Metamorphic evolution of meta-sedimentary rocks within the Diancang Shan-Ailao Shan metamorphic complex belt
-
摘要:
点苍山-哀牢山变质杂岩带位于青藏高原东南缘大理-元江-元阳-河口一带,出露规模达数百千米,是扬子板块和印支陆块之间的一条重要构造带。该变质杂岩带主要由各类正片麻岩、副片麻岩、大理岩所组成,夹有斜长角闪岩、石榴辉石岩和超镁铁质岩石的透镜体或团块。其中,变沉积岩如含夕线石和蓝晶石的片麻岩类岩石保存了多阶段的矿物组合及异常复杂的矿物相转变关系。详细的岩相学、成因矿物学以及矿物相转变关系分析表明,变沉积岩系经历了早期进变质阶段(M1)、峰期角闪-麻粒岩相变质阶段(M2)、峰后近等温减压(脱水熔融)阶段(M3)以及晚期退变质阶段(M4)的变质演化。其中,M1阶段的稳定矿物组合为石榴石+斜长石+白云母+石英+十字石±蓝晶石±黑云母±钾长石,M2阶段的稳定矿物组合为石榴石+黑云母+蓝晶石/夕线石+斜长石+石英、石榴石+黑云母+斜长石+石英±钾长石±夕线石,M3阶段的共生矿物组合为石榴石+黑云母+夕线石+斜长石+石英,M4阶段的矿物组合为黑云母+白云母+斜长石+石英±钾长石±石榴石等。通过传统GB-GASP温压计和二云母温度计的估算结果,配合P-T视剖面定量计算,确定早期进变质阶段(M1)的温压条件为T=560~590℃,P=5.5~6.3kb, 峰期角闪-麻粒岩相阶段(M2)的温压条件为T=720~760℃、P=8.0~9.3kb,峰后近等温减压阶段(M3)的温度压力条件为T=640~760℃,P=5.0~7.3kb,晚期退变阶段(M4)的温压条件为T=521~648℃, P=4.0~5.0kb。上述研究结果表明,点苍山-哀牢山变沉积岩记录了典型碰撞造山带型式的顺时针P-T演化轨迹,表明点苍山-哀牢山变质杂岩带的形成与印度板块和欧亚板块之间的俯冲-碰撞存在密切的成因关系。
Abstract:Meta-sedimentary rocks, characterized by intensive migmatization and/or mylonization, are widely distributed within the Diancang Shan-Ailao Shan metamorphic complex belt. On the basis of detailed mineralogical and petrographic observations, four metamorphic stages have been recognized, including early prograde metamorphic stage (M1), peak amphibolite-granulite facies metamorphic stage (M2), near isothermal decompression retrograde stage (M3), and late amphibolite facies retrograde stage (M4). Metamorphic P-T conditions for each stage were calculated by P-T pseudosection, and geothemobarometer (GB-GASP) and two-mica thermometer. The mineral assemblage for the early prograde assemblage (M1) is characterized by Pl+Ms+Qtz+St±Ky±Bt±Kfs, which as inclusions are preserved in the core of garnet, and formed at 560~590℃ and 5.5~6.3kb. The typical mineral assemblage for the peak amphibolite-granulite facies metamorphic stage (M2) assemblage is represented by Grt+Bt+Ky/Sil+Pl+Qtz or Grt+Bt+Pl+Qtz±Kfs±Sil, recording P-T conditions of 720~760℃ and 8.0~9.3kb. The near isothermal decompression retrograde stage (M3) is indicated by a mineral assemblage of Grt+Bt+Sil+Pl+Qtz, which were formed at P-T conditions of 640~760℃ and 5.0~7.3kb. Abundant retrogressive minerals, including fine-grained biotite and muscovite, together Pl+Qtz±Kfs±Grt were formed at the late amphibolite facies retrograde stage (M4), which occurred at P-T conditions of 521~648℃ and 4.0~5.0kb. The integrated clockwise P-T path revealed by the meta-sedimentary rocks indicates that the Diancang Shan-Ailao Shan metamorphic complex belt experienced a tectonic evolution of subduction-collision-exhumation, which was related to the amalgamation between the Indian and Eurasian plates.
-
-
图 1
点苍山-哀牢山变质杂岩带地质简图及采样位置
Figure 1.
Simplified geological map of the Diancang Shan-Ailao Shan metamorphic complex belt with sample locations
图 2
点苍山-哀牢山变质杂岩带中变沉积岩的显微结构照片(背散射图像)
Figure 2.
Micro-textures of meta-sedimentary rocks in Diancang Shan-Ailao Shan metamorphic complex belt (BSE images)
图 3
NCKMnFMASH (+q+H2O)体系下变沉积岩的P-T视剖面图(样品YJ15-1.2)
Figure 3.
P-T pseudosection in the NCKMnFMASH system, with excess quartz and H2O, for meta-sedimentary rock (sample YJ15-1.2) from Diancang Shan-Ailao Shan metamorphic complex belt
图 4
点苍山-哀牢山变质杂岩带中变沉积岩不同阶段温压条件估算结果
Figure 4.
Temperature-pressure estimations of different metamorphic stages for meta-sedimentary rocks from Diancang Shan-Ailao Shan metamorphic complex belt
图 5
NCKMnFMASH (+q+H2O)体系下AL23-1样品的P-T视剖面图
Figure 5.
P-T pesudosection in the NCKMnFMASH system (with excess quartz and H2O) for meta-sedimentary rock (AL23-1) from Diancang Shan-Ailao Shan metamorphic complex belt
图 6
点苍山-哀牢山变质杂岩带变沉积岩变质演化P-T轨迹(变质相划分根据Liou et al., 1998, 2004; Okamoto and Maruyama, 1999)
Figure 6.
Metamorphic P-T path of meta-sedimentary rock from Diancang Shan-Ailao Shan metamorphic complex belt (classification of metamorphic facies after Liou et al., 1998, 2004; Okamoto and Maruyama, 1999)
-
Boettcher AL. 1970. The system CaO-Al2O3-SiO2-H2O at high pressures and temperatures. Journal of Petrology, 11(2): 337-379
Deng SX. 2000. The evolution of metamorphism and geochemistry for the Cangshan and Julin groups in Central Yunnan, China. Ph. D. Dissertation. Guangzhou: Guangzhou Institute of Geochemistry, Chinese Academy of Sciences (in Chinese with English summary)
Day HW. 1973. The high temperature stability of muscovite plus quartz. American Mineralogist, 58: 255-262
Florence FP and Spear FS. 1995. Intergranular diffusion kinetics of Fe and Mg during retrograde metamorphism of a pelitic gneiss from the Adirondack Mountains. Earth and Planetary Science Letters, 134(3-4): 329-340
Gilley LD, Harrison TM, Leloup PH, Ryerson FJ, Lovera OM and Wang JH. 2003. Direct dating of left-lateral deformation along the Red River shear zone, China and Vietnam. Journal of Geophysical Research, 108(B2): 2127, doi: 10.1029/2001JB001726
Hoisch TD. 1989. A muscovite-biotite geothermometer. American Mineralogist, 74: 565-572
Holdaway MJ. 2000. Application of new experimental and garnet Margules data to the garnet-biotite geothermometer. American Mineralogist, 85(7-8): 881-892
Holdaway MJ. 2001. Recalibration of the GASP geobarometer in light of recent garnet and plagioclase activity models and versions of the garnet-biotite geothermometer. American Mineralogist, 86(10): 1117-1129
Hoschek G. 1969. The stability of staurolite and chloritoid and their significance in metamorphism of pelitic rocks. Contributions to Mineralogy and Petrology, 22(3): 208-232
Leloup PH and Kienast JR. 1993. High-temperature metamorphism in a major strike-slip shear zone: The Ailao Shan-Red River, People’s Republic of China. Earth and Planetary Science Letters, 118(1-4): 213-234
Leloup PH, Harrison TM, Ryerson FJ, Chen WJ, Qi L, Tapponnier P and Lacassin R. 1993. Structural, petrological and thermal evolution of a Tertiary ductile strike-slip shear zone, Diancang Shan, Yunnan. Journal of Geophysical Research, 98(B4): 6715-6743
Leloup PH, Lacassin R, Tapponnier P and Schärer U. 1995. The Ailao Shan-Red River shear zone (Yunnan, China), Tertiary transform boundary of Indochina. Tectonophysics, 251(1-4): 3-10
Leloup PH, Tapponnier P, Lacassin R and Searle MP. 2007. Discussion on the role of the Red River shear zone, Yunnan and Vietnam, in the continental extrusion of SE Asia. Journal of the Geological Society, 164(6): 1253-1260
Leloup PH, Arnaud N, Lacassin R, Kienast JR, Harrison TM, Trong TTP, Replumaz A and Tapponnier P. 2012. New constraints on the structure, thermochronology, and timing of the Ailao Shan-Red River shear zone, SE Asia. Journal of Geophysical Research, 106(B4): 6683-6732
Liou JG, Zhang RY, Ernst WG, Rumble D and Maruyama S. 1998. High-pressure minerals from deeply subducted metamorphic rocks. Reviews in Mineralogy and Geochemistry, 37(1): 33-96
Liou JG, Tsujimori T, Zhang RY, Katayama I and Maruyama S. 2004. Global UHP metamorphism and continental subduction/collision: The Himalayan model. International Geology Review, 46(1): 1-27
Liu JL, Song ZJ, Cao SY, Zhai YF, Wang AJ, Cao L, Xiu QY and Cao DH. 2006. The dynamic setting and processes of tectonic and magmatic evolution of the oblique collision zone between Indian and Eurasian plates: Exemplified by the tectonic evolution of the Three River Region, eatern Tibet. Acta Petrologica Sinica, 22(4): 775-786(in Chinese with English abstract)
Liu JL, Wang AJ, Cao SY, Zou YX, Tang Y and Chen Y. 2008. Geochronology and tectonic implication of migmatites from Diancangshan, western Yunnan, China. Acta Petrologica Sinica, 24(3): 413-420(in Chinese with English abstract)
Lu LZ. 1993. PTt evolution of granulite-facies metamorphism and its dynamic significances. Foreign Precambrian Geology, (1): 1-19(in Chinese)
O’Brien PJ. 1999. Asymmetric zoning profiles in garnet from HP-HT granulite and implications for volume and grain-boundary diffusion. Mineralogical Magazine, 63(2): 227-238
Okamoto K and Maruyama S. 1999. The high-pressure synthesis of lawsonite in the MORB + H2O system. American Mineralogist, 84(3): 362-373
Qi XX, Zhao YH, Zhu LH and Li ZQ. 2012. Discovery of high-pressure pelitic granulite in Ailaoshan orogenic belt, southeastern Tibet, and its tectonic implications. Acta Petrologica Sinica, 28(6): 1846-1856(in Chinese with English abstract)
Richardson SW. 1968. Staurolite stability in a part of the system Fe-Al-Si-O-H. Journal of Petrology, 9(3): 467-489
Schärer U, Zhang LS and Tapponnier P. 1994. Duration of strike-slip movements in large shear zones: The Red River belt, China. Earth and Planetary Science Letters, 126(4): 379-397
Sha SL. 1998. The basic features of Dlancang MT metamorphic zone. Yunnan Geology, 17(1): 1-16(in Chinese with English abstract)
Shen QH. 2009. The recommendation of a systematic list of m ineral abbreviations.Acta Petrologica eT Mineralogica, 28(5): 495-500 (in Chinese with English abstract)
Spear FS. 1991. On the interpretation of peak metamorphic temperatures in light of garnet diffusion during cooling. Journal of Metamorphic Geology, 9(4): 379-388
Spear FS, Kohn MJ and Cheney JT. 1999. P-T paths from anatectic pelites. Contributions to Mineralogy and Petrology, 134(1): 17-32
Tapponnier P, Lacassin R, Leloup PH, Schärer U, Zhong DL, Wu HW, Liu XH, Ji SC, Zhang LS and Zhong HY. 1990. The Ailao Shan/Red River metamorphic belt: Tertiary left-lateral shear between Indochina and south China. Nature, 343(6257): 431-437
Wang F, Liu FL and Liu PH. 2011. Metamorphic evolution and anatexis of gneissic rocks in the Diancangshan-Ailaoshan metamorphic complex belt, southeastern Tibet plateau. Acta Petrologica Sinica, 27(11): 3280-3294(in Chinese with English abstract)
Wang PL, Lo CH, Lee Tungyi, Chung SL, Lan CY and Yem NT. 1998. Thermochronological evidence for the movement of the Ailao Shan-Red River shear zone: A perspective from Vietnam. Geology, 26(10): 887-890
Wang PL, Lo CH, Chung SL, Lee TY, Lan CY and van Tang T. 2000. Onset timing of left-lateral movement along the Ailao Shan-Red River Shear Zone: 40Ar/39Ar dating constraint from the Nam Dinh Area, northeastern Vietnam. Journal of Asian Earth Sciences, 18(3): 281-292
Wang YZ and Ding J. 1996. Structural deformation and evolution of the medium to high grade metamorphic rock series in the Ailao Mountains, Yunnan. Tethyan Geology, (20): 52-69(in Chinese with English abstract)
Xu ZQ, Yang JS, Li HB, Ji SC, Zhang ZM and Liu Y. 2011. On the tectonics of the India-Asia collision. Acta Geologica Sinica, 85(1): 1-33(in Chinese with English abstract)
Xue XH, Xiong JY, Cai LS, Hu Y, Chen DC and Huang MQ. 1989. Metamorphic Rocks in Yunnan Province. Kunming: Yunnan Science and Technology Press (in Chinese)
Zuo ZR. 1996. New advances in the study of the Cangshan metamorphic rocks in western Yunnan. Regional Geology of China, (3): 222-227(in Chinese with English abstract)
-
下载:
图(6)
计量
- 文章访问数: 8479
- PDF下载数: 6504
- 施引文献: 0