中国辽宁西部早白垩世松科球果的解剖学研究

早白垩世到早第三纪这段时期是松科早期起源和其后进行分支演化的关键时期。球果因为是重要的雌性生殖器官，而在松科演化问题上具有显著的研究价值。对早白垩世到早第三纪这段时间所发现的松科球果的研究经因一个半世纪的逐渐演变，现在划分为三个属：松属（Pinus），假南洋杉型属（Pseudoaraucaria），和松型球果属（Pityostrobus）。本文对采自辽宁义县早白垩世沙海组火山灰形成的凝灰质砂砾岩层中的一批硅化松科球果进行了详细的解剖学研究。将它们划分到松型球果属Pityostrobus中，并在此属下另立了4个新种：Pityostrobus hsuii, P. liaoningensis, P. yixianensis, P. borealis,以及五个暂时不能确切定种的类型。这些种以及类型根据鳞片基部树脂道的分布方式，划分为两类：一类包括Pityostrobus hsuii, P. liaoningensis，为在鳞片基部树脂道分布在鳞片迹的远轴面类型，它俩之间的区别主要在苞鳞复合体基部鳞片迹的形状上的显著差异，以及鳞片中上部树脂道的分布方式上的不同;另一类包括P. yixianensis以及与其相类似的四个类型和P. borealis以及一个与其相类似的类型，两个种在鳞片基部，树脂道分布在鳞片迹近轴面和远轴面，它们之间的差别主要在苞鳞复合体基部远轴面树脂道分布方式的不同而划分。通过与那些已发现的出产于欧洲和北美洲的种类进行对比，发现这批标本的结构性状上所体现出的多样性与欧美的标本有显著的不同。因此，在早白垩世，东亚为松科早期起源演化的一个重要中心。

麻黄属的化石记录及早期多样性

买麻藤纲的系统演化位置数百年来一直是国际植物学界争论的焦点问题。有人认为，买麻藤纲是被子植物的姐妹群，但另有人认为该纲与裸子植物的关系更为密切。尽管存在争议，但是麻黄属（麻黄科）一直被公认为买麻藤纲的基部类群。由于其在植物界中的特殊位置，解剖学、形态和分类学、分子系统学与古植物学等多种学科已经对该属开展了多角度的研究工作。在对买麻藤纲系统发育和演化位置进行研究时，我们意识到麻黄属的历史记录问题不仅是对麻黄属进行其他研究中必须首先解决的关键问题，而且已成为当务之急。而要令人满意的地解决麻黄属的历史记录，必须弄清以下核心问题：①麻黄属的起源时间是什么? ②麻黄属的化石记录怎样? ③早期麻黄植物的多样性怎样? 我们在全世界搜集了麻黄属的全部化石文献，这给我们对该属历史记录进行研究提供了扎实的基础;我们在辽西热河生物群尖山沟组早白垩世地层采集到了保存完好的麻黄化石，这为我们对其历史记录的研究提供了新的材料。 在对该属进行深入的研究后，结合对在中国辽宁省西部尖山沟组早白垩世地层采集到的保存完好的麻黄化石的研究，得出结论如下： (1)麻黄科下原有的似麻黄属和异麻黄属的属征以及模式种的形态特征与麻黄属非常接近。似麻黄属与麻黄属的区别在于二者的时代不同，异麻黄属和麻黄属的差异在于异麻黄属的分枝式样兼具对生和互生。在综合对比后，将似麻黄属和异麻黄属归并入麻黄属中。 (2)根据繁殖器官的特征，对麻黄属下的化石记录进行了整理，结果发现，目前可以确认的麻黄属化石种共有7个，分别是Ephedra chenii (Cao et Wu) Liu, Li et Wang comb. nov., E. antiqua (Heer) Liu, Li et Wang comb. nov., E. xingxuei (Tao et Yang) Liu, Li et Wang comb. nov., E. lanceolata Liu, Ferguson, Li et Wang sp. nov., E. divisa Liu, Ferguson, Li et Wang sp. nov., E. ovata Liu, Ferguson, Li et Wang sp. nov., 以及E. tenera Liu, Li et Wang sp. nov.。其余的种由于性状不明确或缺乏繁殖部分的特征而被暂时搁置一边。 (3)在1.25亿年前，麻黄属在种子单位中苞片的形态、叶片的形态和大小以及叶脉式样等四个方面已经表现出了丰富的多样性。1.25亿年前，麻黄属叶片的最长可达35毫米，最宽可达45毫米，比现代植物的大（最长可达35毫米，最宽可达2毫米）;叶片的叶脉式样中在同时具有现在植物的平行脉和汇聚脉之外，还有分叉脉出现。种子单位中苞片的形态主要为鳞片状和披针形，这比现代植物窄;叶片的形态主要有四种类型（卵形、裂叶、披针形以及鳞片状），比现代植物中的两种类型（披针形和鳞片状）复杂。将1.25亿年前多样的麻黄属与现代麻黄植物对比，表明在过去的1.25亿年期间，麻黄属的演化过程为：性状的消失和物种的灭绝。 (4)对于麻黄属的起源时间，对现代麻黄植物叶绿体rbcL基因序列的分析得出的时间为8-32 百万年，而近期基于rbcL、rps4 以及ITS序列和麻黄属化石种子以及麻黄粉的分析，得出麻黄属的起源时间为1.1亿年。我们发现的保存完好的化石标本给出的可靠的直接证据表明，麻黄属植物早在1.25亿年前已经出现，而且当时已经表现出了丰富的多样性，说明麻黄属的起源时间可能会更早。

买麻藤目的化石记录及其与 被子植物起源关系的探讨

二十世纪初，前人在中国的东北地区发现了大量保存完好的动物化石，其中以狼鳍鱼最具代表性，科学家将在该地区发现的化石生物群命名为“热河生物群”。“热河”这一名称得名于该化石群的经典产地，即当时的热河省东部地区。建国后，热河省被撤消，其西部划归河北省，东部划归辽宁省。原热河生物群的经典产地因此落在了今天辽宁省的西部，即辽西地区。但是，“热河生物群”这一在地质古生物学界具有深刻影响的名称仍然保留着，而且近几年来在该地区又有大量的鸟类以及恐龙的化石被发现。该地区现在已经成为世界级的古生物宝库。通过不同的方法对该地区进行时代测定的结果认为该地区的时代为白垩纪早期。 与发现众多、研究深入的动物群相比，在该地区开展的植物学研究起步较晚，但在最近几年取得了很大的进展。目前为止，已经发现的植物类群就有苔藓、蕨类、银杏、苏铁、松柏类和被子植物。其中，银杏、苏铁、松柏类尤为丰富。理论上，被子植物也正是从该生物群所代表的白垩纪早期开始出现并逐步走向繁荣的。近年来在热河生物群中就有不少关于被子植物早期类群的报道，如古果属A rchaefructus和里海果属Hyrcantha等。传统上认为，买麻藤目植物与被子植物起源的关系非常密切，但是最近的分子系统学研究却将该类群推离了被子植物，而作为裸子植物高等类群松柏类的姐妹群对待。但是，在热河生物群中的一些新买麻藤目植物的化石标本与被子植物早期类型化石标本的发现却提供了新的思路或证据。如近年来，我国学者已经在该生物群中报道的麻黄科下的2属4种。这些发现的类群都与买麻藤植物的基部类群麻黄属密切相关。这种新发现带来的证据或许可以为被子植物起源这一世界难题的解决提供新的思路。 在对前人关于买麻藤目植物化石标本的研究进行整理的时候，我们发现我们的部分化石与前人发表的一个种Ephedrites chenii在标本的形态学特征方面完全相同。但是在对该类群及其所在的属与麻黄的现代类群作对比研究后发现，该种植物的繁殖器官的特征完全符合麻黄属的特征，因此将该类群转移到麻黄属中作为新组合对待。另外，根据前人对该种在种加词的命名上的修改，我们将该新组合命名为Ephedra cheniae。 在调查该生物群中的买麻藤植物时，我们发现在部分化石类群中出现了前人没有记载过的新性状，比如在麻黄科类植物中发现了互生的分枝方式，并据此命名一个新的单种属Alloephedra xingxuei。为了探讨互生分枝这一性状对于麻黄科的分类意义，我们调查了国内外不少标本馆中的标本，并在野外做了取样统计。结果发现，在不少现代麻黄的枝条上都出现了不同程度的分枝发育不均衡，表现为在同一节上对生的两个分枝中一侧分枝能够正常发育而另一侧发育迟缓甚至不发育，这种不均衡的发育造成了在现代麻黄中出现了类似互生的分枝状况。在整理前人对麻黄分枝方式研究的基础上，结合我们对野外类群形态学性状的调查，我们认为由于在同一节上对生的两个分枝中一侧延迟或不发育而引起的类似互生的性状是较为广泛存在的，它不应该成为属一级的分类依据，而只能作为种一级的分类依据对待。因此我们将AHoephedra xingxuei转移到麻黄属中作为新组合Ephedra xingxuei处理。 除此之外，我们也发现了不少其他的买麻藤目化石标本，在对买麻藤目以往的化石记录了解以及对这些标本形态学性状把握的基础上，我们将这些新发现的化石标本放置在麻黄科麻黄属中作为新种对待，并根据其叶片以及苞片的特征分别将他们命名为披针叶麻黄（Ephedra lanceoleta）、裂叶麻黄（Ephedra divisa），卵叶麻黄（Ephedra ovata）以及双苞麻黄（Ephedra bibracta）。 与此同时，我们也发现了保存完好的被子植物的化石标本。该标本中具有5个离生的心皮、分枝方式兼具侧生和二叉分枝两种、并具有多裂的叶片。在辽西地区同时代发现的被子植物早期类型共有两个，分别是Archaefructus和Hyrcantha。其中前者具有许多个离生的螺旋状排列在可育枝的顶端1cm内的子房／心皮，而后者只有2-4个子房／心皮。在对我们新发现的化石标本与这两个被子植物的早期类型在叶片形态、分枝式样、果实大小、果实构成、果实排布、心 皮数目等形态学特征对比的基础上，我们认为新的化石标本描述了一个被子植物早期类群的新形态，并根据其具有五个心皮以及多裂的叶片的特征，命名为裂叶文采果Wentsaia divisa gen.＆sp. nov。 由于我们有幸能在辽西同时发现了买麻藤植物的化石标本和被子植物早期类型的标本，这就给了我们一个讨论二者在起源关系方面的机会。在对二者的营养器官特征、繁殖器官结构组成、繁殖器官性别构成以及对二者生活环境理解进行对比的基础上，我们认为，买麻藤目植物的早期类型与被子植物的早期类型之间存在相关性。但是就目前的证据而言，尚无法推测二者之间是否存在性状上的演化关系，而该问题的解决需要更多的化石证据的积累。

Mesozoic-Cenozoic tectonic evolution of the Zhuanghai area, Bohai-Bay Basin, east China: the application of balanced cross-sections

The technique of balancing cross-sections, an important method for studying the tectonic history of sedimentary basins, has many applications. It enables one to compile charts for petroleum exploration and development, and growth sections of ancient structures can be restored so that the structural growth history can be studied. In order to study tectonic evolution in the Zhuanghai area of the Bohai-Bay basin, we selected two seismic profiles and compiled two structural growth sections. Based on the two balanced cross-sections, the evolution can be divided into four phases: the Triassic-Middle Jurassic phase, Late Jurassic - Cretaceous phase, Palaeogene extension phase, and Late Palaeogene-to-present phase. The whole area was uplifted during the Triassic-Middle Jurassic phase because of intense extrusion stress related to the Indo-China movement. During the Late Jurassic and Early Cretaceous, intense extension occurred in east China, and the whole area rifted, leading to the deposition of a thick sedimentary sequence. In the Late Cretaceous, the area suffered uplift and compression associated with the sinistral strike slip of the Tanlu fault. In the Palaeogene, a rifting basin developed in the area. Finally, it became stable and was placed in its present position by dextral strike-slip motion. In addition, some problems associated with compiling balanced cross-sections are discussed.

渤海湾地区前第三系构造特征及其演化研究

Based on fine structural interpretation on seismic profiles of buried-hills in Huanghua depression, structural interpretation and balanced cross-section restoration of regional seismic profiles, drawing structural maps of main seismic interfaces, residual strata distribution of different ages in the Bohai Bay region and structural survey in the western Shandong uplifted area and the intracontinental orogeny of Yanshan mountain, the paper has studied pre-tertiary structural styles and tectonic evolution of the Bohai Bay region. There mainly develop 5 types of pre-tertiary structural style that are extension structure, compression structure, strike-slip structure, negative inversion structure and sliding structure in the Bohai Bay region. Among these 5 types of structural style, extension structure develops detachment fault and its controlling fault terrain structure and fault break slop; compression structure develops reverted fold, fault propagation fold, fault bent fold, imbricate thrust structure and triangle zone; strike-slip structure develops positive flower structure, negative flower structure, en-echelon structure and brush structure; negative reversion structure develops Indosinian compression and Yanshanian extension negative reversion structure, late Yanshanian compression and Cenozoic extension negative reversion structure; sliding structure develops interlayer sliding structure and detachment structure. According to Cangdong fault of SN direction, Zhangjiakou – Penglai fault and Qihe – Guangrao fault of NWW direction, the Bohai Bay region can be divided into 6 sub-regions in which structural direction and style is different from each other. Structural maps of bottom boundary of Cenozoic and upper Paleozoic manifest that main NNE structural direction is formed from late Yanshanian to Himalayan movement and minor NWW structural direction and a string of area more than 8000m are mainly suggest that Indosinian tectonic pattern strongly influence on Yanshanian and Himalayan movement. Residual strata distribution characteristics of middle to upper Neoproterozoic in the Bohai Bay region manifest that middle- to neo- aulacogen position may be corresponding to late Mesozoic uplifted zone. Residual Paleozoic distribution characteristics of main ENN suggest that structural alteration should be resulted from late Yanshanian to Himalayan movement while which of minor NWW structures suggest that deeper structure should restrict shallower structure. Structural patterns of main EW fold direction in the Bohai Bay region and thrust structure in eastern part are formed late Triassic in studied area. Granite magma intrusion of early to middle Jurassic mainly develops Yanshan mountain zone. Late Mesozoic rifting basins of NEE direction are widely distributed in the Bohai Bay region and granite magma intrusions are mainly distributed in Tancheng – Rongcheng zone. Mesozoic structural evolution in the Bohai Bay region is related to scissor convergent from east to west between North China plate and Yangtze plate and gradually reinforcing of the west circum-pacific tectonic tract while basin and range province of late Jurassic and early Cretaceous may be mainly related to lithospheric thinning of North China craton in late Mesozoic.

青岛晚白垩世岩石圈结构特征：劈石口晚白垩世基性脉岩及其捕虏体提供的证据

The occurrence of Late Cretaceous mafic dykes and their entrained peridotite and granulite xenoliths as well as clinopyroxene xenocrysts in the Qingdao region provide us a precious opportunity to unveil the nature and characteristics of the Late Mesozoic lithospheric mantle and lower crust beneath the Jiaodong region, and the change of the magma sources. These studies are of important and significant for understanding the lithospheric evolution in the eastern North China Craton. There were two periods of magma activities in Late Mesozoic in Qingdao Laoshan region, one was around 107Ma in the Early Cretaceous and the other around 86Ma in the Late Cretaceous according to the whole rock K-Ar age determination. The Early Cretaceous mafic dykes and the Late Cretaceous mafic dyke (i.e. Pishikou mafic dike) have completely different geochemical characteristics. The Early Cretaceous mafic dykes are enriched in LILE, strongly depleted in HFSE (Nb, Ta, Zr, Hf) and characterized by the highly radiogenic Sr and Nd isotopic compositions. These geochemical features indicate that the Early Cretaceous mafic dykes were derived from an enriched lithospheric mantle. In contrast, the Late Cretaceous mafic dyke is enriched in LILE, without HFSE depletion (Nb, Ta, Zr, Hf) and has less radiogenic Nd and Sr isotopic compositions. These geochemical features indicate that the Late Cretaceous mafic dyke was derived from the asthenosphere modified by subducted pelagic sediment contamination. The intrusive age of the Late Cretaceous mafic dyke provides further information for the termination of the lithosphere thinning for the eastern North China Crtaon. Pishikou Late Cretaceous mafic dyke contains abundant peridotitic xenoliths, granulite xenoliths and clinopyroxene xenocrysts. The peridotitic xenoliths can be divided into two types: high Mg# peridotites and low Mg# peridotites, according to their textural and mineral features. The high-Mg# peridotites have high Fo (up to 92.2) olivines and high Cr# (up to 55) spinels. The clinopyroxenes in the high# peridotites are rich in Cr2O3 and poor in Al2O3. The low-Mg# peridotites are typified by low Mg# (Fo <90) in olivines and low Cr# (Cr# <0.14) in spinels. The clinopyroxenes in the low-Mg# peridotites are rich in Al2O3 and Na2O and poor in Cr2O3. These two type peridotites have similar equilibrated temperatures of 950C-1100C. The Clinopyroxenes in the high-Mg# peridotites generally have high and variable REE contents (REE = 5.6-84 ppm) and LREE-enriched chondrite-normalized patterns ((La/Yb)N>1). In contrast, the clinopyroxenes in the low-Mg# peridotites have low REE contents (REE = 12 ppm) and LREE-depleted patterns ((La/Yb)N<1). The textural, mineral and elemental features of the low-Mg# peridotites are similar to those of the low-Mg peridotites from the Junan, representing the newly-accreted lithospheric mantle. However, the mineralogical and petrological features of the high-Mg# peridotites are similar to those of the high-Mg# peridotites from the Junan region, representing samples from the old refractory lithospheric mantle that was strongly and multiply affected by melts of different origins Late Cretaceous mafic dike in the Qingdao region also contains two types of granulite xenoliths according to the mineral constituents: the pyroxene-rich granulites and the plagioclase-rich granulites. Equilibrated temperatures calculated from the cpx-opx geothermometers are in a range of 861C - 910C for the pyroxene-rich granulites and of 847C - 890C for the plagioclase-rich granulites. The equilibrated pressure for the plagioclase-rich granulites is in a range of 9.9-11.7 kbar. Combined with the results of the peridotitic xenoliths, a 40C temperature gap exists between the peridotite and the granulite. The petrological Moho was 33~36 km at depths, broadly consistent with the seismic Moho estimated from the geophysical data. This indicates that there was no obvious crust-mantle transition zone in the Qingdao region in the Late Mesozoic. Pishikou Late Cretaceous mafic dyke entrained lots of clinopyroxene xenocrysts which are characterized by the chemical zoning. According to the zoning features, two types of clinopyroxene xenoliths can be classified, the normal zoning and the revise zoning. The normally-zoned clinopyroxene xenocrysts have LREE-depleted REE patterns in the cores. In contrast, the revisely-zoned clinopyroxenes have LREE-enriched REE patterns in the cores. According to the rim and core compositions of xenocrysts, all the rims are balanced with the host magma. Meanwhile, the origins of the cores were complicated, in which the normally-zoned clinopyroxenes were derived form the lithospheric mantle and some of the reversely-zoned clinopyroxnes were originated from the lower crust. Other revisely-zoned clinopyroxenes had experienced complex geological evolution and need to be further investigated. According to the above results, a simplified lithospheric profile has been established beneath the Qingdao region and a constraint on the nature and characteristics of the lithospheric mantle and lower crust has been made.

济阳坳陷深层地质构造与演化

Based on geophysical and geological data in Jiyang depression, the paper has identified main unconformity surfaces (main movement surfaces) and tectonic sequences and established tectonic and strata framework for correlation between different sags. Based on different sorts of structural styles and characteristics of typical structures, the paper summarized characteristics and distribution of deep structures, discussed evolution sequence of structure, analyzed the relation between tectonic evolution and generation of petroleum. The major developments are as following: Six tectonic sequences could be divided from bottom to top in the deep zone of Jiyang depression. These tectonic sequences are Cambrian to Ordovician, Carboniferous to Permian, lower to middle Jurassic, upper Jurassic to lower Cretaceous, upper Cretaceous and Kongdian formation to the fourth member of Shahejie formation. The center of sedimentation and subsidence of tectonic sequences distinguished from each other in seismic profiles is controlled by tectonic movements. Six tectonic evolution stages could be summarized in the deep zone in Jiyang depression. Among these stages, Paleozoic stage is croton sedimentation basin; Indosinian stage, open folds of EW direction are controlled by compression of nearly SN direction in early Indosinian (early to middle Triassic) while fold thrust fault of EW – NWW direction and arch protruding to NNE direction are controlled by strong compression in late Indosinian (latter Triassic); early Yanshanian stage (early to middle Jurassic), in relatively weak movement after Indosinian compressional orogeny, fluviolacustrine is deposited in intermontane basins in the beginning of early Yanshanian and then extensively denudated in the main orogenic phase; middle Yanshanian (late Jurassic to early Cretaceous), strike-slipping basins are wide distribution with extension (negative reversion) of NW – SE direction; latter Yanshanian (late Cretaceous), fold and thrust of NE – NNE direction and positive reversion structure of late Jurassic to early Cretaceous strike-slipping basin are formed by strong compression of NW–SE direction; sedimentation stage of Kongdian formation to the fourth member of Shahejie formation of Cenozoic, half graben basins are formed by extension of SN direction early while uplift is resulted from compression of nearly EW direction latterly. Compression system, extension system and strike-slip system are formed in deep zone of Jiyang depression. According to identifying flower structure of seismic profiles and analysis of leveling layer slice of 3D seismic data and tectonic map of deep tectonic interface, strike-slip structures of deep zone in Jiyang depression are distinguished. In the middle of the Jiyang depression, strike-slip structures extend as SN direction, NNW direction in Huimin sag, but NNE in Zhandong area. Based on map of relict strata thickness, main faults activity and regional tectonic setting, dynamic mechanisms of deep structure are preliminary determination. The main reason is the difference of direction and character of the plate’s movement. Development and rework of multi-stage tectonic effects are benefit for favorable reservoir and structural trap. Based on tectonic development, accumulation conditions of deep sub-sags and exploration achievements in recent years, potential zones of oil-gas reservoir are put forward, such as Dongying sag and Bonan sag.

天山南北山前盆地中-新生代沉积记录及其动力学分析

It has been long known that intense multiple Mesozoic-Cenozoic intracontinental deformations have controlled the grand scale basin-range structural evolution of the Tianshan and its adjacent basins. So it is important to study the sedimentary records of the piedmont basins along the two sides of the Tianshan synthetically for the continental geodynamic research.We carried out a magnetostratigraphy study on Cretaceous- Tertiary succession and U-Pb dating analysis of detrital zircons from the representative sandstone samples of the Mesozoic-Cenozoic deposits in Kuqa Subbasin, northern Tarim Basin, combining our previous results of multiple depositional records from different profiles including paleocurrent data, conglomerate clast, sandstone framswork grains, detrital heavy minerals and geochemistry analysis, so the multiple intracontinental tectonic processes of Tianshan and their depositional response in the Kuqa Subbasin can be revealed. The results show that the tectonic evolution of the Tianshan Orogen and the sedimentary processes of the Kuqa Subbasin can be divided into four periods: early Triassic(active period), from middle Triassic to late Jurassic(placid period), from early Cretaceous to Tertiary Paleocene(active period) and from Neogene to present (intensely active period). Simultaneously，the depositional records reveal the provenance types and tectonic attributes in different periods. As follows, the lower Triassic with a dominant age ranging from 250 to 290Ma of the Zircons, which were principally derived from alkali feldspar granites and alkaline intrusion obviously, relative to the magma activity in Permian. In middle Triassic-late Jurassic, the two samples collected from the Taliqike formation and the Qiakemake formation respectively show the age peak at 350～450Ma, which was relative to the subduction of the Tarim Block to Yili-Central Tianshan Plate. In this period the provenance of the Kuqa deposits was the Central Tianshan arc orogenic belts distantly with little height predominance.During early Cretaceous-Paleogene, two major zircons age spectra at 240~330Ma and 370~480Ma have been acquired, with some other not dominant age ranges, indicating complicated provenance types. In Neogene, the detrital zircons age dating ranges from 460 to 390 Ma primarily. What’s more, the newer chronology of the stratigraphy and the older source age, indicating that Tianshan was uplifted and exhumated further strongly. Further study on the heavy mineral and the detrital zircons age dating of the Mesozoic-Paleogene representative profiles in southern Junggar Basin, combined with the published results of the sandstone framework grains, we consider that it occurred obvious sedimentary and tectonic changes occurred in the inside of Jurassic, from late Jurassic to early Cretaceous and form early Cretaceous to late Cretaceous. On this faces, there are remarkable changes of the steady minerals and unstable minerals, the sandstone maturity and the age spectra of the detrital zircons. Compared the sedimentary records from the two sides of the Tianshan, We find that they are different obviously since Middle Jurassic. It can be concluded that Tianshan have uplifted highly enough to influence the paleo-climatic. According to the current strata division, the structural activity apparently showed a migration from north to south. That is to say, the South Tianshan uplift later than the north, especially from late Jurassic to early Cretaceous , but it was uplifted and exhumated more strongly. Furthermore, correlating the depositional records and tectonic styles in the Kuqa-South Tianshan basin-range conjugation site in the east with the west, the obvious differentiation between the west and the east from the Cretaceous especially in Tertiary along the Tianshan-Kuqa belt was revealed, probably showing earlier uplifting in the east while greater exhumation depth and sediment rates in the west. In addition, the contacting style of Kuqa subbasin to the Tianshan Orogenic belts and the basement structure are also inconsistent at different basin-range conjugation sites. It is probably controlled by a series of N-S strike adjusting belts within the Kuqa subbasin, or probably correlated with the material difference at the complicated basin-range boundary. The research on the Mesozoic-Cenozoic tectonic-depositional response in the piedmont basins along the two sides of the Tianshan shows that the basin-filling process was controlled by the intracontinental multicyclic basin-range interactions, especially affected by the intense tectonic differentiations of basin-range system, which can’t be illuminated using a single evolutionary model.

大兴安岭北段晚中生代火山岩地球化学特征及其地质意义

This thesis mainly concentrates on the geochronology, prtrology, elemental geochemistry and Sr-Nd-Pb-Hf isotopic geochemistry of the volcanic rocks in north Da’Hinggan Mountain. By analyzing the data obtained in this study and data from other people, this thesis explored the age distribution, petrology and mineralogy and geochemistry characteristics of the volcanic rocks in north Da’Hinggan Mountain. Furthermore, this thesis speculated upon the source characteristics of these volcanic rocks and their implications for the tectonic evolution and crust accretion. According to the twenty Ar-Ar ages, four zircon U-Pb SHRIMP ages and two Zircon U-Pb LA-ICP-MS ages, the duration of the eruption of the Late Mesozoic volcanic rocks in north Da’Hing Mountain was about 160Ma-106Ma. Most of these volcanic rocks belong to early Cretaceous and the late Jurassic volcanic rocks are only restricted in Manzhouli. The bulk of the late Mesozoic volcanic rocks are high-K calc-alkaline rocks. Only a small portion of these volcanic rocks are shoshonites. These rocks are mainly intermediate or acid and the basic rocks usually have higher alkaline contents. Rock types are very complex in this region. These volcanic rocks have a large TiO2 variation and the Al2O3 and alkaline contents are high. From the point of mineralogy, the plagioclases in these volcanic rocks are oligoclases, andesines and labradorites, and the labradorites are more common. Most pyroxenes in these volcanic rocks are augites which belong to clinopyroxene. The source of the Late Mesozoic volcanic rocks was an enriched lithospheric mantle. When the magma en route to the surface it was contaminated by crust material slightly and had some fractional crystallization. These rocks which mainly belong to high-K calc-alkaline series were one of the results of postorogenic tectonic-magmatic activities. The upwelling in late Mesozoic supplied heat to melt the enriched lithospheric mantle which was resulted from the subduction of paleo-Asian Ocean and/or Mengol-Okhotsk ocean. These late Mesozoic volcanic rocks are also important to the upper crustal accretion of north Da’Hinggan Mountain since the late Mesozoic. These volcanics and the contemporary emplacement of granites and the basaltic underplating in combination fulfilled the crust accretion history in north Da’Hinggan Mountain in Late Mesozoic.