长白山天池火山的危险性和火山碎屑流灾害评估

本文以长白山天池火山１２１５ＡＤ大喷发为参照系,采用了“以古论今”的历史分析方法,对天池火山的危险性和火山碎屑流灾害进行了评估。认为长白山天池火山是具有潜在喷发能力的高危险火山,给出了长白山天池火山的火山碎屑流灾害预测分区图,为各级政府部门合理制定土地使用规划和防灾活动提供了理论依据。     

长白山天池火山千年大喷发火山碎屑流相模式及灾害区划研究

长白山天池火山千年大喷发火山碎屑流分布范围广泛,是国内火山碎屑流领域重要的研究对象。前人研究表明：（1）长白山天池火山千年大喷发火山碎屑流搬运堆积机制复杂,且火山碎屑流近源、中源部分一般分布在人迹罕至尚未开发的地方,火山碎屑流相模式尚未系统建立;（2）火山碎屑流是长白山地区主要灾害类型,尚未有专题的灾害区划图;（3）早期粒度分析主要采用人工法测试,精度低,误差大,大量微米级碎屑的动力学信息流失。     

长白山天池火山公元1215年大规模喷发空降堆积及喷发动力学参数

长白山天池火山于公元１２１５年发生一次大规模爆炸式喷发。本文讨论了这次喷发形成的空降堆积物的特征。在此基础上确定喷发型式为布里尼式;当时对流层风向为西北风,风速为３０ｍ／ｓ￣４０ｍ／ｓ;平流层风向为西风;喷发物的喷出口速率大于２００ｍ／ｓ;火山喷发柱最大高度达２９ｋｍ。     

长白山天池火山灾害防御对策

长白山天池火山是目前我国境内保存最为完整的新生代多成因复合层状火山,火山锥体半径20 km,也是亚洲大陆规模最大的活动火山.1199-1200年发生过全球两千年以来第二大规模的喷发,火山灰向南漂了1 000km,在日本北海道落了5～10cm厚.     

长白山天池火山监测与灾害防御

对吉林省长白山天池火山历史喷发灾害进行了分析,指出了火山灾害可能带来的后果,并根据长白山天池火山现状和火山灾害特点．提出了火山灾害防御对策。     

长白山天池火山气体对环境的影响及潜在火山灾害研究

长白山天池火山位于中国和朝鲜两国边境线上, 借助国际合作, 对分布于中朝两国境内的天池火山喷发物进行了较系统的野外考查, 选择层序完整的火山喷发物剖面, 对天池火山进行整体研究. 在此基础上, 系统测定了天池火山历史时期大喷发从早期到晚期喷出的气体成分和含量, 进而探讨了该火山气体对环境的影响及其造成的火山灾害, 并利用天池火山气体成分和含量开展了该火山未来喷发危险性及其潜在火山灾害预测研究, 这一方法对进一步开展我国大陆活火山的喷发预测及其火山灾害防御研究具有重要意义.     

五大连池火山带的火山喷发方式及灾害类型

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。     

基于GIS的建筑物地震保险损失评估研究

本文讨论了与我国大陆火山地区相关的主要火山灾害类型,即火山空降物、火山碎屑流、火山泥石流、火山熔岩穹与熔岩流的成灾机制和灾害效应,并回顾了国际上火山灾害区划的研究现状,在此基础上,提出了适合我国具体情况的具有概率含义的火山灾害区划图的编图思路。     

长白山天池全新世以来的火山喷发与灾害风险初探

概述了长白山天池火山全新世以来的喷发及其构造活动,其中喷发物以玄武质、碱流质为主,规模大。文中着重探讨了天池火山的风险性和未来的火山灾害。可为制定火山灾害对策提供科学依据。     

长白山火山活动的现状和未来展望

长白山天池火山是中新世以来,特别是中更新世以来多次喷发并造成严重灾害的火山,是一座具有潜在喷发危险性的活动火山,文章主要阐述了全新世和近代火山活动及其喷发物,并对火山的现代活动与未来火山活动及其灾害作了评估。     

长白山天池火山一次近代喷发物的特征

长白山天池火山是中国最具有潜在灾害性喷发危险的活动火山。在开展长白山天池火山近代喷发历史的研究中,通过野外考察、粒度分析、岩石化学研究,识别出了一套新的火山喷发物。这套喷发物分布于天池水面东北侧,为一套灰色多层火山碎屑堆积,厚约9.2m。下伏公元1668年的火山空降堆积。粒度分析表明,天池火山最近一次喷发物以空降堆积为主,夹一层薄层涌浪堆积,火山喷发类型为射气岩浆型。涌浪堆积碎屑物的分数维值为2.71。空降堆积的分数维值小于涌浪堆积,综合投点求出的分数维值为2.36。显微镜下可观察到鸡骨架状玻屑,无黏土矿物,为原生火山爆发堆积。火山碎屑堆积物中的浮岩岩石化学分析结果表明岩浆成分为粗面质。根据历史记录、地层层序关系、堆积物特征的综合分析,推测堆积物的形成时间为公元1903年     

长白山天池火山溃湖洪水最大流量的初步估算及影响分析

长白山天池火山是目前最具潜在喷发危险的活火山。依据长白山天池火山的最新监测研究成果,结合地形地貌、水文流域特点及天池火山历史喷发类型,重点分析了长白山天池火山未来喷发时发生溃湖洪水的危险性。利用相关的水动力学公式,建立了溃口规模和洪水湿周、流量和流速的内在关系。详细分析溃湖洪峰在下游二道白河镇、白山水电站、红石水电站等关键位置的最大流量及流速。结果表明,若天池火山湖水溃泄一半即10亿m3时,距火山口50km处的二道白河镇瞬时洪水流速达84 904m3/s,该镇将全部被淹没。下游的白山水库、丰满水库将分别受到流量23 560m3/s和1 505m3/s洪水的冲击,水库安全受到严重威胁。     

Modeling of pyroclastic flows of Colima Volcano,Mexico: implications for hazard assessment

The 18–24 January 1913 eruption of Colima Volcano consisted of three eruptive phases that produced a complex sequence of tephra fall, pyroclastic surges and pyroclastic flows, with a total volume of 1.1 km³ (0.31 km³ DRE). Among these events, the pyroclastic flows are most interesting because their generation mechanisms changed with time. They started with gravitanional dome collapse (block-and-ash flow deposits, Merapi-type), changed to dome collapse triggered by a Vulcanian explosion (block-and-ash flow deposits, Soufrière-type), then ended with the partial collapse of a Plinian column (ash-flow deposits rich in pumice or scoria,). The best exposures of these deposits occur in the southern gullies of the volcano where Heim Coefficients (H/L) were obtained for the various types of flows. Average H/L values of these deposits varied from 0.40 for the Merapi-type (similar to the block-and-ash flow deposits produced during the 1991 and 1994 eruptions), 0.26 for the Soufrière-type events, and 0.17–0.26 for the column collapse ash flows. Additionally, the information of 1991, 1994 and 1998–1999 pyroclastic flow events was used to delimit hazard zones. In order to reconstruct the paths, velocities, and extents of the 20th Century pyroclastic flows, a series of computer simulations were conducted using the program FLOW3D with appropriate Heim coefficients and apparent viscosities. The model results provide a basis for estimating the areas and levels of hazard that could be associated with the next probable worst-case scenario eruption of the volcano. Three areas were traced according to the degree of hazard and pyroclastic flow type recurrence through time. Zone 1 has the largest probability to be reached by short runout (<5 km) Merapi and Soufrière pyroclastic flows, that have occurred every 3 years during the last decade. Zone 2 might be affected by Soufriere-type pyroclastic flows (∼9 km long) similar to those produced during phase II of the 1913 eruption. Zone 3 will only be affected by pyroclastic flows (∼15 km long) formed by the collapse of a Plinian eruptive column, like that of the 1913 climactic eruption. Today, an eruption of the same magnitude as that of 1913 would affect about 15,000 inhabitants of small villages, ranches and towns located within 15 km south of the volcano. Such towns include Yerbabuena, and Becerrera in the State of Colima, and Tonila, San Marcos, Cofradia, and Juan Barragán in the State of Jalisco.     

PRELIMINARY VOLCANIC HAZARD ZONATION IN JINLONGDINGZI VOLCANO,LONGANG VOLCANO AREA,JILIN PROVINCE,CHINA

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.     

长白山天池火山区介质速度非均匀性谱结构

观测和研究表明,非均匀介质RMS(Root Mean Square)速度微扰动ε,特征尺度相关距离a以及幂指数k的空间分布特征可描述介质非均匀性特征.本文选用长白山天池火山区的小震记录,运用S波包络展宽法对长白山天池火山区地壳浅部介质速度非均匀性谱结构进行了研究.结果发现长白山天池火山区地壳浅部介质呈现强烈的介质非均匀...     

TEPHRA RECORD FROM QUANYANG PEAT OF THE CHANGBAISHAN MILLENNIUM ERUPTION

Tephra, usually produced by explosive eruptions, is deposited rapidly, hence, it can serve as a distinctive and widespread synchronous marker horizon correlating terrestrial, marine and ice core records. The tephra from Changbaishan Millennium eruption, a widely distributed tephra, is an important marker bed across the Japan Sea, Japan Islands and even in the Greenland ice cores 9000km away from volcanic vent. In this study, a discrete tephra was identified in the Quanyang peat~45km northeast to the Changbaishan volcano. Radiocarbon ¹⁴ C dating on the plant remains constrains an age of 886-1013calAD(95.4%)to the tephra layer, which can correspond to the Millennium eruption of Changbaishan in time. In addition, there was no similar volcanic eruption in the surrounding areas except Changbaishan at the same time. This tephra shows rhyolitic glass shards major element compositions similar to those rhyolitic tephra from Millennium eruption. This study illustrates that tephra from Millennium eruption has been transported to Quanyang peat~45km northwest to the Changbaishan volcano. Additionally, the diameter of the pumice lapilli is up to 0.3cm, implying that the tephra must be transported more distal away from Quanyang peat and formed a widely distributed isochronic layer. Glass geochemistry of the Quanyang tephra, different from the distal tephra recorded at Sihailongwan, Japan, and Greenland ice, shows a close affinity to the pyroclastic flow deposits of the Millennium eruption while not from fall deposits. This may indicate that distribution of the Millennium eruption of Changbaishanin in different directions may be controlled by different stages of eruption. This layer with well-defined annual results can be used to optimize the chronological framework of the corresponding sedimentary environment, thus facilitating more accurate discussion of corresponding environmental changes, which can achieve the contrast of the ancient climate records in the whole Northeast China-Japan and arctic regions.     

长白山天池火山千年大喷发火山碎屑流堆积的粒度特征与地质意义

火山碎屑流堆积因其巨大的危害性而成为火山学研究的重要课题之一。文中对长白山区天池火山千年大喷发火山碎屑流堆积进行了粒度分析。分析结果表明,火山碎屑流堆积分选差,伴生的灰云浪堆积分选性好。火山碎屑流堆积中的岩屑和浮岩的平均最大粒度随着离开火山口距离的加大而减小,反映火山碎屑流搬运过程中存在重力分选和机械磨损作用。火山碎屑流在搬运过程中发生了流体化作用,离开火山口越远流体化速度越小,反映火山碎屑流在搬运过程中发生了流体化去气作用,这种作用使火山碎屑流的粘度和屈服强度增加而导致沉积。流体化速度是控制搬运距离的因素之一,远源多渠道火山碎屑流的汇合使流体化速度增大,搬运距离更远,造成的灾害范围也增大     

THE HISTORICAL RECORDS OF VOLCANIC ERUPTION IN THE KOREAN PENINSULA

The historical document record is of vital significance to determine the volcanic eruption history age in the volcanology research and it cannot be replaced by ¹⁴C dating and other methods. The volcanoes are widely distributed in the northeast area of China, but there is lack of relevant historical records. However, there are the records of the volcanic eruption in the historical documents of Goryeo Dynasty(AD918-1392)and Joseon Dynasty(AD1391-1910)in the Korean Peninsula which is separated by a river with China only. Some of the records have been widely used as important information to the research of Changbaishan Tianchi volcano eruption history by researchers both at home and abroad, but they have different opinions. On the basis of the historical documents in the Korean Peninsula, that is, the History of Goryeo Dynasty and the Annals of the Joseon Dynasty so on, the phenomena of volcanic eruptions, including the intuitive eruptive events and the doubtful volcanic eruption phenomenon such as "the ash fall", "the white hair fall", "the sky fire", "the dust fall" are investigated and put in order systematically in this paper. The results are as follows:1)The intuitive eruptive events are the 1002AD eruption of Mt. Halla volcano on Jeju Island, Korea Peninsula, and the 1007AD volcanic eruption offshore to the west of Jeju Island, Korea Peninsula, as well as the 1597AD eruption of Mt. Wangtian'e volcano in Changbai County, Jilin Province, China; 2)"The ash fall" is airborne volcanic ash, and those "ash falls" happening in 1265, 1401-1405, 1668, 1673 and 1702AD are possibly the tephra of Changbaishan Tianchi volcano; 3)"The white hair fall" is Pele's hair and it is speculated that the "white hair fall "happening in 1737AD is related to Changbaishan Tianchi volcanic eruption; 4)If regarding "the sky fire" as the volcanic eruption phenomenon, "the sky fire" happening in 1533AD is possibly the Changbaishan volcanic eruption event, and "the sky fire" in 1601-1609AD may be the eruptive event of the Longgang volcano in Jilin Province, China or Changbaishan Tianchi volcano; 5)"The dust fall" is recorded in many historical documents. However, "the dust fall" is not the volcanic ash fall but the phenomenon of loess fall. So, it is improper to determine the eruptive events of Changbaishan Tianchi volcano on the basis of "the dust fall".