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1.
迄今所获的地质证据,包括深海沉积物氧同位素、大陆冰盖、山地冰川以及南北两极冰芯记录,均表明最后一次冰期终止始于14000aB.P·前,先于米兰科维奇天文理论推算的最大太阳辐射率的出现。地质记录同时表明,冰期-间冰期振荡以时间上不对称的100000a周期为主。这一非对称性以漫长的冰盖建造和迅速的冰盖消融为特征。而轨道要素引起的太阳辐射率波动以41000a、23000a和19000a周期为主。因此,地质记录显示冰期气候对太阳辐射率变化并无严格的直接响应关系。本文在讨论经典冰期气候理论的同时,着重评述近来发展的大洋环流-气候关系模式。该模式以能量、水体质量和大洋盐度平衡为依据,强调大西洋环流传送带对气候的影响。根据深海沉积物的化学记录该学说认为,冰期期间的大洋环流型式与现代不同。新仙女木寒冷事件可为大洋环流型式转换对气候影响的一个例证。就目前存在的有关冰期气候理论的一些问题,文中最后也做了讨论。 相似文献
2.
念青唐古拉山中段第四纪冰期划分 总被引:11,自引:3,他引:11
念青唐古拉山脉呈NE和近EW走向,其主脊海拔6000-7000余米,第四纪冰川活动强烈。根据第四纪地层剖面,地层层序,地质地貌特征及其相互接触关系,在念青唐古拉山中段可清晰地划分出3期冰期,从新到老依次为:拉曲冰期Q3,爬然冰期Q2-3,宁中冰期Q2-1。每次冰期及间冰期沉积物中的砾石及其岩性,砾态,沉积厚度,风化程度等都有明显区别。另外,还对老冰期与冰碛层,各次间冰期和本区冰期与其他地区冰期对比等问题进行了讨论。 相似文献
3.
论中国第四纪冰期与间冰期 总被引:1,自引:0,他引:1
李四光教授在庐山划分三个冰期与两个间冰期,后来加上晚更新世的大理冰期,为四个冰期三个间冰期,李承三教授继而在四川西北部山区划分现五个冰期与四个间冰期,孙殿卿教授等后来在河北省泥河湾划分出六个冰期与五个间冰期。景才瑞等也曾在庐山与鄂西高原地区划分出四个冰期与三个间冰期。学者们比较公认的为:鄱阳冰期,鄱阳-大姑间冰期、大始冰期,大姑-庐山间冰期,庐山冰期,庐山-大理间冰期与大理冰期,目前处在冰后期。 相似文献
4.
早新生代是地质史上最后一个温室气候期,随后南极冰盖形成,地球进入到晚新生代冰期。温室气候的成因和冰期气候转型的机制一直是国际相关学界关注的问题。评述国际上对此开展的古气候模拟,反映了早新生代温室气候受到了海洋和大陆的地理位置、暖海洋温盐环流和海洋热输送、太阳辐射和大气CO2浓度变化的作用和影响。古气候模拟还反映了早新生代温室气候转向冰期气候,受到了大洋通道改变和高原构造隆起、大气成分变化以及海陆生态系相互的作用和反馈。这些古气候模拟试验锁定在气候变化的关键时段和重要驱动因子,对测试地球内外驱动力和地球各圈层反馈作用提供了重要的科学依据;温室气候以及趋向冰期气候的模拟研究对探讨气候变化内在机制、预测未来气候具有重要意义。
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5.
新元古代冰碛岩地层记录了“雪球地球”极端气候事件重要的地质信息。塔里木地块东北缘库鲁克塔格地区、西北缘阿克苏地区和西南缘叶城地区新元古代冰碛岩地层露头发育,是研究新元古代冰期事件的理想基地。文章基于塔里木地块周缘新元古界详实的野外地质调查工作,综合了地层学、同位素年代学、岩石地球化学等研究,聚焦冰碛岩地层沉积时代这一核心问题,建立新元古代冰期格架。冰期事件对比显示,贝义西冰期(库鲁克塔格地区)相当于Kaigas冰期(国际),阿勒通沟冰期(库鲁克塔格地区)、巧恩布拉克冰期(阿克苏地区)、波龙冰期(叶城地区)相当于Sturtian冰期(国际),特瑞爱肯冰期(库鲁克塔格地区)、尤尔美那克冰期(阿克苏地区)、雨塘冰期(叶城地区)相当于Marinoan冰期(国际),汉格尔乔克冰期(库鲁克塔格地区)相当于Gaskiers冰期(国际)。同时基于冰期事件对比关系,建议根据国际地层委员会的最新划分方案将塔里木地块南华系底界调整为与全球性Sturtian冰期沉积底界相当的层位。通过探讨新元古代冰期事件与古老烃源岩发育的耦合关系,分析了新元古界优质烃源岩的发育潜力,指出塔里木地块新元古界具备良好的油气成藏地... 相似文献
6.
作为全球接受太阳辐射最多、表层海水温度最高的区域,西太平洋暖池区通过厄尔尼诺-南方涛动(El Niño-Southern Oscillation,ENSO)和季风等过程影响着全球气候的变化。越来越多的沉积记录证明,在地质历史时期西太平洋暖池也存在类似于现代ENSO过程的“类ENSO式”变化。而目前类ENSO式变化与冰期—间冰期旋回之间的响应关系和驱动机制及其与东亚季风的关联仍存在争议。本文利用位于暖池核心区的B10岩心浮游有孔虫氧同位素、Mg/Ca(质量分数比)和黏土矿物参数重建了暖池区氧同位素8期以来的古气候记录,并结合已有的热带海表温度记录、中国石笋氧同位素和南大洋地区海表温度记录,研究了西太平洋暖池冰期旋回中类ENSO状态的演化规律及其与东亚季风的关系,并探讨了暖池区类ENSO演化的驱动机制。结果发现:冰期时,西太平洋暖池区温跃层变浅,赤道东、西太平洋温差减小,同时,东亚夏季风减弱,暖池区降水量相对减少,与现代El Niño时期气候态类似;间冰期时,西太平洋暖池区温跃层加深,赤道东、西太平洋温差增大,东亚冬夏季风增强,暖池区降水量相对增加,与现代La Niña时期气候态类似。频谱分析结果表明,西太平洋暖池区海表温度的变化具有偏心率周期(96 ka)。冰消期时,低纬度太阳辐射量的增加,增大了纬向上的SST梯度,并使得次表层海水储存了更多的热量,积累的热量会通过调节次表层环流向暖池区的热传输,最终调控赤道太平洋地区Walker环流强度和ENSO活动的长期变化。而冰期时,南大洋地区降温所引起的东南信风和大洋环流异常可能对类ENSO式起到调控的作用。 相似文献
7.
在地质历史上曾出现过几次大冰期。其中最近的两期都是全球性的,时间也比较确定。它们是第四纪大冰期(发生在近二百万年)和晚古生代大冰期(距今约2-3亿年)。在每一次大冰期中,又可分为几个冰期和间冰期。在大冰期之间是非冰期。关于气候变迁的原因或冰期的成因问题,在科学界至今还是一个“谜”。虽然前人曾提出过各种各样的理论,但是正如李四光(1972)和施瓦茨巴克(Schwarzbach,1974)等所指出的:这些论点都不足以说明气候变迁的原因或冰期的成因问题。近几十年来,大量新的科学资料的积累,尤其在海洋研究方面所取得的进展,为这个问题的解决提供了素材。 相似文献
8.
本文在冰期形成的天文、地质因素分析基础上,提出了以下几点认识:1.提出冰期是在一定的天文-地质因素相迭加、共振作用下形成的。2.认为黄道倾斜(ε)的变化贯穿于整个地质时代的气候变化之中,是影响冰期形成的重要天文因素。3.根据冰期成因的迭加-共振模式,对晚元古代冰期的成因进行了初步探讨。4.对晚元古代冰川活动的范围、次数、时限、等时性及非等时性等问题,进行了讨论。 相似文献
9.
以汾河上游静乐水文站 1975-1976年冰期河槽结冰储存量计算为例,论述了如何运用水量平衡原理,计算一航河流冰期结冰存储量、受结冰影响减少径流天数和期间平均减少流量,以期更好地为采用天然河道输水的供引水工程冰期调度服务。 相似文献
10.
11.
全球冰-海洋耦合模式的海冰模拟 总被引:18,自引:0,他引:18
海冰是全球气候系统的重要分量 ,与大气和海洋的相互作用 ,直接影响大气环流和海洋环流 ,对气候及其变化具有重要影响。文中依据冰、海洋间的热力、动力耦合相互作用 ,改进冰海洋热力耦合方案 ,利用由中国科学院大气物理研究所的 30层海洋模式和基于Flato空化流体流变学的海冰动力模式和Hibler表面热收支平衡的零层海冰热力模式 ,建立全球冰海洋耦合模式。利用大气月平均气候资料 ,利用冰海洋耦合模式对全球海冰的分布及其季节性变化、海冰漂移进行了耦合模拟和分析。模拟的南半球海冰分布及季节变化与实际分析资料非常接近 ,比 2 0层冰海洋耦合模式的结果有显著改进。北半球海冰范围偏小 ,但季节变化的量值与实际相当一致。模拟的海冰速度场反映了南、北半球海冰漂移的主要特征 ,如北极的穿极漂流和南大洋的绕极环流等。对海冰密集度的分析表明 ,模拟结果得以改进原因在于改进的冰海洋热力耦合方案增强了融冰期冰海洋耦合系统海洋热通量增加—密集度减小—能量收支增加的正反馈机制。 相似文献
12.
全球大洋深海有孔虫碳同位素(δ13C)记录中广泛发现40万年周期,这一周期可能与偏心率长周期的轨道驱动有关.1.6 Ma以来,δ13C的这一长周期拉长到50万年,且重值期不再与偏心率低值对应.目前对δ13C 40万年周期的成因及其周期拉长的机制还不明确.这里使用了包含9个箱体的箱式模型,用于研究热带过程与冰盖相互作用及其对大洋碳循环的影响.模拟结果显示当北半球高纬海区海冰迅速增大时冰盖迅速融化,进入冰消期,而当海冰快速消失后,冰盖则重新缓慢增长.冰盖变化具有冰期长,间冰期短的非对称形态.在季节性太阳辐射量的驱动下冰盖变化具有10万年冰期-间冰期旋回.当冰盖融化速率受北半球高纬夏季太阳辐射量控制时,冰盖变化的岁差周期明显加强,相位与地质记录一致,说明轨道驱动可以通过非线性相位锁定机制使冰盖变化与其在相位上保持一致.海冰的阻隔效应使大气中CO2在冰消期时增多.冰期时大洋环流减弱使大气中CO2逐渐减少.当模型只有ETP驱动的风化作用而不考虑冰盖变化时,模拟的δ13C记录显示极强的40万年周期,体现了大洋碳储库对热带风化过程的响应.当同时考虑冰盖变化和风化作用时,模拟的δ13C结果中40万年周期减弱而10万年周期加强,并且40万年周期上碳储库与偏心率的相位与不考虑冰盖变化时的相位也存在差异,反映了冰盖变化引起的洋流改组压制了大洋碳循环对热带过程的响应. 相似文献
13.
Contourite is one of the most important type of sediments in the global ocean, which has recorded significant information on paleoclimatic changes. It is also of great importance for ocean engineering and marine hydrocarbon exploration. The development of scientific ocean drilling, especially the “Integrated Ocean Drilling Program” and the undergoing “International Ocean Discovery Program”, has made great contribution in mapping the spatial distribution of contourites and revealing contourite-related paleoclimatic information, through coring and geophysical exploration in the global ocean. It is found that the global distribution of contourites is controlled predominantly by the global deep-water circulation while its distribution in a specific region can be affected by the intensity of deep currents, tectonic activities, sediment supply, and so on. The geological changes in the global deep-water circulation is, however, further affected by tectonic activities, origins of water masses, as well as climate changes, e.g. the Cenozoic global cooling, changes in the size of the northern hemisphere ice caps, and intensity of monsoon. The main controlling factors of deep water circulation vary with different regions. 相似文献
14.
天文古气候理论及其进展—从米兰柯维奇到贝尔杰 总被引:3,自引:0,他引:3
扼要介绍了天文古气候学的创立和发展简史。太阳是地球大气运动的第一驱动力,地球气候的长期演变在很大程度上受到入射太阳辐射变化的影响。入射太阳辐的变化主要和三个地球轨道参数有关,即地球绕太阳运行的椭圆轨道偏心率,地球自转轴倾角及岁差。太阳辐射的长期振荡主要集中在与这三个参数有关的频率上,这些频率通常被称为米兰柯维奇频率,数值模拟和地学记录都证实地质时间尺度的古气候的演化大多位于米兰柯维奇频率带上。 相似文献
15.
温盐环流是由海水温度、盐度差异驱动的全球洋流循环系统。在气候系统中,它对全球热量输送起到了十分重要的作用。在亚轨道尺度(千年时间尺度)上,温盐环流的改变导致了一系列快速的气候变化,因此备受关注。在构造时间尺度(百万年时间尺度)上,古海洋记录和数值模拟揭示出,温盐环流的反转对新生代气候也产生了非常显著的影响。在新生代,温盐环流由“南大洋深层水主控型”向“北大西洋深层水主控型”反转。这一反转改变了全球的热量输送,使得南半球强烈变冷,并有可能导致南极东部永久冰盖的形成。在这一反转事件中,热带海道的作用更加重要。 相似文献
16.
The GISP2, central Greealand, glaciochemical series (sodium, potassium, ammonium,calcium, magnesium, sulfate, nitrate and chloride) provides a unique view of the chemistry of the atmosphere and the history of atmospheric circulation over much of the Northern Hemisphere. Interpretation of this record reveals the controls on both high and low frequency climate events of the last 110 000 years.Changes in insolation on the order of the major orbital cycles control the long-term behavior of atmospheric circulation patterns through changes in ice volume (sea level) and related positive feedbacks.Events such as the Heinrich events (massive discharges of icebergs first identified in the marine record)are found to operate on a 6 100 year cycle due largely to the lagged response of ice sheets to changes in insolation and consequent glacier dynamics Rapid climate change events (massive reorganizations of atmospheric circulation) are demonstrated to operate on 1 450 year cycle possibly in response to internal oscillations in the ocean-atmosphere system or due to changes in solar output. Changes in insolation and associated positive feedbacks related to ice sheets assist in explaining favorable time periods and controls on the amplitude of these massive rapid climate change events.Comparison of the GISP2 glaciochemical series with an ice record from Taylor Dome in Antarctica indicates considerable similarity suggesting that both polar regions experience marked changes in climate. While preliminary evidence points to similar phasing of several major climate events in the two polar regions exact phasing cannot as yet be determined, because dating of Antarctic ice core records is not as well-established as the dating for Greenland ice cores. 相似文献
17.
J. Chappell 《Quaternary Research》1973,3(2):221-236
Quaternary paleotemperatures and sea level records, from both deep sea cores and dated shorelines, provide the basis for testing the Milankovitch hypothesis of climatic change. The longest and most detailed records include (1) oxygen isotope analyses of Caribbean and Atlantic deep sea cores, (2) paleoecological analyses of the same cores, and (3) radiometrically dated raised coral reefs from New Guinea and elsewhere, representing times of relatively high Quaternary sea levels. Time-domain and frequency-domain analysis of these records, shows with a high degree of certainty that Quaternary climatic changes are strongly influenced by the obliquity perturbations and precession of the Earth's orbit. The same analyses also suggest that the time scale adopted by Emiliani for deep sea cores may be more nearly correct than alternative time scales of other workers.The question of whether insolation changes arising from orbital perturbations can generate ice ages, has been disputed by climatologists. It is shown here that orbital perturbations cannot affect climate indirectly through agencies originating within the Earth, such as vulcanism, and that the primary climatic control is therefore through variation of insolation distribution, as Milankovitch suggested. The conclusion is that climatologic theory must accommodate these facts. 相似文献
18.
北极海冰与全球气候变化 总被引:7,自引:2,他引:7
最近有关北极海冰在全球气候系统中作用的研究发现,北冰洋边缘海域大洋深水的形成与海冰发育有关,海冰冻融过程对盐度层结具有重要影响,海冰变化可引起盐度突变层的灾变和热盐环流的突然停止,热盐环流的变化与北大西洋海冰10年际变化相联系,北大西洋气候的不稳定性与热盐环流变化密切相关。北极海冰-海洋-大气间耦合作用,使北极海冰构成了北大西洋和全球气候反馈循环中的重要环节。 相似文献
19.
Thomas J. Crowley 《Quaternary Research》1984,21(1):105-110
Models of atmospheric circulation in the North Atlantic sector during glacial inception can be expanded to a hemispheric scale with the aid of diagnostic studies of the present climate. The present “Greenland Above” (GA) atmospheric circulation type may be a candidate for the atmospheric circulation type required during glacial inception. The pattern is an amplification, with only minor phase shifts, of the present average winter circulation pattern in the extratropical Northern Hemisphere. Southerly flow in the northwest Atlantic is associated with warm ocean temperatures, low sea ice in the Davis Strait, and increased precipitation over northeast Canada. Evidence from modeling of the present climate indicates that the GA pattern could be maintained by increased snow cover over eastern North America. Enhanced snow cover, due to decreased Northern Hemisphere summer insolation, could cause a similar response on an ice-age time scale. 相似文献
20.
The imprint of orbital cycles, which result from the varying eccentricity of the Earth’s orbit and changes in the orientation of its axis, have been recognised throughout the Phanerozoic rock record. Variations in insolation and their effect on climate are generally considered to be the sole transfer mechanism between the orbital variables and cyclic sedimentary successions. Common oceanographic principles, however, show that the ocean tide also responds to variations in the orbital parameters. The ocean tide has not yet been considered to be a valid, additional transfer mechanism for the orbital variations. In geological studies of Milankovitch cycles in sedimentary successions the insolation paradigm offers satisfying explanations, and the role of long‐term variations of the ocean tide has not yet been appreciated. Variations in the ocean tide, related to changing eccentricity (at present 0·0165, theoretical maximum 0·0728), affect a variety of oceanographic and sedimentary processes. In addition to the widely accepted paradigm of orbitally forced insolation changes, the tidal transfer of orbital signals may explain certain less well‐understood aspects of orbitally induced cycles in the stratigraphic record related to ocean mixing, organic productivity, and tidal processes in shallow seas and deep water. Variations of the ocean tide in relation to the 18·6 year lunar nodal cycle, which has no insolation counterpart by which they may be obscured, indeed show that these relatively small variations can produce significant effects in sedimentary environments that are sensitive to variations in the strength of the ocean tide. In analogy with the 18·6 year lunar nodal cycle, orbital variations of the tide on Milankovitch time scales are likely to have affected sedimentary systems in the past. 相似文献