燕山西部尚义盆地沉积岩区专题地质填图方法与成果

燕山运动是中国东部晚中生代重要的陆内造山运动,具有广泛而深远的地质影响。虽然前人对燕山运动的研究已近百年,积累了大量研究成果,然而目前对于燕山造山带的陆内造山过程仍存在很大争议。针对这一科学问题,选取燕山西部尚义盆地开展了1∶5万专题地质填图。在此基础上,通过盆地充填序列、岩相、沉积环境、物源的综合分析,恢复了盆地岩相古地理,建立了盆地演化模型,并探讨了燕山造山带陆内造山过程的沉积响应。根据沉积岩区岩相组合填图方法,绘制了1∶5万组-相级岩相分布图。燕山西部尚义盆地侏罗纪—早白垩世早期沉积演化记录了燕山造山带造山前伸展、同造山挤压和造山后伸展的全过程。     

喜马拉雅碰撞造山带不同类型部分熔融作用的时限及其构造动力学意义

喜马拉雅新生代淡色花岗岩,是世界上S型花岗岩的典例,主要分布于两条近平行排列的东西向构造带内,特提斯喜马拉雅带和高喜马拉雅带。实验岩石学和理论研究表明:这些淡色花岗岩是中—下地壳岩石进行不同性质的地壳深熔作用的产物,部分熔融类型与构造变形密切耦合。具体表现在:146~35 Ma,在增厚地壳条件下,以角闪岩部分熔融作用为主,形成了具有高Sr/Y比值的二云母花岗岩;228~9 Ma,减压条件下,俯冲物质快速折返,白云母发生脱水部分熔融,形成具有较高Rb/Sr比值的花岗岩;3其中,在21~16 Ma期间,与藏南裂谷系E—W向伸展作用开启密切相关,变泥质岩发生水致白云母部分熔融作用,形成Rb/Sr比值较低,Sr和Ba含量较高的花岗岩;4在25~27 Ma期间,局部地区发生高压水致部分熔融作用。     

Pan-African Tectonism in the Western Maud Belt: P-T-t Path for High-grade Gneisses in the H.U. Sverdrupfjella, East Antarctica

Extensive high-grade polydeformed metamorphic provinces surroundingArchaean cratonic nuclei in the East Antarctic Shield recordtwo tectono-thermal episodes in late Mesoproterozoic and lateNeoproterozoic–Cambrian times. In Western Dronning MaudLand, the high-grade Mesoproterozoic Maud Belt is juxtaposedagainst the Archaean Grunehogna Province and has traditionallybeen interpreted as a Grenvillian mobile belt that was thermallyoverprinted during the Early Palaeozoic. Integration of newU–Pb sensitive high-resolution ion microprobe and conventionalsingle zircon and monazite age data, and Ar–Ar data onhornblende and biotite, with thermobarometric calculations onrocks from the H.U. Sverdrupfjella, northern Maud Belt, resultedin a more complex P–T–t evolution than previouslyassumed. A c. 540 Ma monazite, hosted by an upper ampibolite-faciesmineral assemblage defining a regionally dominant top-to-NWshear fabric, provides strong evidence for the penetrative deformationin the area being of Pan-African age and not of Grenvillianage as previously reported. Relics of an eclogite-facies garnet–omphaciteassemblage within strain-protected mafic boudins indicate thatthe peak metamorphic conditions recorded by most rocks in thearea (T = 687–758°C, P = 9·4–11·3kbar) were attained subsequent to decompression from P >12·9 kbar. By analogy with limited U–Pb singlezircon age data and on circumstantial textural grounds, thisearlier eclogite-facies metamorphism is ascribed to subductionand accretion around 565 Ma. Post-peak metamorphic K-metasomatismunder amphibolite-facies conditions is ascribed to the intrusionof post-orogenic granite at c. 480 Ma. The recognition of extensivePan-African tectonism in the Maud Belt casts doubts on previousRodinia reconstructions, in which this belt takes a pivotalposition between East Antarctica, the Kalahari Craton and Laurentia.Evidence of late Mesoproterozoic high-grade metamorphism duringthe formation of the Maud Belt exists in the form of c. 1035Ma zircon overgrowths that are probably related to relics ofgranulite-facies metamorphism recorded from other parts of theMaud Belt. The polymetamorphic rocks are largely derived froma c. 1140 Ma volcanic arc and 1072 ± 10 Ma granite. KEY WORDS: Maud Belt; Pan-African orogeny; geochronology; P–T–t path, East Antarctica     

Metamorphic evolution of the Maud Belt: P–T–t path for high-grade gneisses in Gjelsvikfjella, Dronning Maud Land, East Antarctica

A metamorphic petrological study, in conjunction with recent precise geochronometric data, revealed a complex P–T–t path for high-grade gneisses in a hitherto poorly understood sector of the Mesoproterozoic Maud Belt in East Antarctica. The Maud Belt is an extensive high-grade, polydeformed, metamorphic belt, which records two significant tectono-thermal episodes, once towards the end of the Mesoproterozoic and again towards the late Neoproterozoic/Cambrian. In contrast to previous models, most of the metamorphic mineral assemblages are related to a Pan-African tectono-thermal overprint, with only very few relics of late Mesoproterozoic granulite-facies mineral assemblages (M₁) left in strain-protected domains. Petrological and mineral chemical evidence indicates a clockwise P–T–t path for the Pan-African orogeny. Peak metamorphic (M_2b) conditions recorded by most rocks in the area (T = 709–785 °C and P = 7.0–9.5 kbar) during the Pan-African orogeny were attained subsequent to decompression from probably eclogite-facies metamorphic conditions (M_2a).The new data acquired in this study, together with recent geochronological and geochemical data, permit the development of a geodynamic model for the Maud Belt that involves volcanic arc formation during the late Mesoproterozoic followed by extension at 1100 Ma and subsequent high-grade tectono-thermal reworking once during continent–continent collision at the end of the Mesoproterozoic (M₁; 1090–1030 Ma) and again during the Pan-African orogeny (M_2a, M_2b) between 565 and 530 Ma. Post-peak metamorphic K-metasomatism under amphibolite-facies conditions (M_2c) followed and is ascribed to post-orogenic bimodal magmatism between 500 and 480 Ma.     

The Yanshanian Orogeny and Two Kinds of Yanshanides in Eastern-Central China

The Tan-Lu Fault was once a transform fault in the Paleotethys, west of which was the Qinling-Dabie Ocean separating the Yangtze Craton from the North China Craton, and east of which was the Su-Lu Ocean separating the Su-Wan Block from the Jiao-Liao Craton. The Qinling-Dabie Ocean closed in the Indosinian orogeny, which created the China-Southeast Asia Subcontinent, with the Tan-Lu Fault becoming a marginal shear zone along the newly-formed amalgamated subcontinent. The Su-Lu Ocean subducted partly in the Indosinian.orogeny, but not closed. In the Jurassic and Early Cretaceous, the Su-Wan Block drifted northwards with subduction of the Su-Lu Ocean and moved westwards to converge the subcontinent by sinistral sheafing of the ENE-striking fractures. The Su-Lu Ocean finally closed and the Su-Wan Block collided with the Jiao-Liao Craton in the Early Cretaceous, which constituted a part of the magnificent interplate Yanshanides. The interplate orogeny rejuvenated the fossil sutures and deep fractures, as well as the Indosinian orogen, and the intraplate （intracontinental） Yanshanian orogeny occurred in the subcontinent. The East Asia Yanshanides, consisting of the interplate orogens in the outer side and the intraplate orogens in the inner side, collapsed quickly in the latest Early Cretaceous and Late Cretaceous. The eastern China area entered a tensile period from the Eogene, and the tectonic differentiation between the central and eastern China areas since the Jurassic was further strengthened.     

Tectonic Evolution of the Himalayan Collision Belt

This paper discusses the tectonic divisions of the Himalayan collision belt anddeals with the tectonic evolution of the collision belt in the context of crustal accretion in thefront of the collision belt, deep diapirism and thermal-uplift extension and deep material flow-ing of the lithosphere-backflowing. Finally it proposes a model of the tectonic evolution-progressive intracontinental deformation model-of the Himalayan belt.     

大陆地质与大陆构造和大陆动力学

当代地球科学发展的新需求与板块构造对大陆地质的深化研究,使大陆问题成为21世纪地学发展的前沿研究领域、热点和关键。文中在提出“大陆动力学”研究20多年后的今天,进行关于大陆研究的新思考,从讨论厘定大陆研究的有关争议概念、大陆的基本问题、中国大陆构造的典型实例以及与世界同类范例的简要对比出发,综合概括了大陆地质与大陆构造和大陆动力学研究的关键科学问题与进一步探索研究的思考课题。提出了在大陆研究中,在进一步精确深化板块构造对大陆的研究的同时,应突出加强大陆构造中有无非板块构造动力及其远程效应的大陆内的、在深部动力学与陆块间差异非均衡背景下由陆内陆块间相互作用导致的真正陆内构造及其动力学问题的研究,以便为深化发展板块构造、认知大陆、探索大陆动力学、构建包括板块构造在内新的行星地球构造观作出努力与探索。     

西藏措勤打加错地区上三叠统江让组的发现及其地质意义

在西藏措勤打加错地区新发现上三叠统江让组,其为一套海相碎屑岩及碳酸盐岩沉积建造,岩性主要为不等厚层状石英质砾岩、深灰色薄层状—块状生物碎屑微晶灰岩、含砂粉砂质微晶灰岩、含石英砾质生物碎屑灰岩、砂屑灰岩夹钙质细砂岩,产珊瑚Distichophyllia sp.,Volzeia sp.,Montlivaltia sp.,M.cf.xainzaensis、海绵:Hartmanina sp.和双壳类Xenocardita?sp.,时代为晚三叠世卡尼期-诺利期,与下二叠统昂杰组呈角度不整合接触。江让组在该地区的发现,完善了冈底斯西部三叠纪的地层系统,为研究印支运动对冈底斯西部的影响和古特提斯洋的演化提供了依据。     

黔东地区梵净山群与下江群凝灰岩SHRIMP锆石U-Pb年龄

根据黔东地区梵净山群回香坪组第6段凝灰岩SHRIMP锆石U-Pb年龄(840Ma±5Ma),结合下江群芙蓉坝组碎屑锆石年龄谱系及下江群新寨组(板溪群马底驿组)凝灰岩SHRIMP锆石U-Pb年龄(813.5Ma±9.6Ma),将其与广西四堡群和丹州群凝灰岩年龄进行对比。梵净山群回香坪组年龄与四堡群鱼西组凝灰岩年龄一致,2个地区均发育早期基性岩和枕状熔岩、晚期浅色花岗岩。该事件的精确定年对江南造山带西南端构造演化将有重要的地质意义。依据江南古陆新元古代低变质绿片岩的最新锆石U-Pb年龄,梵净山群(贵州)、四堡群(广西)、冷家溪群(湖南)、双桥山群(江西)与仓溪岩群(湖南)、宜丰岩群(江西)、张村群(江西),甚至与双溪坞群(浙西)在沉积年代上有一定的时间差,而上覆贵州下江群甲路组(814Ma)、广西丹州群合桐组(802Ma)、湖南板溪群张家湾组(802Ma)、江西登山群邓家组(766Ma)和浙江河上镇群骆家门组(791Ma)沉积起点的时间也不一致,但是两者之间均为角度不整合接触,反映出明显的造山事件。研究认为,不断地获得精确的地层年代数据将影响整个江南古陆变质基底的地层对比,并制约江南造山带的地质背景和成矿条件。     

滨里海盆地东缘中段盐构造变形特征

利用地震剖面解释和构造编图,对滨里海盆地东缘中段下二叠统孔谷阶盐构造变形特征进行了分析。结果表明,孔谷阶含盐层系变形强烈,主要发育盐底辟、盐枕、盐滚、盐焊接、盐边凹陷和龟背构造等多种盐构造变形样式。不同盐构造规模差别较大,隆起幅度自东向西逐渐增大,平面展布具有明显的分带性。盐构造运动对周缘地层变形也产生了重要影响,形成了楔型褶皱地层,并导致盐间和盐上地层发育一些特征各异的断裂。盐构造运动受乌拉尔造山作用影响明显,强烈的盐构造活动主要发生在晚二叠世一三叠纪。