Characteristics of northern section of Beijing Babaoshan fault based on the stratigraphic data of geothermal drillings
-
摘要: 根据地热井的地层资料,绘制了横穿八宝山断裂带北段的地质剖面图,对八宝山断裂带的深部构造特点进行了探讨,并对几个地热钻孔的地层进行了横向对比。研究结果显示:剖面中存在众多倾角不同、规模不一且相互错断的逆断层,反映出八宝山断裂受逆冲作用非常强烈,同时具有多期性;剖面中存在两条较大的断层,一条是八宝山断裂带的主断层,另一条是雾迷山组小断块被顶托至上部后所形成的次断层,在八宝山一带,次断层的上盘被推覆至主断层线之上将其掩盖,地表仅显示一条断层,即平常所说的八宝山断层,由此可见这并非八宝山断裂带的主断层,在研究及监测中应注意加以区分。此外,根据钻孔地层厚度资料估算,本段主断层倾角约为40°,最大切割深度约为5 000 m。根据地层切割与沉积关系,认为八宝山断裂带最终形成于中生代晚期。Abstract: Basing on the stratigraphic data of geothermal drillings, a geological profile is plotted across the north segment of Babaoshan fault zone, and deep structure is discussed. According to the lateral stratigraphic alignment, it is found that there are many reverse-faults in different scale and inclination in the section, and these faults are dislocated mutually, which reflects that the thrusting effect of the Babaoshan fault is very strong and is of multiphase. Meanwhile, there are two larger faults in the section. One is the main fault of the Babaoshan fault zone, and the other is the minor fault resulted from the blocking of Wumishan formation put upwards by the main reverse fault. Because the main fault is covered by hanging wall of the minor fault for the thrusting of the minor fault is so strong, therefore in the Babaoshan area, there only one fault line appears on the surface, and the fault we normally refer to as the Babaoshan fault. We can see it is not the main fault line of the fault zone, which should be carefully examined in the research and monitoring of the fault zone. According to the rough estimation basing on the stratigraphic data of geothermal boreholes, it is deduced that the dip angle of the main fault is about 40 degrees, and the maximum cutting depth is about 5 000 m. In additional, the relation between stratigraphic cutting and deposition reveals that the Babaoshan fault was formed appro-ximately in the Late Mesozoic era.
-
-
![]()
图 1 研究区基底地质构造示意图(修改自北京市地质矿产勘查开发局和北京市地质调查研究院,2008b)
Figure 1. Schematic diagram of regional basement geological structure (revised from Beijing Geological and Mineral Exploration and Development Bureau and Beijing Institute of Geological Investigation and Research,2008b)
![]()
图 2 AA′剖面位置示意图(修改自北京市地质矿产勘查开发局和北京市地质调查研究院,2008b)
Figure 2. Schematic diagram for location of the section line AA′ (revised from Beijing Geological and Mineral Exploration and Development Bureau and Beijing Institute of Geological Investigation and Research,2008b)
![]()
图 3 AA′地质剖面示意图及钻孔柱状图
Figure 3. Schematic daigram for the geological section AA′ and borehole histograms
![]()
图 4 北京凹陷田村-瀛海段的地质构造剖面示意图(修改自北京市地质矿产勘查开发局和北京市地质调查研究院,2008b)
Figure 4. Sketch map of geological structure section of the Tiancun-Yinghai segment of Beijing depression (revised from the Beijing Geological and Mineral Exploration and Development Bureau and Beijing Institute of Geological Investigation and Research,2008b)
-
北京市地质矿产局. 1991. 北京市区域地质志[M]. 北京: 地质出版社: 172–455. Beijing Geological and Mineral Bureau. 1991. Regional Geological Chronicles of Beijing[M]. Beijing: Geological Publishing House: 172–455 (in Chinese).
北京市地质矿产勘查开发局, 北京市地质调查研究院. 2008a. 北京城市地质[M]. 北京: 中国大地出版社: 23–25. Beijing Geological and Mineral Exploration and Development Bureau, Beijing Institute of Geological Investigation and Research. 2008a. Urban Geology of Beijing[M]. Beijing: China Land Press: 23–25 (in Chinese).
北京市地质矿产勘查开发局, 北京市地质调查研究院. 2008b. 北京城市地质图集[M]. 北京: 中国旅游出版社: 9–10. Beijing Geological and Mineral Exploration and Development Bureau, Beijing Institute of Geological Investigation and Research. 2008b. Urban Geological Atlas of Beijing[M]. Beijing: China Tourism Publishing House: 9–10 (in Chinese).
常旭,李林新,刘伊克,王红落. 2008. 北京断陷黄庄—高丽营断层伪随机可控震源地震剖面[J]. 地球物理学报,51(5):1503–1510 doi: 10.3321/j.issn:0001-5733.2008.05.024 Chang X,Li L X,Liu Y K,Wang H L. 2008. Seismic profile of Huangzhuang-Gaoliying fault in Beijing by Mini-sosie method[J]. Chinese Journal of Geophysics,51(5):1503–1510 (in Chinese)
车兆宏,范燕. 2003. 北京黄庄—高丽营断层、八宝山断层现今活动追踪研究[J]. 地震,23(3):97–104 doi: 10.3969/j.issn.1007-6069.2003.03.018 Che Z H,Fan Y. 2003. Tracing study of fault activity of the Beijing Huangzhuang-Gaoliying fault and Babaoshan fault in recent time[J]. Earthquake,23(3):97–104 (in Chinese)
胡平,刘保金,白立新,母红旺,张杰,丁彦慧,罗华春,冯锐. 2010. 奥林匹克公园地区隐伏断裂综合探测[J]. 地球物理学报,53(6):1486–1494 Hu P,Liu B J,Bai L X,Mu H W,Zhang J,Ding Y H,Luo H C,Feng R. 2010. Synthetic exploration of the buried faults in Olympic park area[J]. Chinese Journal of Geophysics,53(6):1486–1494 (in Chinese)
焦青,邱泽华,范国胜. 2005. 北京地区八宝山—黄庄—高丽营断裂的活动与地震[J]. 大地测量与地球动力学,25(4):50–54 Jiao Q,Qiu Z H,Fan G S. 2005. Analysis on recent tectonic activity and seismicity of Babaoshan-Huangzhuang-Gaoliying fault in Beijing region[J]. Journal of Geodesy and Geodynamics,25(4):50–54 (in Chinese)
金凤英,严润娥. 1985. 从断层泥石英颗粒的微观形貌研究八宝山断裂带的活动性[J]. 地震地质,7(2):45–50 Jin F Y,Yan R E. 1985. Study of the activity of the Babaoshan fault zone in terms of the microscopic surface features of quartz grains in gouge[J]. Seismology and Geology,7(2):45–50 (in Chinese)
柯柏林. 2005. 北京" 洼里砾岩”地质特征及时代讨论[J]. 北京地质,17(3):11–15 Ke B L. 2005. Discussion on geologic characteristics and age of Wali conglomerate[J]. Beijing Geology,17(3):11–15 (in Chinese)
马文涛,徐锡伟,郝书俭,尹功明,于光明,于贵华,储宝贵,郑宝贵,张兰凤. 2004. 北京市立水桥附近黄庄—高丽营隐伏断裂的浅层地震勘探[J]. 地震地质,26(4):698–705 doi: 10.3969/j.issn.0253-4967.2004.04.015 Ma W T,Xu X W,Hao S J,Yin G M,Yu G M,Yu G H,Chu B G,Zheng B G,Zhang L F. 2004. Shallow seismic exploration for Huangzhuang-Gaoliying buried fault in the vicinity of Lishuiqiao,Beijing[J]. Seismology and Geology,26(4):698–705 (in Chinese)
孙叶, 王宗杰, 沈士贞, 田洪清, 程伟雪, 候宗仁, 杨建华, 张景寿. 1983. 北京八宝山断裂带煤岭弧形断裂附近局部地应力场[G]//中国地质科学院562综合大队集刊第4卷. 北京: 地质出版社: 83–98. Sun Y, Wang Z J, Shen S Z, Tian H Q, Cheng W X, Hou Z R, Yang J H, Zhang J S. 1983. The local ground stress field adjacent to the Meiling arc-shaped fault at the Babaoshan, Beijing[G]//Bulletin of the 562 Comprehensive Geological Brigade of Chinese Academy of Geological SciencesVol. 4. Beijing: Geological Publishing House: 83–98 (in Chinese).
王宋贤. 1988. 关于八宝山断裂带活动性的讨论:对 《现场高精度测试及验证北京八宝山断裂的" 活动性”》 一文的商榷[J]. 工程勘察,(4):10–15 Wang S X. 1988. Discussion on the activity of the Babaoshan fault zone:A discussion on the article " High precision test and verification of ‘activity’ of Babaoshan fault in Beijing”[J]. Geotechnical Investigation&Surveying,(4):10–15 (in Chinese)
向宏发,方仲景,张晚霞,李如成,贾三发. 1996. 北京平原区隐伏断裂晚第四纪活动特征的联合剖面研究[J]. 地震研究,18(1):75–79 Xiang H F,Fang Z J,Zhang W X,Li R C,Jia S F. 1996. Joint profile survey of active features for the Late Quaternary subsurface faults in Beijing plain region[J]. Journal of Seismological Research,18(1):75–79 (in Chinese)
徐杰,汪良谋,方仲景,张裕明,王辉,黄秀铭,杨主恩,计凤桔. 1992. 北京八宝山断裂和黄庄-高丽营断裂构造活动性的初步分析[J]. 华北地震科学,10(3):1–11 Xu J,Wang L M,Fang Z J,Zhang Y M,Wang H,Huang X M,Yang Z E,Ji F J. 1992. Preliminary analysis of the tectonic activity of Babaoshan and Huangzhuang-Gaoliying faults[J]. North China Earthquake Sciences,10(3):1–11 (in Chinese)
杨景春,林伟凡,蒋铭,李格平. 1981. 北京八宝山断裂带近期构造活动及其和地震的关系[J]. 地震学报,3(4):390–398 Yang J C,Lin W F,Jiang M,Li G P. 1981. Recent tectonic movement of the Babaoshan fault near Beijing and it’s relation to earthquake occurrences[J]. Acta Seismologica Sinica,3(4):390–398 (in Chinese)
张保民, 程伟雪, 苏岳鲁. 1981. 北京八宝山断裂的岩组分析[G]//中国地质科学院562综合大队文集第2卷(1). 北京: 地质出版社: 59–68. Zhang B M, Cheng W X, Su Y L. 1981. Petrofabric analysis of the Babaoshan fault, Beijing municipality[G]//Bulletin of the 562 Comprehensive Geological Brigade of Chinese Academy of Geological Sciences Vol. 2 (1). Beijing: Geological Publishing House: 59–68 (in Chinese).
赵刚,李军雄. 1986. 现场高精度测试及验证北京八宝山断裂的" 活动性”[J]. 工程勘察,(4):6–11 Zhao G,Li J X. 1986. On-site high precision testing and verification of the " activity” of the Babaoshan fault in Beijing[J]. Geotechnical Investigation and Surveying,(4):6–11 (in Chinese)
赵希俊,刘锡大,洪少峰. 2000. 黄庄-高丽营断层的分段性[J]. 华北地震科学,18(1):9–15 doi: 10.3969/j.issn.1003-1375.2000.01.002 Zhao X J,Liu X D,Hong S F. 2000. Segmental characteristics of Huangzhuang-Gaoliying fault system[J]. North China Earthquake Sciences,18(1):9–15 (in Chinese)
下载:
计量
- 文章访问数: 1563
- HTML全文浏览量: 603
- PDF下载量: 57
