The relationship between the shear zones flanking Tongbai orogenic belt and implications for the tectonic evolution
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摘要: 桐柏造山带南北两侧的殷店—马垅剪切带和鸿仪河—桐柏剪切带是分割核部杂岩和高压变质岩石单元的两条重要界限带,通过对其详细的野外观察、显微构造分析、石英C轴组构EBSD(Electron Backscattered Diffraction)分析,发现这两条剪切带有统一的几何学、运动学特征,剪切运动学特征具有对称性,反映了二者可能是同一条剪切带,拥有近EW向伸展的运动特征。一体化的剪切带是一条覆盖于桐柏杂岩之上的拆离剪切带,总体表现为上盘NWW向运动,下部发育大量枢纽近EW向的鞘褶皱和压缩型应变的L型构造岩(L tectonites),剪切带内部则以压扁型应变为主发育大量的S-L构造岩(即糜棱岩系列岩石)。现今桐柏造山带内大量近EW向的线性构造可能源自于平行造山带伸展的构造活动。这种上盘NWW方向剪切拆离的地质特征在大别造山带广泛发育,反映了中国中东部的秦岭—桐柏—大别—苏鲁造山带在早白垩世可能发生过中—下地壳近EW向伸展的构造演化。Abstract: The Yindian-Malong shear zone and the Hongyihe-Tongbai shear zone flanking south side and north side of Tongbai orogenic belt respectively are two most important boundary zones which segmented the core complex and high-pressure metamorphic rocks. Through the detailed field observation, microstructural analysis and quartz C axis analysis, our studies indicate that the Yindian-Malong and Hongyihe-Tongbai shear zones have the same deformed characteristics with symmetric kinematics, suggesting that the two shear zones may derive from a uniform detachment shear zone characterized with nearly EW extension. The L tectonites and sheath fold occurred by constrictional deformation beneath the detachment shear zone. The S-L rocks (mylonitic rocks) formed by flattening strain in the detachment shear zone. The uniform detachment shear zone exhibited a top-to-NWW movement at the top of the Tongbai complex, which suggests an orogen-parallel extension of the Tongbai complex in a nearly W-E direction. This orogen-parallel extension gave rise to the widely development of the linear structure in the Tongbai orogenic belt. The similar features of the top-to-NWW shearing were also widely observed in the Dabie orogenic belt, which suggests that a uniform detachment shearing of the ductile lithosphere may occur in the Qinling-Tongbai-Dabie-Sulu orogenic belt at the Early Cretaceous.
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Key words:
- Tongbai orogenic belt /
- detachment shear zone /
- EBSD /
- orogen-parallel extension
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[1] OKAY A I, SENGOR A M C, SATIR M, et al. Tectonites of an ultrahigh-pressure metamorphic terrane:The Dabie Shan/Tongbai Shan Orogen, China[J]. Tectonics, 1993, 12:1320-1334.
[2] WEBB L E, HACKER B R, RATSCHBACHER L, et al. Thermochronologic constraints on deformation and cooling history of high-and ultrahigh pressure rocks in the Qinling-Dabie orogen, eastern China[J]. Tectonics, 1999, 18:621-638.
[3] HACKER B R, RATSCHBACHER L, WEBB L, et al. Exhumation of ultrahigh-pressure continental crust in east central China:Late Triassic-Early Jurassic tectonic unroofing[J]. Journal of Geophysical Research, 2000, 105:13339-13364.
[4] RATSCHBACHER L, FRANZ L, ENKELMANN E, et al. The Sino-Korean-Yangtze suture, the Huwan detachment, and the Paleozoic-Tertiary exhumation of (ultra) high-pressure rocks along the Tongbai-Xinxian-Dabie Mountains//HACKER B R, MCCLELLAND W C, LIOU J G. Ultrahigh-pressure Metamorphism:Deep Continental Subduction. Geological Society of America Special Paper, 2006, 403:45-75.
[5] ZHENG Y F, GAO T S, WU Y B, et al. Fluid flow during exhumation of deeply subducted continental crust:Zircon U-Pb age and O isotope studies of quartz vein in eclogite[J]. Journal of Metamorphic Geology, 2007, 25:267-283.
[6] LIU X C, JAHN B M, CUI J J, et al. Triassic retrograded eclogites and Cretaceous gneissic granites in the Tongbai Complex, central China:implications for the architecture of the HP/UHP Tongbai-Dabie-Sulu collision zone[J]. Lithos, 2010, 119:211-237.
[7] WU Y B, GAO S, ZHANG H F, et al. Timing of UHP metamorphism in the Hong'an area, western Dabie Mountains, China:Evidence from zircon U-Pb age, trace element and Hf isotope composition[J]. Contribution to Mineralogy and Petrology, 2008, 155:123-133.
[8] LIU H, LIN S F, SONG C Z, et al. Structure and geochronology of the Tongbai complex and their implications for the evolution of the Tongbai orogenic belt, central China[J]. International Geology Review, 2017, 59(4):470-483.
[9] LIU H, LIN S F, SONG C Z, et al. Orogen-scale L tectonite domain in the Tongbai orogenic belt, central China:geological setting and origin[J]. Journal of Structural Geology, 2017, 94:184-194.
[10] 索书田,钟增球,张宏飞,等.桐柏山高压变质带及其区域构造型式[J].地球科学,2001,26(6):551-559.
SUO S T, ZHONG Z Q, ZHANG H F, et al. High-pressure metamorphic belt and its tectonic pattern in Tongbai mountains, central China[J]. Earth Science, 2001, 26(6):551-559.
[11] 林伟,王清晨,石永红,等.大别山-苏鲁碰撞造山带构造几何学、运动学和岩石变形分析[J].岩石学报,2005,21(4):1195-1214.
LIN W, WANG Q C, SHI Y H, et al. Architecture, kinematics and deformation analysis in Dabie-Sulu collision zone[J]. Acta Petrologica Sinica, 2005, 21(4):1195-1214.
[12] 刘鑫,李三忠,索艳慧,等.桐柏碰撞造山带及其邻区变形特征与构造格局[J].岩石学报,2010,26(4):1289-1320.LIU X, LI S Z, SUO Y H, et al. Tectonic outline and structural styles of the Tongbai collisional orogen and its neighbors[J]. Acta Petrologica Sinica, 2010, 26(4):1289-1302.
[13] 刘晓春,江博明,李三忠,等.桐柏高压变质地体:对桐柏-大别-苏鲁高压/超高压变质带构造框架和俯冲/折返机制的制约[J].岩石学报,2011,27(4):1151-1162.
LIU X C, JIANG B M, LI S Z, et al. The Tongbai HP metamorphic terrane:Constraints on the architecture and subduction/exhumation of the Tongbai-Dabie-Sulu HP/UHP metamorphic belt[J]. Acta Petrologica Sinica, 2011, 27(4):1151-1162.
[14] 许光,王二七.桐柏杂岩的中生代隆升机制及其与南阳盆地沉降的耦合关系[J].地质科学,2010,45(3):626-652.
XU G, WANG E Q. The uplift mechanism of Tongbai complex in Mesozoic and its coupling relationship with Nanyang basin[J]. Chinese Journal of Geology, 2010, 45(3):626-652.
[15] 王勇生,朱光,向必伟,等.晓天-磨子潭断裂的运动学涡度、应变速率及其大地构造意义[J].地学前缘,2008.,15(5):376-387.
WANG Y S, ZHU G, XIANG B W, et al. The kinematic vorticity and strain rate of Xiaotian-Mozitan fault and their tectonic significance[J]. Earth Science Frontiers, 2008, 15(5):376-387.
[16] OKAY A I, SENGER A M C. Evidence for intracontinental thrust-related exhumation of the ultra-high-pressure rocks in China[J]. Geology, 1992, 20:411-414.
[17] 江来利,刘贻灿,吴维平,等.大别山超高压变质岩的变形历史及折返过程[J].地质科学,1999,34(4):432-441.
JIANG L L, LIU Y C, WU W P, et al. The deformation history and exhumation process of the UHPM rocks in the Dabieshan[J]. Scientia Geologica Sinica, 1999, 34(4):432-441.
[18] 索书田,钟增球,游振东,等.大别地块超高压变质期后伸展变形及超高压变质岩石折返过程[J].中国科学:D辑,2000,30(1):9-17.
SUO S T, ZHONG Z Q, YOU Z D, et al. Extension deformation and exhumation process of ultrahigh pressure metamorphic rocks in Dabie[J]. Science in China (Series D), 2000, 30(1):9-17.
[19] WANG E, MENG Q R, BURCHFIEL B C, et al. Mesozoic large scale lateral extrusion, rotation, and uplift of the Tongbai-Dabie Shan belt in east China[J]. Geology, 2003, 31(4):307-310.
[20] WEBB L E, RATSCHBACHER L, HACKER B R, et al. Kinematics of exhumation of high-and ultrahigh-pressure rocks in the Hong'an and Tongbai Shan of the Qinling-Dabie collisional orogen, eastern China//HENDRIX M S DAVIS G A (eds.). Paleozoic and Mesozoic Tectonic Evolution of Central Asia:From Continental Assembly to Intracontinental Deformation, Memoir 194. Geological Society of America, Boulder, Colorado, 2001:231-245.
[21] 崔建军,胡健民,刘晓春,等.桐柏地区高压变质地体在地壳中的抬升机制[J].岩石学报,2009,25(9):2165-2176.
CUI J J, HU J M, LIU X C, et al. Exhumation of high-pressure metamorphic terrane at the crustal levels in the Tongbai area, central China[J]. Acta Petrologica Sinica, 2009, 25(9):2165-2176.
[22] LIU X, LI S Z, SUO Y H, et al. Structural analysis of the northern Tongbai Metamorphic Terranes, Central China:Implications for Paleozoic accretionary process on the southern margin of the North China Craton[J]. Journal of Asian Earth Sciences, 2012, 47:143-154.
[23] CUI J J, LIU X, DONG S, et al. U-Pb and 40Ar/39Ar geochronology of the Tongbai complex, central China:Implications for Cretaceous exhumation and lateral extrusion of the Tongbai-Dabie HP/UHP terrane[J]. Journal of Asian Earth Sciences, 2012, 47:155-170.
[24] CHENG W Q, YANG K G, TIMOTHY M K, et al. Kinematic and thermochronological constraints on the Xincheng-Huangpi fault and Mesozoic two-phase extrusion of the Tongbai-Dabie Orogen Belt[J]. Journal of Asian Earth Sciences, 2012, 60:160-173.
[25] 魏春景,吴玉新,倪云燕,等.河南桐柏地区榴辉岩的特征及其地质意义[J].科学通报,1999,44(17):1882-1885.
WEI C J, WU Y X, NI Y Y, et al. Characteristics and geological significance of eclogites in Tongbai area, Henan Province[J]. Chinese Science Bulletin, 1999, 44(17):1882-1885.
[26] 刘晓春,娄玉行,董树文,等.桐柏山地区低温榴辉岩变质作用的P-T轨迹[J]. 岩石学报,2005,21(4):1081-1093.
LIU X C, LOU Y X, DONG S W, et al. P-T path of low-temperature eclogites from the Tongbaishan area[J]. Acta Petrologica Sinica, 2005, 21(4):1081-1093.
[27] 刘晓春,江博明,李三忠,等.大陆岩板俯冲与折返的穿时性:桐柏造山带晚二叠-三叠纪高压变质地体提供的制约[J].科学通报,2013,58(23):2251-2258.
LIU X C, JIANG B M, LI S Z, et al. Diachroneity of subduction and exhumation of continental slab:Constraints from the Late Permian-Triassic HP metamorphic terrane in the Tongbai orogen, central China[J]. Chinese Science Bulletin, 2013, 58(23), 2251-2258.
[28] 王国灿,桑隆康.桐柏造山带东段结晶基底杂岩中的大型A型背形及其构造背景[J].地球科学,1996,21(3):291-294.
WANG G C, SANG L K. A gigantic A-type antiform and its tectonic setting in Tongbai gneiss complex, eastern Tongbai orogen, central China[J]. Earth Science, 1996, 21(3):291-294.
[29] 黄少英,徐备,王长秋,等.桐柏造山带几何学、运动学和演化[J].中国科学:D辑,2006,36(3):242-251.
HUANG S Y, XU B, WANG C Q, et al. Geometry, kinematics and evolution of Tongbai orogenic belt[J]. Science in China:Series D, 2006, 36(3):242-251.
[30] 刘忠明,谭秋明,张万平,等.新城-黄陂断裂合河-殷店段韧性剪切带的基本特征[J].华南地质与矿产,2001,1(1):60-69.
LIU Z M, TAN Q M, ZHANG W P, et al. Basic feature of the Hehe-Yindian shear zone along the Xincheng-Huangpi fault[J]. Geology and Mineral Resources of South China, 2001, 1(1):60-69.
[31] 徐海军,金淑燕,郑伯让,等.岩石组构学研究的最新技术——电子背散射衍射(EBSD)[J]. 现代地质,2007,21(2):213-225.
XU H J, JIN S Y, ZHENG B R, et al. New technique of petrofabic:electron backscatter diffraction (EBSD)[J]. Geoscience, 2007, 21(2):213-225.
[32] 刘俊来,曹淑云,邹运鑫,等.岩石电子背散射衍射(EBSD)组构分析及应用[J].地质通报,2008,27(10):1638-1645.
LIU J L, CAO S Y, ZOU Y X, et al. EBSD analysis of rock fabrics and its application[J]. Geological Bulletin of China, 2008, 27(10):1638-1645.
[33] 许志琴,王勤,梁凤华,等.电子背散射衍射(EBSD)技术在大陆动力学研究中的应用[J].岩石学报,2009,25(7):1721-1736.
XU Z Q, WANG Q, LIANG F H, et al. Electron backscatter diffraction (EBSD) technique and its application to study of continental dynamics[J]. Acta Petrologica Sinica, 2009, 25(7):1721-1736.
[34] 夏浩然,刘俊来.石英结晶学优选与应用[J].地质通报,2011,30(1):58-70.
XIA H R, LIU J L. The crystallographic preferred orientation of quartz and its applications[J]. Geological Bulletin of China, 2011, 30(1):58-70.
[35] TOY V G, PRIOR D J, NORRIS R J, et al. Quartz fabrics in the Alpine Fault mylonites:Influence of pre-existing preferred orientations on fabric development during progressive uplift[J]. Journal of Structural Geology, 2008, 30:602-621.
[36] TAKESHITA T. Estimate of physical conditions for deformation based on c-axis transitions in naturally deformed quartzite[J]. Journal of the Geological Society of Japan, 1996, 102(3):211-222.
[37] OKUDAIRA T, TAKESHITA T, HARA I, et al. A new estimate of the conditions for transition from basal to prism[c] slip in naturally deformed quartz[J]. Tectonophysics, 1995, 250(1/3):31-46.
[38] BAHATTACHARYA A R, WEBER K. Fabric development during shear deformation in the Main Central Thrust Zone, NW Himalaya, India[J]. Tectonophysics, 2004, 387:23-46.
[39] MAINPRICE D, BOUCHES J L, BLUMENFELD P, et al. Dominant c slip in naturally deformed quartz:Implications for dramatic plastic softening at high temperature[J]. Geology, 1986, 14:819-822.
[40] SCHMID S M, CASEY M. Complete fabric analysis of some commonly observed quartz c-axis patterns[J]. American Geophysical Union Geophysical Monograph, 1986, 36:263-286.
[41] KRUHL J H. Reply:Prism-and basal-plane parallel subgrain boundaries in quartz:a microstructural geothermobarometer[J]. Journal of Metamorphic Geology, 1998, 16:142-146.
[42] KURZ W, FRITZ H, TENCZER V, et al. Tectonometamorphic evolution of the Koralm Complex (Eastern Alps):constraints from microstructures and textures of the "Plattengneis" shear zone[J]. Journal of Structural Geology, 2002, 24:1957-1970.
[43] STIPP M, STUNITZ H, HEILBRONNER R, et al. The eastern Tonale fault zone:a "natural laboratory" for crystal plastic deformation of quartz over a temperature range from 250 to 700℃[J]. Journal of Structural Geology, 2002, 24:1861-1884.
[44] 侯泉林,刘庆,李俊,等.大别山晚中生代剪切带特征及年代学制约[J].地质科学,2007,42(1):114-123.
HOU Q L, LIU Q, LI J, et al. Late Mesozoic shear zones and its chronology in the Dabie mountains, central China[J]. Chinese Journal of Geology, 2007, 42(1):114-123.
[45] 王勇生,向必伟,朱光,等.晓天-磨子潭断裂后造山伸展活动的40Ar-39Ar年代学记录[J]. 地球化学,2009,38(5):458-471.
WANG Y S, XIANG B W, ZHU G, et al. 40Ar-39Ar geochronology records for post-orogenic extension of the Xiaotian-Mozitan fault[J]. Geochimica, 2009, 38(5):458-471.
[46] ZHANG J J, ZHENG Y D, LIU S W, et al. Application of general shear theory to the study of formation mechanism of the metamorphic core complex:a case study of Xiaoqinling, in central China[J]. Acta Geologica Sinica, 2000, 74:19-28.
[47] LIN W, FAURE M, MONIÉ P, et al. Mesozoic extensional Tectonics in Eastern Asia:the South Liaodong Peninsula metamorphic core complex (NE China)[J]. The Journal of Geology, 2008, 116:134-154.
[48] 邱军强,彭智,陈芳,等.北淮阳东段杨家湾岩体地球化学特征、锆石U-Pb定年及地质意义[J].华东地质,2016,37(2):89-96.
QIU J Q, PENG Z, CHEN F, et al. Geochemical characteristics and zircon U-Pb dating of the Yangjiawan pluton in the eastern part of North Huaiyang and their geological significances[J]. East China Geology, 2016, 37(2):89-96.
[49] 鹿献章,周博文,彭智,等.北淮阳东段河棚岩体地球化学特征、LA-ICP-MS锆石U-Pb年龄及地质意义[J].华东地质,2017,38(2):81-90.
LU X Z, ZHOU B W, PENG Z, et al. Geochemical characteristics and LA-ICP-MS zircon U-Pb geochronology of the Hepeng intrusion in the eastern section of North Huaiyang and their geological significance[J]. East China Geology, 2017, 38(2):81-90.
[50] 杨彪,王正其,肖金根,等.安徽黄梅尖地区基性岩脉K-Ar年代学、地球化学特征及地质意义[J].华东地质,2020,41(1):27-35.
YANG B, WANG Z Q, XIAO J G, et al. K-Ar chronology and geochemistry of mafic dikes in the Huangmeijian area, Anhui and their geological significances[J]. East China Geology, 2020, 41(1):27-35.
[51] WANG Y S, XIANG B W, ZHU G, et al. Structural and geochronological evidence for Early Cretaceous orogen-parallel extension of the ductile lithosphere in the northern Dabie orogenic belt, East China[J]. Journal of Structural Geology, 2011, 33:362-380.
[52] LIN W, JI W, FAURE M, et al. Early Cretaceous extensional reworking of the Triassic HP-UHP metamorphic orogen in Eastern China[J]. Tectonophysics, 2015, 662:256-270.
[53] LIN W, SHI Y, WANG Q, et al. Exhumation tectonics of the HP-UHP orogenic belt in eastern China:New structural-petrological insights from the Tongcheng massif, eastern Dabieshan[J]. Lithos, 2009, 109:285-303.
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