共查询到20条相似文献,搜索用时 125 毫秒
1.
2.
1993年中国南极中山站(69°22'S,76°22'E)的一台波长为0.694μm的激光雷达对平流层进行了53次探测,从激光大气回波信号计算出平流层气溶胶后向散射比的垂直分布和12~30km高度范围内的积分后向散射系数。探测结果表明因受菲律宾Pinatubo火山爆发的影响,1993年南极地区平流层气溶胶粒子含量比1990年明显增加,证实了南极冬季平流层云的存在。平流层气溶胶为两层结构,12km附近高度上始终存在着一层厚度为数公里的气溶胶层,25km附近高度的一层变化较大。 相似文献
3.
罗斯海位于罗斯海湾北部、南极太平洋扇形区,该区域的罗斯海盆地是南极最具资源潜力的盆地之一,可进一步分为维多利亚地盆地、北部盆地、中央海槽和东部盆地四个次级单元。在对区域地层特征、地震地层特征进行总结归纳后,也分析了盆地的构造、沉积、温压及烃类地化条件,认为罗斯海盆地具有较好的油气地质条件。以二维地震、钻孔资料为基础,对盆地成熟度及生烃量进行了模拟。研究认为:东部盆地与维多利亚地盆地油气生成区均较广,但后者的源岩热演化程度较前者稍高,而中央海槽与北部盆地在油气生成区域及热演化程度方面均较差;根据生烃量模拟结果,同时选择合理的排聚系数,推测罗斯海盆地的地质资源量约为91.5亿吨。 相似文献
4.
5.
本文依据南极智利贝纳尔多奥伊金斯将军站的来自南桑德韦奇群岛的Ms=6.4级地震面波资料,采用最新的适配滤波频时分析技术和网格频散反演方法,计算了南极半岛地区的勒夫波群速度频散,并获得了该区岩石圈结构模型。结果表明,西南极南极半岛地区地壳为成层结构,可分为三层,其分层厚度分别为5km、8km和10km。地壳厚度为23km,上地幔顶部速度为5.32km/s。在深度53km以下,地幔介质中速度逐步降低为5.11km/s和4.9km/s,最低值达4.8km/s,可以推断南极地幔亦为成层结构。 相似文献
6.
激光雷达探测南极平流层云 总被引:3,自引:0,他引:3
1993年中国南极中山站的一台波长为0.694μm的激光雷达对平流层进行了53次探测,从激光大气回波信号计算出平流层气溶胶后向散射比的垂直分布和12-30km高度范围内的积分向后散射系数。 相似文献
7.
8.
9.
10.
依据Hadley中心提供的全球海冰密集度格点资料 ,利用诊断分析方法 ,对近 35年来南极海冰的时空变化特征进行了研究。研究表明 ,在南极地区 ,海冰平均北界和海冰总面积的变化基本一致 ,可以用海冰北界来研究南极海冰的时空变化特征。南极海冰最多和最少期分别出现在 9月和 2月 ;威德尔海和罗斯海地区海冰最多、变化最大 ,南极半岛地区海冰最少 ,变化也小 ;近 35年来环南极地区的海冰有明显的减少趋势。南极海冰变化的时空多样性十分明显 ,存在着 5个变化不同的区域 ,其中有两个区域近 35年来海冰范围扩大 ,面积增加 ,而另三个区域则海冰范围缩小 ,面积减少。不同区域的海冰都存在着较明显的 2- 3年和 5- 7年主振荡周期。南极海冰时空变化特征的研究对进一步认识南极地区海 冰 气相互作用的物理过程 ,讨论南极海冰变异与大气环流和天气气候的关系有重要意义 相似文献
11.
12.
Rengin Gök Hanan Mahdi Haydar Al-Shukri Arthur J. Rodgers 《Geophysical Journal International》2008,172(3):1179-1187
We report the crustal structure for two locations in Iraq estimated by joint inversion of P -wave receiver functions (RFs) and surface (Rayleigh) wave group velocity dispersion. RFs were computed from teleseismic recordings at two temporary broad-band seismic stations located in Mosul (MSL) in the Zagros Fold Belt and Baghdad (BHD) in the Mesopotamian Foredeep. Group velocity dispersion curves at the sites were derived from continental-scale tomography. The inversion results show that the crustal thicknesses are 39 km at MSL and 43 km at BHD. We observe a strong Ps Moho at BHD consistent with a sharp Moho discontinuity. However, at MSL we observe a weak Ps Moho suggesting a transitional Moho where crustal thickening is likely to be occurring in the deep crust. Both sites reveal low velocity surface layers consistent with sedimentary thickness of about 3 km at station MSL and 7 km at BHD and agreeing well with the previous reports. Ignoring the sediments, the crystalline crustal velocities and thicknesses are remarkably similar at both stations. The similarity of crustal structure suggests that the crust of the northeastern proto-Arabian Platform was uniform before subsidence and deposition of the sediments in the Cenozoic. If crystalline crustal structure is uniform across the northern Arabian Platform then crustal thickness variations in the Zagros Fold Belt and Thrust Zone should reveal the history of deformation and crustal shortening in the Arabian–Eurasian collision zone and not reflect pre-existing crustal thickness variations in the Arabian Plate. 相似文献
13.
14.
We study the crustal structure of eastern Marmara region by applying the receiver function method to the data obtained from the 11 broad-band stations that have been in operation since the 1999 İzmit earthquake. The stacked single-event receiver functions were modelled by an inversion algorithm based on a five-layered crustal velocity model to reveal the first-order shear-velocity discontinuities with a minimum degree of trade-off. We observe crustal thickening from west (29–32 km) to east (34–35 km) along the North Anatolian Fault Zone (NAFZ), but we observe no obvious crustal thickness variation from north to south while crossing the NAFZ. The crust is thinnest beneath station TER (29 km), located near the Black Sea coast in the west and thickest beneath station TAR (35 km), located inland in the southeast. The average crustal thickness and S -wave velocity for the whole regions are 31 ± 2 km and 3.64 ± 0.15 km s−1 , respectively. The eastern Marmara region with its average crustal thickness, high heat flow value (101 ± 11 mW m−2 ) and with its remarkable extensional features seems to have a Basin and Range type characteristics, but the higher average shear velocities (∼3.64 km s−1 ) and crustal thickening from 29 to 35 km towards the easternmost stations indicate that the crustal structure shows a transitional tectonic regime. Therefore, we conclude that the eastern Marmara region seems to be a transition zone between the Marmara Sea extensional domain and the continental Anatolian inland region. 相似文献
15.
We infer the lithospheric structure in eastern Turkey using teleseismic and regional events recorded by 29 broad-band stations from the Eastern Turkey Seismic Experiment (ETSE). We combine the surface wave group velocities (Rayleigh and Love) with telesesimic receiver functions to jointly invert for the S -wave velocity structure, Moho depth and mantle-lid (lithospheric mantle) thickness. We also estimated the transverse anisotropy due to Love and Rayleigh velocity discrepancies. We found anomalously low shear wave velocities underneath the Anatolian Plateau. Average crustal thickness is 36 km in the Arabian Plate, 44 km in Anatolian Block and 48 km in the Anatolian Plateau. We observe very low shear wave velocities at the crustal portion (30–38 km) of the northeastern part of the Anatolian Plateau. The lithospheric mantle thickness is either not thick enough to resolve it or it is completely removed underneath the Anatolian Plateau. The shear velocities and anisotropy down to 100 km depth suggest that the average lithosphere–asthenosphere boundary in the Arabian Plate is about 90 and 70 km in Anatolian block. Adding the surface waves to the receiver functions is necessary to constrain the trade-off between velocity and the thickness. We find slower velocities than with the receiver function data alone. The study reveals three different lithospheric structures in eastern Turkey: the Anatolian plateau (east of Karliova Triple Junction), the Anatolian block and the northernmost portion of the Arabian plate. The boundary of lithospheric structure differences coincides with the major tectonic boundaries. 相似文献
16.
C. B. Papazachos 《Geophysical Journal International》1998,134(1):25-39
In the present study, the P - and S -velocity structure of the crust and uppermost mantle in the area of central Macedonia (northern Greece) is presented, as derived from the inversion of traveltimes of local events. An appropriate preconditioning of the final linearized system is used in order to reduce ray density effects on the results. The study focuses mainly on the structure of the broader area of the Serbomacedonian Massif. Interesting features and details of the crustal structure can be recognized in the final tomographic images. The crustal thickness shows strong variations. Under the Serbomacedonian and western Rhodope massifs the crust has a thickness that exceeds 30 km. On the other hand, the North Aegean Trough exhibits a fairly thin crust (25–27 km). Moreover, the Serbomacedonian Massif is bounded by two regions that trend parallel to the Axios river–Thermaikos gulf and the Strymon river–Orfanou gulf, respectively, which show significant crustal thinning (25–28 km). The observed match between the direction of this crustal thinning and the basins' axes indicates that they have been generated by the same extensional deformation episode. 相似文献
17.
自第4个国际极地年2007/2008开始至2013年,中国南极内陆冰盖科考队相继在自南极大陆边缘的中山站至东南极地形最高点昆仑站(Dome A)一线进行了低温甚宽频地震观测。本文对7个天然地震台站数据进行了分析,提取了这些台站的S波接收函数,据此反演获得了这些台站下的地壳厚度分布。结果显示:随着纬度的升高,地壳厚度由大陆边缘的中山站下的约38 km逐渐增加至CHNB台下的58 km,随后又于CHNA台站下方减薄至47 km,然后快速增大到南极地形最高点昆仑站(Dome A)下的62 km。昆仑站或Dome A是南极大陆地壳最厚的地方。从中山站至昆仑站之间地壳厚度的变化与冰下地貌变化存在明显的相关性,它们都说明了从中山站至CHNB之间地壳构造相对均匀。在距昆仑站约200 km的CHNA台下的地壳厚度(约47 km)明显比临近台站地壳偏薄,这可能说明了甘伯采夫山脉地壳侧向变化较大,即其形成时所遭受的构造作用较复杂。 相似文献
18.
19.
Large Igneous Provinces (LIP) are of great interest due to their role in crustal generation, magmatic processes and environmental impact. The Agulhas Plateau in the southwest Indian Ocean off South Africa has played a controversial role in this discussion due to unclear evidence for its continental or oceanic crustal affinity. With new geophysical data from seismic refraction and reflection profiling, we are able to present improved evidence for its crustal structure and composition. The velocity–depth model reveals a mean crustal thickness of 20 km with a maximum of 24 km, where three major units can be identified in the crust. In our seismic reflection records, evidence for volcanic flows on the Agulhas Plateau can be observed. The middle crust is thickened by magmatic intrusions. The up to 10 km thick lower crustal body is characterized by high seismic velocities of 7.0–7.6 km s−1 . The velocity–depth distribution suggests that the plateau consists of overthickened oceanic crust similar to other oceanic LIPs such as the Ontong-Java Plateau or the northern Kerguelen Plateau. The total volume of the Agulhas Plateau was estimated to be 4 × 106 km3 of which about 10 per cent consists of extruded igneous material. We use this information to obtain a first estimate on carbon dioxide and sulphur dioxide emission caused by degassing from this material. The Agulhas Plateau was formed as part of a larger LIP consisting of the Agulhas Plateau itself, Northeast Georgia Rise and Maud Rise. The formation time of this LIP can be estimated between 100 and 94 (± 5) Ma. 相似文献
20.
Terry C. Wallace 《Geophysical Journal International》1986,85(2):349-363
Summary . Seismograms recorded at regional distances (2°–12°) are quite complicated due to the waveguide nature of the crust. Generalized ray theory can be used to model the body waves in this distance range but a very large number of rays is required. Here I present a series of approximations to streamline generalized ray theory for the waveguide problem. If a layer over a half-space is used for the structure, then the de Hoop contour for a given ray is most strongly dependent on the fastest velocity of any leg of the ray. This results in analytic approximations to locate the contour. Each ray has two body wave arrivals (a headwave and a reflected arrival) so the displacement response of the ray need only be evaluated at a few points in time about the two arrival times and interpolated in between. A change in structure (increasing crustal thickness or Pn velocity) most strongly affects the relative timing of the headwave and the reflected arrival, so it is possible to 'stretch' or 'squeeze' the waveform of a representative model to simulate a whole suite of models.
Also discussed is the applicability of a single layer over a half-space structure for modelling the observed regional distance waveforms for shallow earthquakes. At periods greater than a few seconds crustal layering can be replaced by a single layer having the appropriate average velocities. Lateral variations in crustal thickness with scale lengths of less than about 100 km can also be modelled with a simple horizontal layer of appropriate average thickness. 相似文献
Also discussed is the applicability of a single layer over a half-space structure for modelling the observed regional distance waveforms for shallow earthquakes. At periods greater than a few seconds crustal layering can be replaced by a single layer having the appropriate average velocities. Lateral variations in crustal thickness with scale lengths of less than about 100 km can also be modelled with a simple horizontal layer of appropriate average thickness. 相似文献