利用深井地下水位动态研究大华北地区现今构造应力场状态
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摘要
在水平层状含水层(一维)模式下,根据含水层应力与井水位变化之间的定量关系表达式,利用华北地区40多口深井水位动态变化资料,探索研究华北地区现今构造应力场状态。即水位上升代表构造应力场压性增强张性减弱;水位下降代表构造应力场压性减弱张性增强。初步研究结果表明,1995~1998年华北北部地区张家口 渤海构造带和山西构造带北部水位普遍上升,MS5.0以上地震活动频繁;1999年以后华北地区水位普遍处于下降状态,反映了华北地区1999年以来构造应力场状态以张性为主,整个华北地区MS5.0以上地震活动处于相对平静状态。该结果可为华北地区地震活动性预测研究提供应力场背景信息。
According to the quantitative formula of aquifer stress and water level of wells based on 1D half-space horizontal layer model, the present tectonic stress field of Pan-North China region is studied using observational water level data in about 40 wells of ground water observation network of China Seismological Bureau. It is assumed that ascending water level means compression enhances and extension weakens of stress field; descending water level means extension enhances and compression weakens of stress field. Our water level data suggest that the well water level, distributing along Zhangjiakou-bohai tectonic belt and Shanxi tectonic belt, shows ascending and earthquakes with M≥5.0 occurs more frequently at the same time during 1995~1998, which means the compressional stress field enhances, while the water level shows descending and no earthquake with M≥5.0 occurs in whole North China region since 1999, which means the extensional stress field enhances. The result mentioned above may province the background information regarding present tectonic stress field of North China region for earthquake predication research.
According to the quantitative formula of aquifer stress and water level of wells based on 1D half-space horizontal layer model, the present tectonic stress field of Pan-North China region is studied using observational water level data in about 40 wells of ground water observation network of China Seismological Bureau. It is assumed that ascending water level means compression enhances and extension weakens of stress field; descending water level means extension enhances and compression weakens of stress field. Our water level data suggest that the well water level, distributing along Zhangjiakou-bohai tectonic belt and Shanxi tectonic belt, shows ascending and earthquakes with M≥5.0 occurs more frequently at the same time during 1995~1998, which means the compressional stress field enhances, while the water level shows descending and no earthquake with M≥5.0 occurs in whole North China region since 1999, which means the extensional stress field enhances. The result mentioned above may province the background information regarding present tectonic stress field of North China region for earthquake predication research.
引文
① 陈 ,岩石中的孔隙流体 ,油井动态与地震关系学术讨论会 , 1 982。
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[1] 努尔[美国],科瓦契.岩石中的水力流在地质构造过程中的作用以及对圣安德烈斯断裂系的应用[A].萨瓦连斯基EΦ.地震前兆探索[C].傅征祥,胡鸿翔,译.北京:地震出版社.1980.73 75.
[2] 汪成民,罗光伟,石锡钟.地震前后地下水位异常动态与裂隙演变[J].地震科学研究.1981,(4):1 7.
[3] BodvarssonG.Confinedfluidsasstrainmeters[J].JGeophysRes,1970,75:2711 2718.
[4] 张昭栋,郑金涵,冯初刚.一种估算地震引起应力场调整的新方法[J].地震.1988,8(3):19 27.
[5] JohnsonAG,KovachRL,NurA,etal.PorePressureChangesduringCreepEventsontheSanAndreasFault[J].JournalofGeophysicalResearch,1973,78(5):851 857.
[6] JohnsonAG,KovachRL,NurA.Fluid-pressureviariationsandfaultcreepincentralCalifornia[J].Tectonophysics,1974,23:257 266.
[7] RhoadsGR,RobinsonES.Determinationofaquiferparametersfromwelltides[J].JGeophysRes,1979,84(B11):6071 6082.
[8] 张昭栋,郑金涵,冯初刚.日本秋田地震(1983年7.7级)引起我国应力场的震时调整变化[J].地震学报,1990,12(1):60 69.
[9] 张昭栋,郑金涵,冯初刚.从深井水位变化反演鲁西应力场在菏泽5.9级地震时的调整[J].地壳形变与地震,1991,11(1):29 35.
[10] 张昭栋,刘庆国,耿杰.由承压井水位动态反演水井含水层的应力变化[J].华南地震,1999,19(1):37 42.
[11] 中国地震局监测预报司.一九九八年张北地震[M].北京:地震出版社,1999.99 131.
[12] 黄辅琼,杜建国,朱自强,等.地下流体学科对地震趋势的预测[A].中国地震局分析预报中心.中国地震趋势预测研究(2002年度)[C].北京:地震出版社,2001.120 139.
[13] 黄辅琼,晏锐,朱自强,等.地下流体学科对我国2003年度地震趋势的预测[A].中国地震局分析预报中心.中国地震趋势预测研究(2003年度)[C].北京:地震出版社,2002.101 117.
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