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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
引用本文:金振民 欧新功 徐海军 H.Kern 金淑燕 侯光久.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[J].岩石学报,2004,20(1):81-96.
作者姓名:金振民  欧新功  徐海军  H.Kern  金淑燕  侯光久
作者单位:1. 中国地质大学,武汉,430074
2. 中国科学院地球化学研究所,广州,510640
3. 中国地质大学研究生院,武汉,430074
4. Kiel University Kiel 24098 Germany
基金项目:国家重点基础研究发展规划项目(2003CB716500),国家重大科学工程项目“中国大陆科学钻探工程”的联合资助成果
摘    要:在常温常压条件对中国大陆科学钻CCSD主孔岩心的700样品进行了弹性波速度测量,并建立了主孔2000m的波速(Vp和Vs)连续剖面,为检验地球物理模型的合理解释提供了岩石物理学方面的宝贵资料。主孔中新鲜榴辉岩纵波速度(Vp)最大(7.86km/s),正副片麻岩波速最小,又分别为5.53km/s和5.71km/s,榴辉岩的波速随着退变质作用的增强而明显减小。主孔2000m总平均Vp速度为6.2km/s,它与地球物理探测方法获得的大别-苏鲁造山带上地壳具有6.2-6.3km/s高速层结论是一致的。大部分岩石具有明显地震波各向异性。水饱和度使岩石纵波(Vp)速度和剪切波速度(Vs)分别增加19%和6%,而使Vp的各向异性降低3%~4%。不同岩性界面的反射系数(Rc)是产生地震反射的主要原因。金红石榴辉岩与片麻岩之间具有很高的反射系数(0.24-0.31)。韧性剪切带中糜棱岩化片麻岩和面理化榴辉岩使岩石各向异性和反射强度明显增加。岩石微裂隙与主孔原位波速变化有密切关系。饱水岩石速度(Vp和Vs)可以代表CCSD主孔原位状态的地震波速度。上述成果为本区地震反射体成因提供了重要的岩石物理性质约束。
关 键 词:超高压岩石  弹性波速度  各向异性  地震反射体  中国大陆科学钻探  东海
文章编号:1000-0569/2004/020(01)-0081-96
修稿时间:2003年8月20日

Elastic wave velocities of the 2000m depth at Chinese Continental Scientific Drilling: Constraints on deep seismic reflection
JIN ZhenMin,OU XinGong,XU Haijun,H. Kern,JIN ShuYan and HOU Guangjiu China University of Geosciences,Wuhan,China Guangzhou Institute of Geochemistry,Chinese Academy of Sciences,Guangzhou,China Graduate School of China University of Geosciences,Wuhan,China Kiel University,Kiel,Germany.Elastic wave velocities of the 2000m depth at Chinese Continental Scientific Drilling: Constraints on deep seismic reflection[J].Acta Petrologica Sinica,2004,20(1):81-96.
Authors:JIN ZhenMin  OU XinGong  XU Haijun  H Kern  JIN ShuYan and HOU Guangjiu China University of Geosciences  Wuhan  China Guangzhou Institute of Geochemistry  Chinese Academy of Sciences  Guangzhou  China Graduate School of China University of Geosciences  Wuhan  China Kiel University  Kiel  Germany
Abstract:The elastic wave velocities of 700 samples from main hole of Chinese Continental Scientific Drilling ( CCSD) have been performed in the conditions of room temperature and pressure. The continuous section of seismic velocities ( VP and Vs ) from 100m to 2000m was constructed, which provides an important petrophysical data for interpretation of geophysical model. Fresh eclogite yields the biggest compressional wave velocity (7. 86km/s) , and gneiss has smaller velocity (5. 53 -5. 71km/s) . Seismic velocity of eclogite significantly decreases with increase of retrogressive metamorphism. Overall average Vp velocity of main hole of 2000m rook is 6. 2km/s which is correspondent to conclusion with high velocity zone (6. 2-6. 3km/s) of the upper crust in Dabie-Sulu orogenic belt inferred from geophysical methods. Most rocks at the mail hole have pronounced seismic anisotropy. The velocity of Vp and Vs with water-saturated rock increases by a factor of 19% and 10% , respectively. Conversely, anisotropy of VP and Vs with water-saturated rock reduces 3% - 4%. Reflective coefficient (Rc ) of different lithological boundaries is main factor producing seismic reflection. The lithological boundary between rutile-bearing eclogite and gneiss has the biggest reflective coefficient (0. 24 - 0. 31). Anisotropy and reflective strength is enhanced by mylonitic gneiss and foliated eclogite in ductile shear zone. Anisotropy and shear wave splitting of gneiss and eclogite are caused by the foliation of rocks, as confirmed by laboratory measurements under simulated in situ condition at high pressure and high temperature. Micro-cracks of rocks is closely related to in situ velocity variation. Velocities ( VP and Vs ) water-saturated rocks may represent in situ seismic velocity at main hole of the CCSD. The measurements of elastic wave velocities give an important constraints on the genesis of seismic reflector for this area.
Keywords:Ultrahigh-pressure rock  Elastic wave velocity  Anisotropy  Seismic reflector  CCSD  Donghai
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