新增生岩石圈与软流圈的相互作用：来自地幔橄榄岩捕虏体的证据

The petrology and geochemistry of peridotites entrained in Beiyan Cenozoic alkaline basalts within the middle segment of Tan-Lu fault zone and clinopyroxene megacrysts in the late Mesozoic and Cenozoic alkaline basaltic rocks from the North China Craton, have been systematically investigated. The main conclusions are obtained as follows. The peridotites entrained in alkaline basalts at Beiyan, Shandong Province, China are comprised of dominantly spinel lherzolites and spinel wehrlites with porphyroclastic, granuloblastic textures to resorption textures. The xenoliths are fertile in major element compositions (High CaO, TiO2, Low MgO, Cr2O3). The olivine Fo (= 100×Mg / (Mg+Fe) possesses a low and very large range of 81.0 to 91.0. The peridotites contain high percentages (Lherzolites: 10 - 19% in volume; Wehrlites: 24 - 28% in volume) of clinopyroxene with spongy textures. The Sr and Nd isotopic ratios of clinopyroxene separates from peridotites and pyroxenite xenoliths have a depleted and small range fall within the area of MORB, similar to newly-accreted lithospheric mantle. However, the appearance of many wehrlites and highly enriched LREE pattern suggest that this newly-accreted lithospheric mantle was considerably modified and reconstructed recently through the peridotite-asthenospheric melt interaction. The upwelling of asthenosphere from late Cretaceous to Eogene and upper mantle shearing of the Tan-Lu fault played an important role in the modification and reconstruction of the newly-accreted lithospheric mantle. The clinopyroxene megacrysts in the late Mesozoic and Cenozoic alkaline basaltic rocks from the eatern North China Craton are different in aspects of major elements, trace elements and isotopic composition. The characteristics of texture, mineral compositions and geochemistry as well as the Fe-Mg partitioning between the crystal and the melt indicates that the Al-augites in the Cenozoic basalts represent high-pressure crystallization products of alkaline basaltic melts. Thus, both of clinopyroxene megacrysts and host basalts could be derived from a same primitive magma. However, the Al-augites in the late Mesozoic basaltic rocks represent accidentally-included xenocrysts of basaltic components which had crystallized in the depth from a previously melting episode. The more depleted Sr-Nd isotopic compositions of Cenozoic megacrysts compared with those of host alkaline basalts and tholeiites demonstrate that even the alkali basalts could not completely represent primitive magma initiating in asthenosphere. That is to say, the Cenozoic alkaline basalts were more or less modified by some enriched Sr-Nd isotopic components during their eruption. Meanwhile, the tholeiites were not the products formed only by fractional crystallization of alkaline basaltic magma or different degrees of partial melting. It may result from the contribution of lithospheric mantle materials or crust contamination in magma chamber to alkali basaltic magmas.

地震勘探三维可视化方法研究与实现

This thesis mainly studies the technologies of 3-D seismic visualization and Graphic User Interface of seismic processing software. By studying Computer Graphics and 3-D geological modeling, the author designs and implements the visualization module of seismic data processing software using OpenGL and Motif. Setting seismic visualization flow as the subject, NURBS surface approximation and Delaunay Triangulation as the two different methods, the thesis discusses the key algorithms and technologies of seismic visualization and attempts to apply Octree Space Partitioning and Mip Mapping to enhance system performance. According to the research mentioned above, in view of portability and scalability, the author adopts Object-oriented Analysis and Object-oriented Design, uses standard C++ as programming language, OpenGL as 3-D graphics library and Motif as GUI developing tool to implement the seismic visualization framework on SGI Irix platform. This thesis also studies the solution of fluid equations in porous media. 2-D alternating direction implicit procedure has been turned into 3-D successive over relaxation iteration, which possesses such virtues as faster computing speed, faster convergence rate, better adaptability to heterogeneous media and less memory demanding.

内蒙古乌拉特中旗北部宝音图群研究

The Baoyintu Group, lies in Wulate-zhongqi, Inner Mongolia, is a set of medium-grade metamorphic rock series which undergoes complex deformations. It consists of pelite schist, greenschist, plagioclase amphibolite quartzite and marble. The pelite schist is the main rock type and contains the classic medium pressure metamorphic minerals. The author divided Baoyintu group into five assemblages, investigated the rock association and plotted geological section of each assemblage in this area. Based on the systemically study of structural geology, petrology, geochemistry and mineralogy, the author reconstructs the protolith, sedimentary environment and tectonic evolution, discusses the mesoscopic and microscopic structure, metamorphism, geochemistry characters and the correlation between porphyroblast growth and deformation-metamorphism. There are three phase deformations in the research area: the earliest one occurred as the Baoyintu group deformed and metamorphosed and the main structure pattern is tight fold within layers during the Dl, large scale reversed fold and two phase faults (Fl fault and F2 fault) during the D2, and superimposed fold and F3 fault during D3. The F3 trancate the Wenduermian group of Silurian. The second and third phase deformation are relate to the orogenic event of late period of early Paleozoic. According to the rock association ,characteristics of the rocks and research of geochemistry, we get some information of the sedimentary environment and tectonic evolution of Baoyintu group. The source rocks are a set of terrigenous deposits-volcanic formation which reflect the history of the tectonic setting: stable- active-restable. And there are two sedimentary cycle from first assemblage to fifth assemblage: from first assemblage to fourth assemblage is a course of progression and the fifth assemblage is a start of regression. We also get the information of the P-T-t path by studying petrographies and calculating temperature and pressure. The path is not similiat to any classic type. And the interpretation is different from the traditional opinion. The P-T-t path reflects the dynamic course of convergence and uplift, magma underplating, back-arc extension and convergence of continental margin. Applying the theory of deformation partitioning to this area, the author discuss the relationship between deformation and porphyroblast growth, and get the conclusion of the sequence of deformation and metamorphism. At the first time we measure the distribution of chemical composition within the porphyroblast by XRF, confirm the theory of deformation partitioning quantitative and get new understanding about growth phase of porphyroblast and growth mode of porphyroblast: porphyroblast grow in the manner as "rose flower", the growth is controlled by the deformation. The elements distribution in porphyroblast reflects the growth manner and indicate history of metamorphism and deformation. So, we can deduce the metmorphism and deformation from the elements distribution in porphyroblast.

濮城油田沙三中6-10高分辨率层序地层学研究

The foundation of reservoir model and residual oil prediction have been the core of reservoir detailed description for improved oil production and enhanced oil recovery. The traditional way of sandstone correlation based on the geometrical similarity of well-logs which emphasizes "based on the cycle and correlating from larger to smaller" has shown its theoretical limits when explaining the correlating and the scale, geometry, continuity, connectivity of sandstones and the law of the reservoir property. It has been an urgent and difficult subject to find new theory and methods to solve the reservoir correlation and property prediction. It's a new way to correlate strata and found framework of reservoir through the process-response analysis in the base-level cycles. And it is also possible to analyze the reservoir property in reservoir framework. Taking the reservoir of zonation 6-10 in S3~2 of Pucheng Oil Field in Henan Province as an example, we founded the detailed reservoir stratigraphic framework through base-level correlation. In the strata frame, sediment distribution and its development are discussed based on sediment volume partitioning and facies differentiation analysis. Reservoir heterogeneities and its relation to base-level are also discussed. The analysis of primary oil distribution shows the base-level controlled oil distribution in reservoir. In this paper, subjects as following are discussed in detail. Based on the analysis of sedimentary structure and sedimentary energy, the facies model was founded. Founding stratigraphy framework through base level analysis In the studying zone, one long term cycle, 6 middle term cycles and 27 short term cycles was identified and correlated. 3 Predicting the property of reservoir for improving oil development The base level controlled the property of sandbody. The short and very short term cycle controlled the pattern of heterogeneities in sandbody, and the middle and long term cycle controlled the area and inter-layer heterogeneities. On the lower location of the middle and long term base level, the sandbody is well developed, with a wide area and large thickness, while on the high location of base level, there is an opposite reservoir character. 4 The studying of reservoir development response and oil distribution making a solid base for development adjustment Primary oil distribution is controlled by base level location. It tells that the sandbody on the high base level location was poor developed for its difficulty to develop. While on the low location of the base level, the sandbody is well developed for its relative easy to develop and dominant role in the development, but high residual oil for its high original oil content.

锡在流体和花岗质熔体间分配行为的实验研究

锡矿床是与花岗岩在时间、空间、成因上有着密切联系的典型矿种之一。与锡矿有关的花岗岩多具有过铝、富钾、硅含量高的特征。传统观点认为与锡矿有关的花岗岩主要是S型花岗岩，可是近年在国内外相继发现了许多具有重要经济价值的锡矿床与富碱侵入岩有着密切成因联系。与富碱侵入岩有关的锡成矿作用日益受到地质学家的重视，锡矿床与富碱侵入岩的关系已成为研究热点之一，相关的研究工作虽然取得了很大的进展，但是富碱侵入岩体能否分异出富锡成矿流体还存在争议。研究表明，与岩浆岩有关的成矿与岩浆演化过程中成矿元素在流体-熔体相间的分配行为有着密切的关系。成矿元素在流体-熔体相间的分配行为除受到温度、压力及氧逸度等物理化学条件的制约外，还受到岩浆熔体成份及岩浆分异出来的流体化学组成的影响。以往有关锡在流体-熔体相间分配行为的实验研究主要侧重于改变流体相来观测锡的分配系数，且多为单一的含氯或含氟岩浆体系，这制约了对岩浆演化过程中元素在流体-熔体相间分配行为的深入认识。本文通过改变流体相、熔体相的化学组成，开展了一系列锡在流体和花岗质熔体相间分配行为的实验研究。综合分析了锡在晶体-熔体-流体间的分配行为，并结合地质实际探讨与富碱侵入岩有关的锡成矿的物理化学条件和成矿机理。研究成果对深入认识与花岗岩有关锡矿的成矿机理、丰富和完善与花岗岩有关的锡成矿理论、为进一步探索与花岗岩有关的锡成矿规律提供重要的实验依据。此外，实验对进一步推动实验地球化学学科发展具有重要意义。 实验在中国科学院地球化学研究所矿床地球化学国家重点实验室的成矿实验室完成，主要实验设备为快速内冷（RQV）高压釜。实验的温度为850℃，压力100MPa、氧逸度接近NNO。实验首先采用人工合成硅酸盐凝胶的方法制成具有不同化学组成的花岗质熔体，使用分析纯化学试剂配制不同成分和不同浓度的溶液，分别作为实验初始固液相。主要开展了三方面的实验研究：1．熔体相组成不变，以改变流体相组成来观察锡的分配行为。这组实验固相初始物为过碱质富钾的硅酸盐，初始液相分别为NaCl、KCl、HCl、HF、去离子水溶液；2．流体相组成不变，改变熔体化学组成观察锡分配行为。初始液相选用低浓度的0.1mol/L HCl溶液，熔体相为具不同化学组成的凝胶（其中一组改变熔体碱质含量和铝饱和指数ASI、另一组改变熔体钠钾摩尔比值）；3．氟氯共存含水的花岗质岩浆体系中氟氯含量相对变化时锡分配行为。实验通过改变熔体相中氟含量和液相盐酸溶液的浓度来观察锡在含氟硅酸盐熔体和不同浓度盐酸溶液间的分配行为。氟主要以(NaF+KF)混合物的形式加入初始固相中。实验研究结果表明： 1．流体相络阴离子种类及含量对锡在流体-熔体相间的分配行为有着明显的影响。当流体相中络阴离子Cl－、F－含量增大时，有利于增大锡在流体-熔体相间的分配系数；尤其当流体为富氯的酸性流体时，锡在流体-熔体相间的分配系数随液相中HCl浓度的增大而增大并存在关系式logD Sn=2.0247×log[HCl]＋0.6717（[HCl]的单位为mol/L），锡在流体相中主要以二价锡氯配合物的形式迁移，锡倾向于分配进入富氯的酸性流体中。此外，富氯酸性流体与共存的熔体反应后，熔体中的碱质含量降低，铝饱和指数增大。 2．熔体化学组成对锡在熔体相/流体相的分配行为有着明显的影响。D Sn随着熔体中碱质含量增大而减小：D Sn=－0.0489×MAlk＋0.4516, R2=0.98（MAlk为熔体中Na2O+K2O摩尔含量），表明富碱质熔体有利于锡在熔体相中富集，从而可能为锡矿形成提供矿质来源。D Sn随熔体ASI值的增大而增大：D Sn=0.1886×ASI－0.1256, R2=0.99，即过铝质熔体相对有利于锡分配进入流体相中。过铝质熔体中碱质总量及其它组分相对不变的前提下，熔体钠钾摩尔比值越高D Sn越小：D Sn=－0.0314×RNa/K＋0.0483, R2=0.82（RNa/K为Na/K摩尔比值），富钠的熔体有利于锡分配进入熔体相，而富钾的熔体却相对有利于锡分配进入流体相中。 3．在氟氯共存花岗质岩浆体系中：①熔体相中氟含量对氯在流体-熔体相间的分配有着明显影响，熔体中氟含量降低有利于氯分配进入流体相。②熔体中氟含量大于约1 wt%后，D Sn小于0.1且变化不大，当液相富含HCl且熔体中氟含量从约1 wt%降低后，D Sn 迅速增大，即熔体中氟含量小于约1 wt%后锡倾向于分配进入富氯的酸性流体中。而富氟（F含量大于约1 wt%）的熔体有利于萃取锡并使锡在熔体相中富集。③熔体铝饱和指数ASI值越大，相应锡的分配系数越大；流体相中HCl浓度增大时，锡分配系数随之增大；当熔体为过铝质的花岗质熔体、流体富含HCl时有利于锡分配进入流体相。 分析总结与花岗岩有关的锡成矿特征和锡在不同晶体相和熔体相间的分配行为得出：壳源铝质、富碱、富挥发份、贫钙铁镁的岩浆在结晶分异演化过程中相对有利于锡在残余熔流体相中富集。因此，具有这些特征的岩浆结晶分异演化产生的晚期岩浆可富含锡，能为后期锡矿床的形成提供矿质来源。这种富锡富挥发份的岩浆在上侵过程中，当温度压力降低、岩浆水饱和度增大、硅含量增大、熔体相氟含量降低时，可分异出含氯富锡的成矿流体。 根据上述结论，分析了与湖南芙蓉锡矿床有着密切成因联系的骑田岭花岗岩的岩石化学特征、成岩成矿物理化学条件，得出芙蓉锡矿床成矿流体可由骑田岭晚期岩浆分异产生。 最后得出如下认识：1)当花岗质岩浆体系水不饱和、流体相络阴离子浓度低的情况下，锡倾向于分配进入熔体相中；2)水饱和富含挥发份的过铝、富钾的岩浆体系有利于锡分配进入流体相；3) 铝质、富钾、富挥发份的富碱侵入岩岩浆演化过程中可在有利的物理化学条件下分异出富锡的流体相，与芙蓉超大型锡矿床有成因联系的骑田岭富碱侵入岩体成岩过程中可分异出富锡的成矿流体。

硅酸盐熔体-流体共存体系中Cu分配系数的实验研究

硅酸盐固相与液相共存体系中Cu分配系数研究近年来取得重大进展，但大部分工作主要集中在研究流体组分的变化对Cu分配系数的影响。而固相组成的变化对Cu分配系数的影响则少有涉及。本文作者在相同实验条件、实验流程下成功合成了数个硅酸盐组分初始凝胶。初始凝胶基于精确改变AIUAI，Na/K的相对摩尔比值及SiO_2，Na+K的摩尔含量分为四组，而且同一组内其它组分的相对摩尔含量控制不变。分配实验条件设定为温度800℃，压力Ikbar，时间5天，在此实验条件下讨论了不同成分的初始硅酸盐固相与共存流体相（0.1mol／l的HCI）中Cu的分配系数。通过上述研究，主要得出如下初步认识。在初始固相组成中，Alk＋Al所占的总相对摩尔含量不变，改变初始固相Alk/Al的摩尔比。实验结果表明：在本文实验条件下，铜的分配系数明显地受Alk/Al比值改变的制约。随着Alk/Al的比值从0.666增大到1.500，铜的分配系数由54.16线性下降到16.55。即Al／Alk比值增大有利于硅酸盐固相与液相共存体系中铜在流体相中富集。控制Na＋K在初始固相中的摩尔百分含量不变，改变Na/K的比值。实验结果表明：尽管Na/K的比值在一个较大的范围内变化，但Cu的分配系数值在10上下很小一个范围内摆动，基本上可以认为是不变的。即在本文实验条件下，初始固相组成中Na/K比值的变化不影响硅酸盐固相与液相共存体系中Cu的分配系数。故可初步认为：初始固相中Na、K对Cu分配作用的贡献可能是一致的。单独改变初始固相中Na＋K的总摩尔含量，实验表明：随着Na＋K．的总相对摩尔含量增大，铜的分配系数线性下降。我们还可以结合Al/Al的改变对铜分配系数的影响可得到相似的结果。又上一小段结论认为：在Na＋K含量不变的情况下，Na/K比值改变不影响铜的分配系数。综合上述几方面进一步认为：在可能制约Cu分配系数的因子中，Na＋K的总含量变化是影响铜分配系数的一个重要因素；而Na＋K的总含量不变的情况下，Na/K的相对改变并不会影响铜的分配系数。改变SiO_2的初始摩尔相对含量，实验结果的规律性不是很明显，但从整体上分析分配系数，仍可发现一些可能的趋势：SiO_2的相对摩尔含量越高，铜的分配系数有下降的趋势。该组实验结果的不确定性，可能与SiO_2初始含量的基数大有关。铜的分配系数受流体的pH值的的制约。实验结果认为，酸性流体有利于铜在分配过程中进入流体相。虽则所有实验初始流体浓度及量是一样的，但实验后流体组成中铜的浓度与氯的浓度却呈正相关线性关系。本文实验与前人通过改变初始流体氯的浓度来讨论铜的分配系数实验相比，虽然实验体系各异，但在流体相中却得到相同的铜与氯的浓度关系。从而更有力地说明了流体相中铜与氯之间的互相依存关系，很可能流体相中铜与氯结合成络合物的形式存在。