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沿科洛—五大连池—二克山NNW向分布的五大连池火山带上分布了约40座第四纪单成因火山。通过野外地质特征结合火山岩年代学数据分析表明,研究区火山活动分为2期:上新世—早更新世期火山活动主要分布在北部的科洛火山区,以熔岩溢流式喷发为主;中更新世—全新世期火山活动分布在整个火山带,爆破式喷发形成大量火山碎屑锥,溢流式喷发产生结壳熔岩、渣状熔岩与块状熔岩,形成广泛分布的熔岩流。野外调查发现了夏威夷型、斯通博利型与强斯通博利型等岩浆爆破式火山喷发的典型堆积剖面,首次发现并报道研究区射汽岩浆型火山喷发堆积剖面。结合火山活动历史与火山地质特征,分析认为五大连池火山带的火山系统仍有再次活动的潜力。基于火山时空分布与喷发特征,文中对五大连池火山带未来可能喷发的方式和危险区进行评估。如若发生强斯通博利型喷发,将形成高度10km的喷发柱,产生的火山灰一般不会对航空运输产生影响;斯通博利型喷发产生的火山碎屑最远可抛射约1km;夏威夷型喷发及溢流式喷发产生的熔岩流是主要的灾害源,计算得出结壳熔岩运移的距离为3. 0~13. 5km,渣状熔岩运移的距离为2. 9~14. 9km;射汽岩浆型喷发产生的基浪速度可达200~400m/s,运移距离≤10km,是潜在的重要灾害类型,应该引起更多重视,并积极进行防范。 相似文献
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琼北马鞍岭地区第四纪火山活动具有多期性。据火山作用方式、火山形貌及风化程度、火山喷发产物与沉积地层以及火山机构之间的相互叠置关系 ,结合同位素年龄 ,可分为德义岭、道堂、杨花、雷虎岭、昌道和马鞍岭等 6期 ,其中德义岭期为中更新世 ,道堂和杨花期为晚更新世 ,雷虎岭、昌道和马鞍岭期属全新世。不同期次具有不同的火山活动方式、喷发强度及火山结构类型。德义岭期火山活动以溢流为主 ,火山锥为低缓的熔岩穹丘。杨花期为射气岩浆爆发作用形成的低平火山。雷虎岭与马鞍岭期主要形成由碎屑锥和熔岩流组成的夏威夷式火山 ,熔岩流构造类型以结壳熔岩为主 相似文献
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在野外地质资料基础上,利用火山形态学方法,探讨了大兴安岭焰山、高山火山的喷发型式。结果表明,大兴安岭哈拉哈河-绰尔河火山群中的焰山和高山火山不同于斯通博利式喷发形成的火山,其早期爆破喷发的火山碎屑形成火山渣锥、空降火山碎屑席和小型火山碎屑流,晚期溢出大量熔岩。两火山具有较高大的锥体(标高200~300m以上),在结构上,松散火山砾、火山弹等构成下部的降落锥,熔结集块岩构成上部的溅落锥。由火山砾和火山灰组成的空降火山碎屑席分布在火山锥体周围。两火山溢出的熔岩经历了从结壳熔岩→翻花石→渣状熔岩的演变。根据喷发产物可推断焰山和高山火山具有以下喷发特征:爆破喷发形成持续的喷发柱→斯通博利式喷发→熔岩喷泉喷溢,其中以持续时间较长的喷发柱区别于典型的斯通博利式喷发。类似焰山、高山火山的喷发特征,在龙岗第四纪火山群、镜泊湖全新世火山群中也都有个例,这是中国大陆火山作用中一种新的喷发型式。 相似文献
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五大连池火山群老黑山火烧山熔岩流流动特征及其形成动力过程 总被引:2,自引:0,他引:2
从火山灾害的预测预防角度出发,叙述了五大连池火山群老黑山、火烧山近代火山喷发所形成的熔岩流产物——熔岩的分布,表面特征,流动过程。讨论了漫流、溪谷熔岩流和潜流三种流动方式。对结壳熔岩、渣状熔岩、块状熔岩、喷气锥、熔岩遂道等的形成动力过程以及对古地形古环境条件的制约做了深入的讨论,提出新的形成模式和一些新的认识。 相似文献
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长白山天池火山喷发序列研究 总被引:4,自引:0,他引:4
长白山天池火山周边的11个钻孔资料揭示了长白山天池火山的喷发序列和岩浆演化过程.天池火山的喷发序列分为3个旋回:早期旋回喷发于上新世至早更新世,对应着周边地区的造高原喷发,天池火山熔岩盾主体开始形成,岩浆演化顺序是粗面玄武岩到粗面岩;中期旋回是早更新世的玄武岩浆演化到粗面岩和粗安岩(相当于小白山组);晚期旋回是从更新世到全新世,老房子小山组的玄武岩演化到白头山组粗面岩及碱流岩.在粗面质岩浆喷发过程中,有寄生火山的玄武质岩浆伴随喷发.全新世内天池火山千年大喷发主体由碱流质火山碎屑堆积物构成,松散堆积物的钻孔堆积层序表明,天池火山在全新世至少发生过两期巨型造伊格尼姆岩喷发. 相似文献
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焰山、高山--内蒙古阿尔山火山群中的两座活火山 总被引:11,自引:0,他引:11
阿尔山火山群位于内蒙古自治区东部 ,地处大兴安岭中段西缘 ,地理坐标为 1 2 0°1 4′0 0″~ 1 2 1°1 0′0 0″E ,4 7°1 5′0 0″~ 4 7°4 5′0 0″N。火山构造单元上属大同 -大兴安岭新生代火山活动带 (黄镇国等 ,1 993)。火山活动具多期性 ,可分为上新世、更新世和全新世。火山产物覆盖在侏罗纪火山 -侵入岩之上 ,总体呈北东向展布 ,出露面积约 1 30 0 (km) 2 ,上新世为拉斑玄武岩 ,第四纪主要为碱性橄榄玄武岩。火山作用方式既有岩浆爆破式和溢流式 ,也有射气岩浆喷发。以往区域地质调查 ① ,② 和本次初步考察确定阿尔山火山群由 4… 相似文献
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阿什库勒盆地位于NE向阿尔金断裂与NW向康西瓦断裂的"弧形"交会处,构造活动十分活跃,盆地内发育10余座火山,其中阿什火山为该火山群中最新活动的火山。文中从火山地质、熔岩和斑晶成分、显微结构特征及地质温压计4个方面对阿什火山进行了详细研究。结果表明,阿什火山由火山锥和熔岩流组成,锥体由早期的渣锥和晚期的溅落锥组成,熔岩流分布面积约33km2,可划分为4个流动单元。熔岩属于钾玄岩系列,岩性为粗安岩,显微镜下呈斑状结构。斑晶以长石(主要为中长石)和辉石(包括普通辉石、古铜辉石和紫苏辉石)为主;基质为玻璃质、隐晶质、微晶质,部分含有大量的长石和辉石。斑晶与岩浆的平衡温度为1 104~1 194℃,压力为570~980MPa,对应的岩浆房深度为18.92~32.29km。 相似文献
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镜泊湖全新世火山群 10余座火山分成 5个小的喷发中心位居西南和东北两区 ,每个喷发中心由 2~ 4个火山组成。西南区包括“火山口森林”、“大干泡”、“五道沟”和“迷魂阵”等 4个喷发中心 ,东北区仅“蛤蟆塘”1个喷发中心。火山喷发的产物主要包括熔岩流、溅落堆积和空降堆积 ,火口的锥体主要由溅落堆积的火山渣、火山弹、熔岩饼和薄层熔岩流组成。在“大干泡”和“蛤蟆塘”两处的空降碎屑堆积可达数米厚。镜泊湖全新世火山岩分布面积近 5 0 0km2 ,岩浆主要源自“火山口森林”的1号和 4号火口。文中通过“火山口森林”4号火口空降碎屑实测剖面及其碳化木14 C定年 ,纠正了以往的14 C定年资料 ,认为镜泊湖全新世火山的喷发活动主要在距今 5 2 0 0~ 5 5 0 0a,相继由多次喷发形成 10余座火山。研究认为 ,镜泊湖地区全新世期间不存在以千年计的 3期火山喷发活动 相似文献
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锡林浩特-阿巴嘎火山群内的玛珥式火山 总被引:4,自引:0,他引:4
锡林浩特-阿巴嘎火山群位于内蒙古自治区锡林郭勒盟,处于大兴安岭-大同新生代火山喷发带中段。火山群内发育300余座不同类型的第四纪玄武质火山,其中玛珥式火山属首次发现,以阿巴嘎旗东南部的浩特乌拉、西北部的车勒乌拉和额斯格乌拉玛珥式火山最具代表性,其火山规模较大,锥体直径一般为3~4km,大者约6.5km。火山结构较完整,具有相似的双轮山地貌景观和明显的阶段性喷发过程,喷发阶段早期为强烈的射汽-岩浆爆发,晚期均转变为弱岩浆爆发,最后为玄武质熔岩流的溢出。这种喷发序列反映了岩浆与水相互作用以及岩浆上升速度和溢出率变化的过程。火山喷发形成的基浪堆积物覆盖在中更新统河谷砂砾石之上,其中近火口溅落堆积物中上新世砂泥岩"包体"的热释光年龄为(0.112±0.0096)Ma,表明玛珥式火山喷发时代属晚更新世早期。 相似文献
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More than 40 late Cenozoic monogenetic volcanoes formed a volcanic belt striking NNW from Keluo, through Wudalianchi to Erkeshan in NE China. These volcanoes belong to a unified volcano system, namely Wudalianchi volcanic belt(WVB for short). Based on the volcanic evolution history and the nature of monogenetic volcanic system, we estimate that the volcanic system of WVB is still active and has the potential to erupt again. Hence, this paper studied the temporal-spatial distribution and volcanic eruption types to evaluate the possible eruption hazard types and areas of influence in the future.
Volcanic field characteristics and K-Ar radiometric data suggest two episodes of volcanism in the WVB, the Pliocene to early Pleistocene volcanism(4.59~1.00MaBP)and the middle Pleistocene to Holocene volcanism(0.79Ma to now). The early episode volcanoes are distributed only in the north of WVB(mainly in Keluo volcanic field), featured by effusive eruption, and mainly formed monogenetic shield, whose base diameter is large and slope is gentle. However, the late episode eruptions occurred over the entire WVB. The explosive eruption in this stage formed numerous relatively intact scoria cones of explosive origin. Meanwhile the effusive eruption formed widely distributed lava flows.
Both effusive eruption and explosive eruption are common in WVB. The effusive eruption formed monogenetic shields and lava flows. The resulting pahoehoe lava, aa lava and block lava appeared in WVB. There are three end-member types of explosive eruption driven by magmatic volatile. Violent Strombolian eruption has the highest degree of fragmentation and mass flux, characterized by eruption column. Strombolian eruption has the high degree of fragmentation, but low mass flux, featured by pulse eruption. Hawaiian eruption has low degree of fragmentation, but high in mass flux, generating large scoria cones. In addition, this paper for the first time found phreatomagmatic eruption in WVB, which formed tuff cone. Transitional eruptions are also common in WVB, which have certain characteristics among the end-member eruption types. Besides, certain volcanoes displayed multiple explosive eruption types during the whole eruption span.
According to the volcanic temporal-spatial distribution and eruption characteristics in WVB, the potential volcanic hazards in future are constrained. It appears that the violent Strombolian and Strombolian eruption will not have significant impact on aviation safety in the vertical direction. In the radial direction, the ejected volcanic bomb can reach as far as 1km from the vents and the fallout tephra may disperse downwind over a distance ranging from 1~10km. The major hazard of Hawaiian eruption and effusive eruption comes from lava flow, and its migration distance may reach 3.0~13.5km for pahoehoe lava and 2.9~14.9km for aa lava. The base surge in phreatomagmatic eruption can reach a velocity of 200~400m/s, and the migration distance is around 10km. This is a big threat that people should pay more attention to and take precautions in advance. Besides, it is necessary to strengthen the real-time observation of the volcanoes in the WVB, especially those formed in the late episode as well as near the active fault. 相似文献
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Field investigation and lab analysis on samples were carried out for Quaternary volcanoes, including Xiaoshan volcano, Dashan volcano and Bianzhuang hidden volcano, in Haixing area, east of North China. Results show that Xiaoshan volcano with the eruptive material of volcanic scoria, crystal fragments and volcanic ash is a maar volcano, the eruptive pattern is pheatomagmatic eruption, and the influence scope is near the crater. Dashan volcano exploded in the early stage, and then the magma intruded, forming the volcanic neck. The eruption strength and scale are limited, and the eruptive materials are scoria, volcanic agglomerate and dense lava neck. The volcanic rocks in Bianzhuang are porosity and dense volcanic rocks and volcanic breccia, reflecting the pattern of weak explosive eruption and lava flow, and the K-Ar age dating on volcanic rocks indicates that the eruption happened in early Pleistocene. Xiaoshan volcanic scoria and Bianzhuang hidden volcanic rocks are mainly basaltic, Dashan volcanic rocks with lower SiO2 content are nephelinite in composition. Their oxide contents have no linear relationship, indicating that there is no magma evolution relationship between these magmas from the three places. Three volcanic rocks all have enrichment of light rare earth. The Bianzhuang volcanic rocks are rich in large ion lithophile elements, and have no high field strength elements Zr and Hf, Ti losses. The volcanic materials from Xiaoshan and Dashan are intensively rich in Th, U, Nb and Ta, and significantly poor in K and Ti. Although the magmas from these three places in Haixing area may all come from asthenosphere, the volcanic materials have different petrological and geochemical features, and relatively independent volcanic structures, therefore, they experienced different magma processes. 相似文献
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根据琼北全新世火山区内火山作用产物的成因类型与喷发物理过程的野外考察结果 ,结合航片解译资料 ,确定了该区火山作用的发育特征、形成期次与规模 ,并以此作为进一步评价火山灾害的基础 ;根据锥体形成后物理降解作用与时间的关系 ,讨论了琼北全新世火山区众多锥体结构参数之间的关系。研究结果为 :琼北全新世火山区分为 4个火山系统 ,即西北部的马鞍岭台地火山系统、东南部的雷虎岭盾片状火山系统、夹于二者之间的浩昌单成因火山系统和NW向裂隙式喷发系统。工作区内琼北新生代火山共计 5 9个 ,火山结构类型可分为火山锥、熔岩穹、熔岩湖与低平火山口等。在火山锥中 ,依据锥体组成与结构的差异又可进一步分为岩渣锥、溅落锥和混合锥等碎屑锥。琼北近代火山锥体高度多 <4 0m ,绝大多数锥体的底部直径 <5 0 0m。锥体底部直径和火口坑深度之间具有明显的正相关关系。由锥体底部直径与火口缘直径的差值与锥体高度投点图可以明显地区分出早期的低平火山口和晚期的不同类型锥体 相似文献
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INVERSION RESEARCH OF PALEOSTRESS FIELD IN TENGCHONG AREA BASED ON VENT ALIGNMENT SURVEY METHOD 
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下载免费PDF全文 The acquisition of paleostress data has always been a key and difficult problem in the field of tectonics and crustal dynamics. Previous findings show that the distribution of dykes and the alignment of volcano vents can indicate the direction of major principal stresses during the volcanic eruption period. The extension direction of underground dyke is generally parallel to the linear arrangement direction of vent and both of them give the direction of maximum horizontal principal stress in this period. This law has similar mechanical principle to hydraulic fracturing. Vent alignment survey method is a kind of geostress inversion method based on volcanic linear mode. In this paper theoretical basis of vent alignment survey method and the linear model of volcanic array are introduced. Based on the panchromatic high-resolution remote sensing image and digital elevation model(DEM)data in the Tengchong area, combining the geological exploration data about lithologic distribution of igneous rocks and the past research results of volcanic activities in the area, the research divides the volcanoes in this area, according to the age of volcanic eruption, into Holocene, late Pleistocene, early Pleistocene and Pliocene. Nakamura model was established based on the morphological characteristics and spatial distribution of the crater, and volcanic eruption period to evaluate the linear degree of the volcano in different age, and to carry out inversion of the paleostress field of the four volcanic eruption periods in Tengchong area. The reliability of the inversion results is evaluated according to Paulsen's data reliability assessment system. The data from inverting the paleostress of each show that maximum horizontal principal stress directions in the early Pleistocene period and late Pleistocene period are 39° and 37° respectively and reliability grades of inverted paleostress results in the two eras all belong to grade B; Inverted paleostress results in Holocene and Pliocene are not reliable because of the poor linearity of volcanic arrangement. The geostress direction determined by the vent alignment survey method is fairly consistent with the current geostress field obtained by the focal mechanism solution and the anelastic strain recovery(ASR method)and matches the tectonic history of Tengchong area since Neogene. The research findings demonstrate that the vent alignment survey method is an effective paleostress inversion method. The application of this method in the paleostress inversion of the Tengchong volcanic area is of important reference significance for the study of paleostress field in other volcanic areas in China. 相似文献
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PRELIMINARY VOLCANIC HAZARD ZONATION IN JINLONGDINGZI VOLCANO,LONGANG VOLCANO AREA,JILIN PROVINCE,CHINA 下载免费PDF全文
下载免费PDF全文 Longgang volcano cluster is 150km away from the Tianchi volcano, located in Jingyu and Huinan Counties, Jilin Province, China. It had a long active history and produced hundreds of volcanoes. The latest and largest eruption occurred between 1 500 and 1 600 years ago by Jinlongdingzi(JLDZ)volcano which had several eruptions in the history. This paper discusses the volcanic hazard types, and using the numerical simulations of lava flow obtained with the Volcflow model, proposes the hazard zonation of JLDZ volcano area. JLDZ volcano eruption type is sub-plinian, which produced a great mass of tephra fallout, covering an area of 260km2. The major types of volcanic hazards in JLDZ area are lava flow, tephra fallout and spatter deposits. Volcflow is developed by Kelfoun for the simulation of volcanic flows. The result of Volcflow shows that the flows are on the both sides of the previous lava flows which are low-lying areas now. According to the physical parameters of historical eruption and Volcflow, we propose the preliminary volcanic hazard zonation in JLDZ area. The air fall deposits are the most dangerous product in JLDZ. The highly dangerous region of spatter deposits is limited to a radius of about 2km around the volcano. The high risk area of tephra fallout is between 2km to 9km around the volcano, and between 9km to 14km is the moderate risk area. Out of 14km, it is the low risk area. Lava flow is controlled by topography. From Jinchuan Town to Houhe Village near the volcano is the low-lying area. If the volcano erupts, these areas will be in danger. 相似文献
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The Western Volcanic Zone in Iceland (64.19° to 65.22° N) has the morphological characteristics of a distinct Mid-Atlantic ridge segment. This volcanic zone was mapped at a scale of 1:36.000, and 258 intraglacial monogenetic volcanoes from the Late Pleistocene (0.01–0.78?Ma) were identified and investigated. The zone is characterized by infrequent comparatively large volcanic eruptions and the overall volcanic activity appears to have been low throughout the Late Pleistocene. Tholeiitic basaltic rocks dominate in the Western Volcanic Zone with about 0.5?vol.?% of intermediate and silicic rocks. The basalts divide into picrites, olivine tholeiites, and tholeiites. Three main eruptive phases can be distinguished in the intraglacial volcanoes: an effusive deep-water lava phase producing basal pillow lavas, an explosive shallow-water phase producing hyaloclastites and an effusive subaerial capping lava phase. Three evolutionary stages therefore charcterize these volcanoes; late dykes and irregular minor intrusions could be added as the fourth main stage. These intrusions are potential heat sources for short-lived hydrothermal systems and may play an important role in the final shaping of the volcanoes. Substantial parts of the hyaloclastites of each unit are proximal sedimentary deposits. The intraglacial volcanoes divide into two main morphological groups, ridge-shaped volcanoes, i.e., tindars (including pillow lava ridges) and subrectangular volcanoes, i.e., tuyas and hyaloclastite or pillow lava mounds. The volume of the tuyas is generally much larger than that of the tindars. The largest tuya, Eiríksj?kull, is about 48?km3 and therefore the largest known monogenetic volcano in Iceland. Many of the large volcanoes, both tuyas and tindars, show a similar, systematic range in geochemistry. The most primitive compositions were erupted first and the magmas then changed to more differentiated compositions. The ridge-shaped tindars clearly erupted from volcanic fissures and the more equi-dimensional tuyas mainly from a single crater. It is suggested that the morphology and structure of the intraglacial volcanos mainly depends on two factors, (a) tectonic control and (b) availability of magma at the time of eruption. 相似文献