龙门山北段唐王寨-仰天窝地区伸展构造解析

通过对唐王寨—仰天窝地区的构造解析,提出了组成唐王寨—仰天窝向斜的志留、泥盆系中发育有印支晚期逆冲推覆构造形成之前的伸展构造,主要表现为志留、泥盆系之间的剥离断层以及褶叠层等构造样式。通过对区域构造背景及辉绿岩脉形成时间的分析,探讨了伸展构造形成的机制,认为本区的伸展构造主要形成于晚二叠世。     

龙门山断裂带深部构造和物性分布的分段特征

根据龙门山断裂带周边的固定数字地震台网和流动地震观测获得的宽频带地震记录,用多种地震学方法研究该地区的地壳上地幔结构。深部结构研究表明,龙门山断裂带物性分布具有显著的分段特征。用远震接收函数H-k叠加方法计算了各个台站的地壳厚度和波速比。地壳厚度总体变化是,地壳从东向西增厚,最小厚度为37.8 km,最大厚度是68.1 km。从东南向西北横跨龙门山断裂带的地壳急剧增厚,从41.5 km增厚至52.5 km。但是,龙门山断裂带两侧地壳厚度的差异在断裂带的南段和北段是不同的。在南段,地壳厚度急剧变化的分界线在中央断裂附近;在中段,分界线在后山断裂附近;在北段,则断裂带两侧地壳厚度差异很小。泊松比的空间分布是,松潘—甘孜地体北部和西秦岭造山带具有低泊松比(ν<0.26),扬子地台具有低—中泊松比(ν<0.27),松潘—甘孜地体南部、三江褶皱带和四川盆地具有中—高泊松比(0.26<ν<0.29)。除龙门山断裂带南段及其附近,大部分地区均不具有超高的泊松比(ν>0.30)。龙门山断裂带南段地壳具有高泊松比(ν>0.30),而北段地壳则为中—低泊松比。高泊松比可以看成是铁镁质组分增加和/或部分熔融的证据,表明那里的下地壳部分熔融是可能的。松潘—甘孜地体东南部地区的下地壳处于富含流体或温度较高的部分熔融状态,它有助于青藏高原的下地壳物质向东运动。青藏高原东部中、上地壳向东运动受刚性强度较大的扬子地台的阻挡,沿龙门山断裂带产生应变能积累。当应变达到临界值,发生急剧的摩擦滑动,释放积累的应变能,产生汶川Ms8.0地震。汶川地震在龙门山断裂带不同地段,表现出不同的破裂特征和余震分布,可能与断层带的分段深部构造差异有关。     

龙门山冲断隆升及其走向差异的裂变径迹证据

大量的低温年代学研究用来讨论龙门山晚新生代的隆升,但很少涉及其走向差异和中生代隆升。本文分别沿龙门山北、中、南段3条剖面进行了锆石和磷灰石裂变径迹测试,结合已有的热年代学数据,以期揭示整个中-新生代期间龙门山隆升历史及其时空变化。中生代以来,龙门山主要有印支期(约200 Ma)、早白垩世末(约100 Ma)、早新生代(65～30 Ma)以及晚中新世(15～9 Ma)等或快或慢的冷却事件,总体上经历了中生代至早新生代的缓慢冷却和晚新生代快速冷却2个阶段,快速剥露开始于15～9 Ma,剥蚀速率由早期的0.1 mm/a增加到0.15～0.3 mm/a左右,局部可达0.9 mm/a左右。走向上,龙门山北段相对偏小的锆石裂变径迹年龄和相对偏大的磷灰石裂变径迹年龄反映其在中生代较中、南段隆升更快,而裂变径迹年龄总体上从北段向中、南段减小,表明中、南段在新生代发生了更快的隆升。倾向上,多种热年代学数据显示新生代期间在北川断裂和彭灌断裂两侧存在明显的差异剥露,这种差异在中、南段表现比北段更为突出。龙门山晚新生代快速隆升和剥露是青藏高原区域隆升背景上叠加的冲断活动所致,而非下地壳流动驱动。     

紫坪铺水库库区震源波谱参数研究

利用紫坪铺水库数字地震台网和成都区域数字台网中的油榨坪台2004年8月到2008年5月12日汶川大地震前的地震波形资料,采用遗传算法反演计算了紫坪铺库区261次1.6级以上地震的震源波谱参数.结果表明紫坪铺库区中小地震的地震矩Mo在1.35×1012～5.98×1014 N·m之间;应力降随着震级的增加而升高;库区小震震源谱拐角频率与地震矩、震级的依赖关系不明确,这可能与紫坪铺水库蓄水后库区压力增加,且水体沿着龙门山断裂方向扩散和渗透有关.     

Internal structure of Longmenshan fault zone at Hongkou outcrop,Sichuan,China,that caused the 2008 Wenchuan earthquake

This paper reports the internal structures of the Beichuan fault zone of Longmenshan fault system that caused the 2008 Wenchuan earthquake,at an outcrop in Hongkou,Sichuan province,China.Present work is a part of comprehensive project of Institute of Geology,China Earthquake Administration,trying to understand deformation processes in Longmenshan fault zones and eventually to reproduce Wenchuan earthquake by modeling based on measured mechanical and transport properties.Outcrop studies could be integrate...     

汶川8.0级地震前龙门山地区小震活动与固体潮的关系

通过对汶川8.0级地震前,龙门山地区小震活动与月球上中天、下中天时刻对应关系的讨论,得到龙门山小震活动与月球引潮力的低潮对应关系不明显.另外,对龙门山小震与固体潮理论曲线对应的讨论,得到每组小震的头震在接近固体潮曲线的谷底发生,即地震的发生与固体潮的低潮有关.在临近大震前,地震多发生在固体潮曲线的上升部位,即引潮力增长...     

龙门山断裂带变形特征

野外构造解析和地震遗址的构造应力分析显示,龙门山断裂带在新生代早期对应于当时的南东-北西主压应力场,发育了北北东向的左旋走滑构造体系,其后才被具有右旋兼具逆冲的龙门山断裂带叠加改造,对应的近东西向构造主压应力场一直延续至今,是区内地震构造的应力场机制。龙门山断裂带河流岩屑磷灰石裂变径迹分析显示,龙门山断裂带在走向上位移量有显著的差别,呈现正态分布的整体趋势。依照龙门山隆起剥蚀单调冷却的热史特征,判定前述两期变形的转换时限是40 Ma前后。结合龙门山断裂带地层厚度和变形时的深度模型,认为现今龙门山断裂带是一个宽达数十千米的大型走滑断裂带,剖面上呈现花状构造特征。近地表的逆冲构造是薄皮构造,并由此建立了龙门山断裂带走滑变形的深度变形样式模型。     

Characteristics of Late-Quaternary Activity and Seismic Risk of the Northeastern Section of the Longmenshan Fault Zone

Following the 2008 Wenchuan M8 earthquake,the seismic risk of the northeastern section of the Longmenshan fault zone and the adjacent Hanzhong basin has become an issue that receives much concern.It is facing,however,the problem of a lack of sufficient data because of little previous work in these regions.The northeastern section of the Longmenshan fault zone includes three major faults：the Qingchuan fault,Chaba-Lin＇ansi fault,and Liangshan south margin fault,with the Hanzhong basin at the northern end.This paper presents investigations of the geometry,motion nature,and activity ages of these three faults,and reveals that they are strike slip with normal faulting,with latest activity in the Late Pleistocene.It implies that this section of the Longmenshan fault zone has been in an extensional setting,probably associated with the influence of the Hanzhong basin.Through analysis of the tectonic relationship between the Longmenshan fault zone and the Hanzhong basin,this work verifies that the Qingchuan fault played an important role in the evolution of the Hanzhong basin,and further studies the evolution model of this basin.Finally,with consideration of the tectonic setting of the Longmenshan fault zone and the Hanzhong basin as well as seismicity of surrounding areas,this work suggests that this region has no tectonic conditions for great earthquakes and only potential strong events in the future.     

Seismogenic Structure of the April 20, 2013, Lushan Ms7 Earthquake in Sichuan

At 08:02 on April 20, 2013, a Ms7.0 earthquake occurred in Lushan, Ya'an, in the Longmenshan fault zone, Sichuan. The epicenter was located between Taiping Town and Shuangshi Town, Lushan County and the maximum earthquake intensity at the epicenter reached class IX. Field investigations in the epicenter area found that, although buildings were seriously damaged, no obvious surface rupture structure was produced, only some ground fissures and sand blows and water ejection phenomena being seen. An integrated analysis of high-resolution remote sensing image interpretation, mainshock and aftershock distribution, and focal mechanism solutions indicated that this earthquake was an independent rupturing event in the southwestern segment of the Longmenshan fault zone, belonging to the thrust-type earthquake. Ruptures occurred along the south-central segment of the Shuangshi-Dachuan fault and the principal rupture plane dipped SW at 33-43°. It is inferred that the Lushan earthquake might be related to the ramp activity of the basal detachment zone (13-19 km) of the Longmenshan fault zone. Historically, there occurred at least two Ms6-6.5 earthquakes along the Shuangshi-Dachuan fault zone; thus it is thought that the Lushan earthquake, different from the Wenchuan earthquake, was a characteristic one in the southwestern segment of the Longmenshan fault zone. In-situ stress measurements indicated the Lushan earthquake was the result of stress release of the southwestern segment of the Longmenshan fault zone after the Wenchuan earthquake. This paper analyzes the tectonic setting of the seismogenic structure of this earthquake.