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本文通过交叉谱分析揭示了地球自转存在152个月,12个月和6个月的显著周期。赤道东太平洋SSTA存在38个月,214个月,51个月和3个月的显著周期,并且二者在38个月和152个月的周期上关系密切。落后时间长度谱显示,对于38个月和152个月的周期,海温的变化能影响地球自转的速率;而对于214个月的周期,地球自转的变化能影响海温场的变化,但此为次要因素。 相似文献
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中国全新世高温期中的气候突变事件及其对人类的影响 总被引:21,自引:1,他引:21
施少华 《海洋地质与第四纪地质》1993,13(4):65-73
本文通过孢粉、闪芯和古湖泊等研究,确定了高温期起迄时间为8.5-3KbB.P.,恢复了高温期的气候与环境的基本特征,作者发现在高温期仍在有7.8,5.3和4kaB.P.等三次具有普遍意义的气候突变事件,其降温幅度甚至可达3-4℃。这些突变事件对人类文明和环境变化起很重要的作用,尤其是与它位伴随出现的各种严重自然灾害阻碍和限制了古文明的发展,有时甚至是毁灭性的打击。 相似文献
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海洋沉积粘土矿物与古气候、古环境演化响应的研究进展 总被引:4,自引:0,他引:4
海洋沉积物记录了海洋物理和化学过程以及全球气候和环境变化历史的信息。近年来的研究表明 ,占沉积物组分一定比例的粘土矿物组合的变化与长期气候演变存在一定的关系 ,粘土周期性沉积响应与地球轨道驱动因子作用有关 ,陆源粘土通量既受大陆冰盖厚度和海平面变化以及环流强度的控制 ,同时又受源区物理、化学风化程度的影响。因此 ,粘土矿物组合的变化反映了源区气候冷、暖周期性旋回 ,记录了搬运、再沉积和环境演化的重要信息 ,为古环境再造、古季风变迁以及海陆对比提供了有力证据 ,同时也为洋盆及其边缘海形成、地球演化及重建中生代以来… 相似文献
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影响东海气候的太阳活动信息分析 总被引:8,自引:2,他引:6
采用逐次滤波法逐次提取东海气温资料序列中蕴涵的太阳活动影响信息并加以分析,发现东海气候年代际变化特征十分清楚,主要表现为:(1)突变性,东海夏季7月海平面层及对流层大气温度场在过去半个多世纪中发生过一次急剧变化,突变点是1978年7月.从1978年7月由历时30多年的温度偏低时期跃变为持续高温时期,高温期持续至20世纪末,升温幅度超过0.4℃.资料分析表明,整个对流层东海夏季大气温度都具有这种年代际变化特征;(2)高空气候持续增温型,东海夏季7月平流层中部10 hPa大气温度表现为一种波动式的持续升温过程,50多年来温度升高4℃,年升温率超过0.075℃/a.东海平流层底部100 hPa温度也具有持续升温的特点,从1948年至今呈缓慢升高的趋势,53 a升高了1.9℃,升温率为0.036℃/a;(3)周期性,东海不同高度大气温度都具有显著程度不同的22 a周期性年代际变化特征,22 a周期分量的振幅由高空到低空迅速减小,表明22 a周期高空清楚,低空不太明显.东海对流层中部和平流层底部还具有显著的11 a周期性年代际变化.据分析认为22 a周期是太阳黑子磁场磁性变化周期所激发,11 a周期与太阳黑子相对数11 a周期相吻合,二者均为太阳活动在大气气候中的反映. 相似文献
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沉积物镁铝含量比及其古气候意义 总被引:3,自引:2,他引:3
沉积物的镁铝含量比——m 值(m=100×MgO/Al_2O_3)与沉积水介质的盐度、pH 水温关系密切。当水温处在冰点以下时,沉积物的m 值随水温降低而增大。当水温处在冰点以上时,水介质的盐度、pH 和水温的增加,都有利于m 值增大。由于气候条件能直接或间接地影响沉积水介质的特征,因此,沉积物的m 值对古气候的变化具有一定的判别功能。通过对中国元古宙以来沉积物m 值的分析,发现古气候的热冷变化有1200Ma 的周期,其中还有次一级的热冷气候波动。第四纪的气候是处在热气候期后期的一个冷的气候波动阶段。 相似文献
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从地质记录中寻找周期是科学家最感兴趣的事情之一。最近,Hazen利Trefil(1991)提出了20条科学论点,并提到了地球上的所有事物都以周期模式运转.这个想法在最近对百万个不同的长期的陆地及防外时间序列的周期性分析中得到证实、尤其是RauP利Sepkoski(1984)关于海洋种群灭绝的周期是26Ma的断言引起了很大的争议。讨论集中在26Ma周期的统计稳定性及内在联系方面一对陆地(潮汐玄武岩,气候和海平面变化等)和陆外(冲击陨石坑)循环过程与周期性生物事件的内在联系的很多研究为“灾变循环”的可能出现提供了证据。然而,对这些记录里… 相似文献
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中国4Ma来孢粉植物群气候的多重旋回模型 总被引:4,自引:0,他引:4
本文应用频谱分析方法,研究了近4Ma来的孢粉植物群气候波动,确定存在准120,30(或40),10(或6)万年的周期。依据孢粉植物群的时空分布建立了多重气候旋回模型,该模型将4Ma来气候划分为3个1.2Ma的气候幕,12个0.3(或0.4)Ma的气候期,48个0.1(或0.06)Ma的气候段。并且讨论了模型与自然环境演变及季风气候兴衰的关系。指出在冬、夏季风交替活动过程中,夏季风兴盛于2.0-1.8Ma及0.8-0.2Ma两个时期;冬季风活跃于2.5-2.3Ma及1.2-0.8Ma两个时期。 相似文献
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北太平洋年代际涛动与太阳活动的联系 总被引:1,自引:0,他引:1
采用逐次滤波法分析了北太平洋海洋大气系统年代际振荡特征及其主要影响因子,探索太阳活动对于北太平洋海洋大气系统年代际变化的影响。结果表明,太阳活动是北太平洋海洋大气系统周期性年代际振荡的重要影响因子,具体反映在:1)北太平洋年代际涛动(PDO,Pacific Decadal Oscillation)存在与太阳活动密切相关的22年周期和11年周期,是PDO仅次于趋势项最重要的周期成分,其方差贡献率分别为20.9%和6.7%。研究发现北太平洋年代际涛动变化对于太阳活动的响应方式与太阳活动强弱程度有联系,太阳活动水平强时PDO与太阳磁场变化符号相同并且振荡幅度大;太阳活动水平弱时PDO与太阳磁场变化符号相反并且振荡幅度小。2)滤除持续下降趋势之后,北太平洋冬季阿留申低压活动区海平面气压(SLP,Sea Level Pressure)表现出与太阳磁场磁性指数(MI,Magnetic index)基本反相的周期性振荡,滤除22年周期之后11年周期也比较清楚,其方差贡献率分别为13.4%和1.1%。3)滤除持续升温趋势以后北太平洋100hPa冬季大气温度距平场表现出与太阳磁场磁性指数基本一致的周期性振荡,滤除22年周期之后11年周期也比较清楚,其方差贡献率分别为15.1%和1.1%。研究结果说明,在太阳活动对于大气温度场的影响过程中,黑子磁场磁性变化是决定性的,即决定了温度变化符号,MI绝对值的变化即太阳磁场强度变化影响其量变。 相似文献
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A. V. Eliseev 《Izvestiya Atmospheric and Oceanic Physics》2011,47(3):290-300
Changes in ecosystem types, including situations when natural vegetation is replaced by agricultural lands, leads to surface albedo changes and the development of the corresponding short-wave radiative forcing (RF). This work analyzes ensemble numerical experiments with the climatic model (CM) of the Institute of Atmospheric Physics at the Russian Academy of Sciences (IAP RAS) for the 16th–21st centuries. The responses to changes in the contents of greenhouse gases and sulfate aerosols (tropospheric and stratospheric), in the solar constant, and in the land-surface albedo when natural vegetation is replaced by agricultural lands were modeled during these experiments. Different members of these ensemble experiments were obtained by varying the model parameters affecting the RF on the climate during land use: the albedo of agricultural lands was varied within the interval from 0.15 to 0.25 and the parameter controlling the efficiency of snow masking by tree vegetation was varied in the range from the absence of this effect to its maximally possible efficiency. It has been established that changes in surface albedo when natural vegetation is replaced by agricultural lands have the largest influence on the globally averaged annual mean RF at the top of the atmosphere, whereas the influence of snow masking on the RF is substantially less. This phenomenon is caused by the fact that snow masking by tree vegetation can take place only in winter in regions of temperate and high latitudes, when insolation is relatively low. A comparison of the spatial structure of the annual mean response of the surface temperature with the HadCRUT3v and GISS observational data makes it possible to narrow the admissible range of model parameter values. In particular, it can be inferred that the key parameter values which control the influence that land use has on the surface albedo in the IAP RAS CM are close to optimal. In addition, variations in these parameters do not lead to a significant influence of land use on climate change in the 21st century if the Land Use Harmonization (LUH) scenarios of changes in the area of agricultural lands are used: the uncertainty of the model response associated with the uncertainty of values of such controlling parameters in the 21st century does not exceed 0.1 K. 相似文献
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A change in ecosystem types, such as through natural-vegetation-agriculture conversion, alters the surface albedo and triggers attendant shortwave radiative forcing (RF). This paper describes numerical experiments performed using the climate model (CM) of the Institute of Atmospheric Physics (IAP), Russian Academy of Sciences, for the 16th–21st centuries; this model simulated the response to a change in the contents of greenhouse gases (tropospheric and stratospheric), sulfate aerosols, solar constant, as well as the response to change in surface albedo of land due to natural-vegetation-agriculture conversion. These forcing estimates relied on actual data until the late 20th century. In the 21st century, the agricultural area was specified according to scenarios of the Land Use Harmonization project and other anthropogenic impacts were specified using SRES scenarios. The change in the surface vegetation during conversion from natural vegetation to agriculture triggers a cooling RF in most regions except for those of natural semiarid vegetation. The global and annual average RF derived from the IAP RAS CM in late 20th century is ?0.11 W m?2. Including the land-use driven RF in IAP RAS CM appreciably reconciled the model calculations to observations in this historical period. For instance, in addition to the net climate warming, IAP RAS CM predicted an annually average cooling and reduction in precipitation in the subtropics of Eurasia and North America and in Amazonia and central Africa, as well as a local maximum in annually average and summertime warming in East China. The land-use driven RF alters the sign in the dependence that the amplitude of the annual cycle of the near-surface atmospheric temperature has on the annually averaged temperature. One reason for the decrease in precipitation as a result of a change in albedo due to land use may be the suppression of the convective activity in the atmosphere in the warm period (throughout the year in the tropics) and the corresponding decrease in convective precipitation. In the 21st century, the effect that the land-use driven RF has on the climate response for scenarios of anthropogenic impact is generally small. 相似文献
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全新世气候系统的突变及周期性 总被引:6,自引:0,他引:6
高纬冰心、海洋沉积物及陆相古气候沉积记录揭示了全新世冰后期(最近1万年以来)存在系列气候突变事件及百年—千年尺度的气候周期韵律,证实了在冰期-间冰期旋回大尺度气候背景下全球气候存在较大不稳定特征这一基本事实。全新世作为与人类文明衔接的最新地质时段,各国科学家针对全新世气候系统变化特征及驱动机制的研究不断取得新的进展,这些成果将为未来气候演化趋势预测提供重要的历史相似性。总结了近年来关于全新世气候系统的突变及周期性研究的一些成果,并进行了概略的评述和展望。 相似文献
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南海热带气旋的气候变化及强度预测方法研究 总被引:1,自引:0,他引:1
建立南海海域1949~2007年6~10月份热带气旋(以下简称TC)年、月频数和TC中心强度的历史资料统计文件,分析TC的年月变化。结果表明:近50年,TC具有10a左右的周期变化,1964~1974年和1985~1995年为南海两个强台风以上级别频发期,1997~2006年为TC频数少且强度弱的时期。同时TC强度的空间分布分析结果表明,中沙北部海域和东沙西部海域为强台风多发生区,各月TC强度分布特征明显不同,且其加强通道具有南-北-南阶段性变化。另外,通过分别对1949~2007年北半球500hPa高度场及海温场的格点资料和TC强度历史资料的相关计算,选取高相关格点,根据相关权重组成组合因子,构建二次型预测方程,做年月TC强度预测。预测检验结果显示,冬季的高度场和海温场对次年的TC强度预测效果良好。 相似文献
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东北印度洋赤道90°E海岭和孟加拉扇MD81349,MD77181岩心记录了30万a来气候变化的历史.分析发现浮游有孔虫壳体(方解石晶体)的天然热释光变化与δ18O反映的冰川旋回存在着良好的一致性:天然热释光强度的增大与间冰期对应,降低与冰期对应.对MD81349岩心天然热释光时间序列的频谱分析结果显示热释光的显著周期为99,46,23,20和11ka,其中99,46,23,20ka分别与天文学周期中的地球轨道偏心率周期100ka,地轴倾斜度(黄赤交角)周期54,41ka,太阳辐射年度差异的岁差周期23,19ka接近,这表明地球冷暖交替与太阳辐射强度周期性变化密切相关,在不同海水温度条件下结晶形成的方解石晶体的热释光强度差异显著,因而有孔虫壳体积存的热释光能够反映地球气候的变化. 相似文献
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海洋地球化学若干领域的研究进展 总被引:1,自引:0,他引:1
海洋地球化学是20世纪中期形成的一门新兴边缘科学,是在海洋科学飞速发展和取得了一系列重大成果的基础上产生的。从海洋同位素地球化学的发展、海洋元素的循环与示踪技术的研究、短周期气候变化与突变事件的发现以及海底矿产资源的大面积勘测等方面论述了海洋地球化学若干领域的研究进展。 相似文献
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M. G. Akperov M. Yu. Bardin E. M. Volodin G. S. Golitsyn I. I. Mokhov 《Izvestiya Atmospheric and Oceanic Physics》2007,43(6):705-712
Analysis of statistical characteristics of cyclones and anticyclones in the latitudinal belt between 20° and 80°N has been performed with the NCEP/NCAR reanalysis data and simulations with the general circulation climate model of the Institute of Numerical Mathematics of the Russian Academy of Sciences (INM RAS GCCM). The model results have been analyzed for the second half of the 20th century against the NCEP/NCAR reanalysis data and for the 21st century with the SRES-A2 anthropogenic scenario. Overall for the 20th century, no statistically significant changes in the number of cyclones and anticyclones are obtained from either the NCEP/NCAR reanalysis data [1] or from simulations with the INM RAS GCCM [2]. It is found that the total number of cyclones and anticyclones decreased in the 20th century as compared to the 21st century. It is shown that cumulative distributions of the number of cyclones and anticyclones by their intensities and areas have an exponential form from both the reanalysis data and the model simulations, although the corresponding exponents are different. 相似文献
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IPCC气候情景下全球海平面长期趋势变化 总被引:5,自引:1,他引:4
利用CCSM3 (Community Climate System Model version 3)气候系统模式模拟20世纪海平面变化,在IPCC SRES A2 (IPCC,2001)情景假设下预测21世纪全球海平面长期趋势变化。模拟显示20世纪海平面上升约4.0 cm,且存在0.004 8 mm/a2的加速度,这个结果仅为热盐比容的贡献。在A2情景假设下,21世纪海平面上升存在很大的区域特征,呈纬向带状分布;总体上北冰洋上升大,南大洋高纬度海区上升小,大西洋上升值比太平洋的大;整个21世纪全球平均比容海平面上升了约30 cm,且呈加速上升的趋势。同时发现,中深层水温度和盐度变化对区域比容海平面变化具有重要贡献。北太平洋增暖主要集中在上层700 m以内,而北大西洋的增暖可达2 500 m的深度,南大洋南极绕极流海区热盐变化则是发生在整个深度。 相似文献
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Bruce Denness 《Progress in Oceanography》1987,18(1-4)
The development of an analytical expression to describe the natural variation of global temperature and related climatic variables over periods from a few years or less to over a billion years is shown and seen to match the variation of eustatic sea-level over similar periods. An additional anthropogenic factor to take the greenhouse effect into account is added to this natural climatic variation giving close correlation between the combined natural-plus-anthropogenic model of global temperature variation and its observed history over the past century. This provides grounds for confidence in the subsequent deterministic forecast for the combined model and its sea-level counterpart of, for instance, about 0.7m rise by 2050AD.A tentative physical explanation of the natural climate model is given invoking the possibility that the Universal Gravitational Constant (G) may, in fact, be a variable. In parallel, the anthropogenic climate model is underlined by alluding to a theoretical explanation of the population growth mechanism which largely drives it. The interactive nature of the impact of man on sea-level rise and vice versa is stressed. 相似文献