ISSN 1009-6248CN 61-1149/P Bimonthly

Supervisor:China Geological Survey

Sponsored by:XI'an Center of China Geological Survey
Geological Society of China

    • The Core Journals of China
    • The Key Magazine of China Technology
    • CSCD Included Journals
    • Scopus Included Journals
Advance Search
QIAO Jianwei, LU Quanzhong, ZHENG Jianguo, et al. Shallow Structural Model of Anren Town Geological Map (1:50000) in Wei River Basin[J]. Northwestern Geology, 2020, 53(3): 93-105. DOI: 10.19751/j.cnki.61-1149/p.2020.03.008
Citation: QIAO Jianwei, LU Quanzhong, ZHENG Jianguo, et al. Shallow Structural Model of Anren Town Geological Map (1:50000) in Wei River Basin[J]. Northwestern Geology, 2020, 53(3): 93-105. DOI: 10.19751/j.cnki.61-1149/p.2020.03.008

Shallow Structural Model of Anren Town Geological Map (1:50000) in Wei River Basin

More Information
  • Received Date: April 03, 2019
  • Revised Date: October 29, 2019
  • Available Online: July 28, 2022
  • Published Date: September 04, 2020
  • The superficial part of the earth is a key area to maintain human economic development. It not only provides human resources for survival, but also is an engineering carrier of geological hazards, such as landslides, collapses, mudslides, land subsidence and ground fissures. This paper selects Anren town map (1∶50000) as research object and uses series of geological investigation,i.e., field geological survey, geophysical exploration and geological drilling to investigate the geomorphic features, stratum lithology and the fault structure of the geological structure in this area. the main conclusions are as follows: (1) the study areas can be divided into three geomorphic units of loess platform, alluvial terraces of Wei River and alluvial terraces of Yellow River by Shuangquan-Linyi fault and Hancheng-Huayin fault. The lithology of each geomorphic unit is either aquiclude or aquiclude according to hydrological characteristics. (2) Four normal buried faults developed in the shallow alluvial terrace of Wei River, the displacement increasing significantly with their depth and belonging to typical growth fault. Buried faults decide the process of geomorphology and micro-geomorphology and the developing positions of the ground fissures in this area. (3) The shallow geological structure of Anren town is characterized as interphase distribution of water-resisting layer and aquifer, development of buried faults and severe rupture of shallow surface. This paper gives technical support for analyzing the geological disasters, evaluating the carrying capacity of the geological environment, and rationally exploitation of groundwater and ecological environment protection as well.
  • 张猛刚,雷祥义. 地球表层系统浅论[J]. 西北地质,2005,38(2):99-101.
    ZHANG Menggang, LEI Xiangyi. A discussion on the earth surface system[J]. Northwestern Geology, 2005, 38(2):99-101.
    黄润秋. 20世纪以来中国的大型滑坡及其发生机制[J]. 岩石力学与工程学报, 2007, 26(03):433-454.
    HUANG Runqiu. Large-Scale Landslides and Their Sliding Mechanisms in China Since the 20thCentury[J]. Chinese Journal of Rock Mechanics and Engineering, 2007, 26(03):433-454.
    彭建兵,范文,李喜安,等. 汾渭盆地地裂缝成因研究中的若干关键问题[J]. 工程地质学报, 2007, 15(4):433-440.
    PENG Jianbing, FAN Wen, LI Xian, et al. Key problems in the causative mechanism research of ground fissures in Fenwei basin[J]. Journal of Engineering Geology, 2007, 15(4):433-440.
    崔鹏. 我国泥石流防治进展[J]. 中国水土保持科学, 2009, 7(5):7-13, 31.
    CUI Peng. Advances in debris flow prevention in China[J]. Science of Soil and Water Conservation, 2009, 7(5):7-13, 31.
    化建新,郑建国,等. 工程地质手册(第五版)[M]. 北京:中国建筑工业出版社, 2018.
    HUA Jianxin, ZHENG Jianguo, et al.Engineering geology manual[M]. Beijing:China Architecture & Building Press, 2018.
    何登发,单帅强,张煜颖,等. 雄安新区的三维地质结构:来自反射地震资料的约束[J]. 中国科学:地球科学, 2018, 48(09):1207-1222.
    HE Dengfa, SHAN Shuaiqiang, ZHANG Yuying, et al. 3-D geologic architecture of Xiong'an New Area:Constraints from seismic reflection data[J]. Science China Earth, Science, 2018, 48(09):1207-1222.
    陈志新,袁志辉,彭建兵,等. 渭河盆地地裂缝发育基本特征[J]. 工程地质学报, 2007, 15(04):441-447.
    CHEN Zhixin, YUAN Zhihun, PENG Jianbing, et al. Basic Characteristics about Ground Fractures' Development of Weihe Basin[J]. Journal of Engineering Geology, 2007, 15(04), 441-447.
    杜蕾,谢婉丽. 城市地质环境承载力研究进展及展望[J]. 防灾科技学院学报, 2018, 20(2):15-20.
    DU Lei, XIE Wanli. Research Progress and Prospect of Urban Geological Environment Carrying Capacity[J]. Journal of Institute of Disaster Prevention, 2018, 20(2):15-20.
    张茂省,王尧. 基于风险的地质环境承载力评价[J]. 地质通报,2018,37(2-3):467-475.
    ZHANG Maosheng, WANG Xiao. Research on the evaluation of the carrying capacity of geological environment based on its risk level[J]. Geological Bulletin of China, 2018, 37(2-3):467-475.
    张茂省,王化齐,王尧,等. 中国城市地质调查进展与展望[J]. 西北地质,2018, 51(4):1-9.
    ZHANG Maosheng, WANG Qihua, WANG Yao, et al. Progress and prospect of urban geological survey in China[J]. Northwestern Geology, 2018, 51(4):1-9.
    王斌. 渭河盆地新生代沉积演化盆山耦合与风尘沉积[D]. 南京大学, 2014.
    WANG Bin. Cenozoic sedimentary evolution of the Weihe basin:Basin-Orogen coupling and eolian sediments[D]. Nanjing University, 2014.
    刘林,芮会超,杨莉. 渭河单冲压陷盆地的厘定及其控藏作用[J]. 西北地质, 2018, 51(2):186-202.
    LIU Lin, RUI Huichao, YANG Li. Definition of the Weihe single-thrusting compressional basin and its reservoir-forming condition[J].Northwestern Geology, 2018, 51(2):186-202.
    张世民. 汾渭地堑系盆地发育进程的差异及其控震作用[J]. 地质力学学报, 2000, 02:30-37.
    ZHANG Shimin. Basin evolutionary differences and seismotectonics of Fenwei graben system[J].Journal of Geomechanics, 2000, 02:30-37.
    王景明.渭河地堑断裂构造研究[J]. 地质论评, 1984, (03):217-223.
    WANG Jingming. A study on the tectonics of Weihe graben[J]. Geological Review, 1984, (03):217-223.
    易明初. 新构造运动及渭延裂谷构造[M]. 北京:地震出版社, 1993.
    YI Mingchu. Neotectonic movement and Weihe rift structure[M]. Beijing:Seismological Press, 1993.
    任隽.渭河盆地深部地壳结构探测与盆地构造研究[D]. 西安:长安大学,2012.
    REN Jun.Deep crustal structure exploration and basin structure study in the Weihe Basin[D]. Xi'an:Chang'an University, 2012.
    瞿伟,张勤,王庆良,等. 渭河盆地现今地壳水平形变特征及区域构造活动性[J]. 武汉大学学报(信息科学版), 2011, 36(07):830-834.
    QU Wei, ZHANG Qin, WANG Qingliang, et al. Research on present crustal horizontal deformation feature of Weihe Basin and its tectonic activity[J]. Geomatics and Information Science of Wuhan University, 2011, 36(7):830-834.
    权新昌. 渭河盆地断裂构造研究[J]. 中国煤田地质, 2005, 17(03):1-4,8.
    QUAN Xinchang. Weihe basin faulted structure study[J]. Coal Geology of China, 2005, 17(03):1-4,8.
    刘志武,周立发. 渭河盆地新生代构造-沉积格局与油气成藏潜力初探[J]. 福州大学学报(自然科学版), 2015, 43(05):708-714.
    LIU Zhiwu, ZHOU Lifa. The Cenozoic tectonic and sedimentary framework and preliminary study on the hydrocarbon accumulation potential of the Weihe basin[J]. Journal of Fuzhou University (Natural Science Edition), 2015, 43 (05):708-714.
    彭建兵,张俊,苏生瑞,等. 渭河盆地活动断裂与地质灾害[M]. 西安:西北大学出版社,1992.
    PENG Jianbing, ZHANG Jun, SU Shengrui, et al. Active fault and Geo-hazard in Weihe Basin[M]. Xi'an:Northwestern University Press, 1992.
    刘瑞平,朱桦,杨炳超,等. 大荔潜水含水层中氟的赋存规律及水化学成因[J]. 西北地质,2008, 41(4):134-140.
    LIU Runping, ZHU Hua, YANG Bingchao, et al. Occurrence pattern and hydrochemistry cause of the shallow groundwater fluoride in the Dali county, Shaanxi province[J]. Northwestern Geology, 2008, 41(4):134-140.
    王景明. 关中平原区的新华夏系构造[J]. 西北地震学报, 1981, 3(02):69-77.
    WANG Jingming. The neocathaysian structural system of Guanzhong plain[J]. Northwestern Seismological Journal, 1981,3(02):69-77.
    乔建伟. 基于地球关键带理论的渭北台塬地裂缝成因机理研究[D]. 西安:长安大学,2018.
    QIAO Jianwei. Study on the formation mechanism of ground fissures in Weibei terrace based on earth's critical zone theory[D]. Xi'an:Chang'an University, 2018.
    李高阳,李陈侠,李晓妮. 1501年渭南朝邑7.0级地震发震断裂初探[J]. 华南地震, 2018, 38(S1):108-111.
    LI Gaoyang, LI Chenxia, LI Xiaoni. Preliminary study on the seismogenic faults of Chaoyi M7.0 earthquake in 1501[J]. South China Journal of Seismology, 2018, 38(S1):108-111.
    杜建军. 渭河盆地东南缘主要断裂晚更新世以来的活动性和灾害效应[D]. 北京:中国地质科学院,2016.
    DU Jianjun. Activity of main faults and related geohazard effects in Southeast of Weihe basin[D]. Beijing:Chinese Academy of Geological Sciences, 2016.
    National Research Council. New research opportunities in the earth science[M]. Washington DC:National Academy Press, 2001.
    NSF. Frontiers in Exploration of the Critical Zone[R/OL]. 2005. http://www.czen.org/file/czen/EZEN_Booklet.pdf.
    LIN H. Earth's critical zone and hydropedology:concepts, characteristics and advance[J]. Hydrology and Earth System Science, 2010, 14:25-45.
    QIAO JW, PENG JB, DENG YH, et al. Earth fissures in Qinglong Graben in Yuncheng Basin, China[J]. Journal of Earth System Science, 2018, 127:10.
  • Related Articles

  • Cited by

    Periodical cited type(2)

    1. 史元博,朱兴国,卢全中,杨利荣,刘聪,龚方圆,岳乐平. 西安凹陷f12地裂缝发育区第四系及裂缝沉降特征. 西北地质. 2023(05): 185-196 . 本站查看
    2. 刘聪,乔建伟,彭建兵,夏玉云,卢全中,周远强. 渭河盆地安仁镇地裂缝基本特征与成因分析. 工程地质学报. 2022(01): 242-253 .

    Other cited types(1)

Catalog

    Article views (1432) PDF downloads (1550) Cited by(3)

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return