中国大陆科学钻探主孔100~2000米超高压变质岩岩相学特征与变质变形史
Petrography and metamorphic deformational history of the ultrahigh- pressure metamorphic rocks from the 100 - 2000m core of Chinese Continental Scientific Drilling, China
-
摘要: 中国大陆科学钻探工程的实施,为超高压变质带的研究打开了新的生面,加深了对苏鲁超高压变质带的认识。从100~2000米获得的岩心的岩石学观察,得知主要岩石类型有:(1)榴辉岩及石榴辉石岩;(2)榴辉岩质片麻岩;(3)石榴橄榄岩;(4)黑云(角闪)二长片麻岩和(5)碎裂岩等。榴辉岩可分幔源和壳源两类,壳源榴辉岩在钻孔中分布较广,上部最为集中;幔源榴辉岩,包括石榴辉石岩,在空间上与超镁铁岩有密切共生关系。榴辉岩质的片麻岩是一种中酸性的超高压岩石,与壳源的榴辉岩共生,显微镜下可以追索出它们之间的结构演化关系。石榴橄榄岩以石榴单辉橄榄岩为主,是俯冲带上部地幔楔加入于俯冲板片变质而成。石榴橄榄岩中的石榴子石富镁,单斜辉石为绿辉石并常含钛斜硅镁石,说明其经过超高压变质的过程。从变质岩石的组合,面理和线理产状的差异,地震反射面和构造角砾岩带的发育,发现以1600米为界,可大致分为2个岩片。上部岩片中多金红石榴辉岩而且出现频率很高,下部岩片中多为多硅白云母榴辉岩出现频率较低。由于隆升进入中下地壳,超高压变质岩普遍发生退变质。榴辉岩的早期退变质成为具后成合晶结构的石榴角闪岩,榴辉岩质片麻岩退变质形成绿帘黑云(角闪)斜长片麻岩,变质条件为角闪岩相,它可以部分熔融或受到钾交代作用而转变为黑云角闪二长片麻岩。后期的伸展造成了局部碎裂和角砾岩带,新生矿物为绿泥石,方解石和赤铁矿、绿帘石等,属绿帘角闪岩相和绿片岩相。主孔100~2000米的超高压变质岩石组合的确定,进一步说明了巨量的地壳物质可以深俯冲进入地幔并迅速折返;超高压变质岩石记录了陆壳俯冲折返和壳幔相互作用的过程,它们是板块下覆构造和地幔动力学的信息载体。
-
-
[1] [1]Cui JW, Wang LJ, Li PW, Xu DH and Wu HY. 2004. Tectonic stress field of brittle deformation within 2000m of the main borehole Chinese Continental Scientific Drilling. Acta Petrologica Sinica, 20(1) :73 -80 (in Chinese with English abstract)
[2] [2]Irvine T N and Baragar W R A. 1971. A gqide to the chemical classification of the common volcanic rocksk. Canadian J. Earth Sci. , 8:523 -548
[3] [3]Jin ZM, Ou XG, Xu H J, Jin SY, Hou GJ and Kern H. 2004. Elastic wave velocities of the 2000m depth at Chinese Continental Scientific Drilling: Constraints on deep seismic reflection. Acta Petrologica Sinica, 20( 1 ) :81 -96 (in Chinese with English abstract)
[4] [4]Lasaga A C. 1997. Kinetic theory in the Earth Sciences Princeton series in geochemistry Princeton university press, Princeton New Jersey:515 -520
[5] [5]Liu FL, Zhang ZM, Xu ZQ. 2003. Three dimensional distribution of ultrahigh-pressure minerals in Sulu terrane. Acta Geologica Sinica,77 (1) :69 -84 (in Chinese with English abstract)
[6] [6]Liu FL, Xu ZQ, Yang JS, Zhang ZM, Xu HM and Li TF. 2004. Geochemical characteristics and UHP metamorphism of granitic gneisses in the main drilling hole of Chinese Continental Scientific Drilling Project and its adjacent area. Acta Petrologica Sinica, 20(1): 9 -26 (in Chinese with English abstract)
[7] [7]Spear F S. 1995. Metamorphic phase equilibria and PressureTemperature-Time paths, mineralogical Society of America monograph( second printing) :425 -427
[8] [8]Suo ST, Zhong ZQ, Zhou HW. 2002. Reclined folds within the UHP metamorphic belt in the Donghai area, northern Jiangsu, China.Geological Science and Technology Information, 21 ( 2 ): 1 - 7 ( in Chinese with English abstract)
[9] [9]Suo ST, Zhong ZQ, You ZD. 2001. Extensional tectonic framework of the Dabie-Sulu UHP-HP metamorphic belt, Central China, and its geodynamical significance. Acta Geologica Sinica, 75 ( 1 ): 14 - 24(in Chinese with English abstract)
[10] [10]Wang CY, Zeng RS, Mooney WD and Hacker BR. 2000. A crustal model of the ultrahigh-pressure Dabie Shan orogenic belt, China,derived from deep seismic refraction profiling. Journal of Geophysical Research, 105:10857 - 10869
[11] [11]Wang X, Liou JG and Mao HK. 1989. Coesite-bearing eclogite from the Dabie mountains in Central China. Geology, 17:1085 -1088
[12] [12]Xu PF, Liu FT, Wang QC et al. 2001. Slab-like high velocity anomaly in the uppermost mantle beneath the Dabie-Sulu orogen. Geophysical Research Letters, 28:1847- 1850
[13] [13]Xu S, Okay A I, Ji S, Sengor AMC, Su W, Liu Y and Jiang L. 1992. Diamond from the Dabie Shan metamorphic rocks and its implication for tectonic setting. Science, 256:80 - 82
[14] [14]Xu ZQ, Yang WC, Zhang ZM and Yang TN. 1998. Scientific significance and site selection researches of the first Chinese continental scientific deep drillhole. Continental Dynamics, 3:1 - 13游振东等:中国大陆科学钻主孔100~2000米超高压变质岩岩相学特征与变质变形史
[15] [15]Xu ZQ, Zhang ZM, Liu FL et al. 2003a. Exhumation structure and mechanism of the Sulu ultrahigh-pressure metamorphic belt, central China. Acta Geologica Sinica, 77 (4) :433 - 450 ( in Chinese with English abstract)
[16] [16]Xu ZQ, Zhao ZX, Yang JS et al. 2003b. Tectonics beneath plates and mantle dynamics. Geological Bulletin of China, 22 ( 3 ): 149 - 159( in Chinese with English abstract)
[17] [17]Xu ZQ. 2004. The scientific goals and investigation progresses of the Chinese Continental Scientific Drilling Project. Acta Petrologica Sinica, 20(1) :1 -8
[18] [18]Yang JJ. 2003. Titanian Clinohumite -garnet -pyroxene rock from the Sulu UHP metamorphic terrane, China: Chemical evolution and tectonic implications. Lithos, 70:359 - 379
[19] [19]Yang Qijun, Zhong Zengqiu, Zhou Hanwen. 2003. Geochemistry constraints on rock association of UHP terrane during exhumation.Earth Science - Journal of China University of Geosciences, 28(3) :241 -249 (in Chinese with English abstract)
[20] [20]Yang WC, Yang WY and Chen ZY. 2004. Interpretation of 3D seismic reflection data in the Chinese Continental Scientific Drilling site.Acta Petrologica Sinica 20( 1 ): 127 - 137 ( in Chinese with English abstract )
[21] [21]Ye K, Cong B and Ye D. 2000. The possible subduction of continental material to depths greater than 200km. Nature, 407:734 -736
[22] [22]Yuan XC, Klemperer SL, Teng WB et al. 2003. Crustal structure and exhumation of the Dabieshan ultrahigh-pressure orogen, eastern China, from seismic reflection profiling. Geology, 31 (5) :435 -438
[23] [23]Zhang RY, Hirajima T, Banno S, Cong Bolin and Liou JG. 1995. Petrology of ultrahigh-pressure rocks from the southern Sulu region,eastern China. J. Metamor. Geol. , 13:659 -675
[24] [24]Zhang RY, Liou JG, Zheng YF et al. 2003. Transition of UHP eclogites to gneissic rocks of low amphibolite facies during exhumation:evidence from the Dabie terrane, central China. Lithos, 70: 269 -291
[25] [25]Zhang RY and Liou JG. 1998. Dual origin of garnet peridotites of Dabie Sulu UHP terrane,eastern central China. Episodes, 21:229 - 234
[26] [26]Zhang ZM, Xu ZQ, Liu FL, You ZD, Shen K, Yang JS, Li TF and Chen SZ. 2004. Geochemistry of eclogites from the main hole ( 100 ~2050m) of the Chinese Continental Scientific Drilling Project. Acta Petrologica Sinica, 20 ( 1 ): 27 - 42 ( in Chinese with English abstract )
[27] [27]崔军文,王连捷,李朋武等.2004.中国大陆科学钻探主孔2000米以上脆性变形构造应力场.岩石学报,20(1):73-80
[28] [28]金振民,欧新功,徐海军等.2004.中国大陆科学钻探主孔100~2000m岩石弹性波速度:对地震深反射的约束.岩石学报,20(1):81-96
[29] [29]刘福来,张泽明,许志琴.2003.苏鲁地体超高压矿物的三维空间分布.地质学报,77(1):69-84
[30] [30]刘福来,许志琴,杨经绥等.2004.中国大陆科学钻探工程主孔及周边地区花岗质片麻岩的地球化学性质和超高压变质作用标志的识别.岩石学报,20(1):9-26
[31] [31]索书田,钟增球,周汉文.2002.苏北东海地区超高压变质带内的斜卧褶皱.地质科技情报,21(2):1-7
[32] [32]索书田,钟增球,游振东.2001.大别苏鲁超高压-高压变质带伸展构造格架及其动力学意义.地质学报,75(1):14-24
[33] [33]许志琴,张泽明,刘福来等.2003a.苏鲁高压超高压变质带的折返构造及折返机制.地质学报,77(4):433-450
[34] [34]许志琴,赵志兴,杨经绥等.2003b.板块下的构造及地幔动力学.地质通报,22(3):149-159
[35] [35]许志琴.2004.中国大陆科学钻探工程的科学目标及初步成果.岩石学报,20(1):1-8
[36] [36]许志琴,张泽明,刘福来等.2004.中国大陆科学钻探主孔1200米构造柱及变形构造初步解析.岩石学报,20(1):53-72
[37] [37]杨启军,钟增球周汉文.2003.大别苏鲁超高压地体折返过程中岩石组合演化的地球化学约束.地球科学-中国地质大学学报,28(3):241-249
[38] [38]杨文采,杨舞阳,程振炎.2004.中国大陆科学钻孔区三维地震资料的初步解释.岩石学报,20(1):127-137
[39] [39]张泽明,许志琴,刘福来等.2004.中国大陆科学钻探工程主孔(0~2050m)榴辉岩岩石化学研究.岩石学报,20(1):27-42
-
计量
- 文章访问数: 7970
- PDF下载数: 8691
- 施引文献: 0
下载: