Methane,carbon monoxide and methylchloroform in the southern hemisphere   总被引：1，自引：0，他引：1  

P. J. Fraser  P. Hyson  R. A. Rasmussen  A. J. Crawford  M. A. K. Khalil 《Journal of Atmospheric Chemistry》1986,4(1):3-42

New observational data on CH₄, CO and CH₃CCl₃ in the southern hemisphere are reported. The data are analysed for long term trends and seasonal cycles. CH₃CCl₃ data are used to scale the OH fields incorporated in a two dimensional model, which in turn, is used to constrain the magnitude of a global CH₄ source function. The possible causes of observed seasonality of CH₃CCl₃, CH₄ and CO are identified, and several other aspects of observed CH₄ variability are discussed.Possible future research directions are also given.  相似文献   

中国大陆地壳“镶嵌与叠覆”的结构特征及其演化     

LI Jinyi 《地质通报》2004,(Z2)

初步探讨了中国大陆地壳“块带镶嵌多层叠覆”的结构特征和多阶段的构造演化过程。中国大陆地壳新元古代中期以来的一级构造单元有中朝、塔里木、扬子、敦煌4个陆块和中央、西北、东北、西南、东南5个造山区(带)。中朝陆块的形成源于古元古代期间发生的古大陆裂解;扬子、塔里木和敦煌陆块的形成源于新元古代早期发生的古大陆裂解。西北造山区的形成源于古生代晚期洋盆关闭、大陆碰撞并叠加新生代陆内再造山;东北造山带的形成过程包括古生代碰撞造山及中生代增生、碰撞造山;中央造山带至三叠纪大陆碰撞才最后形成并叠加有新生代再造山;东南造山带的形成经历了古生代至新生代的多次造山作用;西南造山带主要是中—新生代造山作用的产物。这些单元都具有“块带镶嵌多层叠覆”的结构特征和多阶段构造演化的特点。中国大陆地壳的形成与演化可以划分为太古宙—古元古代、中元古代—新元古代早期、新元古代中期—古新世和始新世以来4个构造阶段,每个阶段都对应不同的超大陆裂解-聚合旋回。其中新元古代中期以来的地壳形成演化与全球洋陆格局中的古亚洲洋、古特提斯洋、古太平洋、特提斯洋和太平洋5个动力学体制有关,相应地可以归结为古亚洲、古特提斯、古太平洋、特提斯和太平洋5个造山域。正是这些多阶段的超大  相似文献   

Experimental Study of Mechanical Behaviour of Rock Joints Under Cyclic Loading   总被引：3，自引：5，他引：3  

M. K. Jafari  F. Pellet  M. Boulon  K. Amini Hosseini 《Rock Mechanics and Rock Engineering》2004,37(1):3-23

Summary Evaluation of the effects of small repetitive earthquakes on the strength parameters of rock joints in active seismic zones is of interest of the designers of underground constructions. In order to evaluate these effects, it is necessary to study the behaviour of rock joints under dynamic and cyclic loadings. This paper presents the results of a systematic study on the behaviour of artificial rock joints subjected to cyclic shearing. More than 30 identical replicas have been tested using triaxial compression devices under different conditions of monotonic and cyclic loading. At the first stage a few samples have been tested in monotonic loading modes under various confining pressures and rate of displacement. In the second series of tests, small cyclic loads were applied on the samples for increasing number of cycles, frequency levels and stress amplitudes. These were then followed by monotonic loading again. The variations of maximum and residual shear strengths for each test have been studied. The results show increase of shear strength as a result of the increase in confining pressure and they display decrease of shear strength due to the increase of rate of loading, number of cycles, frequency levels and stress amplitudes.  相似文献   

辽南新元古代营城子组臼齿灰岩的沉积环境   总被引：13，自引：0，他引：13  

刘燕学旷红伟  蔡国印孟祥化 葛铭 《地质通报》2003,22(6):419-425

臼齿(Molar—Toom)灰岩是发育于中新元古代碳酸盐台地的一种特殊灰岩类型。辽东半岛南部大连地区震旦系营城子组中部臼齿灰岩十分发育，野外观测、室内薄片以及比较沉积学研究表明，臼齿灰岩的出现与环境密切相关。通过米级旋回研究发现，该岩相段以发育浅水碳酸盐岩米级旋回层序为主，臼齿构造主要产出在微旋回中下部的中薄层泥晶灰岩和粉屑灰岩中，形成环境为潮下浅水环境。  相似文献   

A reevaluation of the oceanic uranium budget for the Holocene   总被引：4，自引：0，他引：4  

R. M. Dunk  R. A. Mills  W. J. Jenkins 《Chemical Geology》2002,190(1-4):45-67

We present a new assessment of the pre-anthropogenic U budget for the Holocene ocean. We find that the gross input of U to the ocean lies in the range 53±17 Mmol/year, where the dominant source is river runoff (42.0±14.5 Mmol/year) and the direct discharge of groundwater could represent a significant additional input (9.3±8.7 Mmol/year). The soluble U flux associated with the aeolian input of crustal dust is minor (1.8±1.1 Mmol/year), falling well within the errors associated with the riverine flux. Removal of U to the organic rich sediments of salt marshes and mangrove swamps during river–sea mixing may significantly modify the riverine flux, such that the net U input is reduced to 42±18 Mmol/year. Evaluation of the U isotope budget demonstrates that the limits we have established on the U input flux are reasonable and suggests that direct groundwater discharge may play a significant role in maintaining the oceanic excess of ²³⁴U. The total sink of U from the ocean lies in the range 48±14 Mmol/year. We find that three major processes control the magnitude of this flux: (1) removal to oxygen-depleted sediments (26.9±12.2 Mmol/year); (2) incorporation into biogenic carbonate (13.3±5.6 Mmol/year); and (3) crustal sequestration during hydrothermal alteration and seafloor weathering (5.7±3.3 Mmol/year). The removal of U to opaline silica (0.6±0.3 Mmol/year) and hydrogenous phases (1.4±0.8 Mmol/year) is minimal, falling well within the errors associated with the other sinks. That the input and output fluxes balance within the calculated errors implies that U may be in steady state in the Holocene ocean. In this case, the input and output fluxes lie in the range 34–60 Mmol/year, giving an oceanic U residence time of 3.2–5.6×10⁵ years. However, given the large uncertainties, a significant imbalance between the Holocene input and output fluxes cannot be ruled out. The constancy of the ancient seawater U concentration implies that the U budget is in steady state over the time period of a glacial–interglacial climate cycle (10⁵ year). A Holocene flux imbalance must, therefore, be offset by an opposing flux imbalance during glacial periods or at the interglacial–glacial transition. We suggest that the storage of U in the coastal zone and shallow water carbonates during interglacial periods and the release of that U at or following the interglacial–glacial transition could be sufficient to affect the short-term stability of the U budget. Providing tighter constraints on U fluxes in the Holocene ocean is a prerequisite to understanding the U budget on the time scale of a glacial–interglacial climate cycle and using this element as a valuable palaeoceanographic proxy.  相似文献   

Sedimentary records of environmental evolution in the Sanmen Lake Basin and the Yellow River running through the Sanmenxia Gorge eastward into the sea   总被引：1，自引：0，他引：1  

王苏民  吴锡浩  张振克  蒋复初  薛滨  童国榜  田国强 《中国科学D辑(英文版)》2002,45(7):595-608

A series of independent faulted basins developed in the present middle reaches of the Yellow River during late Cenozoic, among which the Sanmen Lake Basin is located in the east edge of the Loess Plateau, a transitional zone between the second and third macromorphological step of China. The thick strata of the Sanmen Group deposited in the large basin. The Sanmen Group is a perfect place for the study on paleoenvironmental change, tectono-climatic cycles as well as the formation and evolution of the Yellow River. In this paper, the paleoenvironmental changes, regional tectonic movement and the evolutionary process of the Sanmen Lake Basin during the past 5 Ma were reconstructed based on the analysis of paleomagnetic stratigraphy, pollen, TOC and carbonate content from the Huangdigou outcrop near the Sanmenxia Reservoir, Pinglu County, Shanxi Province. The sedimentary records from the outcrop indicate that the basin was first formated by fault activity at about 5.4 MaBP, and after the strong tectonic movement at 3.6 MaBP the lake enlarged and the rainfall of summer monsoon increased. There was no great climatic transition near 2.6 MaBP, corresponding to the bottom age of loess in the Loess Plateau. After Olduvai event (about 1.77 MaBP) the Picea and Abies were presented in the sediments, which indicates a colder climate. The tectonic movement at 1.2 MaBP caused the light angular discordance between the upper and lower Sanmen Group. The sedimentary records show a cold and wet climate during the prosperous periods of loess accumulation such as L15, L9, L6. The tectonic intensification periods of the Sanmen Basin correspond with the tectonic movements in the Qinghai-Xizang Plateau chronologically. The earliest age of the outflow from the Paleo-Sanmen Lake or the partly cutting off of the Sanmenxia Gorge was about 0.41- 0.35 MaBP. The age of cutting thoroughly the Sanmenxia Gorge by the Yellow River and the disappearance of the Paleo-Sanmen Lake was about 0.15 MaBP, which symbolized the formation of the present Yellow River and had an important influence on the environmental and morphological evolution in the middle and lower reaches of the Yellow River.  相似文献   

气候演变中的冰和碳   总被引：18，自引：0，他引：18  

汪品先 《地学前缘》2002,9(1):85-93

地质历史上充满着冰盖消长 (“暖室期”和“冰室期” ,“冰期”和“间冰期”)与大气CO2 增减的周期性变化 ,而两者之间的关系并不清楚。由于冰盖变化的地质标志比大气CO2 变化的标志容易认识 ,长期以来古气候研究侧重“冰” ,而对“碳”即碳循环的研究不足 ,通常将碳循环的变化解释为冰盖变化的结果。近年来越来越多的发现表明 ,单纯用水循环的物理过程不能解释冰盖演变的许多现象 ,而且大气CO2 变化往往领先于冰盖。揭示碳循环变化对冰盖演变的影响 ,认识生物地球化学过程在冰期旋回中的作用 ,将不同纬区对地球轨道驱动全球气候的影响区分开来 ,才有可能正确预测未来气候的演变方向。  相似文献   

福建戴云山巨型环状体的成因探讨     

王文革  章振国 《福建地质》2002,21(4):187-194

通过对戴云山巨型环状体西南端上涌地区4幅1：5万区域地质调查，结合区域地质资料综合研究，从火山产物及火山构造空间分布格局分析，初步认为它是以石牛山地区为中心的大型破火山组合群体，其中包括不同时期，不同级别，不同类型的火山构造，是大型破火山经过多期，多旋回，继承性和迁移喷发，同一时期，旋回火山构造多呈同心环状（卫星式）分布，不同时期，旋回火山构造往中心迁移叠置或继承套叠构成巨型环状火山构造面貌。  相似文献   

150ka B.P.以来萨拉乌苏河流域的CaCO3旋回   总被引：6，自引：0，他引：6  

罗开利  李保生  祝一志  靳鹤龄  余雪飞  吕玉晓  阎满存  李后信  姚春霞  张宇红 《地理科学》2002,22(6):683-688

以米浪沟湾地层剖面作为萨拉乌苏河流域的典型剖面，探讨了150kaB.P.以来的CaCO3含量分布与气候变化的关系。1）该剖面CaCO3含量及其低-高变化同古风成沙与上覆河湖相或古土壤构成的没积旋回呈现出明显的对应关系。与米浪沟湾剖面的沉积旋回一样，CaCO3在分布上相应地构成了27个含量高低变化旋回。2)CaCO3在风成沙中含量的分布比较稀散，0.8%-7.18%，平均值2.50%；在河湖相和古土壤中土壤中相对富集，2.20%-14.90%，平均值5.74%。从而揭示出其时两者的气候背景是不同的，前者是干旱寒冷气候作用下的风力的侵蚀、搬运与堆积的产物；而后者则与暖湿气候环境下萨拉乌苏河流域地处鄂尔多斯高原和黄土高原这间特殊的低洼地貌位置有关。气候暖湿，河湖沼泽发育、成土成壤作用增强，低洼的集水条件有利于CaCO3的聚集。3）导致米浪沟湾剖面CaCO3的多旋回相对稀钐与聚集的根本原因可能是150kaB.P.以来北半球冰期-间冰期气候波动影响下乌素沙漠冬夏季风的多次更迭所致。  相似文献   

Predictions of secular geoid changes from Late Pleistocene and Holocene Antarctic ice‐ocean mass imbalance     

Georg Kaufmann 《Geophysical Journal International》2002,148(2):340-347

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