地震工程学报
地震工程學報
지진공정학보
China Earthquake Engineering Journal
2014年
3期
622-627
,共6页
刘白云%曾文浩%袁道阳%陈文凯%牛延平
劉白雲%曾文浩%袁道暘%陳文凱%牛延平
류백운%증문호%원도양%진문개%우연평
腾格里沙漠北地震%断层面解%小震丛集%最小二乘解
騰格裏沙漠北地震%斷層麵解%小震叢集%最小二乘解
등격리사막북지진%단층면해%소진총집%최소이승해
the northern Tengger Desert earthquake%fault plane solution%small earthquake clus-tering%the least-squares solution
1954年腾格里沙漠北发生7级大震,由于此次地震发生在戈壁深处,风沙作用强烈,震后破坏现象不易保存,给通过地质踏勘研究地震增加了难度。到目前为止,涉及此次地震的发震构造研究内容较少。本研究根据成丛小震发生在大震断层面附近的原则及参考前人给出极震区长轴形态,采用1985-2012年发生在地震破裂区的精定位地震目录,选定了一个长条状研究区域,将模拟退火算法和高斯一牛顿算法结合,给出了利用小震密集程度求解的主震断层面走向、倾角,并确定地震发震断裂的长度、位置。在此基础上考虑区域构造应力参数,给出已求得断层面上的滑动角。最后将反演结果与已有结果做了对照,显示反演结果与已有的结果基本一致,反演到的震源断层位于前人给出的此次地震等震线的最高烈度圈内表明反演结果是真实可信的。
1954年騰格裏沙漠北髮生7級大震,由于此次地震髮生在戈壁深處,風沙作用彊烈,震後破壞現象不易保存,給通過地質踏勘研究地震增加瞭難度。到目前為止,涉及此次地震的髮震構造研究內容較少。本研究根據成叢小震髮生在大震斷層麵附近的原則及參攷前人給齣極震區長軸形態,採用1985-2012年髮生在地震破裂區的精定位地震目錄,選定瞭一箇長條狀研究區域,將模擬退火算法和高斯一牛頓算法結閤,給齣瞭利用小震密集程度求解的主震斷層麵走嚮、傾角,併確定地震髮震斷裂的長度、位置。在此基礎上攷慮區域構造應力參數,給齣已求得斷層麵上的滑動角。最後將反縯結果與已有結果做瞭對照,顯示反縯結果與已有的結果基本一緻,反縯到的震源斷層位于前人給齣的此次地震等震線的最高烈度圈內錶明反縯結果是真實可信的。
1954년등격리사막북발생7급대진,유우차차지진발생재과벽심처,풍사작용강렬,진후파배현상불역보존,급통과지질답감연구지진증가료난도。도목전위지,섭급차차지진적발진구조연구내용교소。본연구근거성총소진발생재대진단층면부근적원칙급삼고전인급출겁진구장축형태,채용1985-2012년발생재지진파렬구적정정위지진목록,선정료일개장조상연구구역,장모의퇴화산법화고사일우돈산법결합,급출료이용소진밀집정도구해적주진단층면주향、경각,병학정지진발진단렬적장도、위치。재차기출상고필구역구조응력삼수,급출이구득단층면상적활동각。최후장반연결과여이유결과주료대조,현시반연결과여이유적결과기본일치,반연도적진원단층위우전인급출적차차지진등진선적최고열도권내표명반연결과시진실가신적。
The northern Tengger Desert M 7.0 great earthquake that occurred in 1 954 resulted in varying degrees of damage in many areas of Neimenggu and its adjacent regions.Thus far,research results of the cause of this earthquake are few and inconsistent.Because it occurred in the Gobi Desert,the aeolian effect of was intense.These facts cause difficulties in studying the earthquake through geological prospecting methods.It is known that clustered small earthquakes often occur in the fault plane vicinities of large earthquakes.We used precisely relocated earthquakes that oc-curred near the earthquake rupture zone between 1 985 and 2012 and selected a strip-shaped zone according to clustered small earthquakes and long-axis morphology in the meizoseismal area.On the basis of simulated annealing and Gauss-Newtonian nonlinear inversion algorithms,we ob-tained fault plane parameters of earthquakes such as strike,dip,and location by using data of densely populated small events.On this condition,rake angles of the fault plane are further in-ferred from regional tectonic stress parameters.Finally,we determine that the inverted results and known results are similar and that the former are in the cycle of the highest seismic intensity. These findings indicate that the inverted results are reliable.