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1.
《高原地震》2017,(2)
针对鲁甸6.5级地震、唐山4.0级地震前地下流体异常现象,结合异常时段地下流体观测数据,对震前地下流体异常现象及指标进行总结分析。研究表明,鲁甸地震前及唐山地震前地下流体长期与中期异常特征均主要出现在距离震中心500 km范围内。地下流体震前异常特征现象观测的目的是判断地震危险区高密度观测特征,对地震高发区的中短期异常指标仅进行中短期分析。地震区域应力叠加导致地震前兆现象的开启,引起断裂带裂隙,地下水温度和地下深部气体异常变化,水岩变化使得地下流体混合前兆增强。在地震前兆观测范围内,获取地下流体异常指标变化可以为震前预测提供数据支持,推动地震预测理论的发展。 相似文献
2.
鲁甸6.5级地震地下流体典型异常与前兆机理分析 总被引:2,自引:1,他引:1
基于川滇地区前兆台网资料,结合异常现场核实工作结果,对鲁甸6.5级地震前的地下流体异常现象进行了总结。遵循地震分析预报的基本思路,按照长期、中期、短期趋势异常、临震异常和宏观异常阐述了鲁甸6.5级地震前地下流体典型异常现象。结果表明,长期和中期趋势背景异常主要出现在距震中300~500km范围,短期趋势和临震及宏观异常集中于震中区100km范围内。这种流体异常特征反映了在较高密度的观测点区域,可以观测到流体活动加剧的前兆现象,有利于判定地震危险区和短期阶段跟踪分析。区域应力加载作用可能引起的断裂带裂隙的开启与闭合,导致温泉和井水温、深部气体与承压井水位的持续变化;水岩反应加剧和地下水混合作用增强,使地下水离子组分浓度发生变化,甚至导致显著宏观异常。在一定密度的前兆观测地区,能够获取用于判定地震危险性的前兆信息。 相似文献
3.
地下流体及流体力普遍存在且对地震前兆产生作用。本文从前兆机理、实例等方面综述了地下流体及流体力(包括降水等产生的力)对地震前兆的作用,表明降水等产生的地下流体及流体力对地震前兆的作用不可忽略,无论是浅层地下流体还是深部地下流体均影响前兆异常的产生,且地下流体对地震前兆的作用是在特定的地质构造、水文地质环境下发生。 相似文献
4.
本文对监测地下深部气体组分含量变化,在地震预报中的作用作了论述,对开展天山地震带气体地震前兆研究的条件和SP—2305色谱仪观测条件的选择作了分析,最后,对气体测量在地震预报中的效应进行了探讨。 相似文献
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在分析了滇东北地区2006年7月22日、8月25日2次盐津5.1级地震前近震区和外围观测井点地下水物理、化学及断层气CO2异常基础上,总结了地下流体异常特征。研究结果表明:临近地震发生的短期阶段,流体前兆异常数量有增多的趋势;短临阶段在近震区附近出现宏观异常,异常点分布在距震中120 km范围内;从异常点的时空演化特征来看,距震中180km以内的观测井在震前异常显著,异常演化具有扩散、收缩现象;距震中180 km以外的2个二氧化碳观测点均表现为中短期异常,短临阶段有加速转折特征。由此可见,在地震孕育的短临阶段,地下流体微观异常与宏观异常的配套性综合分析是提高预测能力的重要依据。 相似文献
6.
在地震的孕育、发生到发展的过程中,可能会出现多项地下流体观测量不同程度的前兆异常变化,这些异常变化是复杂多样、模糊不清的。引入模糊识别法对一定区域和一定时间段的地下流体观测数据进行了分析和处理,表明模糊识别法可较好地识别和分辨出地下流体前兆的地震异常。 相似文献
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地震地下流体在地震预测研究与震情跟踪方面发挥着重要作用,本文对2021年5月22日青海玛多MS7.4地震前震中附近地下流体观测资料及异常特征进行系统分析,并结合震前预测过程进行了回顾性总结。结果表明,玛多MS7.4地震震中距500km范围内存在5项异常,其中4项为短期异常,主要出现在震前2~3个月。异常在空间上分布不均匀,主要位于玛多MS7.4地震震中的东北部和西南部,整体呈现出由外围向震中收缩的迁移特征,且玛多MS7.4地震和2010年青海玉树MS7.1地震在异常特征和应力加载作用方面具有较好的相似性。研究结果为地震监测能力较低地区积累了震例资料,对于提升强震地下流体前兆异常认识及未来震情趋势判定水平具有一定的参考意义。 相似文献
9.
从1980年7月至1983年12月,每周从台湾北部四个测点取双样测定地下热水和富含CO_2的冷泉中的氡(~(222)Rn)浓度。在三个测点上观测到七次脉冲式氡异常(其增长超过均值的2~3倍标准误差),每次异常(一次除外)后4至51天内均发生M_1 4.6级以上地震。震中距为14到45公里,震源深度小于10公里。具有氡异常前兆的地震分布,偏向于氡测点的某一方向。对其它方向发生的地震,氡测点似乎不敏感。在邻近火山地区的第四个测点上,大量气体(主要是CO_2)同热水一起从井孔排出。从排出的气体中检测到的氡浓度很高。因此,水中气体的分离可能导致高的氡含量异常。据有限的测定,水氡浓度相对于气氡似乎没有饱和。这表明热水很容易损失氡。因此,更需要监测气氡。 相似文献
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Earth degassing specifically of carbon dioxide CO2 is of increasing interest with respect to the global carbon budget, related climate effects, earthquake and volcano eruption mechanisms, as well as plant physiological reactions in gas-rich environments. Investigations in all of these disciplines require the detection of surface CO2 degassing structures and quantification of their emissions. We introduce minimal thermal change detection based on infrared imaging as a new remote sensing tool for the detection of earth surface thermal anomalies suiting among others to discover earth degassing locations of any origin. The method allows for seamless areal search and monitoring of degassing structures in any terrain. As proof of concept infrared imaging measurements were performed at the Bossoleto vent on the eastern master fault of the Siena Graben (Tuscany, Italy). It is known for the migration of a large amount of CO2-rich gas from deep geothermal reservoirs. Field data acquired confirmed the qualification of the method. Detection of CO2 degassing locations from infrared image time series worked reliably and optimal detection conditions were identified (dry, calm, cloudless weather between dusk and dawn). A simple model of heat exchange processes involved and observed was developed. In a first attempt this model was applied to determine the gas exit temperature, the area of gas thermal reach and the gas flux from recorded image series. It is the first method that allows remote areal survey of mofette fields and the associated CO2 flux quantification sole from infrared image time series. 相似文献
12.
Since late 2002, a continuous automatic monitoring network is operating in Tuscany, Central Italy, to investigate the geochemical response of selected aquifers to local seismic activity. The monitoring is aimed at identifying possible earthquake geochemical precursors. The network is currently constituted by six stations, all equipped with sensors for the measurement of temperature, pH, redox potential, electrical conductivity, CO2 and CH4 dissolved concentration, that have been installed in the areas of highest seismic risk of the region. By combining geochemical data gathered from the automatic station of Gallicano (Garfagnana, Northern Tuscany), and obtained via chemical analyses of spring water samples collected during periodic field surveys in the area surrounding this station, the most significant aspects of the deep fluid circulation paths feeding the Gallicano thermo-mineral system have been investigated, and the geochemical baseline of the Gallicano spring defined. The CO2 continuous signal recorded by the Gallicano automatic station has been then processed over the period 2003–2013 in the search for anomalies possibly related to local seismic activity. A substantial anomaly in CO2 content has been observed at Gallicano in conjunction with the Alpi Apuane earthquake (M = 5.2) of 21 June 2013. 相似文献
13.
归纳总结了安庆M_S4.8地震、高邮-宝应M_S4.9地震前出现的地下流体异常,并对其形成机理作了初步讨论。结果显示,这2次地震前地下流体异常特征比较相似。在时间进程上,都表现出中期趋势背景异常与短临异常的配套性特征。在空间分布上,中期趋势背景阶段,水位异常均表现为震中附近流体井水位呈趋势性转折上升,而震中外围流体井水位呈趋势性转折下降的特点。且转折上升的流体井在空间上的分布方位与地震的发震断层走向一致。在短临阶段,异常均表现为先向外迁移继而向震中靠拢的特点。水位在空间上的规律性分布可能受区域应力场作用以及区域构造格局所控制。 相似文献
14.
分析2016年10月20日射阳MS4.4地震前地下流体典型异常特征并对其机理进行讨论。该地震前的地下流体前兆异常(1)从时间进程看可分为中期趋势背景异常和短期异常;(2)从空间演化上看,在中期趋势背景阶段,异常分布在离震中300 km范围内,其在起始时间上表现为从震中向外围迁移继而向震中靠拢的特点。相较于中期趋势背景阶段异常;短期异常在空间上向震中收缩,分布在离震中100~200 km范围内,其在起始时间上,表现为向震中靠拢的特点。井水温异常变化可能是区域应力加载作用的产物,而离子浓度的变化可能是水岩反应加剧引起的。 相似文献
15.
天山地区的高压自流水、高压油气藏及地热异常区的出露与天山地震带分布的一致性表明,孔隙水压异常高的动力条件可能成为触发浅源地震的重要机制。本文以丰富的震例为依据,认为天山地震带中强地震前地下流体出现两类异常:一类是应力应变能积累阶段的趋势性异常;一类是应力应变能预释放阶段的临震突发性异常。两类异常在形态上和时空分布上有完全不同的特征,它们显示出地震孕育过程中的两个完全不同的物理、化学过程。 相似文献
16.
Turhan Dogan Toshiya Mori Fumiaki Tsunomori Kenji Notsu 《Pure and Applied Geophysics》2007,164(12):2449-2463
Soil H2 and CO2 surveys were carried out along seven active faults and around the aftershock region of the 2000 Tottori-ken Seibu earthquake
in Japan. Diffuse CO2 effluxes were also measured along one fault and around the 2000 aftershock region. The results show highly variable H2 concentration in space and time and it seems that the maximum H2 concentration at each active fault correlates with fault activity as exemplified by the time of the latest big earthquakes.
Even though observed H2 concentrations in four faults were markedly lower than those collected previously in the latter half of the 1970s, it is
evident that the higher H2 concentrations in this study are due to the addition of the fault gases. Comparing the chemical composition of trapped gases
(H2: 5–20% and CO2/H2: 0.5–12) in fractured rocks of drill cores bored at the Nojima fault, a soil gas sample with the highest H2 concentration showed large amounts of the trapped fault gas, diluted with atmospheric component. The profile experiment across
a fracture zone at the Yamasaki fault showed higher H2 concentrations and lower CO2/H2 ratios as was observed in soil gas from the fracture zone. A few days after the 2000 Tottori-kei Seibu earthquake, no CO2 effluxes related to the occurrence of earthquakes were observed at the aftershock region. However, only above the epicenter
zone, relatively high H2 concentrations in soil gases were observed. 相似文献
17.
Lake Albano, located 20 km to the SE of Rome, is hosted within the most recent crater of the quiescent Alban Hills volcanic complex that produced hydromagmatic eruptions in Holocene times. Stratigraphic, archaeological and historical evidence indicates that the lake level underwent important variations in the Bronze Age. Before the IV century B.C. several lahars were generated by water overflows from the lake and in the IV century B.C. Romans excavated a drainage tunnel. The lake is located above a buried carbonate horst that contains a pressurized medium-enthalpy geothermal reservoir from which fluids escape to the surface to produce many important gas manifestations of mostly CO2. Previous studies recognized the presence of gas emissions also from the crater bottom. In 1997 the possibility of a Nyos-type event triggered by a lake rollover was considered very low, because the CO2 water concentration at depth was found to be far from saturation. However, considering the high population density nearby, the Italian Civil Protection Department recommended that periodical monitoring be carried out. To this scope we initiated in 2001 a systematic geochemical study of the lake. Thirteen vertical profiles have been repeatedly carried out in 2001–2006, especially in the deepest part of the lake (167 m in 2006), measuring T, pH, dissolved O2 and electrical conductivity. Water samples were collected from various depths and chemically and isotopically analysed. Two similar profiles have been measured also in the nearby Nemi crater lake. Results indicate that in the 4.5 years of monitoring the pressure of gas dissolved in the Lake Albano deep waters remained much lower than the hydrostatic pressure. A CO2 soil survey carried out on the borders of the two lakes, indicates the presence of some zones of anomalous degassing of likely magmatic origin. A water overturn or a heavy mixing of deep and shallow waters likely occurred in winter 2003–2004, when cold rainfall cooled the surface water below 8.5 °C. Such overturns cause only a limited gas exsolution from the lake when the deep water is brought to a few meters depth but can explain the observed decrease with time of dissolved CO2 at depth and related water pH increase. A gas hazard could occur in the case of a sudden injection through the lake bottom of a huge quantity of CO2-rich fluids, which might be caused by earthquake induced fracturing of the rock pile beneath the lake. A limnic gas eruption might also occur should CO2 concentration build up within the lake for a long time. 相似文献
18.
Continuous gas monitoring in the West Bohemian earthquake area,Czech Republic: First results 总被引:1,自引:1,他引:0
Eckhard Faber Josef Horálek Alena Boušková Manfred Teschner Ulrich Koch Jürgen Poggenburg 《Studia Geophysica et Geodaetica》2009,53(3):315-328
Two stations monitoring concentrations of carbon dioxide and radon in soil gas (Oldřišská and Novy Kostel) and one station
monitoring flow of carbon dioxide at a mofette (Soos) have been operated in the area of the West Bohemian earthquake swarms.
We present preliminary results obtained on the base of four-year observations. We found that data are not influenced considerably
by barometric pressure. Although the CO2 concentration varies greatly, the long-term trends at stations Oldřišská and Novy Kostel are similar, which indicates that
the CO2 flow is controlled by common geogenic processes. Also temporal trends of CO2 and Rn concentrations in soil gas at individual stations are analogous. We found diurnal variations of both CO2 concentration in soil gas and the CO2 flow at mofettes due to the earth tides. A response to tides of semi-diurnal period is insignificant in CO2 concentration and only weak in the CO2 flow. We also examined possible pre-seismic, co-seismic and post-seismic effects of the intensive 2008 earthquake swarm on
the CO2 concentration at Oldřišská and Novy Kostel, and on the CO2 flow at Soos. However, all potential indications were insignificant and there has not been proven any influence of the swarm
on the CO2 concentration as well as on the CO2 flow. Nevertheless, a gradual decrease of amplitudes of diurnal variations before the swarm and the lowest amplitudes during
the swarm is a noteworthy phenomenon, which might indicate the strain changes of the rock associated with earthquake swarm. 相似文献