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1.
泥火山——天然气水合物存在的活证据   总被引:2,自引:0,他引:2  
海底天然气水合物大多与通过切穿沉积盖层的断裂的上升烃类流体相关,这些高渗透带包括泥火山和底辟等侵入构造,所以泥火山、底辟和海底断裂等构造周围可能赋存水合物;实际钻探结果也证实,泥火山和水合物的形成与聚集有较为密切的关系。泥火山,它是地层内部圈闭气体由于压力释放上冲的结果,也是气体向上运移的通道。文章初步总结了泥火山与水合物的成矿关系,认为泥火山是水合物赋存的标志之一,是水合物存在的活证据。本文对我国泥火山与水合物的发育和赋存进行了分析预测,并对泥火山构造中水合物的成矿模式进行了初步探讨。  相似文献   

2.
汶川地震震中"爆烈式泥火山"引发Ms8.0大地震,造成巨大破坏和惨重损失,但此多点的泥火山群场景,较2009年提名为"世界最有价值自然遗产——爱沙尼亚泥火山",更具人类解密地内超临界水流(熔)体奥秘的典型意义。5.12地震中泥火山(群)的地下深处,临震前聚集能量的超临界流体(SCW),与常态水比较,它在壳幔地体中,表明张力和粘度极低,扩散迁移能力极强;密度、热导率、电性能、比热容及对地内物质的溶解力均有成百至数千倍的差异;巨大的内能;在临瞬间爆发退相,造成体积流率达N×109m3的气流动能等,SCW的这一切自燃特征决定了他是地震的成因,也是地内壳幔中一切内生地质作用的原动力。SCW引发的地震分为三类:主震有喷发活动的汶川型泥火山-地震(包括:2009—3—18汤加浅海边气火山伴Ms7.9地震)、主震无喷发活动的唐山型(包括中源深源地震)及主要在深海喷发海啸-地震(印尼2004-12-26海啸伴8.7级地震)。SCW为高温高压热流体,它的大量运移,集聚地及临震减压排气进而退相爆发等特点,采用当代地球物理探测技术,至少对浅源的SCW"看得见、摸得着",成功短临预报现实用地-空红外探测技术即可实现。  相似文献   

3.
This paper discusses the results of long-term monitoring observations on the chemical and isotopic composition of free gases in gryphons of the South Sakhalin mud volcano on Sakhalin Island. It was shown that during seismic activation in the region, the chemical composition of free gases changes, whereas the isotopic composition of carbon in methane and carbon dioxide remains constant. A possible interpretation of the obtained data was suggested. The depth of the gas reservoir that supplies the South Sakhalin mud volcano was estimated as well.  相似文献   

4.
台湾西南部乌山顶泥火山的成因机制初探   总被引:2,自引:0,他引:2  
乌山顶泥火山位于台湾西南部旗山断层沿线.由于台湾西南部具有独特的地质构造背景,沿着古亭坑背斜和旗山断层沿线分布了许多泥火山.本文以乌山顶泥火山为例,研究泥火山的成因.在了解泥火山地质背景、活动现状的基础上,分析了喷出物的矿物组成、古生物组合、流体地球化学特征.喷出的主要矿物有石英、伊利石、高岭石-蒙脱石混层矿物、伊利石-蒙脱石混层矿物,古生物有Reticulofenestra minuta、 Sphenolithus abies等,流体中的离子主要是Cl-、Na+等.由此探讨了泥浆来源和成因机制,认为泥火山的活动与深部古亭坑组地层存在异常高压有关,构造活动是泥火山活动的主要诱发因素.  相似文献   

5.
在羌塘盆地唢呐湖地区发现现代泥火山,通过采集泥浆样、水样等样品,开展水化学离子、水溶烃类气体、碳氢氧稳定同位素等测试分析,对现代泥火山的油气地质意义进行了探讨。水化学类型和氢氧同位素表明,该地区地下可能存在油气藏;水溶烃类气体测试结果表明,气体成分为C1~C5,以甲烷为主,与常规气藏的气体成分一致;碳同位素判别结果表明,其为热解成因的油成气。结合泥火山的地质背景,表明泥火山为油气藏破坏渗漏的产物,在保存良好的未泄露地区,油气勘探具有良好前景。  相似文献   

6.
火山矿泥是一种于严苛条件下历经数百年形成的珍稀矿产资源,目前尚无判定及评价其质量的方法.本研究采用因子分析法及最小数据集理论构建火山矿泥质量评价方法,并对五大连池风景区内火山矿泥质量进行综合评价.研究结果表明:火山矿泥质量评价最小数据集包括V、Al、含水量、黏粒,将五大连池火山矿泥分为4个质量等级,其中I级火山矿泥的储量最大,约占总储量的一半.新期火山周边火山矿泥质量最好,西部火山周边的火山矿泥质量整体优于东部.  相似文献   

7.
Mud volcanoes can provide important information about the underlying strata, hydrocarbon accumulation, and recent neotectonic movements in an area. The fluids erupting from mud volcanoes provide important information about their formation and evolution. The ion concentration and the hydrogen and oxygen isotopes of the fluids that were erupted from the three mud volcano groups, Baiyanggou, Aiqigou, and Dushanzi, and nearby rivers in the southern margin of the Junggar basin, northwestern China, are studied. The concentrations of Na and Cl in mud volcano fluids are clearly elevated, displayed as the Na-Cl type. The δD and δ18O values of the fluids are similar between the Baiyanggou and Dushanzi mud volcanoes, which are mainly from ancient sedimentary pore water. However, the Aiqigou mud volcano is depleted in dissolved Cl and shows lower δ18O values with mixed sources, including deep pore and local meteoric water. Two types of mud volcanoes are proposed in this study. One type is low-energy mud volcanoes with a low volume of fluid of deep origin on the hillcrest, which display as mud pool/pie/hole. The other type is high-energy mud volcanoes having mixed fluid origin in the valley and formed in the shape of a mud cone (dome).  相似文献   

8.
东海与泥底辟构造有关的天然气水合物初探   总被引:6,自引:2,他引:4  
根据所获得的高分辨率地震资料分析,发现冲绳海槽南部西侧槽坡附近以及海槽内部发育有一系列泥火山(底辟)构造,在地形上表现为泥火山地貌,在穿过泥火山的地震剖面上,表现出典型的泥底辟构造。对穿过泥底辟构造的DMS01-5地震剖面进一步的处理和解释发现,泥底辟构造顶部存在明显的似海底反射(BSR),其与海底反射波组极性相反,在BSR之上存在振幅空白带,在速度谱上出现速度异常,指示存在与泥火山有关的天然气水合物。从世界广泛发现的与泥底辟构造有关的天然气水合物来看,天然气水合物既可以在泥底辟构造的丘状外围成藏,也可以在其外围的海底沉积物中产出。在泥底辟构造的丘状外围附近,天然气水合物的形成机制类似于传统的矿物低温热液的形成;在泥底辟构造外围海底沉积物中,其形成过程类似于传统的矿物交代形成机制。冲绳海槽泥底辟构造的发育与很高的沉积速率和槽坡的活动断层有关。在冰期期间,长江携带大量的陆源物质直接输送到大陆坡地区,沉积速率达300 m/Ma,产生异常高压,同时张性断层极为发育,为流体的迁移提供了良好的通道,在异常压力以及上覆地层压力作用下大量流体向上运移,从而发育大量的泥底辟构造。富含甲烷的流体易在其外围及外围海底沉积物中形成天然气水合物藏。  相似文献   

9.
The submarine Haakon Mosby mud volcano was studied in detail during several cruises, resulting in the collection of an abundant and diverse lithological material. Comprehensive field and laboratory studies made it possible to identify different types of sediments with specific granulometric and pelite fraction (<0.005 mm) compositions, as well as the regularity of their spatial distribution relative to various morphostructural zones of the mud volcano.  相似文献   

10.
The paper describes crude oils and gases from mud volcanoes and oils and gases from producing horizons at depth in the same area. It is shown that the mud volcano gases and oils (the oils particularly) can be correlated with those in strata from 500 m. to more than 2,600 m deep. The mud volcano gases are somewhat modified by hypergene processes. Analytical data in tabular form is given.--B. W. Nelson.  相似文献   

11.
Active mud volcanoes on- and offshore eastern Makran, Pakistan   总被引:3,自引:0,他引:3  
To study the activity, source and driving force of the venting of fluidized mud in the coastal Makran, we carried out reconnaissance surveys of two active onshore mud volcano fields (Chandragup and Jebel-u-Ghurab) and of a newly born (March 1999) offshore mud volcano (Malan Island). All studied on- and offshore mud volcanoes line up along one southwest/northeast-trending structural lineament, the axis of the Dhak Anticline. Isotopic data point to a bacterial origin of the gas (mainly methane). Mixed benthic foraminiferal faunas and calcareous nannofloras suggest that the source level of the extruded mud is at a sub-surface depth of 2-3 km. Observed mud discharge varied between 0 and 1.4 m3 h-1 and gas discharge rates between negligible amounts to 1 m3 s-1. Mud temperatures in the crater lake of Chandragup I are near-ambient temperatures. They rise slightly (Б.5°C) during episodes of modest mud outflow. An area of 160,000 m3 of soft mud was vigorously extruded from the sea floor at a water depth of 10 m within days after 15 March 1999, forming Malan Island. The island was destroyed within a few months after its birth by deep-reaching wave action during the SW monsoon. This was possibly aided by local subsidence of the mud volcano structure due to the volume loss following rapid degassing and mud extrusion.  相似文献   

12.
The results of hydrogeochemical observations on the Yuzhno-Sakhalinsk mud volcano in 2010–2014 are considered. The chemical analysis of samples of mud–volcanic waters was carried out at various analytical centers, which is similar to the common situation where hydrochemical data for a volcano are obtained by different researchers. It is shown that the chemical composition of the mud–volcanic waters is relatively stable in time and space (for different gryphons of the volcano). This allows us to determine the characteristic range of hydrogeochemical indicators. For each year of observations, the coefficients of variation for the concentrations of Na, Mg, Ca, K, and HCO3 mostly range from 10 to 30%. However, the concentrations analyzed in individual samples may differ significantly from each other. These natural variations are a likely source of errors in the interpretation of hydrochemical data. In addition, it is necessary to account for the specifics of mud–volcanic waters as an object of analytical chemical investigations.  相似文献   

13.
Hydrogeochemical monitoring has been implemented at a mud volcano for the first time in the world. Measurements were carried out during the field season of 2015 at five gryphons of the South Sakhalin mud volcano with various degrees of activity. Statistically significant differences in the chemical compositions of mud-volcano waters from different gryphons are established. These differences are determined by the activity of the gryphons.  相似文献   

14.
ABSTRACT In the foothills of the Northern Apennines mud volcanoes are locally aligned along active normal faults, which allow surface leakage of fluids derived from deep sources (>3–6 km). The chemical and isotopic analysis of the fluids of a mud volcano, coupled with the reconstruction of its geological setting, allowed an investigation of the processes of migration and fluid flow. The fault system associated with the Regnano mud volcano drains a deep Miocene reservoir (foredeep marine deposits), which supplies formation water and thermogenic methane that has migrated from underlying Mesozoic carbonates. The muds from the volcano contain late Eocene microfossils and are extruded only during paroxysmal events. They have a shallower origin (about 1 km) from the base of Tertiary marine deposits deposited upon the upper tectonic nappe of the chain (Ligurian unit). This case study suggests that normal faults are very effective in controlling surface emissions.  相似文献   

15.
Ershov  V. V.  Domanskii  A. V.  Levin  B. V. 《Doklady Earth Sciences》2010,435(1):1529-1534
This paper is devoted to modeling of the dynamics of the temperature regime of mud volcano gryphons. The model is elaborated on the basis of a nonstationary equation of thermal conductivity with a convective component and describes well the observed regularities of thermal regime of South Sakhalin mud volcano gryphons. It is shown that anomalous changes in the temperature of the water-mud mixture after the Gornozavodsk and Nevelsk earthquakes in 2006–2007 are caused by variations in motion velocity of the mixture in the supply pipes of gryphons. It also has been shown that influx of deep geofluids cannot be considered as the main reason for thermal anomalies.  相似文献   

16.
Global positioning system (GPS) and satellite-based InSAR (Interferometric Synthetic Aperture Radar) measurements of the subsidence and uplift of a populated area of Sidoarjo, East Java are due to the eruption of the Lusi mud volcano (2006–present). These data are the first direct quantitative measurements of deformation due to the growth of a mud volcano edifice. The GPS data were recorded over periods of a few hours to several months and show that between June 2006 and September 2007, the earth’s surface has been subsiding at rates of 0.1–4 cm/day. Maximum rates of subsidence occurred in an area 300–400 m to the northwest of the main mud volcano vent. Horizontal displacements were 0.03–0.9 cm/day and were also towards this area. In general uplifts of up to 0.09 cm/day were recorded in areas outside of the edifice. Changes in elevation measured using satellite imagery (InSAR technique) provide regional datasets of subsidence and uplift. They confirm that during the first year a roughly circular area was undergoing sag-like subsidence centered to the northwest of the main vent and that uplift was occurring 3–4 months after the initiation of the eruption due to the movement Watukosek fault system. Subsidence occurred due to the weight of mud and man-made dams and the collapse of the overburden due to removal of mud from the subsurface. Assuming constant rates of subsidence of 4 cm/day, then in the centre of the edifice there would be up to 44 m of subsidence in 3 years, and up to 16 m in 10 years. The mud volcano is now in a self-organizing state with new fluid conduits forming as a result of the collapse. An erratum to this article can be found at  相似文献   

17.
The Dvurechenskii mud volcano (DMV) is located in permanently anoxic waters at 2060 m depth (Sorokin Trough, Black Sea). The DMV was studied during the RV Meteor expedition M72/2 as an example of an active mud volcano system, to investigate the significance of submarine mud volcanism for the methane and sulfide budget of the anoxic Black Sea hydrosphere. Our studies included benthic fluxes of methane and sulfide, as well as the factors controlling transport, consumption and production of both compounds within the sediment. The pie-shaped mud volcano showed temperature anomalies as well as solute and gas fluxes indicating high fluid flow at its summit north of the geographical center. The anaerobic oxidation of methane (AOM) coupled to sulfate reduction (SR) was repressed in this zone due to the upward flow of sulfate-depleted fluids through recently deposited subsurface muds, apparently limiting microbial methanotrophic activity. Consequently, the emission of dissolved methane into the water column was high, with an estimated rate of 0.46 mol m−2 d−1. On the wide plateau and edge of the mud volcano surrounding the summit, fluid flow and total methane flux were lower, allowing higher SR and AOM rates correlated with an increase in sulfate penetration into the sediment. Here, between 50% and 70% of the methane flux (0.07-0.1 mol m−2 d−1) was consumed within the upper 10 cm of the sediment. The overall amount of dissolved methane released from the entire mud volcano structure into the water column was significant with a discharge of 1.3 × 107 mol yr−1. The DMV maintains also high areal rates of methane-fueled sulfide production and emission of on average 0.05 mol m−2 d−1. This is a difference to mud volcanoes in oxic waters, which emit similar amounts of methane, but not sulfide. However, based on a comparison of this and other mud volcanoes of the Black Sea, we conclude that sulfide and methane emission into the hydrosphere from deep-water mud volcanoes does not significantly contribute to the sulfide and methane inventory of the Black Sea.  相似文献   

18.
Sakhalin Island is the only region in the Russian Far East where mud volcanism is manifested on land. The South Sakhalin mud volcano is located in the south of the island in the zone of the Central Sakhalin Fault (upthrow-thrust). The horizontal and vertical displacements of the earth’s surface after this mud volcano erupted in 2011 are revealed for the first time based on the GPS observation data. On the basis of the inversion of the measured displacements for the homogeneous elastic half-space, a model of the finite spherical eruption source is constructed. The coordinates, depth, and possible size of the source are defined and the volumes of the erupted clay rock, water, and gas are estimated.  相似文献   

19.
Mud volcanism is an abundant, global phenomenon whereby fluid-rich, low-density sediments extrude both on land and offshore. Methane, which generally exceeds 90 vol% of the gas phase, is emitted at high rates during and after emplacement of the mud domes and is known for its high global warming potential (GWP). This comprehensive estimate of the annual contribution of mud volcano degassing assesses the significance of mud volcanism for the accumulation of greenhouse gases in the atmosphere. A first-order estimate for the earlier, pre-anthropogenic volume of methane released through mud volcanoes further supports their profound effect on the Earth's climate since at least the Paleozoic (570 Ma).  相似文献   

20.
The work discusses relationships between mud volcanoes, tectonic faults, folds, and oil-and-gas deposits. The location of roots and centers of mud volcanic activity is analyzed. It proposes a new model of mud volcano formation, according to which these structures result from the development of elision systems of sedimentary basins.  相似文献   

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