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文章系统地总结了火山活动对气候影响的数值模拟研究,主要结论如下:近百年至千年的气候变化和火山活动关系密切,强火山喷发可造成平流层4℃以上的增温和地表年、月平均温度约0.4℃、1℃的下降。地表温度下降的时空分布受许多因素的影响,如火山喷发特征(包括喷发位置、季节、强度等);海陆分布;火山气溶胶的光学特性;及其由直接辐射强迫引起的经向潜热输送的变化等等。同时还回顾了1991年皮纳图博喷发的有关研究及其对全球气候的可能影响的数值模拟工作。 相似文献
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重大的火山喷发对气候的影响表现为地面温度降低,由于火山喷发存在季节、纬度和强度的差异,因此喷发物的空间分布特征不同,对辐射的影响也不同,降温出现的时间和降温的幅度不一致。中高纬喷发的火山主要影响发生喷发的半球,而中低纬的喷发可影响到全球,且影响时间较长;不同季节的火山喷发后,高纬度的温度响应较低纬明显,夏季的温度响应较冬季明显。有关火山活动对降水的影响目前已有了一些研究,但由于降水序列中火山信号较弱,同时还有ENSO等其他因子的影响,客观地分辨出火山的影响较复杂,目前尚无一致结论。 相似文献
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根据平流层火山气溶胶传播规律研究,该文构建了反映火山喷发强度、平流层火山气溶胶相对浓度、火山气溶胶扩散速率和反映火山爆发地理位置并且按e指数规律衰减的火山活动指数(VEI)时空分布函数,进一步建立了北半球中高纬度、南北半球低纬度和南半球中高纬度3个1945-2008年逐月火山活动指数时间序列。根据3个逐月火山活动指数时间序列分别分析了北半球中高纬度、南北半球低纬度和南半球中高纬度火山活动对于相应纬度带地面气温的影响。研究表明:无论南北半球还是热带,火山活动强时地面气温下降,火山活动弱时地面气温上升,并且地面气温对于火山活动的响应明显滞后。 相似文献
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本文的数值实验结果表明:火山喷发主要造成全球性降温,火山所在的纬度和喷发的季节都可以对喷发后全球温度变化的形式产生影响。需要特别注意的是,火山喷发,尤其是北半球高纬春夏季节的喷发,能产生很强的冷夏作用,可能会对全球天气、气候的变化产生深远的影响。 相似文献
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分析了本世纪发生的21次火山喷发个例与齐齐哈尔市温度变化的关系,得出很有意义的结果,火山喷发后,当地夏季降温最明显,其影响滞后10个月以上;降温幅度与火山喷发的强度和距离呈正相关,火山喷发后,生长季积温减少,易出现氏温冷害。 相似文献
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近50年火山喷发和太阳活动对我国气候影响的研究 总被引:8,自引:1,他引:8
利用特征向量分析与时序叠加分析和谱分析相结合的方法,分析了近50a来我国地面气温和降水场中火山喷发和太阳活动的气候信号,强烈的火山喷发导致全国大部分地区降温,喷发1a多以后降温最明显,并能持续约半年。除这个主信号以外,青藏高原、东南沿海和东北地区都可能出现较为复杂的温度变化,温度变化与太阳活动之间的联系更多地反映在二者的振荡关系上。在降水场中的火山信号较弱,表现为火山喷发后的秋冬季节南方地区降水偏多。在青藏高原积雪和深层地温的变化中,没有发现火山和太阳活动信号。 相似文献
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每次火山喷发都会导致降温,全球性降温0.05℃,地区性降温0.2℃,并且会持续到第二年,其后逐渐平息。但是,除此以外,数年后仍存有影响。这并不就是直接的阳伞效应,而是由于气候系统中有自我调节机制,此机制因火山喷发而受刺激,引起变动,从而持续发生影响。另外,在火山活动的变动中,有70年左右的周期性,在气温长周期变动中也有这种反映。 相似文献
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研究人员发现,如果没有上个世纪的几次火山爆发向大气中注入大量的灰尘和气溶胶,现在的海水温度会比目前高。这些火山喷发的影响与部分人类活动导致的海平面升高相抵消。根据12个新的、最先进的气候模式的模拟结果,研究人员发现,由于印度尼西亚喀拉喀托火山(Kraka-toa)1883年的 相似文献
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Meng ZUO Tianjun ZHOU Wenmin MAN Xiaolong CHEN Jian LIU Fei LIU Chaochao GAO 《大气科学进展》2022,39(12):1986-1993
An undersea volcano at Hunga Tonga-Hunga Ha'apai (HTHH) near the South Pacific island nation of Tonga, erupted violently on 15 January 2022. Potential climate impact of the HTHH volcanic eruption is of great concern to the public; here, we intend to size up the impact of the HTHH eruption from a historical perspective. The influence of historical volcanic eruptions on the global climate are firstly reviewed, which are thought to have contributed to decreased surface temperature, increased stratospheric temperature, suppressed global water cycle, weakened monsoon circulation and El Ni?o-like sea surface temperature. Our understanding of the impacts of past volcanic eruptions on global-scale climate provides potential implication to evaluate the impact of the HTHH eruption. Based on historical simulations, we estimate that the current HTHH eruption with an intensity of 0.4 Tg SO2 injection will decrease the global mean surface temperature by only 0.004°C in the first year after eruption, which is within the amplitude of internal variability at the interannual time scale and thus not strong enough to have significant impacts on the global climate. 相似文献
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Byung-Kwon Moon Daeok Youn Rokjin J. Park Sang-Wook Yeh Won-Mo Kim Young-Ho Kim Jaein I. Jeong Jung-Hun Woo Eul Gyu Im Chang-Keun Song 《Asia-Pacific Journal of Atmospheric Sciences》2011,47(4):345-351
We examine the meteorological responses due to the probable eruption of Mt. Baekdu using an off-line Climate-Chemistry model that is composed of the National Center for Atmospheric Research (NCAR) Climate Atmosphere Model version 3 (CAM3) and a global chemistry transport model (GEOS-Chem). Using the aerosol dataset from the GEOS-Chem driven by GEOS-5 meteorology, experiment and control simulations of the climate model are performed and their meteorological differences between the two simulations are analyzed. The magnitudes of volcanic eruption and column injection height were presumably set to 1/200 of the Mt. Pinatubo eruption and 9 km, respectively. Significant temperature drop in the lower troposphere (850 hPa), which is mainly due to a direct effect of prescribed volcanic aerosols from Mt. Baekdu, has been simulated up to about ?4 K. The upper atmosphere (150 hPa) right above the volcano, however, shows significant warming due to the absorption of the infrared radiation by volcanic aerosols. As a result of the volcanic eruption in the climate model, wave-like patterns are shown in both the geopotential height and horizontal wind. The changes in the lower atmospheric temperature are well associated with the modification of the atmospheric circulation through the hydrostatic balance. In spite of limitations in our current simulations due to several underlying assumptions, our results could give a clue to understanding the meteorological impacts from Mt. Baekdu eruptions that are currently attracting considerable public attention. 相似文献
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This study analyses the perceptions of Zoque indigenous men and women of changes in climate variability, indicated by rainfall and temperature records from the region. Peasant farmers perceive decreases in rainfall and increases in temperature as these factors are related to modifications in the corn planting season and the introduction of crops which were usually only found in hot regions. The climate changes in the zone are attributed to vegetation loss and the eruption of the Chichón volcano in 1982. The Zoque perception is structured according to cultural and individual experience, tied to agriculture and the annual weather calendar. The volcanic eruption offers a significant chronological reference point in order to explain different environmental transformations, such as climate, within Zoque territory. Perception is the mental picture of local climate variability changes and the responses in seasonal agriculture modifications, utilizing individual and cultural experiences which are vulnerable to economic and environmental change. 相似文献
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Volcanic eruption is an important external forcing factor of climate change on time scale frommonth to hundred years.In this paper,the climatic effect of the last large historical eruption ofTianchi volcano,which happened in 1229 AD,has been investigated with a two-dimensionalenergy balance model.Taking Mt.Pinatubo volcano and Changbai Mountain-Tianchi volcano forexample,the numerical simulation on time scale from months to years indicates that such largeeruptions may have significant impacts on global climate.Based on the simulation results,it issuggested that the last large eruption of Tianchi volcano should be responsible for the abruptclimate change event,which began in the period from 1230 to 1260 AD. 相似文献
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The climatic impact of supervolcanic ash blankets 总被引:1,自引:0,他引:1
Supervolcanoes are large caldera systems that can expel vast quantities of ash, volcanic gases in a single eruption, far larger than any recorded in recent history. These super-eruptions have been suggested as possible catalysts for long-term climate change and may be responsible for bottlenecks in human and animal populations. Here, we consider the previously neglected climatic effects of a continent-sized ash deposit with a high albedo and show that a decadal climate forcing is expected. We use a coupled atmosphere-ocean General Circulation Model (GCM) to simulate the effect of an ash blanket from Yellowstone volcano, USA, covering much of North America. Reflectivity measurements of dry volcanic ash show albedo values as high as snow, implying that the effects of an ash blanket would be severe. The modeling results indicate major disturbances to the climate, particularly to oscillatory patterns such as the El Niño Southern Oscillation (ENSO). Atmospheric disruptions would continue for decades after the eruption due to extended ash blanket longevity. The climatic response to an ash blanket is not significant enough to instigate a change to stadial periods at present day boundary conditions, though this is one of several impacts associated with a super-eruption which may induce long-term climatic change. 相似文献
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应用气象卫星的探测处理资料,揭示和探讨了1991年6月15日菲律宾皮纳图博火山爆发后火山灰和火山尘云的演变和漂移中的一些重要特征,为研究这次火山爆发对天气和气候的影响提供了卫星观测分析信息。 相似文献
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The study analyzes the recently summarized data on surface air temperature in the east of North America, in Western and Eastern Europe, and in India before and after the Tambora volcano eruption occurred in Indonesia in 1815. The well-known fact is proved that no cooling occurred after the Tambora eruption in the east of Europe and in India. It is found that the insignificant (at the decadal timescale) cooling was observed in all analyzed regions: it started earlier than the Tambora eruption and than the stronger eruption of another volcano in 1809. The paper demonstrates that it is impossible to reveal cause-effect relations between the general cooling and the eruption of the above volcanoes based on the available data on surface air temperature. Cold snaps that follow the later volcanic eruptions were identified by meteorologists using the data of the whole network of meteorological observations established in the second half of the 19th century. However, these cold snaps cannot be detected using data on surface air temperature only. 相似文献
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Gao2008、Crowley2013和Sigl2015火山强迫资料,均基于极地冰芯重建。由于每组重建使用的冰芯数据和分析方法等不同,因此结果存在差异,从而影响气候模式应用。文中详细梳理三组火山强迫资料在原始冰芯数据、信号识别提取和沉积通量计算等方面的差异;介绍重建中涉及的对未知火山事件发生季节、纬度及从极地硫酸盐沉积通量向平流层辐射强迫通量转换等所做的假设;归纳资料中存在的共性问题。在此基础上,总结重建不确定性对模式应用的影响,希望为涉及气候模式的研究工作提供从气候系统外强迫资料解读或审视气候变化模拟与影响评估的视角,更好为气候模拟和预测服务。 相似文献