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火山喷发及其环境效应 总被引:1,自引:0,他引:1
火山活动是地球内能和热量释放的一种形式,火山喷发对人类生存环境的影响包括两个方面,即:灾害效应和资源效应。一方面,火山喷发是一种自然灾害,它不仅对人类产生直接危害,而且还会诱发次生灾害或对人类的生存环境造成长期的危害。其中对人类生命财产构成严重威胁的火山灾害有熔岩流、火山碎屑流、火山泥流和火山海啸。另一方面,火山活动为人类提供了丰富的矿产资源、地热资源和旅游资源。 相似文献
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硅质火山喷发作为大陆地壳岩浆活动的重要表现,在研究大陆地壳形成与演化、探讨岩浆过程与动力学机制等方面具有重要的价值,其通常所表现的强烈爆炸式喷发,甚至可以导致全球性的环境和气候变迁。硅质岩浆系统在开放体系中不同来源岩浆的贡献和相互作用是目前研究的热点问题。持续的岩浆补给可以延长岩浆存储的时间,促进岩浆房的对流、岩浆的分异演化以及晶体 熔体的分离和晶粥的再活化,同时也是触发火山喷发的重要机制之一。此外,岩浆补给以及硅质岩浆的晶体 熔体演化过程也是火山喷发产物多样性的原因,导致同一火山在其活动过程中喷发产物规律性的变化,如富晶体火山岩、贫晶体火山岩、火山岩成分分层、以及复活岩穹和中央侵入体等。因此,岩浆补给作用是制约硅质火山岩浆系统演化和火山岩成分多样性的重要因素,也是活动火山监测和灾害评估的重要依据。岩石学、岩石地球化学、矿物(长石、石英、石榴子石、锆石等)同位素及成分变化,以及模拟实验、地震层析成像等研究为揭示硅质岩浆系统中的岩浆补给作用和复杂岩浆过程提供了多种视角。 相似文献
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世界各地几乎都有火山分布,平均每年约有50次喷发。火山喷发在给人类创造财富的同时也带来许多灾害。火山灾害取决于火山喷发的类型、性质、规模和所处的地点等因素。火山喷发动力作用引起冲击波、地震、海啸、滑坡、泥石流等灾害,火山喷出的气体、灰烬、碎屑流和熔岩流等也会造成很大灾害。由于火山造成的灾害严重又来得突然,因此必须采取有效的防范措施,认真监测以掌握火山活动的脉搏。火山监测工作主要有两方面,一是基础地质调查,二是火山活动指标的监视和测量。在中国,具有潜在危险的火山主要分布在长白山、五大连池、台湾、雷琼、腾冲以及西昆仑阿什库勒等地,其中潜在危险最大的是长白山火山。 相似文献
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金星薄饼状火山(陡边火山)是一类形貌非常独特的火山,有别于太阳系中其他的火山:近圆的底面轮廓、平坦的顶部和较大的顶底直径比.薄饼状火山被认为是高黏度岩浆喷发形成的,但是这一成因并不被广泛接受.火山的形貌特征主要取决于岩浆成分、喷发机制、重力和喷发环境(如大气压)等.因此,通过对比地球火山的形貌特征及形成机制可以为金星薄饼状火山的成因提供指示.我们利用底面不规则度(ii )、高径比(H/W B )、顶底直径比(W S/W B )、侧边最大坡度处的标准化高度(HS m a x )、顶部高径比(H S/W S )和喷发量(V )这些形貌参数定量地将地球表面的复式火山、盾形火山、火山锥、熔岩穹丘(Peleean 型和 Coulees 型)、海底平顶火山以及泥火山的形貌特征与金星薄饼状火山对比.Coulees型熔岩穹丘、海底平顶火山和泥火山的形貌特征与金星薄饼状火山有一定的相似性.Coulees型熔岩穹丘剖面形态与薄饼状火山最为相似,可能指示了薄饼状火山具有类似的成因机制,而海底平顶火山侧边的上凹特征可能指示了其与薄饼状火山完全不同的成因机制.因此,薄饼状火山可能是相对高黏度的岩浆以较高速率持续性喷发形成. 相似文献
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火山气体是火山喷发物的重要组成部分,它主要来源于火山喷发的岩浆,其组成和含量的变化限定了火山活动对气候影响的时空范围和强度,因而近年来成为火山活动的气候效应研究领域一个重要组成部分。以往火山气体的研究主要集中在洋底(洋中脊、洋岛)火山,近年来逐渐转移到陆地(陆内和大陆边缘)上的火山喷发,并建立了两种有效的测量方法:卫星观测法和岩石学方法。前者仅适用于现代活动的活火山;后者适用于历史和地史时期的火山喷发,因此其应用较广。本文主要讨论岩石学方法。岩石学方法采用的测试手段主要是电子探针和红外光谱分析,前者主要分析S,F,Cl,N和H2O的含量;后者可以测定CO2的 相似文献
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简要列举了近年来全新世火山地质领域的研究进展,主要涉及新确定的全新世火山、精细喷发序列与喷发频率、高分辨率火山机构多维框架研究、火山碎屑物粒度分布、形貌特征与成因、火山碎屑流、涌流和火山泥石流堆积、降落堆积成因亚类、火山活动与新构造和火山地质遗迹资源、环境及火山灾害。 相似文献
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超级火山喷发可以在极短时间内剧烈改变区域地形地貌,引起全球性气候巨变,是人类赖以生存的地球宜居环境的严重威胁。因此,剖析地质历史上的超级火山喷发事件及其环境效应,将有助于我们预测和应对未来可能的超级火山喷发及其造成的自然灾难。本文从超级火山和超级喷发的定义入手,重点介绍超级火山喷发的固相和气相产物、如何鉴别地质历史上的超级火山喷发、以及超级火山喷发可能带来的环境和社会影响。由于最近一次超级火山喷发发生在2.6万年前的新西兰,人类文明并没有经历过超级火山喷发,科学家们主要通过二十世纪以来有记录的小型火山喷发、冰芯和年轮记录、火山-环境-气候模型等来推测、反演和模拟超级火山喷发对气候和环境的影响。已有的研究表明,超级火山喷发产生的碎屑熔岩流和岩浆房塌陷产生的破火山口给周边地区环境造成直接的摧毁;进入平流层的火山气体经过物理化学变化形成气溶胶,有效的反射和吸收太阳辐射,从而导致长达数年的区域甚至全球性的剧烈降温和降水减少。尽管科学家们已经做了很多数值模拟和推演,但超级火山喷发的影响仍然是难以估计的。特别是超级火山喷发发生的季节和地点会带来不同的火山-海洋-大气-植被耦合效应,导致不同规模的气候和环境变化,未来应当加强这方面的研究。 相似文献
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长白山天池火山地质学研究的若干进展与灾害分析 总被引:11,自引:0,他引:11
通过以减轻火山灾害为目的的天池火山锥体顶部地区地质填图工作,发现了天池火山锥体附近不同期次火山泥石流,部分火山泥石流显示的高温定位特征指示了其与千年大喷发的成因联系。这些火山泥石流构成了严重的火山泥石流灾害,天池火山锥体近顶部大型滑坡体的发现则指示了天池火山另一种重要的灾害类型。滑坡体堆积物结构上可分为3种类型。天池火山千年大喷发时不同成分与物性的岩浆混合作用十分发育,指示了天池火山喷发前不同岩浆批的混合与共喷发机理。本文还论述了天池火山近代历史记录喷发物的分布与鉴别特征。 相似文献
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Toshikazu Ebisuzaki Hiroko Miyahara Ryuho Kataoka Tatsuhiko Sato Yasuhiro Ishimine 《Gondwana Research》2011,19(4):1054-1061
Volcanoes with silica-rich and highly viscous magma tend to produce violent explosive eruptions that result in disasters in local communities and that strongly affect the global environment. We examined the timing of 11 eruptive events that produced silica-rich magma from four volcanoes in Japan (Mt. Fuji, Mt. Usu, Myojin-sho, and Satsuma-Iwo-jima) over the past 306 years (from AD 1700 to AD 2005). Nine of the 11 events occurred during inactive phases of solar magnetic activity (solar minimum), which is well indexed by the group sunspot number. This strong association between eruption timing and the solar minimum is statistically significant to a confidence level of 96.7%. This relationship is not observed for eruptions from volcanoes with relatively silica-poor magma, such as Izu-Ohshima. It is well known that the cosmic-ray flux is negatively correlated with solar magnetic activity, as the strong magnetic field in the solar wind repels charged particles such as galactic cosmic rays that originate from outside of the solar system. The strong negative correlation observed between the timing of silica-rich eruptions and solar activity can be explained by variations in cosmic-ray flux arising from solar modulation. Because silica-rich magma has relatively high surface tension (~ 0.1 Nm?1), the homogeneous nucleation rate is so low that such magma exists in a highly supersaturated state without considerable exsolution, even when located relatively close to the surface, within the penetration range of cosmic-ray muons (1–10 GeV). These muons can contribute to nucleation in supersaturated magma, as documented by many authors studying a bubble chamber, via ionization loss. This radiation-induced nucleation can lead to the pre-eruptive exsolution of H2O in the silica-rich magma. We note the possibility that the 1991 Mt. Pinatubo eruption was triggered by the same mechanism: an increase in cosmic-ray flux triggered by Typhoon Yunya, as a decrease in atmospheric pressure results in an increase in cosmic-ray flux. We also speculate that the snowball Earth event was triggered by successive large-scale volcanic eruptions triggered by increased cosmic-ray flux due to nearby supernova explosions. 相似文献
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岩浆作用是联系地球深部与表层碳储库的桥梁,是全球碳循环的重要一环。揭示岩浆作用与碳循环之间的关系对理解地球系统演化过程中的环境效应和气候变化有重要意义。本文综述了前人在岩浆系统研究的重要进展,介绍了陆内穿地壳岩浆系统,梳理了从幔源岩浆底侵和地壳熔融,到岩浆上升、累积、混合、分异直至喷出等物理化学过程,构建了地壳岩浆活动的统一框架。岩浆过程同时控制着挥发分行为,岩浆自身的去气作用将地球深部挥发分带到地表,而接触热变质作用可改造围岩并将其中的碳脱出。基于穿地壳岩浆系统,本文系统阐述了岩浆挥发分的来源、组成、行为,及其释放到大气中对气候与环境产生的潜在影响。尤其是针对中国华南地区分布的大量陆内中生代的侵入岩和火山岩,结合同期广泛分布的巨厚碳酸盐岩,介绍和展望了陆内岩浆系统和去气作用的联系及环境效应,提出该时期的岩浆活动及其与碳酸盐岩的反应很可能对局部乃至全球的气候造成了显著的影响,该领域有较大研究潜力。 相似文献
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D. Metzner S. Kutterolf M. Toohey C. Timmreck U. Niemeier A. Freundt K. Krüger 《International Journal of Earth Sciences》2014,103(7):2063-2079
We present for the first time a self-consistent methodology connecting volcanological field data to global climate model estimates for a regional time series of explosive volcanic events. Using the petrologic method, we estimated SO2 emissions from 36 detected Plinian volcanic eruptions occurring at the Central American Volcanic Arc (CAVA) during the past 200,000 years. Together with simple parametrized relationships collected from past studies, we derive estimates of global maximum volcanic aerosol optical depth (AOD) and radiative forcing (RF) describing the effect of each eruption on radiation reaching the Earth’s surface. In parallel, AOD and RF time series for selected CAVA eruptions are simulated with the global aerosol model MAECHAM5-HAM, which shows a relationship between stratospheric SO2 injection and maximum global mean AOD that is linear for smaller volcanic eruptions (<5 Mt SO2) and nonlinear for larger ones (≥5 Mt SO2) and is qualitatively and quantitatively consistent with the relationship used in the simple parametrized approximation. Potential climate impacts of the selected CAVA eruptions are estimated using an earth system model of intermediate complexity by RF time series derived by (1) directly from the global aerosol model and (2) from the simple parametrized approximation assuming a 12-month exponential decay of global AOD. We find that while the maximum AOD and RF values are consistent between the two methods, their temporal evolutions are significantly different. As a result, simulated global maximum temperature anomalies and the duration of the temperature response depend on which RF time series is used, varying between 2 and 3 K and 60 and 90 years for the largest eruption of the CAVA dataset. Comparing the recurrence time of eruptions, based on the CAVA dataset, with the duration of climate impacts, based on the model results, we conclude that cumulative impacts due to successive eruptions are unlikely. The methodology and results presented here can be used to calculate approximate volcanic forcings and potential climate impacts from sulfur emissions, sulfate aerosol or AOD data for any eruption that injects sulfur into the tropical stratosphere. 相似文献
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Volcanic eruptions can significantly cool the global troposphere on the time scales from several months up to a decade due to reflection of solar radiation by sulfate aerosols and feedback mechanisms in the climate system. The impact of volcanic eruptions on global climate are discussed in many studies. However, few studies have been done on the impact of volcanic eruption on climate change in China in the past millennium. The 1300-year and 600-year temperature series were reconstructed based on the six tree-ring temperature proxy data in northeastern and southeastern Tibetan Plateau, respectively. Three warm periods occurred in 670-920,1000-1310 and 1590-1930, and three cold periods happened at 920-1000,1310-1590 and 1930-2000 in the northeastern Tibetan Plateau. There were two obviously warm periods (1385-1450 and 1570-1820) and two cold periods (1450-1570 and 1820-2000) in southeastern Tibetan Plateau. Contrasting with volcanic eruption chronology, we analyzed the relationship between volcanic activity and temperature variation in the eastern Tibetan plateau during the past millennium using Superposed Epoch Analysis (SEA) method. The results indicated that the temperature decreased one year after large volcanic eruptions located beteen 10°S and 10°N in latitude in northeastern Tibetan Plateau and two years in southeastern Tibetan Plateau. The volcanic eruptions occurred at different latitudes have different impacts on the temperature variations, which may be caused by regional difference, the nature of the eruption, the magnitude of the resulting change in incoming solar radiation, prevailing background climate and internal variability, season, latitude, and other considerations. 相似文献
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喀斯特地质与生态系统是地球表层系统中的重要组成部分,其变化将对其他地区以及整个地球系统产生影响.生物地球化学循环是全球和区域变化研究的核心内容,而生态系统的演化与系统内水分和养分的生物地球化学循环密切相关。因此,我们有必要将喀斯特生态系统纳入到更大区域或全球生态系统中进行分析研究,在充分研究认识整个喀斯特生态系统物质生物地球化学循环规律的基础上,进一步研究喀斯特生态系统的全球变化响应或影响机制,为喀斯特生态系统优化调控对策和措施提供科学基础。研究生态系统演化过程中物质的生物地球化学循环规律,是研究植物适生性、物种优化配置和适应性生态系统调控机理的关键基础。在介绍前人工作基础的同时,本文全面而概括地总结了我们近年利用元素、同位素(如δ13C、δ15N、δ34S、87Sr/86Sr)示踪和化学计量学理论和方法对喀斯特生态系统中不同界面和流域中物质的生物地球化学循环及其生态环境效应的研究成果。认识到:喀斯特流域生物地球化学循环活跃,相互耦合,并与流域生态环境变化相互制约;人类活动正干预流域物质的自然生物地球化学循环过程,并导致相应的生态和环境效应;全球变化科学深化有赖于区域生态环境变化及物质生物地球化学循环的研究。这些认识是我们将来系统深入开展喀斯特以及其他流域生态系统物质生物地球化学循环研究的重要方向。 相似文献
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S. Violette G. de Marsily J. P. Carbonnel P. Goblet E. Ledoux S. M. Tijani & G. Vouille 《地学学报》2001,13(1):18-24
This paper relates the hydrology of a volcano to its eruptive activity, which seem to be correlated. Based on the groundwater pattern previously determined by hydrologic and thermal modelling, we formulate hypotheses for the mechanisms linking rainfall and volcanic eruptions. We focus on: mechanical loading by the weight of the infiltrated rain, which might favour magma overpressure or slope instability on the eastern volcanic flank; unloading of the infiltrated water, discharged toward the ocean, which could increase the tangential tensile stress above the magma chamber. We test the sensitivity of the model to the magma chamber geometry and the rainfall distribution. The mechanical unloading of the infiltrated water is the mechanism most likely to trigger eruptions. However, the presence of a sliding surface and rainfall loading could favour the development of tensile stress in the 'shell' surrounding the magma chamber but with a lower intensity than in the previous case. 相似文献
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The influence of volcanism on paleoclimate in the northeast of China: Insights from Jinchuan peat, Jilin Province, China 总被引:3,自引:0,他引:3
Just like contemporary sediments, peat itself is a good repository of information about climate change, the effects of volcanic
activity on climate change have been truly recorded in peat, since it is a major archive of volcanic eruption incidents. A
section of sand was identified as tephra from the Jinchuan peat, Jilin Province, China, for the grains look like slag with
surface bubbles and pits, characterized by high porosity, and loose structure with irregular edges and corners. According
to the peat characteristics of uniform deposition, the tephra was dated at 2002–1976 a B.P. by way of linear interpolation,
so the time of volcanic eruption was 15 B.C.–26 A.D. (the calibrated age). While the geochemical characteristics of tephra
in this study are quite the same as those of tephra from the Jinlongdingzi volcano at Longgang and from alkaline basaltic
magma, with the contents of SiO2<55%, and the similar contents to Al2O3 and Fe, but the contents of Na2O>K2O. We speculated that the tephra in this study came from the Longgang volcano group. Compared with 11 recorded volcanic eruption
events as shown on the carbon and oxygen isotope curves of the Jinchuan peat cellulose, it is obviously seen that adjacent
or large-scale volcanic eruptions are precisely corresponding to the minimum temperature and humidity. It seems that these
volcanic eruptions indeed affected the local climate, leading to the drop of regional temperature and humidity. As a result,
there was prevailing a cold and dry climate there, and all these changes can be well recorded in peat. So the comparison of
volcanic eruption events with information about climate change developed from peat, can provide strong evidence for the impact
of volcanism on climate change. 相似文献
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The angular velocity of Earth's rotation shows decadal oscillations due to the lunisolar gravitational torque, as well as inter‐ or intra‐annual changes arising from the angular momentum exchange between the atmosphere and the solid Earth. The energies involved in the Length of Day (LOD) variations may affect the crustal deformation rate and seismic energy release on a global scale. We found significant correlation between the occurrences of major volcanic eruptions and the LOD pattern since AD 1750. On a multiyear scale, eruption frequency worldwide increases with LOD changes. Moreover, the injection of sulphur gases into the atmosphere during major eruptions is accompanied by significant inter‐annual LOD variations. This provides evidence of complex mutual cause‐and‐effect interactions: stress changes induced by multiyear variations in Earth's spin may affect climactic volcanic activity; also, the atmosphere's dynamic response to volcanic plumes may result in global changes of wind circulation and climate, with consequent LOD variations. 相似文献