柴北缘夹榴辉岩的片麻岩(片岩)地球化学、Sm-Nd和U-Pb同位素研究——深俯冲的前寒武纪变质基底?
Geochemistry, Sm-Nd and U-Pb isotope study of gneisses (schists) enclosing eclogites in the North Qaidam Monutains--deeply subducted Precambrian metamorphic basement?
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摘要: 在柴北缘的鱼卡-锡铁山-沙柳河一带,出露夹有榴辉岩透镜体的花岗质片麻岩(正片麻岩)和副片麻岩(片岩)。地球化学和Sm-Nd同位素数据显示副片麻岩(片岩)与正片麻岩具有类似的地球化学成分和一致的Nd模式年龄(1.88~2.18Ga),结合副片麻岩(片岩)局部包在正片麻岩中的野外关系,正片麻岩可能为副片麻岩(片岩)原地熔融作用的产物。U-Pb锆石测定表明熔融作用产生的正片麻岩的岩浆形成时代为952Ma。另外,这些夹榴辉岩的片麻岩(片岩)也与柴北缘北侧不夹榴辉岩的深变质基底片麻岩和中南祁连地块的变质基底片麻岩有相似Sm-Nd同位素特征和近一致Nd模式年龄(1.87~2.26Ga)。表明它们具有明显的亲缘关系,可能来源于具有古元古代晚期地壳形成年龄的同一变质基底。然而,与柴北缘北 侧和祁连地块的深变质基底岩石不同的是,这套含榴辉岩的片麻岩(片岩)明显遭受了早古生代变质作用的影响,正片麻岩锆石U-Pb测定获得的下交点年龄为478±44Ma,与柴北缘地区榴辉岩的变质锆石的年龄在误差范围内一致;而已在都兰地区副片麻岩锆石中柯石英包体的发现也证明了含榴辉岩的片麻岩(片岩)与榴辉岩一样同样经历了UHP变质作用。因此,我们认为柴北缘含榴辉岩的片麻岩虽然具有与相邻变质基底相似的早期演化历史,但在早古生代又与所夹的榴辉岩
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关键词:
- 柴北缘 /
- 夹榴辉岩片麻岩(片岩) /
- Sm-Nd同住素 /
- 深俯冲 /
- 前寒武纪变质基底
Abstract: Orthogneisses and paragneisses ( schists) enclosing eclogites crop out along the Yuqia-Xitieshan-Shaliuhe of the North Qaidam Mountains ( NQD) . Our geochemical analyses and Sm-Nd isotope data indicate that the Orthogneisses are similar in geochemical composition and Nd model ages( 1. 88 ~ 2. 18Ga) to the paragneisses. In combination of geological relationship that the paragniesses occur as xenolith within the orthogneiss, the Orthogneisses were probably derived through in situ melting of the paragneisses ( schists). Zircon U-Pb data suggest that the magma of the orthogneiss was formed at 952Ma ago . Moreover, the gneisses ( schists) enclosing eclogites also show similar characteristics in Sm-Nd isotope composition and Nd model TDM (1. 87 ~ 2. 26Ga) to those of the high-grade metamorphic rocks enclosing no eclogites ( non-eclogite bearing basement gneisses) in NQD and metamorphic basement rocks of the Qilian block. This implies that they have close affinity, and probably are derived from same metamorphic basement with a crust formation age of late Paleoproterozoic. However, in contrast to the high-grade metamorphic rocks enclosing no eclogites (non-eclogite bearing basement gneisses) in NQD and basement gneisses in the Qilian orogenic belt, the gneisses enclosing eclogites ( eclogite bearing gneisses) were obviously overprinted by early Paleozoic metamorphism as indicated by zircon U-Pb data of a lower intercept age of 478 44Ma which is in agreement with the age of metamorphic zircon from eclogite within error range. In addition, newly reported coesites in paragneisses enclosing eclogites in Dulan area also suggest that the gneiss and enclosed eclogite as a whole underwent early Paleozoic HP-UHP metamorphism. Therefore, although the gneisses enclosing eclogites have similar early evolution histories to adjacent Precambrian high-grade metamorphic basement rocks, they experienced deep subduction together with the enclosed eclogite during early Paleozoic orogeny. -
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[1] [1]Arndt NT and Goldstein SL. 1987. Use and abuse of crust-formation age. Geology, 15: 893-895
[2] [2]Bureau of Geology and Mineral Resources of Qinghai Province. 1991. Regional Geology of Qinghai Province. Beijing: Geological Publishing House, 25-100 (in Chinese)
[3] [3]Chen JF and Jahn BM. 1998. crustal evolution of southeastern China: Nd and Sr isotopic evidence. Tectonophysics, 284: 101-133
[4] [4]Dickin AP, Mcnutt RH and Clifford PM. 1990. A neogymium isotope study of plutons near the Grenville Front in Ontario, Canada. Chemical Geology, 83: 315-324
[5] [5]Guo JJ, Zhang GW, Lu SN and Zhao FQ, 1999. Neoproterozoic continental block collage of China and Rodinia supercontinent. Geological Journal of China Universities, 5 (2): 148-156 (in Chinese with English abstract)
[6] [6]Li HM, Dong CW and Xu XS. 1995. Dating of single grain zircon origin of basic magma rock in southeast Fujian Province. Chinese Science Bulletin, 42(2): 158-160 (in Chinese)
[7] [7]Lu LZ, Xu XC, Liu FL. 1996. The early Precambrian khondalite series in northern China. Changchun: Changchun Press: 1-86 (in Chinese)
[8] [8]Lu SN, Wang HC, Li HK. 2002. Redefinition of the "Dakendaban Group" on the northern margin of the Qiadam basin. Geological Bulletin of China, 21(1): 19-23 (in Chinese with English abstract)
[9] [9]Lu SN. 2002. A review of major problems of Pecambrian Research. Progress in Precambrian Research, 25(2): 65-72 (in Chinese with English abstract)
[10] [10]Lu SN. 2003. Preliminary study of Precambrian geology in the north Tibet-Qiinghai Plateau. Beijing: Geological Publishing House, 42-45 (in Chinese)
[11] [11]Mcculloch MT and Wasserburg GJ. 1978. Sm-Nd and Rb-Sr chronology of continental crust formation. Science, 200: 1003-1011
[12] [12]Moller A, Mezger K and Schenk V. 1998. Crustal age domains and the evolution of the continental crust in the Mozambique belt of Tanzania: combined Sm-Nd,Rb-Sr, and Pb-Pb isotopic evidence. Journal of Petrology, 39: 749-783
[13] [13]O\'Nions RK, Hamilton PJ and Hooker PJ. 1983. A Nd isotopic investigation of sediments related to crustal development in the British Isles. Earth and Planetary Science Letter, 63: 229-240
[14] [14]Smith AD. Wen DJ, Huang LY and Wang CS. 2000. Constraints from gneisses in Qilian fold belt for position of the North China block in the Proterozoic. Joural of the Geological Society of China (Taiwan), 43(1): 70-81
[15] [15]Wan YS, Yang JJ, Xu ZQ and Wu CL. 2000. Geochemical Characteristics of the Maxianshan complex and Xinglongshan Group in the eastern segment of the Qilian orogenic belt. Journal of Geological Society of China (Taiwan), 43 (1): 52-68
[16] [16]Wan YS, Xu ZQ, Yang JJ and Zhang JJ. 2001. Ages and compositions of the Precambrian high-grade basement of the Qilian terrane and adjacent areas. Acta Geologica Sinica, 75(4): 375-384
[17] [17]Wu H, Feng Y and Song S. 1993. Metamorphism and deformation of blueschist belts and their tectonic implications, north Qilian Mountains, China. Journal of Metamorphic Geology, 11: 523-536
[18] [18]Xin HT, Hao GJ, Wang HC, Chen NS, Han YS and Qi SS. 2002. New idea on Presinian strata in the northern margin of Qaidam massif. Progress in Precambrian Research, 25(2): 113-119 (in Chinese with English abstract)
[19] [19]Yang JS, Xu ZQ, Song SG, Wu CL, Shi RD, Zhang JX, Li HB and Wan YS. 2000. Discovery of eclogite in Dulan,Qinghai Province and significance for the HP-UHP metamorphic belt along the central orogenic belt of China. Acta Geologica Scnica, 70(2): 156-168 (in Chinese with English abstract)
[20] [20]Yang JS, Song SG, Xu ZQ, Wu CL, Shi RD, Zhang JX, Li HB, Wan YS, Liu Y, Qiu HJ, Liu FL and Maruyama S. 2001. Discovery of coesite in the north Qaidam Early Paleozoic ultrahigh-pressure (UHP-HP) metamorphic belt, NW China. Acta Geologica Scnica, 75(2): 175-179 (in Chinese with English abstract)
[21] [21]Zhang JX, Yang JS, Xu ZQ, Zhang ZM and Chen W. 2000. Peak and retrograde age of eclogites at the northern margin of Qaidam basin, Northwestern China: Evidence from U-Pb and Ar-Ar dates. Geochimica, 29(3): 217-222 (in Chinese with English abstract)
[22] [22]Zhang JX, Wan YS, Xu ZQ, Yang JS and Meng FC. 2001. Discovery of basic granulite and its formation age in Delingha area, North Qaidam Monutains. Acta Petrologica Sinica, 17(3): 453-458 (in Chinese with English abstract)
[23] [23]Zhang JJ, Yang JJ, Xu ZQ, Wan YS, Meng FC, Shi RD, Li HB and Song SG. 2002. Two contrasting eclogite types on the northern margin of Qaidam basin, western China. Acta Geologica Sinica. 76(3): 331-338
[24] [24]青海省地质矿产局. 1991.青海省区域地质志.北京: 地质出版社, 25-100
[25] [25]郭进京, 张国伟, 陆松年, 赵风清. 1999.中国新元古代大陆拼合与Rodinia超大陆 .高校地质学报, 5(2): 148-156
[26] [26]李惠民, 董传万, 徐夕生. 1995. 泉州辉长岩中单颗粒锆石法定年--闽东南基性岩浆岩的起源. 科学通报, 40(2): 158-160
[27] [27]卢良兆, 徐学纯, 刘福来. 1996. 中国北方早前寒武纪孔兹岩系. 长春: 长春出版社, 1-86
[28] [28]陆松年, 王惠初, 李怀坤, 袁桂邦, 辛后田, 郑健康. 2002. 柴达木盆地北缘"达肯大坂群"的再厘定. 地质通报, 21(1): 19-23
[29] 陆松年. 2002. 关于我国前寒武纪研究中几个重要问题的分析. 前寒武纪研究进展, 25(2): 65-72
[30] [30]陆松年. 2003. 青藏高原北部前寒武纪地质初探. 北京: 地质出版社, 42-45
[31] [31]辛后田, 郝国杰, 王惠初, 陈能松, 韩英善, 祁胜生. 2002. 柴北缘前震旦纪地层系统的新认识. 前寒武纪研究进展, 25(2): 113-119
[32] 杨经绥, 许志琴, 宋述光, 吴才来, 史仁灯, 张建新, 万渝生, 李海兵. 2000. 青海都兰地区榴辉岩的发现及对中国中央造山带高压-超高压变质带研究的意义. 地质学报, 74 (2): 156-168
[33] [33]杨经绥, 宋述光, 许志琴, 吴才来, 史仁灯, 张建新, 李海兵, 万渝生, 刘焰, 邱海峻, 刘福来, Shigenori Maruyama. 2001. 柴达木盆地北缘早古生代高压-超高压变质带中发现典型超高压矿物--柯石英,地质学报, 75(2): 175-179
[34] [34]张建新, 杨经绥, 许志琴, 张泽明, 陈文. 2000. 柴北缘榴辉岩的峰期和退变质年龄: 来自U-Pb及Ar-Ar同位素测定的证据. 地球化学, 29(3): 217-222
[35] [35]张建新,万渝生,许志琴,杨经绥,孟繁聪.2001.柴达木北缘德令哈地区基性麻粒岩的发现及形成时代.岩石学报, 17(3): 453-458
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