Heating Stage Experimental Study of Melt Inclusions in Feldspars from Three Holocene Eruptions of Changbaishan Tianchi Volcano

There occurred several eruptions from Changbaishan Tianchi volcano in Holocene, and at least three of them were believed to be true according to the formal studies. The products of three eruptions were yellow comenditic pumice of - 5000a B.P. （Eruption Ⅰ ）, gray comenditic pumice and pyroclastic flow of - 1000a B.P. （ Eruption II, i.e. the millennium explosive eruption）, black trachy pumice and welded tuff of - 300a B.P. （ Eruption Ⅲ ） respectively. There were a large number of melt inclusions found in phenocrysts, which differ in size and color. The Leitz 1350 heating stage experiments for melt inclusions in host feldspars from three Holocene eruptions of Changbaishan Tianchi volcano imply that there were little differences between the homogenization temperatures of melt inclusions from Eruptions Ⅰ and Ⅲ, whereas it was rather complicated for Eruption H, i.e. there might be two kinds of melt with different homogenization temperature periods, which gave the evidence for the assumption that the explosive millennium eruption of Tianchi volcano was triggered by injection and mixing of two different magmas. The experimental results also indicate that （ 1 ） small melt inclusion is easy to be homogenized, while the large one, especially the one with lots of daughter crystals, is rather difficult to be homogenized; （2） homogenization temperature closely correlates with the size of melt inclusion within host crystal, with the temperature point switching from high heating rate to low heating rate, and correlates with whether it is the first time to obtain homogenization as well; and （3） a melt inclusion can get different homogenization temperatures when it is repeatedly heated. Even more, the next homogenization temperature is usually higher than the former one, which testifies the phenomenon that hydrogen migration occurs during repeated heating.

2-D crustal Poisson′s ratio from seismic travel time inversion in Changbaishan Tianchi volcanic region

Based on the inversion method of 2D velocity structure and interface, the crustal velocity structures of P-wave and S-wave along the profile L1 are determined simultaneously with deep seismic sounding data in Changbaishan Tianchi volcanic region, and then its Poisson's ratio is obtained. Calculated results show that this technique overcomes some defects of traditional forward calculation method, and it is also very effective to determine Poisson's ratio distribution of deep seismic sounding profile, especially useful for study on volcanic magma and crustal fault zone. Study result indicates that there is an abnormally high Poisson's ratio body that is about 30 km wide and 12 km high in the low velocity region under Tianchi crater. Its value of Poisson's ratio is 8% higher than that of surrounding medium and it should be the magma chamber formed from melted rock with high temperature. There is a high Poisson's ratio zone ranging from magma chamber to the top of crust, which may be the uprise passage of hot substance. The lower part with high Poisson's ratio, which stretches downward to Moho, is possibly the extrusion way of hot substance from the uppermost mantle. The conclusions above are consistent with the study results of both tomographic determination of 3D crustal structure and magnetotelluric survey in this region.

Characteristics of S-wave Envelope Broadening in the Changbaishan Tianchi Volcano

High-frequency S-wave seismogram envelopes of microearthquakes broaden with increasing travel distance,a phenomenon known as S-wave envelope broadening. Multiple forward scattering and diffraction for the random inhomogeneities along the seismic ray path are the main causes of S-wave envelope broadening,so the phenomenon of S-wave envelope broadening is used to study the inhomogeneity of the medium. The peak delay time of an S-wave,which is defined as the time lag from the direct S-wave onset to the maximum amplitude arrival of its envelope,is accepted to quantify S-wave envelope broadening. 204 small earthquake records in Changbaishan Tianchi volcano were analyzed by the S-wave envelope broadening algorithm. The results show that S-wave envelope broadening in the Changbaishan Tianchi volcano is obvious,and that the peak delay time of S-wave has a positive correlation with the hypocenter distance and frequency of the S-wave. The relationships between the S-wave peak delay time and the hypocenter distance for different frequency bands were obtained using the statistics method. The results are beneficial to the understanding of the S-wave envelope broadening phenomena and the quantitative research on the inhomogeneities of the crust medium in the Changbaishan Tianchi volcano region.

Deep seismic sounding investigation into the deep structure of the magma system in Changbaishan-Tianchi volcanic region

The magma system of Changbaishan-Tianchi Volcanic region is studied with three-dimensional deep seismic sounding (DSS) technique. The results show that the magma system of Changbaishan-Tianchi volcanic region, mainly characterized by low velocity of P wave, can be divided into three parts in terms of depth. At the depth range of 9-15 km, the distribution of the magma system is characterized by extensiveness, large scale and near-SN orientation. This layer is the major place for magma storage. From the depth of 15 km down to the lower crust, it is characterized by small lateral scale, which indicates the 'trace' of magma intrusion from the upper mantle into the crust and also implies that the magma system most probably extends to the upper mantle, or even deeper.(less than 8-9 km deep), the range of magma distribution is even smaller, centering on an SN-oriented area just north of the Tianchi crater. If low velocity of P wave is related to the magma system, it then reflects that the magma here is still in a state of relatively high temperature. In this sense, the magma system of Changbaishan-Tianchi volcanic region is at least not 'remains', in other words, it is in an 'active' state.

2-D crustal structure of Changbaishan-Tianchi volcanic region determined by seismic traveltime inversion

2-D velocity structure and tectonics of the crust and upper mantle is revealed by inversion of seismic refraction and wide-angle reflection traveltimes acquired along the profile L1 in the Changbaishan-Tianchi volcanic region. It is used in this study that seismic traveltime inversion for simultaneous determination of 2-D velocity and interface structure of the crust and upper mantle. The result shows that, under Changbaishan-Tianchi crater, there exists a low-velocity body in the shape of an inverted triangle, and the crustal reflecting boundaries and Moho all become lower by a varying margin of 2-6 km, forming a crustal root which is assumed to be the Changbaishan-Tianchi volcanic system. Finally, we make a comparison between our 2-D velocity model and the result from the studies by using trial-and-error forward modeling with SEIS83.

Application of satellite thermal infrared remote sensing in monitoring magmatic activity of Changbaishan Tianchi volcano

In this paper, with the application of satellite thermal infrared remote sensing technique, nine land surface temperature distribution maps of Changbaishan Tianchi volcano area are retrieved from nine thermal infrared images which are taken from 1999 to 2008. In terms of NDVI (Normalized Difference Vegetation Index), we classify the surface cover of the study area into three types, i.e. vegetation (forest), mixture of soil and vegetation (short grasses), and bare rock. The average temperature of each type of surface covers is calculated first, and then the average daily temperature record from Tianchi meteorological station is subtracted in order to reduce the effect of weather variation. Finally, thermal anomalies of three types of surface cover in Changbaishan Tianchi vol-cano area in the period of 1999 to 2008 are obtained, which is believed to reflect the magmatic activity in the magma chamber under Tianchi volcano caldera. Our results indicate that temperature of the study area increased with an intermittent tendency during 1999 to 2005, but dropped after 2005, and then maintained a relatively stable state from 2006 to 2008. Such a tendency of annual temperature variation possibly caused by magmatic activity is correlated with the results observed by means of seismic monitoring, ground deformation from GPS measurement, and volcanic gas geochemistry monitoring in the same area. It is im-plied that the upward intrusion of magma may cause temperature increase, and such temperature variation is great enough so that could be detected by using satellite thermal infrared remote sensing technology.

长白山天池火山含碳气体排放特征

查明火山气体释放的规模及空间分布特征,对火山监测与喷发预测、评估地质源温室气体释放及气候环境变化等具有重要意义。本文采用密闭气室法观测土壤气浓度,计算了长白山天池火山区CO_(2)和CH_(4)气体释放通量,结合高光谱气体CO和CO_(2)分析了火山区不同区域气体释放特征及影响因素。结果表明:(1)长白山天池火山区土壤CO_(2)通量范围为0.16~1051.39 g·m^(-2)·d^(-1);CH_4通量值范围为-0.05~4.68 g·m^(-2)·d^(-1)。长白山天池火山区气体释放在空间上呈环带状分布特征,火山口周缘气体释放较弱,在聚龙温泉群、锦江温泉群和锥体海拔1800~2200 m范围内气体释放最为强烈。(2)长白山天池火山含碳气体释放在地表和高光谱卫星观测的时间和空间上都有一定的相关性,火山口上方气体释放最弱。(3)长白山天池火山含碳气体排放的空间差异可能受到火山口特殊条件、断裂构造、温泉地热储和岩浆作用的控制。

Recent Geochemical Variation of the Hot-Spring Gases from the Tianchi Volcano, Changbai Mountains, Northeast China

Recent fluid monitoring work shows that the contents of mantle-derived CO2, He and CH4 increased anomalously in 2002 and 2003. The ^3He/^4He ratio of the deep-fault-type Jinjiang hot springs increased highly anomalously in 2003, and then decreased in 2004. The ^3He/^4He ratio from the thermal-reservoir-type Changbaijulong hot springs increased slowly in 2003, and the increase continued in 2004. The mantle-derived He content of the He released from the Changbaijulong springs increased obviously in 2004. The anomaly of the released gases and the isotopic He was consistent with the trends of seismic activities in the Tianchi volcanic area between 2002 and 2004. The abnormal release of the Jinjiang hot springs apparently decreased after the seismic activities ceased in the second half of 2004, while the abnormal release from the Changbaljulong increased significantly after these seismic activities. It shows that the abnormal release of magmas-derived gases from the thermal-reservoir-type springs lags behind that of the deep-fault-type springs. These characteristics may be of great significance for identifying deep magmatic activity and predicting volcanic earthquakes in the future.

长白山天池火山晚更新世以来岩浆房系统的压力探讨

长白山天池火山是一座大型的复合式活火山,由于其曾剧烈的喷发活动(946~947AD)和2002-2006年的扰动事件而备受瞩目。自晚更新世以来,天池火山有过多次剧烈的爆炸式喷发活动,其岩浆主要为高分异的碱流质与粗面质岩浆,SiO_(2)>65%。地球物理探测表明天池火山地下在浅部地壳存在岩浆房,但却未能对历史喷发活动的岩浆系统进行约束。本文利用晚更新世以来喷发物的电子探针数据,运用Qz-Ab-Or系统投图、单斜辉石机器学习压力计以及rhyolite-MELTS压力计对各期喷发的岩浆驻存压力条件进行计算,认为天文峰期(TWF)碱流岩压力约246~444MPa、气象站期(QXZ)碱流岩压力约184~344MPa、千年大喷发(ME-I)碱流岩压力约162~314MPa,千年大喷发(ME-II)粗面岩压力约438~540MPa。通过压力与深度换算后发现上述喷发岩浆贮存位置均对应中上地壳深度的岩浆房,并且三期碱流岩压力随喷发时间逐渐降低,暗示天池碱流质岩浆房在万年尺度内逐渐向浅部地壳演化的趋势;而粗面质岩浆可能来自另一个更深的岩浆房。该发现将有助于提高对天池火山岩浆房系统演化的认识,并为火山监测数据解释和灾害预警等工作提供依据。

长白山天池火山地热系统——岩浆囊与隐伏高温地热资源

长白山天池火山是晚新生代中心喷发式复合型层状火山,全新世以来发生过多次大规模喷发,与深部岩浆热扰动活动相关的构造地震、地表形变、温泉气体组份等均显示该火山仍可能再次喷发,是我国东部潜在的高温地热资源区。长白山天池火山周边地下水十分丰富,具有形成高温水热活动的岩浆囊热源。为探索地壳浅层隐伏的高温地热资源,本文在野外考察基础上,利用地热学方法,计算了该区地层结构与热状态,分析了地表下的火山地热系统。结果表明:长白山天池火山区地下2 km深处的温度在66—110℃之间,12 km深处的温度在313—417℃之间;该区居里面深度较浅,平均深度为12.7 km,居里点温度为375℃,其中长白山天池火山喷发中心和望天鹅火山喷发中心为居里面上隆区;在人工地震基底速度约束下,通过沉积地层重力反演发现,在约3.5—5.5 km深度处存在密度梯级高压带,该高压带与12 km深度处的岩浆囊之间的区域是形成隐伏高温地热资源的有利区域。

长白山天池火山西南麓水压致裂法地应力测量及其实测数据在断裂稳定性分析中的应用

长白山天池火山是一座新生代多成因复合火山,其活动性一直受到地学界的高度重视.而地应力测量数据对于了解火山的活动情况等具有重要意义,但目前长白山天池火山地区实测地应力资料较少.为了更准确地了解长白山天池火山地区现今地应力状态及断裂稳定性,在长白山天池火山西南麓MJZ测点0~300 m孔深开展了水压致裂法地应力测量.利用此次实测地应力数据,本文首先分析了该地区地壳浅表层应力状态,结果表明:①测区以水平构造应力为主导,应力值与其他地区相比,相对较低;②SH(最大水平主应力)、Sh(最小水平主应力)和Sv(垂向主应力)均随深度增加而基本呈线性增大趋势;在60~180 m深度,三者展现为逆断层应力状态,即SH>Sh>Sv;在180~300 m,则表现为SH>Sv>Sh,该应力关系有利于走滑断层活动;③钻孔上部SH方向为N38°E,与东北地区构造应力场方向基本一致.钻孔下部由于受区内NW向断裂和其他因素影响,存在与区域主应力方向有偏差的局部应力场.其次,基于实测应力数据,应用库仑摩擦滑动准则,并取摩擦系数为0.6和1.0,初步评价了区域断裂的稳定性.结果显示,研究区现今应力状态尚未达到断裂失稳滑动水平,推测测区断裂目前相对稳定.结合其较低的应力积累水平,一定程度上反映出长白山天池火山区目前没有明显活动,地壳总体是稳定的.本文的研究结果可为长白山天池火山的活动性、地震地质等研究提供地应力方面的基础数据,同时也为测区地质环境安全评价提供参考依据.

基于时序SAR数据的长白山天池火山活动研究

本文面向长白山天池火山活动分析需求,对现有的时序合成孔径雷达干涉测量(Interferometry Synthetic Aperture Radar,InSAR)形变监测方法及火山点源模型进行了改进,提出了一套适合长白山的火山监测方案.首先,针对植被覆盖度高、形变监测受植被失相干影响大的问题,提出了基于归一化植被指数(Normalized Difference Vegetation Index,NDVI)约束的时序InSAR形变监测方法,并利用2004—2010年间的33幅Envisat ASAR影像,提取了长白山天池火山口及周边区域的精确地表形变参数.其次,系统分析了火山地表形变场与雷达视线向(Line of Sight,LOS)之间的立体几何关系,建立了具有普适性的由火山水平形变和垂直形变到LOS向的投影转换关系式,基于LOS向形变的点源模型,反演了长白山天池火山扰动期结束前后的各时段的岩浆房参数.最后,基于改进后的点源模型反演结果,正演了天池火山地表形变场,并将正演结果与地震监测、流体地球化学监测资料进行对比分析,精确评估了长白山天池火山扰动期结束前后岩浆房的变化情况,探讨了长白山天池火山活动由强转弱的过程.本文的研究结果表明,2004—2010年间天池火山岩浆房先经历了短暂的膨胀,以2004年9月8日的ML3.7地震为转折点,地震后开始进入逐步收缩状态,直至2008年趋于稳定.

长白山天池火山2015—2022年InSAR变形与活动状态分析

地表形变信息可有效反映火山下岩浆房的活动状态,对于理解火山活动演化过程非常重要。文中利用Sentinel-1A/B的升、降轨影像,采用SBAS InSAR与Stacking InSAR技术,获取了长白山天池火山2015—2022年间的地表形变时间序列及速率,并结合Mogi点源模型反演岩浆房的几何参数,得到的主要结论如下:(1)火山口及周围区域整体下沉,火山口附近视线向形变速率约为-4~-2mm/a,远离火山口的局部形变速率可达-6mm/a。(2)根据Mogi模型反演的火山下浅层岩浆房深约6km,体积变化率为-3.3×10^(5)m^(3)/a,岩浆房位于长白山天池火山口下偏西的位置。(3)1992—2022年期间,火山经历了从平静到扰动、再到平静的岩浆活动过程,在2002—2005年监测到明显的地表隆升变形,岩浆房体积显著膨胀,之后岩浆的活动性逐渐减弱。

长白山天池火山——一座具潜在喷发危险的近代火山

通过对长白山天池火山近代喷发历史、喷发规模、喷发物类型的调查和研究,提出该火山是一座具潜在喷发危险的大型近代活动火山.建议开展对该火山的动态监测和系统研究.

长白山天池火山粗面玄武岩的喷发历史与演化

本文新提出的年代学和岩石化学结果,进一步从天池火山与区域火山活动的关系,论述了天池火山造盾、造锥历史和岩浆结晶分异转型的时间约束,早更新世早期(2Ma前)开始粗面玄武岩的造盾,早更新世晚期(约1Ma)粗面玄武岩向粗安岩、粗面岩演化,中更新世是粗面岩造锥的主阶段,到了晚更新世(约0．1Ma)粗面岩向碱流岩演化。在中—晚更新世来自地壳岩浆房的粗面岩、碱流岩造锥过程中,来自地幔的粗面玄武岩浆喷发活动始终没有间断过。由于来自地幔粗面玄武质岩浆持续向地壳岩浆房补给,所以天池火山是一座长寿命的火山。岩浆的结晶分异作用和混合作用是天池火山岩浆演化的两个最重要过程,前者形成天池火山双峰式火山岩分布特征,后者成为天池火山喷发的触发机制。天池火山在晚更新世—全新世碱流质岩浆主喷发期兼有少量玄武质粗安岩、粗安岩或粗面质岩浆的交替喷出,揭示了天池火山的地壳岩浆房熔体的分层结构特点,由于来自地幔粗面玄武质岩浆注入地壳岩浆房,导致不同层位岩浆的扰动和混合作用,触发天池火山的喷发。

2002年夏季长白山天池火山区的地震活动研究

20 0 2年6月以来,长白山天池火山区的地震活动明显增加.本文利用2 0 0 2年夏季布设在长白山天池火山区15套宽频带流动地震台站的记录资料,对天池火山区的地震活动进行了研究.地震观测结果表明,2 0 0 2年夏季长白山天池火山日平均地震发生频次超过30次.地震主要位于长白山天池西南部和东北部两个区域,震源深度较浅,离地表的深度一般小于5km .天池西南部和东北部的地震,b值存在较大的差异.火山区地震记录的频谱分析和时频分析结果表明,这些地震主要为火山构造型地震.HSZ和DZD等台站地震记录中丰富的低频成分,可能与台站附近的局部介质或断层带有关.我们认为2 0 0 2年夏季频繁发生的地震和小震震群活动是由火山深部活动诱发的局部断裂活动引起.

长白山天池火山区岩浆系统深部结构的深地震测深研究

利用三维深地震测深技术 ,研究了长白山天池火山的岩浆系统 .结果表明 ,以低P波速度为主要特征的长白山天池火山岩浆系统在地壳范围内可分为 3个深度层次 :在 9～ 15km深度 ,岩浆系统分布的主要特征是范围广、尺度大、近南北走向 ,是地壳内储存岩浆的主要位置 ;自 15km深度以下直至下地壳 ,其分布横向尺度较小 ,显示出岩浆自上地幔侵入地壳的“痕迹” ,这也意味着长白山天池火山的岩浆系统极有可能延伸到上地幔 ,或更深 ;在地壳浅部 ,深度小于 8～ 9km范围内 ,岩浆的分布范围更小一些 ,集中在天池火山口稍偏北的南北方向上 .如果说低P波速度与岩浆系统关联的话 ,那么它反映出这部分岩浆仍然处于较高温度状态 .从这个意义上讲 ,长白山天池火山的岩浆系统至少不是“残留”的 ,或者说是处于“活动”

长白山天池火山近期形变场演化过程分析

对长白山天池火山区2002～2005年的4期水准测量数据、2000～2005年6期GPS测量数据以及1999年以来的定点地倾斜观测数据进行了系统处理分析，结果表明：（1）2000年9月～2002年6月期间，长白山天池火山地表变形很小，基本上处于较为稳定的状态．1993～1998年的lnSAR观测资料也未发现明显的地表变形；（2）2002～2003年，长白山天池火山出现了明显的地表形变异常变化，其水平形变表现为以天池火山口为中心的放射状膨胀运动，垂直形变则表现为近火山口的快速隆起，显示天池火山下部可能有岩浆压力增大变化；（3）长白山天池火山2003年以来的形变速率有逐年迅速衰减的变化特征，其最大水平运动速率已由2002～2003年期间的38．3mm／a衰减到2004～2005年的15．8mm／a，最大垂直形变速率则由2002～2003年的46．0mm／a衰减到2004～2005年的5．0mm／a．

D-InSAR技术在长白山天池火山形变监测中的误差分析与应用

选取长白山天池火山区15景JERS-1 L波段SAR存档数据,利用二轨法进行SAR差分干涉处理.最终用4景JERS-1数据获取了覆盖相似时间段的3幅D-InSAR形变图,提取了研究区1994～1998年的地表形变场.研究表明:远离天池火山的平坦区域形变微弱;从天池火山的山脚向上到2000～2200 m高程处,表现为逐渐增强的隆升形变,最高形变速率达到LOS(视线向)5 mm/a.尽管没有同期地面实测资料验证,但研究结论与2002～2005年的一等水准测量结果及地震活动性具有定性的一致性;与Kim的同期InSAR研究具有定量的可比性.在时间上向前延伸了对长白山天池火山的形变监测时段,为研究长白山天池火山活动状态提供了更多的形变信息.

长白山天池火山区三维地壳结构层析成像

利用长白山天池火山区三维空间深地震测深观测系统所采集的反射P波走时资料 ,采用层析成像技术 ,重建了该区地壳界面构造形态和速度分布图像 .界面成像结果表明 :研究区地壳界面总体上显示了由北西向东南加深的趋势 ;马鞍山—三道白河断裂和富尔河—红旗河断裂是本区两条主要的深部构造 ,尤其是马鞍山—三道白河断裂 ,北北东向穿越天池火山口 ,其两侧的地壳界面存在明显的错断 ,预示了该处地壳厚度陡变带或深大断裂带的存在 .速度成像结果显示在 10km深度 ,明显的P波低速异常分布在天池周围 ;15km深度上它表现为一个近南北向的P波低速异常条带 ,其延展尺度南北向为 80～ 90km ,东西向 30～ 4 0km ;随着深度的增加 ,P波低速异常分布在天池西侧 ,其尺度有明显的缩小 ,分布范围更加集中 ,而且低速扰动幅度更大 .这种P波速度异常的变化图像在一定程度上反映了天池火山口下方壳内岩浆系统的空间分布状况 .