青藏高原地壳与上地幔成层速度结构与深部层间物质的运移轨迹

在印度洋板块与欧亚板块碰撞、挤压作用下,促使深部物质重新分异、调整和运移,并导致了地壳的短缩增厚,而且造成了高原的整体隆升和深部壳、幔物质的侧向流展。基于青藏高原腹地和周边地域地壳与上地幔的成层速度结构,特别是其特异层序的展布研究表明,青藏高原地壳巨厚,但岩石圈却相对较薄;地壳中于深20±5km处存在一低速层,层速度为5.7±0.1km/s,厚度为8±2km;上地幔软流圈顶部深度为110±10km;下地壳与上地幔盖层物质以地壳低速层为上滑移面,以岩石圈漂曳的上地幔软流圈顶面为下滑移面,在印度洋板块N-NNE向力源作用下在同步运移,即形成了青藏高原腹地和周边地域特异的大陆地球动力学环境。     

大陆岩石圈有效弹性厚度研究及其动力学意义

介绍了大陆岩石圈有效弹性厚度（Te）的概念及研究状况，并对其动力学意义作了探讨。大陆岩石圈有效弹性厚度不仅受板块热结构（热年龄）的控制，同样也受壳幔边界性质（拆离或耦合）、力学地壳厚度及其与地幔厚度比等因素控制，Te反映了地形、板块边力及岩石圈结构之间的动态平衡。     

渤海湾盆地中—新生代岩石圈热结构与热-流变学演化

文章主要利用中—新生代热史、地壳分层结构以及流变学参数,模拟计算渤海湾盆地中—新生代岩石圈热结构和热-流变结构演化特征。结果表明,盆地由三叠纪—侏罗纪时期的"冷幔热壳"型岩石圈热结构转变为白垩纪至今的"热幔冷壳"型岩石圈热结构。从济阳坳陷岩石圈热-流变结构演化特征来看,中生代早期上地壳上部、中地壳上部及上地幔顶部表现为厚的脆性层;早白垩世初期中地壳上部及上地幔顶部的脆性层完全转变为韧性层;晚白垩世开始,中地壳上部出现薄层的脆性层;古近纪早期中地壳上部脆性层变薄变浅;现今则除了发育上地壳上部、中地壳上部脆性层外,上地幔顶部开始在浅部发育薄的脆性层。中—新生代岩石圈总强度演化表明在早白垩世晚期和古近纪早期经历了两期减弱,中生代早期岩石圈总强度远大于中侏罗世之后的岩石圈总强度。岩石圈热-流变结构和强度演化与华北克拉通破坏过程中岩石圈厚度的变化具有良好的对应关系,从侧面反映太平洋板块俯冲和回撤导致华北克拉通东部破坏的地球动力学过程。因此,岩石圈热-流变结构可以为盆地形成、大陆边缘和造山带等的动力学演化过程研究提供科学依据。     

华南陆块岩石圈有效弹性厚度及其构造意义

华南陆块受多阶段超大陆聚合、裂解, 碰撞、陆内造山, 及伸展等作用影响, 造成其深部结构和构造极其复杂。岩石圈有效弹性厚度(Te)是表征地质时间尺度上岩石圈力学强度的定量指标, 可为深入认识岩石圈力学结构及演化提供有效约束。本文基于导纳和相关函数联合方法对地壳布格重力异常和地形数据进行计算, 获得华南陆块Te的空间分布。Te高值(>20 km)区域主要分布于扬子地块的四川盆地周边区域, 而Te低值(<20 km)区域集中于华夏地块和江南造山带区域。由于Te分布特征与地热场、地震关系密切。通过分析研究区Te与地热场(地表热流、居里面深度)、地震之间的关系, 本文得到如下认识: (1)Te与地热场参数具有较好的相关性, 但受浅部地壳被破坏, 深部仍为克拉通地壳影响, 导致龙门山断裂带和江南造山带区域的Te与地表热流或居里面深度之间的部分对应关系相反。(2)Te与地震关系复杂, Te较薄区域并不代表着地震频发区域, 地震活动性与其所处的深部环境相关。龙门山断裂带强震频发的原因是受周边两块体中上地壳刚性地层长期相互作用, 致使应力和能量积累较强; 华夏地块区域地震较少是因为深部热物质上涌对华夏地块的壳幔进行强烈改造, 且地壳中存在横向不均匀分布的软弱地层对应力吸收, 造成能量和应力不易积累; 扬子地块的岩石圈力学强度较强是该区较少发生地震的重要原因。     

大陆岩石圈有效弹性厚度的计算及其地质意义

大陆范围内Te值有很大的范围，不同构造单元有不同的Te值。Te值的大小与岩石圈的热结构（热年龄）、壳幔耦合等因素有关。同时Te值和地壳厚度、地表有关矿产的分布、岩石圈地幔的物质组成等也有一定关系。     

南北地震带南段震源空间分布特征及其构造意义

大陆浅源地震震源空间分布可以看作是一种地球物理特征,大量震源的空间位置数据可用来刻划大陆地壳结构。通过研究南北地震带南段震源的空间分布特征,发现研究区震源深度分布在横向上的疏密变化与地质构造特征相对应。剖面震源分布等密度图显示,中、下地壳不同深度广泛分布着多震层。多震层的分布与地壳低速、低阻层具有相关性,多震层一般位于低速、低阻层的上方。中地壳层次的低速、低阻层很可能是壳内滑脱层,是韧性下地壳与脆性上地壳发生拆离解耦的构造层次;下地壳低速、低阻层是部分熔融、含流体的韧性流变层;壳内多震层的构造属性应是上地壳硬的脆性层,容易发生突然破裂,产生地震。低速、低阻层是大陆板块内部上地壳脆性层构造过程的主控因素,包括对大陆内部浅源地震的控制;因此,在低速、低阻层之上往往形成多震层,越是活动性强的低速、低阻层,其上多震层震源密度越高。南北地震带南段不同层圈和块体之间的差异运动控制了其地壳层次的构造活动,包括大量地震的发生,其中,下地壳流层与上地壳脆性层的差异运动在中地壳层次发生剪切拆离是最重要的因素。     

南海新生代构造演化及岩石圈三维结构特征

地震层析资料表明，南海地区，自红河口向南经南海、苏禄海到苏拉威西海，岩石圈速度低，底部横波速度仅4．4km／s，岩石圈厚度在60～80km之间，为薄岩石圈地区。软流层的速度也较低，在4．2-4．4km／s之间，但厚度较大，大于200km。从红河-莺歌海断裂带经南海到苏禄海，存在一条北西向宽约200km的上地幔北西向低速带，面波速度在4．05～4．25km／s之间。由上述资料可见，东亚大陆边缘及边缘海的上地幔存在一巨型低速带，在南海地区低速带的走向为北西向，在东海地区为北北西向。这种走向与地表的区域构造走向基本一致，反映这里新生代构造活动可能与地幔低速带分布有关，即上地幔低速带反映了岩石圈的区域流动。这类岩石圈区域流动引起岩石圈表层的张性构造，形成裂谷及稍后的海底扩张，在亚洲东部边缘形成一系列边缘海盆。     

中国大陆岩石圈结构、盆地构造和油气运移探讨

文中在研究了中国大陆壳内与上地幔高导层的分布和成因的基础上 (由于篇幅所限 ,中国大陆壳内与上地幔高导层分布及其成因在另文给出 ) ,首先对中国大陆岩石圈热状态和地壳热状态进行了定量分析 ,提出了冷、热岩石圈 ,冷、热地壳和冷、热盆地的概念 ,根据岩石圈的变形、热状态和构造活动性 ,提出了刚性岩石圈和塑性岩石圈的概念 ,根据岩石圈的动力学特征对中国大陆盆地进行了分类研究。在此基础上 ,对处于不同地区的大型盆地的构造特征和油气运移规律进行了分析。阐述了前人各种油气模式及其存在的问题后 ,探讨了地壳深部热流体对油气的生成和运移的作用。最后 ,认为在有壳内高导层的盆地中 ,深部流体可向上地壳中的生油和储油层提供大量的热流体 ,并产生高流体压力 ,对油气运移起了主导作用。     

华北地区大地电磁测深及岩石圈厚度讨论

近些年来，随着地球科学的进展，大陆岩石圈导电性结构的研究越来越引起人们的重视。这是因为固体地球物理学研究的结果告诉我们，有关大陆岩石圈导电性的研究有可能为当前地球科学各领域的进展提供重要的物理依据。大地电磁测深是从导电性的角度研究地壳和上地幔结构不可缺少的方法。长期以来，国内对此开展了大量工作：而当前，随着科学技术发展，无论是仪器、数据采集或数据处理和反演技术都有了长足的进步。中国的大地电磁测深已实现超宽频带、高精度测量技术；在数据处理和反演等方面也基本与国际先进技术接轨。因此，在2001年，沿着山西应县到山东商河，布置一条大地电磁测深剖面进行研究。采用现代先进的大地电磁数据处理技术和快速松弛二维反演方法获得该剖面二维电性结构模型，从而充分展示了华北地区岩石圈电性结构的特点。从电性特征上讲，华北岩石圈以太行山前断裂为界划分为东、西两区。东区为低阻区，上地壳电性结构基本与华北裂谷系的隆、坳构造格局相对应，岩石圈的电导最高达30000S，远远大于强烈活动的安第斯山岩浆弧区和西藏高原岩石圈的电导。西区为高阻区，太行山和恒山的岩石圈为高阻块体，表现出稳定大陆区岩石圈导电性结构的特点。但恒山高阻块体之下发现一组向西缓倾的高导层，其电导率为0，04~o，25S／m，顶面在20krn深处。底面深约40km。研究结果表明，华北裂谷盆地范围内地壳的电阻率很低，属于良导电性的地壳，这可能是由华北裂谷盆地的壳、幔热结构、热状态所决定的。根据对大陆电阻率模型的讨论。推测鄂尔多斯地块的上地幔也许不存在前人所界定的“软流圈”的性状：而华北裂谷盆地虽然是中新生代构造活动区，活动性较强，但与年轻的火山岛弧区或剧烈的构造活动区相比仍有一定差别，因而，上地幔“软流圈”的痕迹并不明显。这也许正是根据现今应县-商河剖面上大地电磁的探测结果看不出来存在通常所说的反映“软流圈”电性特征的“上地幔高导层”的原因。不过，根据这结果还是可以得出；在华北地区西部的地壳和岩石圈厚度大于东部。但更准确的结果还有待于更深入、更精细的地球物理探测。     

大陆下地壳地球物理异常及其构造意义

下地壳反射层 (或反射下地壳 )、下地壳低速层和低阻层等一系列惊人发现唤醒我们必须重新认识大陆岩石圈 ,研究大陆下地壳。大陆下地壳中的地震反射层、低速层和下地壳低阻层相互伴生 ,在中、新生代伸展构造区和年轻造山带等活动构造区带的发育程度远远高于前寒武纪地盾和克拉通等稳定构造单元 ,其成因可能与层流构造及其相关的热活动、韧性剪切、岩浆作用、部分熔融、变质反应等有关 ,并随着大陆地壳构造 -热演化而变化。     

四川阿坝——秀山地学断面

四川省阿坝—秀山地学断面长约1000km,横跨上扬子地台和松潘-甘孜地槽褶皱系。在综合研究现有地质、地球物理资料的基础上,对断面及邻区划分出不同性质的三大岩石圈块体;结合表壳变形特征又区分出以四川地块为中心的东、西对冲构造体系;并进一步划分出8个次级构造带(块)。在垂向上划分出地壳、岩石圈厚度及形态,讨论了地壳次级分层及壳、幔低速层、低阻层和高阻层异常的特征,提出了初步解释。指出龙门山断裂带西部地壳缩短、增厚的主要因素。概述了地壳演化。     

The isostatic state of the southern Urals crust

The Uralide orogen, in Central Russia, is the focus of intense geoscientific investigations during recent years. The international research is motivated by some unusual lithospheric features compared with other collisional belts including the preservation of (a) a collisional architecture with an orogenic root and a crustal thickness of 55–58 km, and (b) large volumes of very low-grade and non-metamorphic oceanic crust and island arc rocks in the upper crust of a low–relief mountain belt. The latter cause anomalous gravity highs along the thickened crust and the isostatic equilibrium inside the Uralides lithosphere as well as the overthrust high-metamorphic rocks. The integrated URSEIS '95 seismic experiment provides fundamentally new data revealing the lithospheric architecture of an intact Paleozoic collisional orogen that allows the construction of density models. In the Urals' lithosphere different velocity structures resolved by wide-angle seismic experiments along both the URSEIS '95- and the Troitsk profile. They can be used to constrain lithospheric density models: a first model consists of a deep subducted continental lower crust which has been highly eclogitized at depths of 60–90 km to a density of 3550 kg/m³. The second model shows a slightly eclogitized lower crust underlying the Uralide orogen with a crustal thickness of 60 km. The eclogitized lower crust causes a too-small impedance contrast to the lithospheric mantle resulting in a lack of reflectors in the area of the largest crustal thickness. Both models fit the measured gravity field. Analyzing the isostatic state of the southern Urals' lithosphere, both density models are in isostatic equilibrium.     

中国大陆岩石圈结构篱笆图及其说明——10条GGT地球物理资料

利用中国陆地 10条GGT地球物理资料编制中国岩石圈篱笆图 ,并加以说明。通过对地球物理特征和地质学分析 ,认为以大兴安岭—太行山—武陵山重力梯级带和青藏高原周边重力梯级带为界 ,可把中国陆地划分 3个岩石圈构造单元。中国陆壳既有三分结构也存在二分结构 ;对地壳中存在的低速带、高导带和天然地震带进行了划分。以大兴安岭—太行山—武陵山重力梯级带为界 ,两侧盆地具有不同的地球物理特征 ,这些特征与构造运动、均衡调整过程有关。莫霍面几乎遍布全国 ,它具有内部结构。下部地壳底部存在的地球物理异常与莫霍面有关 ,也可能与岩石圈地幔的变化有关。     

Gravity models of two-level collision of lithospheric plates in northeastern Asia

Structural forms of emplacement of crustal and mantle rigid sheets in collision zones of lithospheric plates in northeastern Asia are analyzed using formalized gravity models reflecting the rheological properties of geological media. Splitting of the lithosphere of moving plates into crustal and mantle constituents is the main feature of collision zones, which is repeated in the structural units irrespective of their location, rank, and age. Formal signs of crustal sheet thrusting over convergent plate boundaries and subduction of the lithospheric mantle beneath these boundaries have been revealed. The deep boundaries and thickness of lithospheric plates and asthenospheric lenses have been traced. A similarity in the deep structure of collision zones of second-order marginal-sea buffer plates differing in age is displayed at the boundaries with the Eurasian, North American, and Pacific plates of the first order. Collision of oceanic crustal segments with the Mesozoic continental margin in the Sikhote-Alin is characterized, as well as collision of the oceanic lithosphere with the Kamchatka composite island arc. A spatiotemporal series of deep-seated Middle Mesozoic, Late Mesosoic, and Cenozoic collision tectonic units having similar structure is displayed in the transitional zone from the Asian continent to the Pacific plate.     

Effective Elastic Thickness of Southeast Part of Arctic Ocean—Eurasia Continent—Pacific Ocean Geoscience Transect

The effective lithospheric elastic thickness of the continent is an important parameter for examination of the large-scale structure and analyses of the mechanism of isostatic compensation within the plate, and a parameter standing for the strength of the lithosphere.The Te values along Quanzhou-Heishui,the southeast section of the Arctic Ocean-Eurasian Continent-Pacific Ocean geoscience transect, are estimated by using the coherence technique developed by Forsyth.Studies of the feature of the coher-ence between gravity and topography suggest that at short wavelengths(6.6-100km)for each data box that is used to estimate Te,the plate is strong enough to support topographic loads and gravity and topog-raphy are uncorrelated.At long wavelengths where the plate is deflected by surface and subsurface loads are compensated by the flexure model.Sichuan land-stone with low heat-flow values has high Te values whereas in Ninghua,Datian,land-stone with high heat-flow values has low Te values,which reflects a correlation,low heat-flow values corresponding to high Te values and high heat-flow values corresponding to low Te values.Te values can be divided into two sections:northwest high section and southeast low sec-tion.There is roughly a positive correlation between crustal thickness and effective elastic thickness of the lithosphere.     

中国大陆密度和地震波速扰动异常的年龄属性研究

大陆动力学研究需要物质随空间和时间的变化的信息。三维密度和地震波速度扰动图像反映岩石圈物质的空间分布,要和大地构造学中的时间尺度信息综合起来,才能恢复动力学作用的过程。本文通过对比不同构造期的构造图和地壳不同深度的地球物理性质图像,研究中国大陆密度以及地震波速度扰动和构造事件的相关度。研究表明,岩石圈地幔的密度和波速扰动和现今板块构造的相关度是高的,说明岩石圈地幔的密度大黏度高,不仅地震波速快得多,物质蠕动的速度也比下地壳慢得多,板块运动产生的变形保存时间比较久。中国大陆中地壳的密度扰动和白垩纪以来的构造事件的相关度是高的,说明中地壳的密度扰动主要反映了白垩纪以来的构造事件。中国大陆上地壳结晶基底的密度扰动和侏罗纪以来的构造事件的相关度是高的,说明上地壳的密度扰动可以反映燕山期的构造事件。对于中国大陆而言,下地壳的波速变化和板块构造没有明显的相关性;不过下地壳深层的密度扰动也反映新构造期的构造事件。其原因可能是因为下地壳的物质黏度比较低,物质蠕动的速度比岩石圈地幔快得多,板块运动产生的变形不容易保存。总之,应用不同深度的密度扰动图像分别推测不同地质时期的地壳构造运动发生的地点和范围是可行的,地壳深层的三维密度扰动成像有可能提供180Ma以来中国大陆地质作用事件的有关信息。     

Density structure of the cratonic mantle in southern Africa: 1. Implications for dynamic topography

The origin of high topography in southern Africa is enigmatic. By comparing topography in different cratons, we demonstrate that in southern Africa both the Archean and Proterozoic blocks have surface elevation 500–700 m higher than in any other craton worldwide, except for the Tanzanian Craton. An unusually high topography may be caused by a low density (high depletion) of the cratonic lithospheric mantle and/or by the dynamic support of the mantle with origin below the depth of isostatic compensation (assumed here to be at the lithosphere base). We use free-board constraints to examine the relative contributions of the both factors to surface topography in the cratons of southern Africa. Our analysis takes advantage of the SASE seismic experiment which provided high resolution regional models of the crustal thickness.We calculate the model of density structure of the lithospheric mantle in southern Africa and show that it has an overall agreement with xenolith-based data for lithospheric terranes of different ages. Density of lithospheric mantle has significant short-wavelength variations in all tectonic blocks of southern Africa and has typical SPT values of ca. 3.37–3.41 g/cm³ in the Cape Fold and Namaqua–Natal fold belts, ca. 3.34–3.35 g/cm³ in the Proterozoic Okwa block and the Bushveld Intrusion Complex, ca. 3.34–3.37 g/cm³ in the Limpopo Belt, and ca. 3.32–3.33 g/cm³ in the Kaapvaal and southern Zimbabwe cratons.The results indicate that 0.5–1.0 km of surface topography, with the most likely value of ca. 0.5 km, cannot be explained by the lithosphere structure within the petrologically permitted range of mantle densities and requires the dynamic (or static) contribution from the sublithospheric mantle. Given a low amplitude of regional free air gravity anomalies (ca. + 20 mGal on average), we propose that mantle residual (dynamic) topography may be associated with the low-density region below the depth of isostatic compensation. A possible candidate is the low velocity layer between the lithospheric base and the mantle transition zone, where a temperature anomaly of 100–200 °C in a ca. 100–150 km thick layer may explain the observed reduction in Vs velocity and may produce ca. 0.5–1.0 km to the regional topographic uplift.     

Paleolithospheric structure revealed by continental geoid anomalies

Lithospheric geoid anomalies record changes in elevation and potential energy experienced by continental lithosphere. Estimates of local isostatic equilibration and potential energy, in tandem with lithosphere-related geoid anomalies, can be used to estimate paleolithospheric thickness, providing a clearer understanding of how and why continental topography is developed. We employ several simplifying assumptions about the crustal and mantle lithosphere density and structure (and readily acknowledge that our results are therefore first-order approximations) to predict the pre-orogenic structure of the lithosphere. At the outset we emphasize that while this approach does not provide an exhaustive evaluation of the deformation mechanism, it does serve to quantify the relative role played by the variations in the crustal and upper mantle components of the lithosphere. In this way we are able to use independent measurement of lithospheric geoid anomalies, current (post-orogenic) elevation and lithospheric structure, and paleoelevation information to estimate topographic development and structural support over time. Application of this technique to the southwestern United States indicates that the uplift of the Colorado Plateau is the result of processes in both the crust and mantle lithosphere and that the lithosphere of the pre-orogenic Southern Basin and Range was thinned relative to the Northern Basin and Range and Colorado Plateau. Although we use the southwestern U.S. as an example, this method can help constrain uplift mechanisms for any region for which the structure and geoid anomaly of the modern lithosphere is well understood.     

论胶东地区中生代岩石圈减薄的证据及其动力学机制

胶东地区可划分为两个大地构造单元：胶北断块和胶南造山带。前者为华北板块组成部 分，后者为华北和扬子板块的碰撞拼合带。五莲－青岛－海阳－牟平深断裂构成上述两个构造单 元的边界。本文从地质（陆壳隆升、构造岩浆活动与断陷盆地形成）和地球物理（重、磁异常与地震 测深）两个方面论述了胶东地区中生代经历了两个不同构造演化时期：前期（Ｔ３－Ｊ２）陆壳隆升和后 期（Ｊ－Ｋ）陆壳拉伸。我们认为，岩石圈减薄的动力学条件是与库拉－太平洋板块以不同边界类型 向欧亚大陆俯冲以及郯庐断裂以不同方式的强烈活动密切相关。在综合分析基础上建立了胶东地 区岩石圈减薄的动力学模式。