�������ڲ�̽�⼰����ѧ�о�

??20?????????????????????????????????????????μ??Σ???????????μ??о???????????·?????????????????о???????????????????о????????????δ????????о??????     

亚洲大地构造基本特征和演化规律

根据中国学者的开合构造观点,分析了亚洲大地构造基本特征和演化规律,提出“构造集群”、“构造运动程式”等一些新的认识。（1）亚洲划分为11个大地构造旋回并归纳为大陆基底形成、泛大陆和超大陆形成与发展以及现代板块构造与陆内演化三大阶段。（2）以23条俯冲带或碰撞带为骨干,划分了以西伯利亚陆块、古中华陆块、印度陆块和太平洋板块为核心的北亚、中亚、南亚和东亚4个构造集群,以及11个二级和86个三级构造单元。构造集群系指具有成生联系的陆块、大小不同的地块和各个时期造山带的聚合体;两个构造集群间存在一个构造结合区。（3）亚洲构造变形特点为：中亚构造集群基本呈东西向展布,分别受围绕西伯利亚陆块分布的向南突出的弧形构造和围绕印度陆块分布的主体向北北东突出的弧形构造（仅内弧出现了向南突出的喜马拉雅弧）的挤压,它们同时又被北北东向展布的东亚构造集群强烈改造,从而形成了复杂的构造格局,表明古中华陆块在亚洲大地构造演化中起着“中流砥柱”的重要作用。（4）亚洲大地构造时空演化与全球同步经历了哥伦比亚古陆、罗迪尼亚古陆和潘基亚古陆形成的3次重要造陆事件。在此过程中,中亚构造集群独具特色：哥伦比亚古陆1 850 Ma形成,稍早于南亚构造集群（1 800 Ma）和北亚构造集群（1 800~1 600 Ma）;罗迪尼亚古陆830 Ma形成,晚于南北两侧的900~1 000 Ma;潘基亚古陆210 Ma形成,也比全球普遍于250 Ma形成的时间晚。印支运动的广泛发育和强烈影响是中亚构造集群乃至亚洲最显著的特征。（5）总结出背向俯冲对接式、单向运移拼贴式和原地开合手风琴式3种构造运动程式。背向俯冲对接式的动因是地幔对流（软流圈对流或地幔柱对流）;单向运移拼贴式可能与地幔上升产生的地幔层流有关;原地开合手风琴式推测是深部地幔“热点”周期活动所致。     

Deep geoelectric structure over the Lower Brahmaputra valley and Shillong Plateau, NE India using magnetotellurics

Magnetotelluric studies over the Shillong plateau and lower Brahmaputra sediments have delineated the Dauki fault as a NE–SW striking thrust zone with a dip angle of about 30°, along which the low resistivity layer of Bengal sediments and the underlying oceanic crust subduct to the northwest. At present, about 50 km length of these sequences has subducted beneath the Shillong plateau and is traced up to depth of about 40 km. Another thrust zone, sub parallel to the Dauki thrust is observed in the lower Brahmaputra valley, corresponding to the Brahmaputra fault. This is interpreted to be an intracratonic thrust within the Indian plate. These results suggest that a large fraction of the seismicity over the Shillong plateau is associated with the NE–SW striking Dauki thrust, contrary to the earlier belief that this fault zone is relatively aseismic. The present studies also suggest that the Shillong plateau and the adjoining sedimentary layers act as a supracrustal block, not directly participating in the subduction process. However in response to the compressive tectonic forces generated by the Himalayan and Indo-Burman subduction processes the Shillong plateau, together with the Brahmaputra sediments overlying the Indian crust drift eastwards relative to the Bengal sediments along the surface expression of the Dauki fault leading to a dextral strike slip movement. We thus propose that the NE Indian crust responds to the compressive forces differently at different depths, governed by the rheological considerations. At deeper levels the crustal readjustments take place through the subduction along the Dauki and Brahmaputra thrusts where as, at the shallow levels the relative deformability of the supracrustal blocks have a strong influence on the tectonics, leading to the strike slip mechanism along the surface expression of the Dauki fault.     

辽宁板块构造特征及大地构造单元划分

利用板块构造理论,依据近年来1：5万区域地质调查及相关科研成果,对辽宁地壳发展演化进行了分析研究,提出辽宁地壳发展可暂划分为早前寒武纪大陆增生构造体制和中元古宙以来的板块构造体制.中太古代-古元古代发现了绿岩地体和古元古宙裂谷,因此将早前寒武纪视作原始板块,中元古代-古生代视作古板块,中生代以来视作现代板块.在此基础上对辽宁大地构造单元进行了划分.辽宁Ⅰ级构造单元为塔里木-华北板块.Ⅱ级构造单元为天山-赤峰陆缘活动带和华北陆块.Ⅲ级构造单元5个,分别为建平-西丰华力西陆缘造山带、冀辽地块、铁岭-清原微地块、辽吉地块及下辽河-辽东湾新生代裂谷.Ⅳ级构造单元16个.为清楚地了解辽宁地壳发展演化特点,对5个Ⅲ级构造单元地质特征进行简要阐述.     

变质核杂岩研究进展

变质核杂岩是大陆流变伸展的重要表现形式。在近20年的国际大陆动力学研究中,变质核杂岩与伸展构造是一个方兴未艾的热点课题。在大量文献资料调研和作者科研实践的基础上,对变质核杂岩与伸展构造的研究现状进行了综述,分析了变质核杂岩的几何学、运动学、年代学特征、拆离断层特征、形成的大地构造背景与成矿关系等,对变质核杂岩基本特征及判别标志进行了归纳总结。同时,对变质核杂岩的热点争论问题,如变质核杂岩是否一定存在巨厚地壳柱被切失的问题、变质核杂岩形成过程中岩浆作用与伸展作用的主从关系问题、低角度拆离断层的成因等进行了讨论,并提出自己的认识。     

云南个旧芦塘坝矿段层间矿成因及构造-岩相控矿规律

云南个旧锡矿是世界级超大型锡多金属矿床,层间矿床(锡石-硫化物)是其中重要的矿床类型之一,其成因也一直存在争议,为了进一步探讨其成因并对该类型矿床的深部勘查提供理论依据,重点对个旧锡矿高松矿田芦塘坝矿段10号矿群不同中段层间矿体的岩石矿物组构和地球化学特征进行了研究.结果表明层间矿床中的原生矿体多为块状硫化矿石,金属硫...     

Geochemistry and geochronology of Late Triassic volcanic rocks in the Chiang Khong region, northern Thailand

The Chiang Khong segment of the Chiang Khong–Lampang–Tak Volcanic Belt is composed of three broadly meridional sub‐belts of mafic to felsic volcanic, volcaniclastic, and associated intrusive rocks. Associated sedimentary rocks are largely non‐marine red beds and conglomerates. Three representative Chiang Khong lavas have Late Triassic (223–220 Ma) laser ablation inductively coupled mass‐spectroscopy U–Pb zircon ages. Felsic‐dominated sequences in the Chiang Khong Western and Central Sub‐belts are high‐K calc–alkaline rocks that range from basaltic to dominant felsic lavas with rare mafic dykes. The Western Sub‐belt lavas have slightly lower high field strength element contents at all fractionation levels than equivalent rocks from the Central Sub‐belt. In contrast, the Eastern Sub‐belt is dominated by mafic lavas and dykes with compositions transitional between E‐mid‐oceanic ridge basalt and back‐arc basin basalts. The Eastern Sub‐belt rocks have higher FeO* and TiO₂ and less light rare earth element enrichment than basalts in the high‐K sequences. Basaltic and doleritic dykes in the Western and Central sub‐belts match the composition of the Eastern Sub‐belt lavas and dykes. A recent geochemical study of the Chiang Khong rocks concluded that they were erupted in a continental margin volcanic arc setting. However, based on the dominance of felsic lavas and the mainly non‐marine associated sediments, we propose an alternative origin, in a post‐collisional extensional setting. A major late Middle to early Late Triassic collisional orogenic event is well documented in northern Thailand and Yunnan. We believe that the paucity of radiometric dates for arc‐like lavas in the Chiang Khong–Lampang–Tak Volcanic Belt that precede this orogenic event, coupled with the geochemistry of the Chiang Khong rocks, and strong compositional analogies with other post‐collisional magmatic suites, are features that are more typical of volcanic belts formed in a rapidly evolving post‐collisional, basin‐and range‐type extensional setting.