] Okino K,Ohara Y,Fujiwara T,et al.Tectonics of the Southern Tip of the Parece Vela Basin,Philippine Sea Plate[J].Tectonophysics,2009,466(3/4):213-228.
[33] Tani K,Dunkley D J,Ohara Y.Termination of Backarc Spreading:Zircon Dating of a Giant Oceanic Core Complex[J].Geology,2011,39(1):47-50.
[34] Murauchi S,Den N,Asano S,et al.Crustal Structure of the Philippine Sea[J].Journal of Geophysical Research,1968,73(10):3143-3171.
[35] Scott R B,Kroenke L,Zakariadze G,et al.Evolution of the South Philippine Sea:Deep Sea Drilling Project Leg 59 Results[M]//Kroenke L,Scott R B,Balshaw K,et al.Initial Report of Deep Sea Drilling Project.Washington DC:US Government Printing Office,1981:803-815.
[36] Takahashi N,Kodaira S,Klemperer S L,et al.Crustal Structure and Evolution of the Mariana Intra-Oceanic Island Arc[J].Geology,2007,35(3):203-206.
[37] Karig D E.Basin Genesis in the Philippine Sea[M]//Karig D E,Ingle J C Jr,Bouma A H,et al.Initial Reports of the Deep Sea Drilling Project.Washington DC:US Government Printing Office,1975:857-879.
[38] Honza E,Fujioka K.Formation of Arcs and Backarc Basins Inferred from the Tectonic Evolution of Southeast Asia Since the Late Cretaceous[J].Tectonophysics,2004,384(1):23-53.
[39] 宋晓晓,李春峰.西太平洋科学大洋钻探的地球动力学成果[J].热带海洋学报,2016,35(1):17-30. Song Xiaoxiao,Li Chunfeng.Geodynamic Results of Scientific Ocean Drilling in the Western Pacific[J],Journal of Tropical Oceanography,2016,35(1):17-30.
[40] Brandl P A,Hamada M,Arculus R J,et al.The Arc Arises:The Links Between Volcanic Output,Arc Evolution and Melt Composition[J].Earth and Planetary Science Letters,2017,461:73-84.
[41] Billen M I.Insights Into the Causes of Arc Rifting From 2-D Dynamic Models of Subduction[J].Geophysical Research Letters,2017,44(21):10948-10957.
[42] 李常珍,李乃胜,林美华.菲律宾海的地势特征[J].海洋科学,2000,24(6):47-51. Li Changzhen,Li Naisheng,Lin Meihua,Terrain Features of the Philippine Sea[J].Marine Sciences,2000,24(6):47-51.
[43] 张斌,李广雪,黄继峰.菲律宾海构造地貌特征[J].海洋地质与第四纪地质,2014,34(2):79-88. Zhang Bin,Li Guangxue,Huang Jifeng.The Tectonic Geomorphology of the Philippine Sea[J].Marine Geology and Quaternary Geology,2014,34(2):79-88.
[44] Yamashita M,Tsuru T,Takahashi N,et al.Fault Configuration Produced by Initial Arc Rifting in the Parece Vela Basin as Deduced from Seismic Reflection Data[J].Island Arc,2007,16(3):338-347.
[45] 辛春.中国-菲律宾海-太平洋地学断面[J].海洋石油,1992,12(3):23-31. Xin Chun.China-Philippine Sea-PacificGeological Section[J].Offshore Oil,1992,12(3):23-31.
[46] Ohara Y,Fujioka K,Ishizuka O,et al.Peridotites and Volcanics from the Yap Arc System:Implications for Tectonics of the Southern Philippine Sea Plate[J].Chemical Geology,2002,189(1):35-53.
[47] Bibee L D,Shor G G Jr,Lu R S.Inter-Arc Spreading in the Mariana Trough[J].Marine Geology,1980,35(1/2/3):183-197.
[48] Yamazaki T,Murakami F,Saito E.Mode of Seafloor Spreading in the Northern Mariana Trough[J].Tectonophysics,1993,221(2):207-222.
[49] Fischer A G,Heezen B C,Boyce R E,et al.Initial Reports of the Deep Sea Drilling Project[M].Washington DC:US Government Printing Office,1971:293-387.
[50] 陶国保.菲律宾海板块构造研究述评[J].海洋石油,1987,7(1):1-22. Tao Guobao.A Review of the Studies on the Tectonics of the Philippine Sea Plate[J],Offshore Oil,1987,7(1):1-22.
[51] McCabe R,Uyeda S.Hypothetical Model for the Bending of the Mariana Arc[M]//Hayes D E.The Tectonic and Geologic Evolution of Southeast Asian Seas and Islands.Washington DC:AGU Geophysical Monograph Series:Part 2,1983:281-293.
[52] Fujiwara T,Tamura C,Nishizawa A,et al.Morph-ology and Tectonics of the Yap Trench[J].Marine Geophysical Researches,2000,21(1/2):69-86.
[53] Lee S M.Deformation from the Convergence of Oceanic Lithosphere into Yap Trench and Its Implications for Early-Stage Subduction[J].Journal of Geodynamics,2004,37(1):83-102.
[54] Shiraki K.Metamorphic Basement Rocks of Yap Islands,Western Pacific:Possible Oceanic Crust Beneath an Island Arc[J].Earth and Planetary Science Letters,1971,13(1):167-174.
[55] Hawkins J,Batiza R.Metamorphic Rocks of the Yap Arc-Trench System[J].Earth and Planetary Science Letters,1977,37(2):216-229.
[56] Kobayashi K.Origin of the Palau and YapTrench-Arc Systems[J].Geophysical Journal International,2004,157(3):1303-1315.
[57] Dong D,Zhang Z,Bai Y,et al.Topographic and Sedimentary Features in the Yap Subduction Zone and Their Implications for the Caroline Ridge Subduction[J].Tectonophysics,2018,722:410-421.
[58] Martínez F,Fryer P,Becker N.Geophysical Charac-teristics of the Southern Mariana Trough,11°50' N-13°40' N[J].Journal of Geophysical Research:Solid Earth,2000,105(B7):16591-16607.
[59] Sibuet J C,Deffontaines B,Hsu S K,et al.Okinawa Trough Backarc Basin:Early Tectonic and Magmatic Evolution[J].Journal of Geophysical Research:Solid Earth,1998,103(B12):30245-30267.
[60] Deschamps A,Lallemand S.Geodynamic Setting of Izu-Bonin-Mariana Boninites[J].Geological Society,London,Special Publications,2003,219(1):163-185.
[61] 石学法,鄢全树.西太平洋典型边缘海盆的岩浆活动[J].地球科学进展,2013,28(7):737-750. Shi Xuefa,Yan Quanshu.Magmatism of Typical Marginal Basins (or Back-Arc Basins) in the West Pacific[J].Advances in Earth Science,2013,28(7):737-750.
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