Late Mesozoic Tectonic Evolution of Southwestern Fujian Province, South China: Constraints from Magnetic Fabric, Zircon U-Pb Geochronology and Structural Deformation

Sen Wang; Da Zhang; Ganguo Wu; Xingjian Li; Xiaoqiao Gao; Absai Vatuva; Yuan Yuan; Tengda Yu; Yu Bai; Ye Fang

doi:10.1007/s12583-017-0968-5

Journal of Earth Science ›› 2018, Vol. 29 ›› Issue (2) : 391 -407. DOI: 10.1007/s12583-017-0968-5

Structural Geology

Late Mesozoic Tectonic Evolution of Southwestern Fujian Province, South China: Constraints from Magnetic Fabric, Zircon U-Pb Geochronology and Structural Deformation

Author information +

History +

PDF

Abstract

A combined study of magnetic fabrics, zircon U-Pb geochronology and structural deformation was carried out for Late Paleozoic sedimentary and Mesozoic magmatic rocks in the southwestern Fujian rift basin, South China, aiming at deciphering the tectonic evolution during Late Mesozoic. Field observations showed that the Late Mesozoic structure deformations in southwestern Fujian were categorized into four phases: NW-SE compression, ENE-WSW extension, NNE-SSW compression and NNW-SSE extension, sequentially. Zircons picked out from Juzhou granite and WNW-trending diabase dykes showed complete crystal shapes and clear oscillatory zonings on their edges, and the U-Pb dating yielded ages of 132 and 141 Ma, respectively. The susceptibility ellipsoid magnitude parameters of the Juzhou granite are characterized by flaser type strain ellipsoid, with pole density center of K3 falling into the first and the third quadrants, these features revealed that the Juzhou granite formed in ENE-WSW compressional stress field, indicating the early stage of Early Cretaceous extrusion in southwestern Fujian. The late stage of Early Cretaceous NNE-SSW extension was limited by the widespread WNW-trending diabase dykes, which were usually regarded as important indications for a regional extensional setting. On the basic of the previous researches, structural deformation studies, and the deductions above, it can be concluded that southwestern Fujian experienced five main tectonic stages during Late Mesozoic: Early Jurassic extension, Middle–Late Jurassic thrusting, early stage of Early Cretaceous extension, late stage of Early Cretaceous compression and Late Cretaceous extension.

Keywords

tectonic evolution / magnetic fabric / U-Pb dating / structural deformation / southwestern Fujian

Cite this article

Download citation ▾

Sen Wang, Da Zhang, Ganguo Wu, Xingjian Li, Xiaoqiao Gao, Absai Vatuva, Yuan Yuan, Tengda Yu, Yu Bai, Ye Fang. Late Mesozoic Tectonic Evolution of Southwestern Fujian Province, South China: Constraints from Magnetic Fabric, Zircon U-Pb Geochronology and Structural Deformation. Journal of Earth Science, 2018, 29(2): 391-407 DOI:10.1007/s12583-017-0968-5

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Andersen T. Correction of Common Lead in U-Pb Analyses that do not Report 204Pb. Chemical Geology, 2002, 192(1/2): 59-79.

[2]	Belousova E., Griffin W., OʼReilly S. Y., . Igneous Zircon: Trace Element Composition as an Indicator of Source Rock Type. Contributions to Mineralogy and Petrology, 2002, 143(5): 602-622.

[3]	Borradaile G. J., Almqvist B. S. G., Geneviciene I. Anisotropy of Magnetic Susceptibility (AMS) and Diamagnetic Fabrics in the Durness Limestone, NW Scotland. Journal of Structural Geology, 2012, 34: 54-60.

[4]	Boummane M. H., Olivier P. The Oulad Ouaslam Variscan Granitic Pluton (Jebilets Massif, Southwestern Moroccan Meseta): A Forcibly Emplaced Laccolithic Intrusion Characterized by Its Magnetic and Magmatic Fabrics. Journal of African Earth Sciences, 2007, 47(1): 49-61.

[5]	Corfu F., Hanchar J. M., Hoskin P. W. O., . Atlas of Zircon Textures. Mineralogy and Geochemistry, 2003, 53(1): 469-500.

[6]	Deng X., Wu K. B., Yang K. G. Emplacement and Deformation of Shigujian Syntectonic Granite in Central Part of the Dabie Orogen: Implications for Tectonic Regime Transformation. Science China Earth Sciences, 2013, 56(6): 980-992.

[7]	Ding R. X., Zou H. P., Min K., . Detrital Zircon U-Pb Geochronology of Sinian–Cambrian Strata in the Eastern Guangxi Area, China. Journal of Earth Science, 2017, 28(2): 295-304.

[8]	Dong C. W., Zhang D. R., Xu X. S., . SHRIMP U-Pb Dating and Lithogeochemistrey of Basic-Intermediate Dike Swarms from Jinjiang, Fujian Province. Acta Petrologica Sinica, 2006, 22(6): 1696-1702.

[9]	Hou G. T., Liu Y. L., Li J. H. Evidence for ~1.8Ga Extension of the Eastern Block of the North China Craton from SHRIMP U-Pb Dating of Mafic Dyke Swarms in Shandong Province. Journal of Asian Earth Sciences, 2006, 27(4): 392-401.

[10]	Hou G. T., Wang C. C., Li J. H., . Late Paleoproterozoic Extension and a Paleostress Field Reconstruction of the North China Craton. Tectonophysics, 2006, 422(1/2/3/4): 89-98.

[11]	Hrouda F. Magnetic Anisotropy of Rocks and Its Application in Geology and Geophysics. Geophysical Surveys, 1982, 5(1): 37-82.

[12]	Jiang S. H., Bagas L., Liang Q. L. New Insights into the Petrogenesis of Volcanic Rocks in the Shanghang Basin in the Fujian Province, China. Journal of Asian Earth Sciences, 2015, 105: 48-67.

[13]	Kissel C., Laj C., Sigurdsson H., . Emplacement of Magma in Eastern Iceland Dikes: Insights from Magnetic Fabric and Rock Magnetic Analyses. Journal of Volcanology and Geothermal Research, 2010, 191(1/2): 79-92.

[14]	Li Q., Jiang S. Y. Trace and Rare Earth Element Characteristics in Fe-Mn Carbonates Associated with Stratiform Ag-Pb-Zn Mineralization from the Lengshuikeng Ore District, Jiangxi Province: Implications for Their Genesis and Depositional Environment. Journal of Earth Science, 2016, 27(4): 571-583.

[15]	Li X. H. Cretaceous Magmatism and Lithospheric Extension in Southeast China. Journal of Asian Earth Sciences, 2000, 18(3): 293-305.

[16]	Ludwig K. R. Mathematical-Statistical Treatment of Data and Errors for 230Th-U Geochronology. Reviews in Mineralogy and Geochemistry, 2003, 52(1): 631-656.

[17]	Lü L. J. Discussions on Features of Mesozoic Thrust-Fault Belts and Relationship between Thrust-Fault Belts and Magmatism in Southwestern Fujian and Adjacent Regions: [Dissertation], 2014, 1-195.

[18]	Lü L. J., Zhang D., Lin Q. S., . Deformation Style and Geochronological Constraints of Guangping Nappe Structure in Southwest Fujian and Its Geodynamic Significance. Journal of Central South University (Science and Technology), 2014, 45(3): 862-875.

[19]	Mao J. R., Chen R., Li J. Y., . Geochronology and Geochemical Characteristics of Late Mesozoic Granotic Rocks from Southwestern Fujian and Their Tectonic Evolution. Acta Petrologica Sinica, 2006, 22(6): 1723-1734.

[20]	Mao J. R., Tao K. Y., Xie F. G., . Rock-Forming and Ore-Forming Processes and Tectonic Environments in Southwest Fujian. Acta Petrologica et Mineralogica, 2001, 3: 329-336.

[21]	Mao J. R., Xu N. Z., Hu Q., . The Mesozoic Rock-Forming and Ore-Forming Processes and Tectonic Environment Evolution in Shanghang-Datian Region, Fujian. Acta Petrologica Sinica, 2004, 20(2): 285-296.

[22]	Nagaraju J., Chetty T., Prasad G., . Transpressional Tectonics during the Emplacement of Pasupugallu Gabbro Pluton, Western Margin of Eastern Ghats Mobile Belt, India: Evidence from AMS Fabrics. Precambrian Research, 2007, 162(1): 86-101.

[23]	Pan X., Shen Z., Dong C., . Magma Flow Inferred from Magnetic Fabrics in Wanning Gabbro Pluton and Diabase Dykes, Hainan. Chinese Science Bulletin, 2012, 57(16): 2086-2093.

[24]	Peng P., Zhai M. G., Ernst R. E., . A 1.78Ga Large Igneous Province in the North China Craton: The Xiongʼer Volcanic Province and the North China Dyke Swarm. Lithos, 2008, 101(3/4): 260-280.

[25]	Rochette P., Aubourg C., Perrin M. Is this Magnetic Fabric Normal? A Review and Case Studies in Volcanic Formations. Tectonophysics, 1999, 307(1/2): 219-234.

[26]	Shu L. S., Faure M., Wang B., . Late Palaeozoic–Early Mesozoic Geological Features of South China: Response to the Indosinian Collision Events in Southeast Asia. Comptes Rendus Geoscience, 2008, 340(2/3): 151-165.

[27]	Stevenson C. T. E., Owens W. H., Hutton D. H. W. Flow Lobes in Granite: The Determination of Magma Flow Direction in the Trawenagh Bay Granite, Northwestern Ireland, Using Anisotropy of Magnetic Susceptibility. Geological Society of America Bulletin, 2007, 119(11/12): 1368-1386.

[28]	Wang J., Li Z. X. History of Neoproterozoic Rift Basins in South China: Implications for Rodinia Break-up. Precambrian Research, 2003, 122(1/2/3/4): 141-158.

[29]	Wang K. X., Sun T., Chen P. R., . The Geochronological and Geochemical Constraints on the Petrogenesis of the Early Mesozoic A-Type Granite and Diabase in Northwestern Fujian Province. Lithos, 2013, 179(10): 364-381.

[30]	Wang L. J., Yu J. H., Xu X. S., . Formation Age and Origin of the Gutian-Xiaotao Granitic Complex in the Southwestern Fujian Province, China. Acta Petrologica Sinica, 2007, 23(6): 1470-1484.

[31]	Wang S. X. Relations between Mineralization, Tectonic Evolution of the Lithosphere and Composition of the Crust-Mantle within Fujian Province. Geology of Fujian, 2003, 22(2): 89-100.

[32]	Wang S., Lü L. J., Zhang D., . Tectonic Stress Field Character and Balanced Cross Section of Guangping Thrust in Southeastern Fujian. Advances in Geosciences, 2013, 3(2): 97-105.

[33]	Wang S., Zhang D., Lü L.J., . The Extensional Tectonic Evolution of the Southwestern Fujian since the Neopaleozoic: Constraints from U-Pb Dating and Geochemisty of the Basic-Intermediate Dykes. Geotectonica et Metallogenia, 2015, 39(5): 889-902.

[34]	Wang S., Zhang D., Vatuva A., . Zircon U-Pb Geochronology, Geochemistry and Hf Isotope Compositions and Their Implications of the Dayang and Juzhou Granite from Longyan Area in Fujian Province. Geochemica, 2015, 44(5): 440-468.

[35]	Wang S., Zhang D., Zhao H., . Geochemistry, Zircon U-Pb Dating and Hf Isotope Composition of Granite in Fanshan Area, Pinghe County, Fujian Province, and Its Geological Significance. Earth Science—Journal of China University of Geosicences, 2016, 41(1): 67-83.

[36]	Wang S., Zhang D., Wu G. G., . Late Paleozoic to Mesozoic Extension in Southwestern Fujian Province, South China: Geochemical, Geochronological and Hf Isotopic Constraints from Basic-Intermediate Dykes. Geoscience Frontiers, 2017, 8(3): 529-540.

[37]	Wang S., Zhang D., Wu G. G., . New Geochronologic Evidence of Diabases and Their Metallogenic Relationship with the Makeng-Type Iron Deposits in Southwest Fujian, SE China. Acta Geologica Sinica—English Edition, 2017, 91(6): 2324-2326.

[38]	Wu C. Z., Santosh M., Chen Y. J., . Geochronology and Geochemistry of Early Mesoproterozoic Meta-Diabase Sills from Quruqtagh in the Northeastern Tarim Craton: Implications for Breakup of the Columbia Supercontinent. Precambrian Research, 2014, 241: 29-43.

[39]	Xing G. F., Chen R., Yang Z. L., . Characteristics and Tectonic Setting of Late Cretaceous Volcanic Magmatism in the Coastal Southestern China. Acta Petrologica Sinica, 2009, 25(1): 77-91.

[40]	Xing G. F., Lu Q. D., Chen R., . Study on the Ending Time of Late Mesozoic Tectonic Regime Transition in South China: Comparing to the Yanshan Area in North China. Acta Geologica Sinica, 2008, 82: 451-463.

[41]	Xing G. F., Yang Z. L., Mao J. R., . Characteristics of Early Jurassic Igneous Rocks on the Continental Margin of Southeastern China and Their Tectonic Significance. Geological Bulletin of China, 2002, 21(7): 384-391.

[42]	Xu M. H. Early Jurassic Bimodal Volcanic Rocks and Their Structure Environment in Yongding County, Fujian Province. Fujian Geology, 1992, 2: 115-125.

[43]	Xu X. B., Li Y., Xue D. J., . Deformation Characteristics and Geochronological Constraints of Late Mesozoic Extensional Structures in Quanzhou, Fujian Province. Earth Science—Journal of China University of Geosciences, 2014, 39(1): 45-63.

[44]	Xu Z. J., Cheng R. H., Wang L. L., . Mineralogical and Element Geochemical Characteristics of the Late Triassic–Middle Jurassic Sedimentary Rocks in Southwestern Fujian Province: Constraints on Changes of Basin Tectonic Settings. Acta Petrologica Sinica, 2013, 29(8): 2913-2924.

[45]	Yu X. Q., Wu G. G., Zhang D., . Cretaceous Extension of the Ganhang Tectonic Belt, Southeastern China: Constraints from Geochemistry of Volcanic Rocks. Cretaceous Research, 2006, 27(5): 663-672.

[46]	Zhang D., Gao T. J., Wu G. G., . Metallogenesis, Deep Process and Potential Assessment of Resources in the Wuyishan-Taiwan Geological Corridor Area, 2006, 1-179.

[47]	Zhang D., Wu G. G., Di Y. J., . SHRIMP U-Pb Zircon Geochronology and Nd-Sr Isotopic Study of the Mamianshan Group: Implications for the Neoproterozoic Tectonic Development of Southeast China. International Geology Review, 2013, 55(6): 730-748.

[48]	Zhang D. Q., Yu H. Q., Yan S. H., . Geochemistry of Mesozoic Magmatites in the Zijinshan Region and Implication on Regional Tectonic Inversion. Geological Review, 2001, 47(6): 608-616.

[49]	Zhang G. S., Wen H. J., Qiu Y. Z. Geochemistry of the Late Mesozoic in Western Fujian Province. Geochimica, 2004, 33(3): 243-253.

[50]	Zhang Z. J., Zuo R. G. Sr-Nd-Pb Isotope Systematics of Magnetite: Implications for the Genesis of Makeng Fe Deposit, Southern China. Ore Geology Reviews, 2014, 57: 53-60.

[51]	Zhang Z. J., Zuo R. G., Cheng Q. M. Geological Features and Formation Processes of the Makeng Fe Deposit, China. Resource Geology, 2015, 65(3): 266-284.

[52]	Zhao J. L., Qiu J. S., Liu L., . Geochronological, Geochemical and Nd-Hf Isotopic Constraints on the Petrogenesis of Late Cretaceous A-Type Granites from the Southeastern Coast of Fujian Province, South China. Journal of Asian Earth Sciences, 2015, 105: 338-359.

[53]	Zhao X. L., Liu K., Yu M. G., . Early Cretaceous I-Type Granites in the Southwest Fujian Province: New Constraints on the Late Mesozoic Tectonic Evolution of Southeast China. Island Arc, 2015, 24(3): 359-378.

[54]	Zhong J., Chen Y. J., Pirajno F., . Geology, Geochronology, Fluid Inclusion and H-O Isotope Geochemistry of the Luoboling Porphyry Cu-Mo Deposit, Zijinshan Orefield, Fujian Province, China. Ore Geology Reviews, 2014, 57: 61-77.

[55]	Zhou J. C., Jiang S. Y., Wang X. L., . Study on Lithogeochemistry of Middle Jurassic Basalts from Southern China Represented by the Fankeng Basalts from Yongding of Fujian Province. Science in China Series D: Earth Sciences, 2006, 49(10): 1020-1031.