扬子地块西北缘后龙门山造山带(北段)物质组成、构造特征及其形成演化
|
摘要
龙门山陆内复合造山带位于扬子地块西北缘,是一个北东向展布的陆内造山带,夹持于碧口地块、南秦岭造山带、松潘-甘孜造山带、川西前陆盆地和汉南-米仓山构造带之间,也是青藏高原东部边缘地带,是诸多地块和不同类型造山带以不同方式、不同方向汇聚交接地区,具有复杂的构造图象和拼合历史。本文通过构造地质学、岩石学、岩石地球化学、同位素地质年代学及地球物理学研究相结合的方法,主要对扬子地块西北缘后龙门山造山带的物质组成、形成时代、形成环境、变形特征和变形序列进行了综合研究,取得了以下主要新进展和初步认识:
1、后龙门山造山带物质组成研究
新元古代早中-期的基底形成阶段主要以火山喷发和随后的岩浆侵入为特征,其中通木梁群岛弧型火山岩是Rodinia超大陆汇聚的产物,而刘家坪群裂谷型火山岩、轿子顶花岗岩和大滩花岗岩是Rodinia超大陆初始裂解阶段产物;南华纪-早古生代伸展裂陷-晚古生代-中三叠世被动大陆边缘演化阶段主要以海相沉积环境为主,其沉积环境可划分南华纪-震旦纪阶段的裂解-稳定沉积体系、寒武纪-志留纪阶段的伸展裂陷沉积体系、泥盆纪-中三叠世阶段被动大陆边缘沉积体系,包含少量的早奥陶世毛塔子陆内裂谷火山岩系;晚三叠世-新生代陆内造山演化阶段在其北侧碧口地块中形成了具有后碰撞特征的花岗岩,在其南侧前龙门山构造带以及碧口地块南缘局部则以陆相沉积岩系为主。因此,后龙门山造山带是在陆内俯冲造山基础上,后期经历了伸展滑脱、逆冲推覆以及走滑剪切形成的造山带。
2、后龙门山造山带构造特征研究
后龙门山造山带自晚印支期以来经历了多期次多类型的构造变形和构造叠加,通过详细的构造解析,认为可以将其构造变形分为晚三叠世挤压-收缩体制下陆内俯冲变形,早中侏罗世伸展构造体制下滑脱变形和顺层韧性剪切变形,晚侏罗世-早白垩世挤压-收缩体制下逆冲推覆变形,晚白垩世-早中新生代左行走滑韧性剪切变形,以及中-晚新生代右行走滑剪切变形五期变形。其中,伸展滑脱变形在后龙门山造山带轿子顶穹窿和碧口地块南缘蜈蚣口一带较为明显,向东逐渐减弱。对伸展滑脱构造带中变形岩石的年代学研究表明,该期伸展滑脱形成于193-165Ma,是在陆内俯冲造山后地壳均衡作用影响之下的伸展背景下形成的。
3、后龙门山造山带形成演化研究
后龙门山造山带自新元古代以来主要经历了新元古代早中期基底形成,南华纪-早古生代伸展裂陷-晚古生代-中三叠世被动大陆边缘演化,晚三叠世-新生代陆内造山演化三个大的阶段。其中晚三叠世-新生代陆内造山过程可划分为晚三叠世陆内俯冲造山、早-中侏罗世伸展滑脱、晚侏罗世-早白垩世逆冲推覆、晚白垩世-早中新生代左行走滑、中-晚新生代右行走滑五个阶段。可以看出认为龙门山造山带是一个陆内复合造山带,与其南北两侧的构造单元的构造演化息息相关,主要受控于秦岭造山带、扬子地块和松潘-甘孜造山带的共同作用,构造运动复杂。
Longmenshan intra-continent compound orogenic belt, an inland orogenic belt with NE orientation, is located at the northwestern margin of Yangtze block and is surrounded by Bikou block, southern Qinling orogenic belt, Songpan-Ganzi orogenic belt, western Sichuan foreland basin and Hannan-Micangshan tectonic belt and constitutes the eastern margin zone of Qinghai-Tibetan plateau, which is convergent and combining zone of different blocks and kinds of orogenic belt through various mechanisms and directions and exhibits complex tectonic images and matching history. Comprehensive studies have given in this thesis on material composition, formation age, formation environment, deformation characteristics and deformation sequence of back-Longmenshan orogenic belt in the northwest margin of Yangtze block by the compound study methods of structural geology, petrology, rock geochemistry, isotopic geochronology and geophysics and a few major new developments and preliminary cognitions are acquired as follows:
1.Material composition studies of back-Longmenshan orogenic belt
The basement formation in early-middle stage of Neoproterozoic is characterized by volcanic erupting and subsequent magma intruding, and in which island-arc volcanic rock of Tongmuliang Group represents the production of Rodinia super-continent's convergence while volcanic rock of Liujiaping Group, Jiaoziding granite and Datan granite imply the primary divergence of Rodinia super-continent. The evolution process, the stage from extension and division-collapse during Nanhua period-early Paleozoic to evolution of passive continental margin during late Paleozoic-middle Triassic, is mainly of oceanic faces for sediment, which can be divided into following sediment systems:division-stable stage of Nanhua-Sinian periods, extension and division-collapse stage of Cambrian-Silurian periods, passive continental margin of Devonian period-middle Triassic epoch and a few of volcanic rocks of Maotazi intra-continent rift of early Ordovician epoch are included. The intra-continent orogenic evolution of late Triassic epoch-Cenozoic casts post-collision granites in its north of Bikou block while intra-continent sediments in its south fore-Longmenshan orogenic belt and south margin of Bikou block. Therefore, back-Longmenshan orogenic belt undertakes the process of extensional detachment, thrust nappe and strike-slip shear afterwards on the basis of intra-continent subduction previously.
2.Tectonic characteristics studies of back-Longmenshan orogenic belt
Back-Longmenshan orogenic belt has undertaken poly-cycle and multi-type tectonic deformation and tectonic superposition. After detailed structure analysis, it is considered that the deformations can be divided into 5 systems as follows:intra-continent subduction deformation under the mechanism of compression-contraction in Late Triassic epoch, detachment deformation and ductile shear deformation along the strata corresponding extensional effect in Early Jurassic epoch, thrust nappe deformation resulting from compression-contraction in Early-Middle Jurassic epoch, sinistral strike-slip ductile shear deformation from Late Jurassic to Late-Middle Cenozoic and dextral strike-slip shear deformation in Middle-Late Cenozoic, in which deformations extensional detachment is obvious in Jiaoziding Dome and Wugongkou of southern margin of Bikou block in Back-Longmenshan orogenic belt and is weaker to the east. Chronology studies on the deformed rocks of extension detachment orogen suggests that the extension detachment is active in about 193-165Ma, which is formed under the extensional background of Crustal balancing effect after intra-continent subduction orogenesis.
3.Forming and evolution studies of Back-Longmenshan orogenic belt
Back-Longmenshan orogenic belt has mainly undertaken 3 evolutional stages since Neoproterozoic, such as the basement formation of Early-Middle Neoproterozoic, from extension and division-collapse of Nanhua epoch-Early Paleozoic to passive continental margin evolution in Late Paleozoic-Middle Triassic epoch and intra-continent orogenic evolution in Late Triassic epoch-Cenozoic. The third stage can be divided into 5 secondary stage furtherly like intra-continent subduction orogenesis in Late Triassic epoch, extensional detachment in Early-Middle Jurassic epoch, thrust nappe in Late Jurassic epoch-Early Cretaceous epoch, sinistral strike-slip in Late Cretaceous epoch-Early-Middle Cenozoic and dextral strike-slip in Middle-late Cenozoic. From which it can be summarized that Longmenshan orogenic belt is an intra-continent compound orogen which has close relationship to the tectonic evolution of terranes adjacent to it both in south and north and mainly results from the interaction of Qinling orogenic belt, Yangtze block and Songpan-Ganzi orogenic belt and has complex tectonic movement.
1、后龙门山造山带物质组成研究
新元古代早中-期的基底形成阶段主要以火山喷发和随后的岩浆侵入为特征,其中通木梁群岛弧型火山岩是Rodinia超大陆汇聚的产物,而刘家坪群裂谷型火山岩、轿子顶花岗岩和大滩花岗岩是Rodinia超大陆初始裂解阶段产物;南华纪-早古生代伸展裂陷-晚古生代-中三叠世被动大陆边缘演化阶段主要以海相沉积环境为主,其沉积环境可划分南华纪-震旦纪阶段的裂解-稳定沉积体系、寒武纪-志留纪阶段的伸展裂陷沉积体系、泥盆纪-中三叠世阶段被动大陆边缘沉积体系,包含少量的早奥陶世毛塔子陆内裂谷火山岩系;晚三叠世-新生代陆内造山演化阶段在其北侧碧口地块中形成了具有后碰撞特征的花岗岩,在其南侧前龙门山构造带以及碧口地块南缘局部则以陆相沉积岩系为主。因此,后龙门山造山带是在陆内俯冲造山基础上,后期经历了伸展滑脱、逆冲推覆以及走滑剪切形成的造山带。
2、后龙门山造山带构造特征研究
后龙门山造山带自晚印支期以来经历了多期次多类型的构造变形和构造叠加,通过详细的构造解析,认为可以将其构造变形分为晚三叠世挤压-收缩体制下陆内俯冲变形,早中侏罗世伸展构造体制下滑脱变形和顺层韧性剪切变形,晚侏罗世-早白垩世挤压-收缩体制下逆冲推覆变形,晚白垩世-早中新生代左行走滑韧性剪切变形,以及中-晚新生代右行走滑剪切变形五期变形。其中,伸展滑脱变形在后龙门山造山带轿子顶穹窿和碧口地块南缘蜈蚣口一带较为明显,向东逐渐减弱。对伸展滑脱构造带中变形岩石的年代学研究表明,该期伸展滑脱形成于193-165Ma,是在陆内俯冲造山后地壳均衡作用影响之下的伸展背景下形成的。
3、后龙门山造山带形成演化研究
后龙门山造山带自新元古代以来主要经历了新元古代早中期基底形成,南华纪-早古生代伸展裂陷-晚古生代-中三叠世被动大陆边缘演化,晚三叠世-新生代陆内造山演化三个大的阶段。其中晚三叠世-新生代陆内造山过程可划分为晚三叠世陆内俯冲造山、早-中侏罗世伸展滑脱、晚侏罗世-早白垩世逆冲推覆、晚白垩世-早中新生代左行走滑、中-晚新生代右行走滑五个阶段。可以看出认为龙门山造山带是一个陆内复合造山带,与其南北两侧的构造单元的构造演化息息相关,主要受控于秦岭造山带、扬子地块和松潘-甘孜造山带的共同作用,构造运动复杂。
Longmenshan intra-continent compound orogenic belt, an inland orogenic belt with NE orientation, is located at the northwestern margin of Yangtze block and is surrounded by Bikou block, southern Qinling orogenic belt, Songpan-Ganzi orogenic belt, western Sichuan foreland basin and Hannan-Micangshan tectonic belt and constitutes the eastern margin zone of Qinghai-Tibetan plateau, which is convergent and combining zone of different blocks and kinds of orogenic belt through various mechanisms and directions and exhibits complex tectonic images and matching history. Comprehensive studies have given in this thesis on material composition, formation age, formation environment, deformation characteristics and deformation sequence of back-Longmenshan orogenic belt in the northwest margin of Yangtze block by the compound study methods of structural geology, petrology, rock geochemistry, isotopic geochronology and geophysics and a few major new developments and preliminary cognitions are acquired as follows:
1.Material composition studies of back-Longmenshan orogenic belt
The basement formation in early-middle stage of Neoproterozoic is characterized by volcanic erupting and subsequent magma intruding, and in which island-arc volcanic rock of Tongmuliang Group represents the production of Rodinia super-continent's convergence while volcanic rock of Liujiaping Group, Jiaoziding granite and Datan granite imply the primary divergence of Rodinia super-continent. The evolution process, the stage from extension and division-collapse during Nanhua period-early Paleozoic to evolution of passive continental margin during late Paleozoic-middle Triassic, is mainly of oceanic faces for sediment, which can be divided into following sediment systems:division-stable stage of Nanhua-Sinian periods, extension and division-collapse stage of Cambrian-Silurian periods, passive continental margin of Devonian period-middle Triassic epoch and a few of volcanic rocks of Maotazi intra-continent rift of early Ordovician epoch are included. The intra-continent orogenic evolution of late Triassic epoch-Cenozoic casts post-collision granites in its north of Bikou block while intra-continent sediments in its south fore-Longmenshan orogenic belt and south margin of Bikou block. Therefore, back-Longmenshan orogenic belt undertakes the process of extensional detachment, thrust nappe and strike-slip shear afterwards on the basis of intra-continent subduction previously.
2.Tectonic characteristics studies of back-Longmenshan orogenic belt
Back-Longmenshan orogenic belt has undertaken poly-cycle and multi-type tectonic deformation and tectonic superposition. After detailed structure analysis, it is considered that the deformations can be divided into 5 systems as follows:intra-continent subduction deformation under the mechanism of compression-contraction in Late Triassic epoch, detachment deformation and ductile shear deformation along the strata corresponding extensional effect in Early Jurassic epoch, thrust nappe deformation resulting from compression-contraction in Early-Middle Jurassic epoch, sinistral strike-slip ductile shear deformation from Late Jurassic to Late-Middle Cenozoic and dextral strike-slip shear deformation in Middle-Late Cenozoic, in which deformations extensional detachment is obvious in Jiaoziding Dome and Wugongkou of southern margin of Bikou block in Back-Longmenshan orogenic belt and is weaker to the east. Chronology studies on the deformed rocks of extension detachment orogen suggests that the extension detachment is active in about 193-165Ma, which is formed under the extensional background of Crustal balancing effect after intra-continent subduction orogenesis.
3.Forming and evolution studies of Back-Longmenshan orogenic belt
Back-Longmenshan orogenic belt has mainly undertaken 3 evolutional stages since Neoproterozoic, such as the basement formation of Early-Middle Neoproterozoic, from extension and division-collapse of Nanhua epoch-Early Paleozoic to passive continental margin evolution in Late Paleozoic-Middle Triassic epoch and intra-continent orogenic evolution in Late Triassic epoch-Cenozoic. The third stage can be divided into 5 secondary stage furtherly like intra-continent subduction orogenesis in Late Triassic epoch, extensional detachment in Early-Middle Jurassic epoch, thrust nappe in Late Jurassic epoch-Early Cretaceous epoch, sinistral strike-slip in Late Cretaceous epoch-Early-Middle Cenozoic and dextral strike-slip in Middle-late Cenozoic. From which it can be summarized that Longmenshan orogenic belt is an intra-continent compound orogen which has close relationship to the tectonic evolution of terranes adjacent to it both in south and north and mainly results from the interaction of Qinling orogenic belt, Yangtze block and Songpan-Ganzi orogenic belt and has complex tectonic movement.
引文
[1]张国伟,郭安林,姚安平.中国大陆构造中的西秦岭——松潘大陆构造结[J].地学前缘,2004,11(3):23-32.
[2]罗志立.龙门山造山带岩石圈演化动力学模式[J].成都地质学院学报,1991,18(1):1-7.
[3]许志琴,侯立玮,王宗秀,等.中国松潘-甘孜造山带的造山过程[M].北京:地质出版社,1992,1-190.
[4]刘和甫,梁慧社,蔡立国,等.川西龙门山冲断系构造样式与前陆盆地演化[J].地质学报,1994,68(2):101-118.
[5]刘和甫.前陆盆地类型及褶皱-冲断层样式[J].地学前缘,1995,2(3-4):59-68.
[6]刘和甫.盆地-山岭耦合体系与地球动力学机制[J].地球科学——中国地质大学学报,2001,26(6):581-596.
[7]颜丹平,宋鸿林,傅照仁.扬子地台西缘江浪变质核杂岩的出露地壳剖面构造地层柱[J].现代地质,1997,11(3):290-297.
[8]李佐臣.扬子地块西北缘轿子顶变质核杂岩构造特征及其地质意义[D].长安大学硕士学位论文,2006.
[9]李勇,曾允孚.龙门山前陆盆地充填序列[J].成都理工学院学报,1994,21(3):46-55.
[10]王道永.龙门山中段中生代前陆盆地的构造演化史[J].成都理工学院学报,1994,21(3):20-28.
[11]曾允孚,李勇.龙门山前陆盆地形成与演化[J].矿物岩石,1995,15(1):40-49.
[12]刘树根,赵锡奎,罗志立,等.龙门山造山带-川西前陆盆地系统构造事件研究[J].成都理工学院学报,2001,28(3):221-230.
[13]张箭,徐强,廖仕孟,等.川西龙门山前陆盆地构造沉降初步分析[J].沉积与特提斯地质,2002,22(4):67-72.
[14]陈竹新,贾东,魏国齐,等.川西前陆盆地中-新生代沉积迁移与构造转换[J].中国地质,2008,35(3):472-481.
[15]李勇,曾允孚,尹海生.龙门山前陆盆地沉积及构造演化[M].成都:成都科技大学出版社,1995.
[16]许志琴,侯立玮,王宗秀.松潘-甘孜造山带构造研究新进展[J].中国地质,1991,(12):14-16.
[17]胡健民,孟庆任,石玉若,等.松潘-甘孜地体内花岗岩锆石SHRIMP U-Pb定年及其构造意义[J].岩石学报,2005,21(3):867-880.
[18]雷裕红,马昌前,王国灿.巴颜喀拉沉积盆地基底为扬子地台西缘的一部分:来自花岗岩的证 据[J].高校地质学报,2006,12(3):298-309.
[19]赵永久,袁超,周美夫,等.川西老君沟和孟通沟花岗岩的地球化学特征、成因机制及对松潘-甘孜地体基底性质的制约[J].岩石学报,2007,23(5):995-1006.
[20]赵永久,袁超,周美夫,等.松潘甘孜造山带早侏罗世的后造山伸展:来自川西牛心沟和四姑娘山岩体的地球化学制约[J].地球化学,2007,36(2):139-152.
[21]刘鹤,颜丹平,魏国庆.扬子板块西北缘碧口地块变形变质作用序列——松潘一甘孜造山带伸展垮塌事件的意义[J].地质学报,2008,82(4):464-474.
[22]郭安林,张国伟,程顺有.超越板块构造——大陆地质研究新机遇评述[J].自然科学进展,2004,7(14),729-733.
[23]Suess E. Das Antlitz der Erde (Band Ⅰ-Ⅳ) [M].Temmsky Wien,1875,65-78.
[24]KronerA. Proterzoie Mobile Belts Compatible with the Plate Tectonie Coneept[J]. Geologeal Soeiety Ameriea Memoir,1983,161:59-73.
[25]Tapponier P, Peltzer D, Armmijo R. On the mechanics of the collision between India and Asia[J]. Geological Society London Special Publications,1986,19:115-157.
[26]Sengor AMC. Plate Tectonics and Orogenic Research after 25 Years.-A Tethyan perspective[J]. Earth Science Reviews,1990,27,1-201.
[27]杨巍然,杨坤光,刘忠明,等.桐柏-大别造山带加里东期构造-热事件及其意义[J].地学前缘,1994,6(4):247-253.
[28]杨志华,张传林,朱立华,等.秦岭造山带结构与演化若干问题的再认识[J].地学前缘,1999,10(4):273282.
[29]Hsu KJ, Chen H. Geologic atlas of China:an application of the tectonic fades concept to the geology of China Amsterdame Netherlands[M]. Elsevier Science BV,1999,1-262.
[30]Mattauar M, Malavieille J, Calassou S, et al. The Songpan-Garze Triassic belt of west Sichuan and eastern Tibet:a decollement fold belt on passive margin[J]. Comptes Rendus Academy of Sciences Paris,1992,314 (6):619-626.
[31]崔盛芹.论全球性中-新生代陆内造山作用与造山带[J].地学前缘(中国地质大学,北京),1999,6(4):283-293.
[32]张原庆,钱祥麟,李江海.造山作用概念和分类[J].地质论评,2002,48(2):193-197.
[33]张原庆,钱祥麟,李江海.造山作用的两大类型与成因差异[J].吉林大学学报(地球科学版),2002,32(1):5-10.
[34]Wilson JT. On the building and classification of mountains[J]. Journal of Geophysical Research, 1990,95 (B5):6611-6628.
[35]Dewey JF, Bird J. Mountain belt of the new global tectonics[J]. Journal of Geophysical Research, 1970,75:2625-2647.
[36]Bally AW. Dynamics Geology of Oil and Gas, Glohal Tectonics and Petroleum Exploration[M]. Beijing:Oil and Chemical Industry Press,1975.
[37]Sengor AMC. Plate tectonics and orogenic research after 25 years[J]. Synopsis of A Tethyan Perspective Tectonophysies,1991,187 (1-3):315-344.
[38]李继亮,孙枢,郝杰,等.论碰撞造山带的分类[J].地质科学,1999,34(2):129-138.
[39]Sengor AMC, Natalin BA. Paleotectonics of Asia:fragments of a synthesis [A]. In:Yin A, Harrison TM eds. The Tectonics of Asia[C]. New York:Cambridge University Press,1996,486-640.
[40]罗志立.试论中国型(C-型)冲断带及其油气勘探问题[J].石油与天然气地质,1984,5(4):315-324.
[41]许志琴.陆内俯冲及滑脱构造-以我国几个山链的地壳变形研究为例[J].地质论评,1986,32(1):79-90.
[42]邓万明.西藏阿里地区北部新生代火山岩——兼论陆内俯冲作用[J].岩石学报,1989,5(3):1-11.
[43]葛肖虹.华北板内造山带的形成史[J].地质论评,1989,35(3):254-261.
[44]杨巍然.断裂造山带[J].地球科学,1989,14(1):9-18.
[45]刘树根,罗志立,宋鸿彪,等.四川龙门山冲断带中北段岩石圈结构研究[J].石油与天然气地质,1990,11(1):86-95.
[46]刘树根,罗志立,曹树恒.一种新的陆内俯冲类型——龙门山型俯冲成因机制研究[J].石油实.验地质,1991,13(4):314-324.
[47]杨巍然,王豪.中国板块构造概况[J].地球科学——中国地质大学学报,1991,16(5):505-513.
[48]邓晋福,赵海玲,赖绍聪,等.白云母/二云母花岗岩形成与陆内俯冲作用[J].地球科学——中国地质大学学报,1994,19(2):139-147.
[49]罗志立.试评A-型俯冲带术语在中国大地构造学中的应用[J].石油实验地质,1994,16(4):317-324.
[50]邓晋福,赵海玲,莫宣学,等.扬子大陆的陆内俯冲与大陆的缩小——由白云母(二云母)花岗岩推导[J].高校地质学报,1995,1(1):50-57.
[51]罗志立,宋鸿彪,赵锡奎.C-俯冲带及对中国中西部造山带形成的作用[J].石油勘探与开发,1995,22(2):1-7.
[52]赵宗溥.试论陆内型造山作用[J].地质科学,1995,30(1):19-18.
[53]蔡学林,魏显贵,刘援朝,等.中国陆内造山带造山过程地球动力学分析[J].矿物岩石,1998,18(增刊):1-7.
[54]宋鸿林.燕山式板内造山带基本特征与动力学探讨[J].地学前缘,1999,6(2):309-316.
[55]张长厚.初论板内造山带[J].地学前缘,1999,6(4):295-308.
[56]张国伟,张本仁,袁学诚,等.秦岭造山带与大陆动力学[M].北京:科学出版社,2001,1-855.
[57]杨志华,李勇,苏生瑞,等.论陆内造山作用和陆内造山带[J].矿物岩石.2001,81(3):169-172.
[58]罗志立,刘树根.评述“前陆盆地”名词在中国西部含油气盆地中的应用[J].地质论评,2002,48(4):398-407.
[59]万天丰,赵维明.论中国大陆的板内变形机制[J].地学前缘(中国地质大学,北京),2002,9(2):451-463.
[60]张长厚,吴正文.造山带构造研究中几个重要学术概念问题的讨论[J].地质论评,2002,48(4):337-344.
[61]刘树根,罗志立,赵锡奎,等.中国西部盆山系统的耦合关系及其动力学模式——以龙门山构造带-川西前陆盆地系统为例[J].地质学报,2003,77(2):177-186.
[62]刘树根,罗志立,赵锡奎,等.试论中国西部陆内俯冲型前陆盆地的基本特征[J].石油与天然气地质,2005,26(1):37-56.
[63]张长厚.大陆板内构造变形及其动力学机制[J].地学前缘,2008,15(3):140-149.
[64]Sandiford M, Hand M. Controls on the locus of intraplate deformation in central Australia[J]. Earth and Planetary Science Letters,1998,162:97-110.
[65]Martin H, Sandiford M. Intraplate deformation in central Australia, the link between subsidence and fault reactivation[J]. Tectonophysics,1999,305 (1-3):121-140.
[66]闫义,林舸,李自安,等.中新生代陆内造山带的地层学研究——以燕辽造山带为例[J].沉积与特提斯地质,2002,22(1):60-64.
[67]Hatcher RD Jr, Williams RT. Mechanical model for single thrust sheets Part I:Crystalline thrust sheets and their relationships to the mechanical/thermal behaviour of orogenic belts[J]. Geological Society of America Bulletin.1986,97:975-985.
[68]Hatcher RD Jr, Hooper RJ. EvoLution of crystalline thrust sheets in the internel part of mountain chain[A]. In:McClay KR. Thrust Tectonics[C]. London:Chapman and Hall,1992:817-233.
[69]Escher A, Masson H, Steck A. Nappe geometry in the Western Swiss Alps[J]. Journal of Structural Geology,1993,15 (3-5):501-509.
[70]Hatcher RD Jr. Structural geology-principles,concepts, and problems[M]. New jersey:Prentice-Hall lnc,1995:525.
[71]Epard JL, Escher A. Transition from basement to cover:a geometric model[J]. Journal of Structural Geology,1996,18 (5):533-548.
[72]Escher A, Beaumont C. Formation, burial and exhumation of basement nappes at crustal scale:a geometric model based on the Western Swiss-Italian Alps[J]. Journal of Structural Geology,1997,19 (7):955-974.
[73]Davis GH, Coney PJ. Geologic development of the Cordilleran metamorphic core complexes[J]. Geology,1979,7:120-124.
[74]Coney PJ. Cordilleran metamorphic core complexes:an overview[J]. Geological Society of America Memoir,1980,153:7-31.
[75]Crittenden MD Jr. Metamorphic core complexes of the North American Cordillera[A]. In:Crittenden MD Jr, Coney PJ, Davis GH eds. Cordillrean Metamorphic Core Complexes[C]. Geological Society of America Memoir,1980,153:485-490.
[76]Wernicke B. Low-angle normal faults in the Basin and Range Province:nappe tectonics in an extending orogen[J]. Nature,1981,291:645-648.
[77]钱祥麟.伸展构造研究[M].北京:地质出版社,1994.
[78]宋鸿林.变质核杂岩研究进展、基本特征及成因探讨[J].地学前缘,1995,2(1-2):1-10.
[79]张家声.造山后伸展构造研究的最新进展[J].地学前缘,1995,29(1/2):67-83.
[80]张进江,郑亚东.变质核杂岩与岩浆作用成因关系综述[J].地质科技情报,1998,17(1):9-23.
[81]宋鸿林.关于变质核杂岩构造特征的几个问题[J].地质通报,2002,21(4-5):193-197.
[82]刘德民.中国变质核杂岩的基本特征[J].现代地质,2003,17(2):125-130.
[83]Li ZX, Li XH, Kinny PD, et al. The breakup of Rodinia:Did it start with a mantle plume beneath South China[J]. Earth and Planetary Science Letters,1999,173:171-181.
[84]沈渭洲,凌洪飞,徐士进,等.扬子板块西缘北段新元古代花岗岩类的地球化学特征和成因[J].地质论评,2000,46(5):512-519.
[85]李献华,周汉文,李正祥,等.扬子块体西缘新元古代双峰式火山岩的锆石U-Pb年龄和岩石 化学特征[J].地球化学,2001,30(4):315-322.
[86]Ling HF, Shen WZ, Wang RC, et al. Geochemical characteristics and genesis of Neoproterozoic granitoids in the northwestern margin of the Yangtze block[J]. Physics and Chemistry of the Earth, 2001,26 (9-10):805-819.
[87]凌文黎,王歆华,程建萍.扬子北缘晋宁期望江山基性岩体的地球化学特征及其构造背景[J].矿物岩石地球化学通报,2001,20(4):218-222.
[88]Li XH, Zheng XL, Zhou HW, et al. U-Pb zircon geochronology, geochemistry and Nd isotopic study of Neoproterozoic bimodal volcanic rocks in the Kang-dian Rift of South China:Implications for the initial rifting of Rodinia[J]. Precambrian Research,2002,113:135-154.
[89]Li ZX, Li XH, Zhou H, et al. Grenville-aged continental collision in South China:New SHRIMP U-Pb zircon results and implication for Rodinia configuration[J]. Geology,2002,30:163-166.
[90]李献华,李正祥,周汉文,等.川西新元古代玄武质岩浆岩的锆石U-Pb年代学、元素和Nd同位素研究:岩石成因与地球动力学意义[J].地学前缘,2002,9(4):329-338.
[91]李献华,李正祥,周汉文,等.川西南关刀山岩体的SHRIMP锆石U-Pb年龄、元素和Nd同位素地球化学-岩石成因与构造意义[J].中国科学(D辑),2002,32(增刊):60-68.
[92]凌文黎,高山,欧阳建平,等.西乡群的时代与构造背景:同位素年代学及地球化学制约[J].中国科学(D),2002,32(2):101-112.
[93]沈渭洲,高剑锋,徐士进,等.扬子板块西缘泸定桥头基性杂岩体的地球化学特征和成因[J].高校地质学报,2002,8(4):380-389.
[94]颜丹平,周美夫,宋鸿林,等.华南在Rodina古陆中位置的讨论——扬子地块西缘变质-岩浆杂岩证据及其与Seychelles地块的对比[J].地学前缘,2002,9(4):249-256.
[95]Zhou MF, Kennedy AK, Sun M, et al. Neoproterozoic arc-related mafic intrusions along the northern margin of South China:Implications for accretion of Rodinian[J]. Journal of Geology,2002,110: 611-618.
[96]Zhou MF, Yan DP, Kennedy AK, et al. SHRIMP U-Pb zircon geochronological and geochemical evidence for Neoproterozoic arc-magmatism along the western margin of the Yangtze Block, South China[J]. Earth and Planetary Science Letters,2002,196:51-67.
[97]Li ZX, Li XH, Kinny PD, et al. Geochronology of Neoproterozoic syn-rift magmatism in the Yangtze Craton, South China and correlations with other continents:Evidence for a mantle superplume that broke up Rodinia[J]. Precambrian Research,2003,122 (1-4):85-109.
[98]Li XH, Li Z, Ge WC, et al. Neoproterozoic granitoids in South China:Crustal meting above a mantle plume at ca.825Ma[J]. Precambrian Research,2003,122:45-83.
[99]Ling WL, Gao S, Zhang BR, et al. Neoproterozoic tectonic evolution of the northern Yangtze craton, South China:Implications for amalgamation and break-up of the Rodinia Supercontinent[J]. Precambrian Research,2003,122:111-140.
[100]沈渭洲,高剑锋,徐士进,等.四川盐边冷水箐岩体的形成时代和地球化学特征[J].岩石学报,2003,49(1):27-37.
[101]沈渭洲,高剑锋,徐士进,等.四川石棉蛇绿岩的地球化学特征及其构造意义[J].地质论评,2003,49(1):17-27.
[102]Wang XL, Zhou JC, Qiu JS, et al. Geochemistry of the Meso-to Neoproterozoic basic-acid rocks from Hunan Province, South China:Implication for the evolution ofwestern Jiangnan orogen[J]. Precambrian Research,2004,135:79-103.
[103]朱维光,邓海琳,刘秉光,等.四川盐边高家村镁铁-超镁铁质杂岩体的形成时代:单颗粒锆石U-Pb和角闪石40Ar/39Ar年代学制约[J].科学通报,2004,49(10):985-992.
[104]朱维光,刘秉光,邓海琳,等.扬子地块西缘新元古代镁铁-超镁铁质岩研究进展[J].矿物岩石地球化学通报,2004,23(3):255-264.
[105]杜利林,耿元生,杨崇辉,等.扬子地台西缘盐边群玄武质岩石地球化学特征及SHRIMP锆石U-Pb年龄[J].地质学报,2005,79(6):805-813.
[106]李志红,罗照华,陈岳龙,等.康定变质侵入岩的年代学及岩石地球化学特征[J].地球学报,2005,26(增刊):87-89.
[107]杜利林,耿元生,杨崇辉,等.扬子地台西缘新元古代TTG的厘定及其意义[J].岩石矿物学杂志,2006,25(4):273-281.
[108]Li XH, Li ZX, Sinclair JA, et al. Revisiting the" Yanbian Terrane":Implications for Neoproterozoic tectonic evolution of the western Yangtze, South China[J]. Precambrian Research,2006,151(1-2): 14-30.
[109]林广春,李献华,李武显.川西新元古代基性岩墙群的SHRIMP锆石U-Pb年龄、元素和Nd-Hf同位素地球化学:岩石成因与构造意义[J].中国科学(D辑),2006,36(7):630-645.
[110]凌文黎,高山,程建萍,等.扬子陆核与陆缘新元古代岩浆事件对比及其构造意义——来自黄陵和汉南侵入杂岩LA-ICP MS锆石U-Pb同位素年代学的约束[J].岩石学报,2006,22(2):387-397.
[111]Wang XL, Zhou JC, Qiu JS, et al. LA-ICP-MS zircon geochronology of the Neoproterozoic igneous rocksfrom northern Guangxi, South China:Implication for tectonic evolution[J]. Precambrian Research,2006,145:111-130.
[112]Wu RX, Zheng YF, Wu YB, et al. Reworking of juvenile crust:Element and isotope evidence from Neoproterozoic granitoids in South China[J]. Precambrian Research,2006,146:179-212.
[113]赵俊香,陈岳龙,李志红.康定杂岩锆石SHRIMP U-Pb定年及其地质意义[J].现代地质,2006,20(3):378-385.
[114]赵凤清,赵文平,左义成,等.陕南汉中地区新元古代岩浆岩U-Pb年代学[J].地质通报,2006,25(3):383-388.
[115]Zhu WG, Zhong H, Deng H, et al. SHRIMP zircon U-Pb age, geochemistry, and Nd-Sr isotopic of Gaojiacun mafic-ultramafic intrusive complex, Southwest China[J]. International Geology Review,2006,48:650-668.
[116]Zhou MF, Ma YX, Yan DP, et al. The Yanbian terrane (Southern Sichuan Province, SW China): A Neoproterozoic arc assemblage in the western margin of the Yangtze Block[J]. Precambrian Research,2006,144:19-38.
[117]Zhou MF, Yan DP, Wang CL, et al. Subduction-related origin of the 750Ma Xuelongbao adakitic complex (Sichuan Province, China):Implications for the tectonic setting of the giant Neoproterozoic magmatic event in South China[J]. Earth and Planetary Science Letters,2006,248:286-300.
[118]Zheng YF, Zhao ZF, Wu YB, et al. Zircon U-Pb age.Hf and O isotope constraints on protolith origin of ultrahigh-pressure eclogite and gneiss in the Dabie orogen[J]. Chemical Geology,2006,231: 135-138.
[119]杜利林,耿元生,杨崇辉,等.扬子地台西缘康定群的再认识:来自地球化学和年代学证据[J].地质学报,2007,81(11):1562-1577.
[120]耿元生,杨崇辉,王新社,等.扬子地台西缘结晶基底的时代[J].高校地质学报,2007,13(3):429-441.
[121]Li ZX, Wartho JA, Occhipinti S, et al. Early history of the eastern Sibao orogen (South China) during the assembly of Rodina:New mica 40Ar/39Ar dating and SHRIMP U-Pb detrital zircon provenance constrints[J]. Precambrian Research,2007,59 (1-2):79-94.
[122]李鹏春,陈广浩,许德如,等.湘东北新元古代过铝质花岗岩的岩石地球化学特征及其成因讨论[J].大地构造与成矿学,2007,31(1):126-136.
[123]Munteanu M, Yao Y. The Gaojiacun intrusion:Rift or subduction-related? Comment on "Revisiting the Yanbian Terrane":Implication for Neoproterozoic tectonic evolution of the western Yangtze Block, South China[J].Precam brian Research,2007,155:324-327.
[124]Wang XL, Zhou JC, Griffin WL, et al. Detrital zircon geochronology of Precambrian basement sequences in the Jiangnan orogen:Dating the assembly of the Yangtze and Cathaysia blocks[J]. Precambrian Research,2007,159:117-131.
[125]Wu YB, Zheng YF, Tang J, et al. Zircon U-Pb dating of water-rock interaction during Neoproterozoic rift magmatism in South China[J].Chemical Geology,2007,246:65-86.
[126]Zhao JH, Zhou MR Geochemistry of Neoproterozoic mafic intrusions in the Panzhihua district (Sichuan Province, SW China):Implications for subduction-related metasomatism in the uppermantle[J]. Precambrian Research,2007,152:27-47.
[127]Zhou MF, Zhao JH, Xia XP, et al. Comment on "Revisiting the Yanbian Terrane":Implications for Neoproterozoic tectonic evolution of the western Yangtze Block, South China[J]. Precambrian Research,2007,155:313-317.
[128]Zheng YF, Zhang SB, Zhao ZF, et al. Contrasting zircon Hf and O isotope in the two episodes of Neoproterozoic granitoids in South China:Implications for growth and reworking of continental crust[J]. Lithos,2007,96:127-150.
[129]李大鹏,陈岳龙,罗照华,等.四川康定-冕宁地区变质侵入岩的地球化学及Nd同位素研究[J].岩石学报,2008,24(6):1251-1260.
[130]李献华,王选策,李武显,等.华南新元古代玄武质岩石成因与构造意义:从造山运动到陆内裂谷[J].地球化学,2008,37(4):382-399.
[131]李志红,罗照华,陈岳龙,等.康定-泸定地区变质侵入岩的地质地球化学特征及其构造环境[J].现代地质,2008,22(2):181-189.
[132]Wang XL, Zhou JC, Qiu JS, et al. Geochronology and geochemistry of Neoproterozoic mafic rocks from western Hunan, South China:Implication for petrogenesis and post-orogenic extension[J]. Geological Magazine,2008,145:215-233.
[133]张沛,周祖翼,许长海,等.川西龙门山彭灌杂岩地球化学特征:岩石成因与构造意义[J].大地构造与成矿学,2008,32(1):105-116.
[134]Zheng YF, Wu RX, Wu YB, et al. Rift melting of juvenile arc-derived crust:Geochemical evidence from Neoproterozoic volcanic and graniticrocks in the Jiangnan orogen, South China[J]. Precambrian Research,2008,163 (3-4):351-383.
[135]Zhu WG, Zhong H, Deng HL, et al. SHRIMP zircon U-Pb geochronology, elemental, and Nd isotopic geochemistry of the Neoproterozoic mafic dykes in the Yanbian aera, SW China[J]. Precambrian Research,2008,164 (1-2):66-85.
[136]谢士稳,高山,柳小明,等.扬子克拉通南华纪碎屑锆石U-Pb年龄、Hf同位素对华南新元古代岩浆事件的指示[J].地球科学——中国地质大学学报,2009,34(1):117-126.
[137]卢华复,董火根,邓锡殃,等.前龙门山前陆盆地推覆构造的类型和成因[J].南京大学学报,1989,25(4):32-41.
[138]林茂炳,吴山.龙门山推覆构造变形特征[J].成都地质学院学报,1991,18(1):46-55.
[139]龙学明.龙门山中北段地史发展中的若干问题[J].成都地质学院学报,1991,18(1):8-14.
[140]代建全.四川省青川断裂的特征及形成的物理条件[J].四川地质学报.1992,12(4):311-319.
[141]罗志立,龙学明.龙门山造山带崛起和川西陆前盆地沉降[J].四川地质学报,1992,12(1):1-17.
[142]刘树根.龙门山冲断带与川西前陆盆地的形成演化[M].成都:成都科技大学出版社,1993.
[143]Chen SF, Wilson CJL, DengQ D, et al. Active faulting and block movement associated with large earthquakes in the Min Shan and Longmen Mountains, Northeastern Tibetan Plateau[J]. Journal of Geophysical Research,1994,99:24025-24038.
[144]陈社发,邓起东,赵小麟,等.龙门山中段推覆构造带及相关构造的演化历史和变形机制(一)[J]_地震地质,1994,16(4):404-420.
[145]陈社发,邓起东,赵小麟.龙门山中段推覆构造带及相关构造的演化历史和变形机制(二)[J].地震地质,1994,16(4):413-421.
[146]Dirks PHG, Wilson CJL, Chen S, et al. Tectonic evolution of the NE margin of the Tibetan plateau: evidence from the central Longmen mountains, Sichuan Province, China[A]. 见:罗志立主编.龙门山造山带的崛起和四川盆地的形成[C].成都:成都科技大学出版社,1994,230-248.
[147]文德华.龙门山北段断裂活动特征[J].四川地震,1994,(1):53-57.
[148]Worley BA, Wilson CJL, Liu S, et al. Structural observation from Wenchuan-Mouwen metamorphic belt, Longmen mountains, China[A].见:罗志立主编.龙门山造山带的崛起和四川盆地的形成[C].成都:成都科技大学出版社,1994,265-284.
[149]Burchfiel BC, Chen ZL, Liu YP, et al. Tectonics of the Longmen Shan and adjacent regions, central China[J]. International Geology Re view,1995,37:661-735.
[150]Dirks PHG, Wilson CJL, Chen S, et al. Tectonic evolution of the NE margin of the Tibetan plateau: evidence from the central Longmen mountains Sichuan Province, China[J]. Journal of Southeast Asian Earth Sciences,1995,9 (1-2):181-192.
[151]李勇,曾允孚.龙门山逆冲推覆作用的地层标识[J].成都理工学院学报,1995,22(2):1-10.
[152]刘树根,童崇光,罗志立,等.川西晚三叠世前陆盆地的形成与演化[J].天然气工业,1995,15(2): 11-15.
[153]Worley BA, Wilson CJL. Deformation partitioning and foliation reactivation during transpressional orogenesis, an example from the Central Longmen Shan, China[J]. Journal of Structural Geology, 1996,18 (4):395-411.
[154]蔡学林,魏显贵,刘援朝,等.论楔入造山作用——以龙门山造山带为例[J].四川地质学报,1996,16(2):97-101.
[155]Chen SF, Wilson CJL. Emplacement of the Longmen Shan Thrust2Nappe Belt along the eastern margin of the Tibetan Plateau[J]. Journal of Structural Geology,1996,18 (4):413-430.
[156]郭正吾,邓康龄,韩永辉,等.四川盆地形成与演化[M].北京:地质出版社,1996,1-200.
[157]林茂炳,苟宗海,王国芝,等.四川龙门山造山带造山模式研究[M].成都:成都科技大学出版社,1996.
[158]Wang JQ. Relationship between tectonic evolution and hydrocarbon in the foreland of the Longmen mountains[J]. Journal of Southeast Asian Earth Sciences,1996,13 (3-5):327-336.
[159]Worley BA, Powell R, Wilson CJL. Crenulation cleavage formation:Evolving diffusion, deformation and equilibration mechanisms with increasing metamorphic grade[J]. Journal of Structural Geology, 1997,19 (8):1121-1135.
[160]潘桂棠,陈智粱,李兴振,等.东特提斯地质构造形成演化[M].北京:地质出版杜,1997,1-237.
[161]骆耀南.龙门山-锦屏山陆内造山带[M].成都:四川科学技术出版社,1998.
[162]王二七,孟庆任,陈智,等.龙门山断裂带印支期左旋走滑运动及其大地构造成因[J].地学前缘,2001,8(2):375-384.
[163]刘和甫.盆地-山岭耦合体系与地球动力学机制[J].地球科学——中国地质大学学报,2001,26(6):581-596.
[164]贾东,陈竹新,贾承造,等.龙门山前陆褶皱冲断带构造解析与川西前陆盆地的发育[J].高校地质学报,2003,9(3):402-469.
[165]陈竹新,贾东,张惬,等.龙门山浅露褶皱冲断带的平衡剖面分析[J].地质学报,2005,79(1):38-45.
[166]李勇,Densmore AL,周荣军,等.青藏高原东缘龙门山晚新生代剥蚀厚度与弹性挠曲模拟[J].地质学报,2005,79(5):608-615.
[167]蒋良文,王士天,王运生等.川西北断块东部区域活动构造体系及其对地震活动的控制作用[J].成都理工大学学报(自然科学版),2005,32(4):340-344.
[168]唐文清,陈智梁,刘宇平,等.青藏高原东缘鲜水河断裂与龙门山断裂交会区现今的构造活动[J].地质通报,2005,24(12):1169-1172.
[169]李勇,周荣军,Densmore AL,等.青藏高原东缘龙门山晚新生代走滑-逆冲作用的地貌标志[J].第四纪研究,2006,26(1):40-51.
[170]李勇,周荣军,Densmore AL,等.青藏高原东缘龙门山晚新生代走滑挤压作用的沉积响应[J].沉积学报,2006,24(2):153-164.
[171]朱艾斓.川西地区主干活动断裂间震期滑动习性与运动状态的地震学初步研究[D].中国地震局地质研究所博士学位论文,2006.
[172]唐文清,刘宇平,陈智梁,等.基于GPS技术的活动断裂监测——以鲜水河、龙门山断裂为例[J].山地学报,2007,25(1):103-107.
[173]樊春,王二七,王刚,等.龙门山断裂带北段晚新近纪以来的右行走滑运动及其构造变换研究——以青川断裂为例[J].地质科学,2008,43(3):417-433.
[174]刘顺,刘树根,宋春彦,等.龙门山中央断裂运动学研究[J].成都理工大学学报(自然科学版),2008,35(4):463-470.
[175]潘桂棠.汶川八级地震的区域地质构造背景[J].决策咨询通讯,2008,(3):1-8.
[176]颜丹平.变质核杂岩研究的新进展[J].地质科技情报,1997,16(3):13-19.
[177]Wang E, Burchfiel BC, Roydenl HL, et al. Late Cenozoic Xianshuihe-Xiaojiang, Red River, and Dali fault systems of southwestern Sichuan and central Yunnan, China[J]. Geological Society of America special paper,1998,199:327.
[178]Li Y, Densmore AL, Allen PA, et al. Sedimentary responses to thrusting and strike2slipp ing of Longmen Shan along eastern margin of Tibetan Plateau, and their imp lication of Cimmerian continents and India/Eurasia collision[J]. Scientia Geologica Sinica,2001,10 (4):223-243.
[179]刘树根,罗志立,赵锡奎,等.龙门山造山带-川西前陆盆地系统形成的动力学模式及模拟研究[J].石油实验地质,2003,25(5):432-438.
[180]周荣军,李勇,Densmore AL,等.青藏高原东缘活动构造[J].矿物岩石,2006,26(2):40-51.
[181]李勇,周荣军,董顺利,等.汶川地震的地表破裂与逆冲-走滑作用[J].成都理工大学学报(自然科学版),2008,35(4):404-413.
[182]刘树根,田小彬,李智武,等.龙门山中段构造特征与汶川地震[J].成都理工大学学报(自然科学版),2008,35(4):388-397.
[183]Enkin RJ. The stationary Cretaceous paleomagnetic pole of Sichuan (South China block). Tectonic, 1991,10 (3):547-559.
[184]赵小麟,邓起东,陈社发.龙门山逆断裂带中段的构造地貌学研究[J].地震地质,1994,16(4):422-428.
[185]陈智梁,刘宇平,张选阳,等.全球定位系统测量与青藏高原东部流变构造[J].第四纪研究,1998,2:262-270.
[186]Li Y, Ellis MA, Densmore AL, et al. Evidence for active st rike-slip fault s in the Longmen Shan, Eastern margin of Tibet[J]. EOS Transactions of the American Geophysical Union,2000,82 (47): 1104.
[187]Li Y, Ellis M, Densmore A L, et al. Active tectonics in the Longmen Shan region, Eastern Tibetan Plateau[J]. EOS Transactions of American Geophysical Union,2000,81 (48):1109.
[188]余团,何昌荣.龙门山构造带区域稳定性探讨[J].地震研究,2000,23(4):378-383.
[189]周荣军,李勇,Densmore AL,等.晚第四纪以来青藏高原东缘构造变形的新证据[A].见:陈运泰主编.全国地震会议论文集[C].北京:地震出版社,2000,56.
[190]Chen Z, Burchfiel BC, Lin Y, et al. Global positioning system measurements from Eastern Tibet and their imp lications for India/Eurasia intercontinental deformation[J]. Journal of Geophysical Research,2001,105 (B7):16215-16227.
[191]李传友,宋方敏,冉勇康.龙门山断裂带北段晚第四纪活动性讨论[J].地震地质,2004,26(2):248-258.
[192]Zhang PZ, Shen Z, Wan GM, et al. Continuous deformation of the Tibetan Plateau from global positioning system data[J]. Geology,2004,32:809-812.
[193]Densmore AL, Li Yong, Ellis M A, et al. Active tectonic and erosional unloading at the eastern margin of the Tibetan Plateau[J]. Journal of Mountain Sciences,2005,2 (2):146-154.
[194]陈国光,计凤桔,周荣军,等.龙门山断裂带晚第四纪活动性分段的初步研究[J].地震地质,2007,29(3):657-673.
[195]Densmore AL, Ellis MA, Li Y, et al. Active tectonics of the Beichuan and Pengguan faults at the eastern margin of the Tibetan Plateau[J]. Tectonics,2007,80 (8):113-127.
[196]陈运泰,许力生,张勇,等.2008年5月12日汶川特大地震震源特性分析报告[EB/OL]. http: //www.csi.ac.cn.
[197]马保起,张世民,田勤俭,等.汶川8.0级地震地表破裂带[J].第四纪研究,2008,28(4):513-517.
[198]许志琴,杨经绥,姜枚,等.大陆俯冲作用及青藏高原周缘造山带的崛起[J].地学前缘,1999,6(3):139-151.
[199]Tavarnelli E, Peacock DCP. From extension to contraction in syn-orogenic foredeep basins:the Contessa section, Umbria-Marche Apennines, Italy[J]. Terra Nova,1999,11:55-60.
[200]Ghisetti F, Vezzani L. Normal faulting, extension and oplift in the outer thrust belt of the central Apennines (Italy):role of the Caramanico fault[J]. Basin Research,2002,14:225-236.
[201]Laurent-Charvet S, Charvet J, ShuLS, et al. Palaeozoic late collisional strike-slip deformations in Tianshan and Altay, Eastern Xinjiang, NW China[J]. Terra Nova,2002,14:249-256.
[202]Avigad D, Chopin C, Le Bayon R. Thrusting and extension in the Southern Dore-Maira ultra-high-pressure massif (Western Alps):view from below the coesite-bearing unit[J]. Journal of Geology,2003,111:57-70.
[203]Reddy SM, Wheeler J, Butler RWH, et al. Kinematic reworking and exhumation within the convergent Alpine Orogen[J]. Tectonophysics,2003,365 (1-4):77-102.
[204]Murphy JB, Keppie JD. Collisional orogenesis in the geological record and modern analogues[J]. Tectonophysics,2003,365 (1-4):1-5.
[205]Tavarnelli E, Renda P, Pasqui V, et al. The effects of post-orogenic extension on different scales: an example from the Apennine-Maghrebide fold-and-thrust belt, SW Sicily [J]. Terra Nova,2003, 15 (1):1-7.
[206]Gray DR, Miller J McL, Forster D A, et al. Transition from subduction-to exhumation-related fabrics in glaucophane-bearing eclogites, Oman:evidence from relative fabric chronology and 40Ar/39Ar ages[J]. Tectonophysics,2004,389:35-64.
[207]地质部陕西省地质局区域地质测量队二十三分队.1:20万碧口幅地质图和区域地质调查报告[Z].1967.
[208]四川省地质局第二区域地质测量队.1:20万广元幅地质图和区域地质调查报告[Z].1967.
[209]四川省地质局第二区域地质测量队.1:20万绵阳幅地质图和区域地质调查报告[Z].1971.
[210]四川省地质局第二区域地质测量队.1:20万平武幅地质图和区域地质调查报告[Z].1977.
[211]张洪刚,李承炎.四川的前震旦系四川的前震旦系-震旦系地层总结研究报告[R].1983.
[212]朱占祥,潘云唐.四川、甘肃交界地区碧口群与通木梁群时代及层位关系的确定[J].四川地质学报,1988,(2):39-48.
[213]四川地质矿产局.四川省区域地质志[M].北京:地质出版社,1991,1-730.
[214]四川省地质矿产局川西北地质大队.青川幅、关庄坝幅1:5万地质图和区域地质调查报告[z].1993.
[215]四川省地质矿产开发局川西北地质大队.龙门山北段十九幅1:5万地质图和区调联测报告[Z].1996.
[216]梁慧社,刘和甫.川西龙门山褶皱-冲断带构造研究[J].河北地质学院学报,1992,15(4):407-414.
[217]梁斌.龙门山北段唐王寨-仰天窝地区伸展构造解析[J].四川地质学报,1998,18(3):165-168.
[218]李勇,孙爱珍.龙门山造山带构造地层学研究[J].地层学杂志,2000,24(3):101-106.
[219]邓康龄.四川盆地形成演化与油气勘探领域[J].天然气工业,1992,12(5):7-12.
[220]颜仰基,吴应林.巴颜喀拉川西边缘前陆盆地演化[J].岩相古地理,1996,16(3):16-29.
[221]张宏飞,欧阳建平,凌文黎,等.南秦岭宁陕地区花岗岩类Pb、Sr、Nd同位素组成及其深部地质信息[J].岩石矿物学杂志,1997,16(1):22-32.
[222]朱茂旭,骆庭川,张宏飞.南秦岭东江口岩体群Pb、Sr和Nd同位素地球化学特征及其对物源的制约[J].地质地球化学,1998,(1):30-36.
[223]张宗清,张国伟,唐索寒,等.秦岭沙河湾奥长环斑花岗岩的年龄及其对秦岭造山带主造山期时间的限制[J].科学通报,1999,44(9):981-983.
[224]卢欣祥,尉向东,肖庆辉,等.秦岭环斑花岗的年代学研究及意义[J].高校地质学报,1999,5(4):373-377.
[225]孙卫东,李曙光,Yadong Chen,等.南秦岭花岗岩锆石U-Pb定年及其地质意义[J].地球化学,2000,29(3):209-216.
[226]王晓霞,王涛,卢欣祥,等.北秦岭老君山、秦岭梁环斑结构花岗岩及构造环境——一种可能的造山带型环斑花岗岩[J].岩石学报,2003,19(4):650-660.
[227]李淼,张成立,苑克增,等.南秦岭迷坝岩体的地球化学特征及其地质意义[J].西北大学学报(自然科学版),2004,34(3):325-330.
[228]张成立,张国伟,晏云翔,等.南秦岭勉略带北光头山花岗岩体群的成因及其构造意义[J].岩石学报,2005,21(3):711-720.
[229]晏云翔,张成立.南秦岭张家坝岩体和新院岩体地球化学特征及其形成环境[J].高校地质学报,2005,11(3):425-433.
[230]秦江峰,赖绍聪,李永飞.扬子板块北缘碧口地区阳坝花岗闪长岩体成因研究及其地质意义[J].岩石学报,2005,21(3):697-710.
[231]张宏飞,靳兰兰,张利,等.西秦岭花岗岩类地球化学和Pb-Sr-Nd同位素组成对基底性质及其构造属性的限制[J].中国科学(D辑),2005,35(10):914-926.
[232]金维浚,张旗,何登发,等.西秦岭埃达克岩的SHRIMP定年及其构造意义[J].岩石学报,2005,21(3):959-966.
[233]Zhang HF, Zhang BR, Harris N, et al. U-Pb zircon SHRIMP ages, geochemical and Sr-Nd-Pb isotopic compositions of intrusive rocks from the Longshan-Tianshui area in the southeast corner of the Qilian orogenic belt, China:Constraints on petrogenesis and tectonic affinity[J]. Journal of Asian Earth Sciences,2006,27 (6):751-764.
[234]Zhang HF, Zhang L, Harris N, et al. U-Pb zircon ages, geochemical and isotopic compositions of granitoids in Songpan-Garze fold belt, eastern Tibetan Plateau:Constraints on petrogenesis and tectonic evolution of the basement[J]. Contributions to Mineralogy and Petrology,2006,152:75-88.
[235]张宏飞,肖龙,张利,等.扬子陆块西北缘碧口块体印支期花岗岩类地球化学和Pb-Sr-Nd同位素组成:限制岩石成因及其动力学背景[J].中国科学(D辑),2007,37(4):460-470.
[236]李佐臣,裴先治,丁仨平,等.川西北平武地区南一里花岗闪长岩锆石U-Pb定年及其地质意义[J].中国地质,2007,34(6):1003-1012.
[237]李佐臣,裴先治,丁仨平,等.川西北平武地区南一里花岗岩体地球化学特征及其构造环境[J].地质学报,2009,83(2):260-271.
[238]Pei XZ, Li ZC, Ding SP, et al.2009. Post-Orogenic Granites in Pingwu Region, Northwest Sichuan: Evidence for North China Block and Yangtze Block Collision during Triassic[J]. Journal of Earth Science,20 (2):250-273.
[239]李曙光,孙卫东,张国伟,等.南秦岭勉略构造带黑沟峡变质火山岩的年代学和地球化学-古生代洋盆及其闭合时代的证据[J].中国科学(D辑),1996,26(3):223-230.
[240]赖绍聪,张国伟,裴先治,等.南秦岭康县-琵琶寺-南坪构造混杂带蛇绿岩与洋岛火山岩地球化学及其大地构造意义[J].中国科学(D辑),2003,33(1):10-19.
[241]赖绍聪,李三忠,张国伟.陕西西乡群火山-沉积岩系形成构造环境火山岩地球化学约束[J].岩石学报,2003,19(1):143-152.
[242]赖绍聪,张国伟,董云鹏,等.秦岭-大别勉略构造带蛇绿岩与相关火山岩的性质及其时空分布[J].中国科学(D辑),2003,33(12):1174-1183.
[243]张国伟,董云鹏,赖绍聪,等.秦岭-大别造山带南缘勉略构造带与勉略缝合带[J].中国科学(D辑),2003,33(12):1121-1135.
[244]张国伟,程顺有,郭安林,等.秦岭-大别中央造山系南缘勉略古缝合带的再认识——兼论中国大陆主体的拼合[J].地质通报,2004,23(9-10):846-853.
[245]Chen FK, Hegner E, Todt W. Zircon ages, Nd isotopic and chemical compositions of orthogneisses from the Black Forest, Germany:Evidence for a Cambrian magmatic arc[J]. International Journal of Earth Sciences (Geol Rundsch),2000,88:791-802.
[246]Chen FK, Siebel W, Satir M, et al. Geochronology of the Karadere basement (NW Turkey) and implications for the geological evolution of the Istanbul zone[J]. International Journal of Earth Sciences (Geol Rundsch),2002,91:469-481.
[247]宋彪,张玉海,刘敦一.微量原位分析仪器SHRIMP的产生与锆石同位素地质年代学[J].质谱学报,2002,23(1):58-62.
[248]袁洪林,吴福元,高山,等.东北地区新生代侵入体的锆石激光探针U-Pb年龄测定与稀土元素成分分析[J].科学通报,2003,48(14):1511-1520.
[249]Yuan HL, Gao S, Liu XM, et al. Accurate U-Pb age and trace element determinations of zircon by laser ablation-Inductively coupled plasma mass spectrometry[J]. Geostandards and Geoanalytical Research,2004,28(3):353-370.
[250]Andersen T. Correlation of common lead in U-Pb analyses that do not report 204Pb[J]. Chemical Geology,2002,192:59-79.
[251]Ludwig KR. Isoplot(rev.2.49):A plotting and regression program for radiogenic-isotope data[CP]. US Geological Survey Open-File Report,1991,39.
[252]Ludwig KR. Users Manual for Isoplot/Ex (rev.2.49):A Geochronological Toolkit for Microsoft Excel[J]. Berkeley Geochronology Center Special Publication,2001, la:1-55.
[253]Ludwig KR. Isoplot 3.0-A Geochronological Toolkit for Microsoft Excel[J]. Berkeley Geochronology Center Special Publication,2003, (4):1-70.
[254]王松山,桑海清,胡世玲,等.应用49-2反应堆进行40Ar/39Ar定年及迁安曹庄群斜长角闪岩 年龄谱的地质意义[J].岩石学报,1985,(3):35-44.
[255]王松山.氯对40Ar/39Ar定年的制约及数据处理[J].地质科学,1992,(4):369-378.
[256]李智武,刘树根,陈洪德,等.龙门山冲断带分段-分带性构造格局及其差异变形特征[J].成都理工大学学报(自然科学版),2008,35(4):440-454.
[257]李春昱,刘仰文,朱宝清.秦岭及祁连山构造发展史[A].见:国际交流地质学术论文集——区域地质-地质力学[C].北京:地质出版社,1978,174-187.
[258]王鸿祯.中国地壳构造发展的主要阶段[J].地球科学——中国地质大学学报,1982,3:155-178.
[259]Hsu KJ, Wang Q, Li J, et al. Tectonics evolution of Qinling Mountains, China[J]. Eclogae Geologicae Helvetiae,1987,80:732-752.
[260]许志琴,卢一伦,汤耀庆,等.东秦岭复合山链的形成——变形、演化及板块动力学[M].北京:中国环境科学出版社,1988,1-193.
[261]张国伟,梅志超,周鼎武,等.秦岭造山带的形成及其演化[M].见:张国伟等著,秦岭造山带的形成及其演化.西安:西北大学出版社.1988,1-15.
[262]任纪舜.论中国大陆岩石圈构造的基本特征[J].中国区域地质,1991,4:289-293.
[263]姜春发.中央造山带主要地质构造特征[J].地学研究,1993,(27):107-108.
[264]张国伟,孟庆任,于在平,等.秦岭造山带的造山过程及其动力学特征[J].中国科学(D辑),1996,26(3):193-200.
[265]杨巍然,刘育燕,邓清禄.地球历史的“开”、“合”节律与古地磁变化[J].地学前缘——中国地质大学(北京),1997,4(3-4):241-246.
[266]杨巍然.论造山作用和造山带[J].地质论评,1999,43(1):10-14.
[267]姜春发,王宗起,李锦轶.中央造山带开合构造等[M].北京:地质出版社,2000.
[268]姜春发.中央造山带几个重要地质问题及其研究进展[J].地质通报,2002,21(8-9):453-455.
[269]潘桂棠,李兴振,王立全.青藏高原及邻区大地构造单元初步划分[J].地质通报,2002,21(11):701-707.
[270]万天丰.中国大地构造学纲要[M].北京:地质出版社,2004,1-387.
[271]陆松年,于海峰,李怀坤,等.“中央造山带”早古生代缝合带及构造分区概述[J].地质通报,2006,25(12):1368-1380.
[272]袁学诚,李善芳,华九如.秦岭陆内造山带岩石圈结构[J].中国地质,2008,35(1):1-17.
[273]张国伟,柳小明.关于“中央造山带”儿个问题的思考[J].地球科学——中国地质大学学报,1998,23(5):443-448.
[274]张国伟,周鼎武,于在平,等.秦岭造山带岩石圈组成、结构与演化特征[M].见:叶连俊、钱样麟等(主编),秦岭造山带学术讨论会论文选集.西安:西北大学出版社,1991,121-138.
[275]Kroner A, Zhang GW, Zhou DW, et al. Granulites in the Tongbai area, Qinling belt, China: geochemistry, petrology, single zircon geochronology and implications rnr tectonic evulution of eastern Asia[J]. Tectonics,1993,12:245-255.
[276]Meng QR, Zhang GW. Geologic framework and tectonic evolution of the Qinling orogen, Central China[J].Tectonophys,2000,323:183-196.
[277]陈志宏,陆松年,李怀坤,等.秦岭造山带富水中基性侵入杂岩的成岩时代——锆石U-Pb及全岩Sm, Nd同位素年代学新证据[J].地质通报,2004,23(4):322-328.
[278]张国伟,孟庆任,赖绍聪.秦岭造山带的结构构造[J].中国科学(B辑),1995,25:994-1003.
[279]张国伟,张宗清,董云鹏.秦岭造山带主要构造岩石地层单元的构造性质及其大地构造意义[J].岩石学报,1995,11(2):101-104.
[280]Lai SC, Zhang GW. Geochemical features of ophiolite in Mianxian-Lueyan4g suture zone, Qiriling orogenic belt[J]. Journal of Chinfl University of Geosciences,1996,7 (2):165-172.
[281]Lai SC, Zhong JH. Geochemical features and its tectonic significance of the meta-basalt in Zhoujiawan area, Mianlue suture zone, Qinling-Dabie mountains, Hubei province[J]. Scientia Geologica Sinica,1999,8 (2):127-136.
[282]Lai SC, Zhang GW, Yang R Y. Identification of the island-arc magmatism zone in the Lianghe-Raofeng-Wuliba area, south Qinling and its tectonic signficance[J]. Science in China (Series D),2000,43 (Sup):69-81.
[283]Lai SC, Li SZ. Geochemistry of volcanic rocks from Wuliba in the Mianlue suture zone, Southern Qinling[J]. Scientia Geologica Sinica,2001,10 (3):169-179.
[284]李曙光,侯振辉,杨永成,等.南秦岭勉略构造带三岔子古岩浆弧的地球化学特征及形成时代[J].中国科学(D辑),2003,33(12):1163-1173.
[285]闫全人,王宗起,闫臻,等.秦岭勉略构造混杂带康县-勉县段蛇绿岩块-铁镁质岩块的SHRIMP年代及其意义[J].地质论评,2007,53(6):755-764.
[286]裴先治,张国伟,赖绍聪,等.西秦岭南缘勉略构造带主要地质特征[J].地质通报,2002,21(8-9):486-494.
[287]Sengor AMC. East Asian tectonics callage[J]. Nature,1985,318:15-17.
[288]Meng QR, Zhang GW. Timing of collision of the North and South China blocks:eontroversy and reeonciliation[J]. Geology.1999,27:123-126.
[289]Ratschbacher L. Hacker BR. Calvert A et al. Tectonics of the Qinling (Central China): tectonostratigraphy, geochronology, and deformation history[J]. Tectonophysics.2003,366:1-53.
[290]孟庆任,于在平,梅志超,等.秦岭南缘晚古生代裂谷-有限洋盆沉积作用及构造演化[J].中国科学(D辑),1996,26(增刊):28-33.
[291]许继锋,盛吉虎,韩吟文,等.勉略地区蛇绿岩的初步研究[A].见:张旗主编.蛇绿岩与地球动力学研究[C].北京:地质出版社,1996,163-166.
[292]赖绍聪,张国伟,杨永成,等.南秦岭勉县-略阳结合带变质火山岩岩石地球化学特征[J].岩石学报.1997,13(4):563-573.
[293]盛吉虎,杜远生,冯庆来等.南秦岭勉略蛇绿混杂岩带硅质岩沉积环境研究[J].地球科学——中国地质大学学报,1997,22(6):599-602.
[294]许继锋,于学元,李献华,等.高亏损的N-MORB型火山岩的发现:勉略古洋盆存在的新证据[J].科学通报,1997,42(22):2414-2418.
[295]赖绍聪,张国伟,杨永成,等.南秦岭勉县-略阳结合带蛇绿岩与岛弧火山岩地球化学及其大地构造意义[J].地球化学,1998,27(3):283-293.
[296]杜远生,盛吉虎,顾松竹.南秦岭勉略构造混杂岩带非史密斯地层系统和地层格架[J].地质论评,1999,45(6):563-570.
[297]李亚林,张国伟.王根宝,等.陕西勉略地区两类混杂岩的发现及其地质意义[J].地质论评,1999,45(2):192.
[298]王宗起,陈海泓,郝杰.南秦岭晚古生代一三叠纪弧前增生楔的初步确定[A].见:陈海泓等主编.中国碰撞造山带研究[C].北京:海洋出版社,1999,100-113.
[299]王宗起,陈海泓,李继亮,等.南秦岭西乡群放射虫化石的发现及其地质意义[J].中国科学(D辑),1999,29(1):38-44.
[300]李三忠,张国伟,李亚林,等.勉县地区勉略带内麻粒岩的发现及构造意义[J].岩石学报,2000,16(2):220-226.
[301]李三忠,张国伟,李亚林,等.勉略带三岔子蛇绿岩的变质特征及构造意义[J].青岛海洋大学学报,2001,31(1):89-94.
[302]李亚林,张国伟,王成善,等.秦岭勉略缝合带两期韧性剪切变形及其动力学意义[J].成都理工学院学报,2001,28(1):28-33.
[303]裴先治.勉略-阿尼玛卿构造带的形成演化与动力学特征[D].西北大学博士学位论文,2001.
[304]赖绍聪,张国伟,裴先治.南秦岭勉略结合带琵琶寺洋壳蛇绿岩的厘定及其大地构造意义[J].地质通报,2002,21(8-9):465-470.
[305]Li SG, Hou ZH, Yang YC, et al. Timing and geochemical characters of the Sanchazi magmatic arc in Mianlue tectonic zone, South Qinling[J]. Science in China (Ser.D),2004,47 (4):317-328.
[306]李百祥.西秦岭地球物理场的地质解释[J].甘肃地质学报,1997,6(2):82-91.
[307]张季生,高锐,李秋生,等.松潘-甘孜和西秦岭造山带地球物理特征及基底构造研究[J].地质论评,2007,53(2):261-267.
[308]张本仁,张宏飞,赵志丹,等.东秦岭及邻区壳幔地球化学分区和演化受其大地构造意义[J].中国科学(D辑),1996,26(3):201-208.
[309]王娟,李鑫,赖绍聪,等.印支期南秦岭西茬河、五龙岩体成因及构造意义[J].中国地质,2008,35(2):207-216.
[310]王娟,金强,赖绍聪,等.南秦岭佛坪地区五龙花岗质岩体的地球化学特征及成因研究[J].矿物岩石,2008,28(1):79-87.
[311]李三忠,张国伟,李亚林,等.秦岭造山带勉略缝合带构造变形与造山过程[J].地质学报,2002,76(4):469-483.
[312]任纪舜,姜春发,张正坤,等.中国大地构造及其演化——1:400万中国大地构造图简要说明.北京:科学出版社,1980.
[313]Sengor AMC. The Cimmeride orogenic system and the tectonics of Eurasia[J]. Geological Society of America Special Paper,1984,195:82.
[314]Yin A, Harrison TM. Geologic Evolution of the Himalayan-Tibetan orogen[J]. Annual Review of Earth and Planetary Sciences,2000,28 (1):211-280.
[315]韩永辉,康忠林.上扬子地台基底演化探讨[J].石油与天然气地质,1983,4(4):371-382.
[316]韩永辉,康忠林.上扬子地台基底的地层对比及其演化的初步探讨[J].四川省地质学报,1983,4:19-30.
[317]杨逢清,殷鸿福,杨恒书,等.松潘甘孜地块与秦岭造山带、扬子地台的关系及其发展史[J].地质学报,1994,68(3):208-218.
[318]高锐,马永生,李秋生,等.松潘地块与西秦岭造山带下地壳的性质和关系——深地震反射剖面的揭露[J].地质通报,2006,25(12):1361-1367.
[319]夏祖春,夏林圻,任有祥,等.南秦岭碧口群海相火山岩岩石学研究[J].中国地质科学院西安地质矿产研究所所刊,1989,(25):97-107.
[320]张家润.川西北地区碧口群之火山岩特征与构造环境[J].四川地质学报,1990,10(4):227-236.
[321]秦克令,金浩甲,赵东宏.碧口古岛弧带构造演化与成矿[J].河南地质,1994,12(4):304-317.
[322]王根宝.陕西省勉略宁地区碧口岩群基底构造碰合带的发现及其地质意义[J].陕西地质科技情报,1995,20(1):13-26.
[323]卢一伦,黄建坤,杜定汉,等.碧口群的层序及时代[J].中国区域地质,1997,16(3):305-314.
[324]闫全人,王宗起,Hanson AD,等.南秦岭横丹群浊积岩系——晚古生代发育于扬子板块被动陆缘上的弧前盆地充填物[J].地质通报,2002,21(8-9):495-500.
[325]闫全人,Hanson AD,王宗起,等.扬子板块北缘碧口群火山岩的地球化学特征及其构造环境[J].岩石矿物学杂志,2004,23(1):1-11.
[326]董广法,王国富,刘继顺.勉略宁地区东沟坝组火山岩的成因浅析[J].大地构造与成矿学,1998,22(2):163-169.
[327]刘铁庚,叶霖.碧口群形成的地质构造环境探讨[J].矿物学报,1999,19(4):446-452.
[328]夏林圻,夏祖春,徐学义.南秦岭元古宙西乡群大陆溢流玄武岩的确定及其地质意义[J].地质论评,1996,42(6):513-522.
[329]夏林圻,夏祖春,徐学义.南秦岭中晚元古代火山岩性质与前寒武纪大陆裂解[J].中国科学(D),1996,26(3):237-243.
[330]丁振举,姚书振,周宗桂,等.碧口地体中元古代构造属性[J].大地构造与成矿学,1998,22(3):219-226.
[331]匡耀求,张本仁,欧阳建平.扬子克拉通北西缘碧口群的解体与地层划分[J].地球科学——中国地质大学学报,1999,24(3):251-255.
[332]徐学义,夏祖春,夏林析.南秦岭元古宙板内火山作用特征及构造意义[J].岩石矿物学杂志,2001,20(3):255-262.
[333]徐学义,夏祖春,夏林圻.碧口群火山旋回及其地质构造意义[J].地质通报,2002,21(8-9):478-485.
[334]夏林圻,夏祖春,徐学义,等.碧口群火山岩岩石成因研究[J].地学前缘,2007,14(3):84-101.
[335]左国朝.西秦岭泥盆纪构造一建造及其地壳演化[J].甘肃地质,1984,(2):99-110.
[336]陶洪祥,王全庆,高肇英,等.略论扬子古陆北缘中晚元古代岛弧构造及其演化[J].西安地质学院学报,1986,8(3):7-17
[337]裴先治.南秦岭碧口群岩石组合特征及其构造意义[J].西安地质学院学报,1989,11(2):46-56.
[338]赵祥生,马少龙,邹湘华,等.秦巴地区碧口群的时代、层序、火山作用及含矿性研究[J].中 国地质科学院西安地质矿产研究所所,1990,29:1-128.
[339]裴先治.南秦岭碧口地区韧性剪切带的变形特征[J].西安地质学院学报,1992,14(3):18-23.
[340]刘国惠,张寿广,游振东,等.秦岭造山带主要变质岩群及变质演化[M].北京:地质出版社,1993,1-190.
[341]陶洪祥,何恢亚,王全庆,等.扬子板块北缘构造演化史[M].西安:西北大学出版社,1993.
[342]张二朋,牛道韫,霍有光,等.秦巴及邻区地质构造特征概论[M].北京:地质出版社,1993,1-291.
[343]李永飞.扬子板块北缘碧口火山岩系岩石地球化学研究[D].西北大学硕士学位论文,2006.
[344]赖绍聪,李永飞,秦江锋.碧口群西段董家河蛇绿岩地球化学及LA-ICP-MS锆石U-Pb定年[J].中国科学D辑:地球科学,2007,37(增刊Ⅰ):262-270.
[345]宋史刚,丁振举,姚书振,等.碧口地块富铁硅岩REE及Nd-Sr同位素组成及其古环境意义[J].矿物岩石,2008,28(3):57-63.
[346]闫全人,王宗起,闫臻,等.碧口火山岩的时代SHRIMP锆石U-Pb测年结果[J].地质通报,2003,22(6):456-459.
[347]陕西省地质矿产局.陕西省区域地质志[M].北京:地质出版社,1989.
[348]裴先治.扬子板块西北缘碧口地区前震且系构造特征厦其演化[D].西安地质学院硕士学位论文,1989.
[349]裴先治.碧口地区复理石岩系特征及其构造环境[J].西安地质学院学报,1992,14(1):42-49.
[350]李廷栋.青藏高原隆升的过程和机制[J].中国地质科学院报,1995,34:1-9.
[351]钟大赉,丁林.青藏高原的隆起过程及其机制探讨[J].中国科学(D辑),1996,26:289-295.
[352]肖序常,王军.青藏高原构造演化及隆升的简评述[J].地质论评,1998,44(4):372-381.
[353]Hsu K, Pan GT, Sengor AMC, et al. Tectonic evolution of the Tibetan Plateau:a working hypothesis based on the archipelago model of orogenesis[J]. International Geological Review,1995,37 (6): 473-508.
[354]徐士进,王汝成,沈渭洲,等.松潘-甘孜造山带中晋宁期花岗岩的U-Pb和Rb-Sr同位素定年及其大地构造意义[J].中国科学(D辑),1996,26(12):52-58.
[355]Calassou S. Etude tectonique dune chaine de decollement:A) tectonique et Tertiaire de la chaine de Songpan-Garze;B) geometrie et cinematique des deform ations dans les prismes d'accretion sedimentaire:modelization analogique[D]. Ph.D.Thesis. Univemite de Montpenier Ⅱ,1994.
[356]陈高,吴健生,于鹏.松潘一阿坝地区深部电性特征[J].地球科学——中国地质大学学报, 2006,31(6):857-878.
[357]刘红军.扬子地块西缘古特提斯盆地演化与含锰建造盆控特征[J].矿物岩石,2001,21(3):105-113.
[358]Yin A, Nie S. An indentation model for the north and south China colision an d the development of the Tan lu and Honam Fault systems.eastern Asia[J]. Tectonics,1993,12:801-813.
[359]Nie S, Yin A, Rowley DB et al. Exhumation of the Dabie Shan ultra-high-pressure rocks and accumulation of the Songpan-Ganzi flysh sequence, central China[J]. Geology,1994,22 (11): 999-1002.
[360]Zhou D, Graham SA. Songpan-Gan zi complex of the west Qinling Shan as a Triassic remnant ocean basin[A]. In:Yin A, Harrison TM (eds). Tectonic Evolution of Asia[C]. Cambridge University Press,1996,281-299.
[361]何登发,庄忠海,马永生.松潘一阿坝地块三叠系古地磁结果及运动学意义[J].现代地质,2007,21(3):556-563.
[362]Klimetz MP. Speculations on the Mesozoic plate tectonic evolution of eastern China[J]. Tectonics, 1983,2:139-166.
[363]黄汲清,陈炳蔚.中国及邻区特提斯海的演化[M].北京:地质出版社,1987,1-109.
[364]饶荣标,徐继范,陈永明.青藏高原的三叠系[M].北京:地质出版社,1987,201-239.
[365]张以弗,庞龙廉,李长利,等.可可西里巴颜喀拉三叠纪沉积盆地的形成和演化[M].北京:地质出版社,1997,1-136.
[366]杜德勋,罗建宁,惠兰.巴颜喀拉三叠纪沉积盆地岩相与古地理-以阿坝-若尔盖盆地为例[J].岩相古地理,1998,18(1):1-18.
[367]Chang EZ. Geology and tectonics of the Songpan-Ganzi fold belt, southwestern China[J]. International Geology Review,2000,42:813-831.
[368]Ingersoll R, Dickinson WR, Graham SA. Remnant-ocean submarine fans:Largest sedimentary systems on Earth[J]. Geological Society of America Special Paper,2003,370:191-208.
[369]蔡雄飞,王国灿,李德威.青海省巴颜喀拉山群研究的新近展[J].地学前缘,2004,11(2):47.
[370]李继亮,闫臻,俞良军,等.若尔盖-松潘前陆盆地的沉积与构造特点[J].岩石学报,2007,23(5):919-924.
[371]兰中伍,陈岳龙,苏本勋,等.四川松潘-甘孜盆地砂岩的物质来源:来自锆石U-Pb(SHRIMP) 年龄证据[J].沉积学报,2006,24(3):321-332.
[372]袁海华,张志兰,张平.龙门山老君沟花岗岩体的隆升及冷却史[J].成都地质学院学报,1991,18(11):17-22.
[373]张能德,张怀举.四川西北部几个花岗岩体的时代[J].地球化学,1993,22(3):303-312.
[374]Roger F, Malavieille J, Leloup Ph H, et al. Timing of granite emplacement and cooling in the Songpan-Garz-Fold Belt (eastern Tibetan Plateau) with tectonic implications [J]. Journal of Asian Earth Sciences,2004,22 (5):465-481.
[375]魏显贵,杜思清,刘援朝,等.米仓山推覆构造的结构样式及演化特征[J].矿物岩石,1997,17(增刊):114-122.
[376]魏显贵,杜思清,何政伟,等.米仓山地区构造演化[J].矿物岩石,1997,17(增刊):107-113.
[377]李庭柱,张仪娴.米仓山区“后河群”的时代及岩石特征[J].地层学杂志,1995,9(2):149-155.
[378]马润则,肖渊甫,魏显贵,等.米仓山地区岩浆活动与构造演化[J].矿物岩石,1997,17(增刊):76-82.
[379]肖渊甫,马润则,何政伟,等.米仓山碱性杂岩单元特征及构造环境分析[J]_矿物岩石,1997,17(增刊):59-66.
[380]赖绍聪,杨瑞瑛,张国伟.南秦岭西乡群孙家河组火山岩形成构造背景及其大地构造意义的讨论[J].地质科学,2001,36(3):295-303.
[381]孙树林.米仓山及其南缘薄皮构造初步研究[J].河海大学学报,1994,22(1):53-57.
[382]杜思清,魏显贵,刘援朝,等.汉南-米仓山区叠加东西向隆坳的北东向推覆构造[J].成都理工学院学报,1998,25(3):369-374.
[383]乐光禹,杜思清,等.构造复合联合原理——川黔构造组合叠加分析[J].成都:成都科技大学出版社,1996.
[384]杜思清,魏显贵,刘援朝,等.汉南-米仓山区北东向构造及龙门山推覆构造外缘带[J].矿物岩石,1997,17(增刊):123-131.
[385]李玉文.论四川盆地白垩纪地质发展史[J].中国区域地质,1987,(1):51-58.
[386]陶晓风.龙门山南段推覆构造与前陆盆地演化[J].成都理工学院学报,1999,26(1):73-77.
[387]高红灿,郑荣才,柯光明,等.川东北前陆盆地须家河组层序-岩相古地理特征[J].沉积与特提斯地质,2005,25(3):38-45.
[388]胡晓强,陈洪德,纪相田,等.川西前陆盆地侏罗系层序地层[J].西南石油学院学报,2006,28(2):16-19.
[389]刘树根,罗志立,庞家黎,等.四川盆地西部的峨眉地裂运动及找气新领域[J].成都地质学院学报,1991,18(1):83-90.
[390]刘和甫.前陆盆地类型及褶皱一冲断层样式[J].地学前缘,1995,2(3-4):59-68.
[391]李勇.论龙门山前陆盆地与龙门山造山带的耦合作用[J].矿物岩石地球化学通报,1998,17(2):77-81.
[392]刘和甫,汪泽成,熊保贤,等.中国中西部新生代前陆盆地与挤压造山带耦合分析[J].地学前缘,2000,7(3):55-72.
[393]姚根顺,李大成,卢文忠,等.四川叠合盆地盆山耦合特征分析[J].大地构造与成矿学,2006,30(4):435-444.
[394]沈传波,梅廉夫,徐振平,等.四川盆地复合盆山体系的结构构造和演化[J].大地构造与成矿学,2007,31(3):288-299.
[395]顾家裕,张兴阳.中国西部陆内前陆盆地沉积特征与层序格架[J].沉积学报,2005,23(2):187-193.
[396]蔡立国,刘和甫.扬子周缘前陆盆地演化及类型[J].地球科学,1996,21(4):433-440.
[397]彭军,陈洪德,曾允孚.龙门山南段前陆盆地中-新生代砂岩特征及物源分析[J].中国区域地质,2000,19(1):77-84.
[398]刘少峰.前陆盆地挠曲过程模拟的理论模型[J].地学前缘,1995,2(3-4):69-77.
[399]Miail AD. Principles of Sedimentary Basin Analysis[M]. New York:Springer-Verlag,1998.
[400]汪泽成,赵文智,张林,等.四川盆地构造层序与天然气勘探[M].北京:地质出版社,2002.
[401]Le Maitre RW. Igneous Rocks:A Classification and Glossary of Terms (2nd Edition) [M]. Cambridge:Cambridge University Press,2002,1-236.
[402]Irvine TN, Baragar WRA. A guide to the chemical classification of the common volcanic rocks[J]. Canadian Journal of Earth Sciences,1971,8:523-548.
[403]Rickwood PC. Boundary lines within petrologic diagrams which use oxides of major and minor elements[J]. Lithos,1989,22 (4):247-263.
[404]Sun SS, Mcdonough WE Chemical and isotopic systematics of ocean basins:implications for mantle composition and processes[A]. In:Saunders AD, Norry MJ. Magmatism of the Ocean Basins[C].London:Geological Society Special Publication,1989,42:325-345.
[405]Wood, David A., Joron, et al. A re-appraisal of the use of trace elements to classify and discriminate between magma series erupted in different tectonic settings[J]. Earth and Planetary Science Letters, 1979,45 (2):326-336.
[406]Mesehede MA. A method of diseriminating between different types of ocean-ridge basalt and continental tholeiites with Nb-Zr-Y diagram[J]. Chemical Geology,1986,56:207-218.
[407]Pearce JA. Sources and setting of granitic rocks[J]. Episodes,1996,19 (4):120-125.
[408]Pearce JA, Harris NBW, Tindle AG T race element discrimination diagrams for the tectonic interpretation of granitic rocks[J]. Journal of Petrology,1984,25:956-983.
[409]Belousova EA, Suzanne GW, Fisher Y. Igneous zircon:trace element composition as an indicator of source rock type[J]. Contrib Mineral Petrol,2002,143:602-622.
[410]Siebel W, Blaha U, Chen F, et al. Geochronology and geochemistry of a dyke-host rock association and implications for the formation of the Bavarian Pfahl shear zone, Bohemian Massif [J]. International Journal of Earth Sciences (Geol Rundsch),2005,94 (1):8-23.
[411]吴元保,郑永飞.锆石成因矿物学研究及其对U-Pb年龄解释的制约[J].科学通报,2004,49(16):1589-1604.
[412]Zhang CL, Li M, Wang T, et al. U-Pb Zircon Geochronology and Geochemistry of Granitoids in the Douling Group in the Eastern Qinling[J]. Acta Geological Sinica,2004,78 (1):83-95.
[413]Chen DL, Liu L, Sun Y, et al. Determination of the Neoproterozoic Granite in the Eastern Qinling Mountains Shicaogou Syn-collisionaland Its Geological Implications [J]. Acta Geological Sinica, 2004,78 (1):73-82.
[414]陈志宏,陆松年,李怀坤,等.北秦岭德河黑云二长花岗片麻岩体的成岩时代TIMS和SHRIMP锆石U-Pb同位素年代学[J].地质通报,2004,23(2):136-142.
[415]Wilson M. Igneous petrogenesis[M]. London:Unwin Hyman Press,1989,1-466.
[416]Condie KC. Plate Tectonics and Crustal Evolution[M]. Oxford:Pergamon Press,1997,1-476.
[417]Winchester JA, Floyd PA. Geochemical discrimination of different magma series and their differentiation products using immobile elements[J]. Chemical Geology,1977,20:325-342.
[418]Macdonald R, Davies GR, Bliss CM, et al. Geochemistry of high-silica peralkaline rhyolites, Naivasha, Kenya Rift Valley [J]. J Petrology,1987,28(6):979-1008.
[419]Condie KC. Geochemistry and tectonic setting of early proterozoic supracrustal rocks in the southwestern United States[J]. Journal of Geology,1986,94:845-864.
[420]SivellW J, Waterhouse JB. Petrogenesis of Gympie group volcanics:evidence for remnants of an early Permian volcanic arc in eastern Australia[J]. Lithos,1988,21:81-95.
[421]Polis G, Ghezzo C, Conticelli S. Geochemistry of granitic rocks from the Hercynian Sardinia-Corsica batholith:implication for magma genesis[J]. Lithos,1989,23:247-266.
[422]Gill JB. Orogenic andesites and plate tectonics[M]. Berlin:Springer-Verlag,1981.
[423]Hildreth W, Hallidy AN, Christiansen RL. Isotopic and chemical evidence concerning the genesis and contamination of basaltic and rhyolitic magma beneath the Yellowstone plateau volcanic field[J]. Journal of Petrology,1991,32 (1):63-138.
[424]Pearce JA. Role of the sub-continental lithosphere in magma genesis at active continental margins[A]. In:Hawkesworth CJ and Norry MJ(eds.) Continental basalts and mantle xenoliths[C]. Nantwich Shiva:Academic Press,1983:230-249.
[425]Francalanci L, Taylor SR, Mcculloch MT. Geochemical and isotopic variations in the calc-alkaline rocks of Aeolian arc, southern Tyrrhenian Sea, Italy:constraints on magma genesis[J]. Contrib Mineral Petrol,1993,113:300-313.
[426]Harris NBW, Pearce JA, Tindle A G. Geochemical characteristics of collision-zone magmatism. In: Coward MP, Reis AC eds. Collision tectonics[J]. Geological Society of London, Special Publication, 1986,19:67-81.
[427]Michael PG, Eva SS. From continents to island arcs:A geochemical index of tectonic set ting for arc-related and within-plate felsic to intermediate volcanic rocks[J]. Canada Mineralogy,2000,38: 1065-1073.
[428]李昌年.火成岩微量元素岩石学[M].武汉:中国地质大学出版社,1992,116.
[429]Arculus RJ. The significance of source versus process in the tectonic controls of magma genesis [J]. Journal of Volcanology and Geothermal Research,1987,32:1-12.
[430]陶奎元.中国东南大陆火山带在环太平洋带中的独特地位[A].见:李兆鼐,王碧香主编.火山岩、火山作用及有关矿产[C].北京:地质出版社,1993.23-30.
[431]杨巍然,纪克诚,孙继源,等.大陆裂谷研究中的几个前沿课题[J].地学前缘,1995,2(1-2):93-102.
[432]Streckeisen AL. Plutonic rocks:Classification and nomenclature recommended by the IUGS subcommission on the systematics of igneous rocks [J]. Geotimes,1973,18(7):26-30.
[433]Maniar PD, Piccoli PM. Tectonic discrimination of granitoids[J]. Geological Society of America Bulletin,1989,101:635-643.
[434]Patino-Douce AE, Johnston AD. Phase equilibria and melt productivity in the pelitic system: implications for the origin of peraluminous granitoids and aluminous granulites[J]. Contributions to Mineralogy and Petrology,1991,107 (2):202-218.
[435]Patino-Douce AE, Beard JS. Dehydration-melting of biotite gneiss and quartz amphibolite from 3 to 15 Kbar[J]. Journal of Petrology,1995,36(3):707-738.
[436]Patino-Douce AE, Harris N. Experimental constraints on Himalayan anatexis[J]. Journal of Petrology,1998,39 (4):689-710.
[437]Patino-Douce AE, McCarty TC. Melting of crustal rocks during continental collision and subduction[A]. In:Hacker BR, Liu JG, eds. When continents collide:geodynamics of ultrahigh pressure rocks[C].Netherlands:Kluwer Academic Publish,1998,27-55.
[438]Patino-Douce AE. What do experiments tell us about the relative contributions of crust and mantle to the origin of granitic magmas[A]? In:Castro A, Fernandez C, Vigneresse J. (Eds.), Understanding Granites:Integrating New and Classical Techniques[C]. Geological Society Special Publications, 1999,168:55-75.
[439]Green TH, Pearson NJ. An experimental study of Nb and Ta partitioning between Ti-rich minerals and silicate liquids at high pressure and temperature[J]. Geochimica et Cosmochimica Acta,1987,51 (1):55-62.
[440]Green TH. Significance of Nb/Ta as an indicator of geochemical processes in the crust-mantle system[J]. Chemical Geology,1995,120 (3-4):347-359.
[441]Barth MG, McDonough WF, Rudnick RL. Tracking the budget of Nb and Ta in the continental crust[J]. Chemical Geology,2000,165 (3-4):197-213.
[442]王德滋,刘昌实,沈渭洲,陈繁荣.1993.桐庐Ⅰ和相山S型两类碎斑熔岩对比[J].岩石学报,9(1):44-53
[443]Whalen JB, Currer KL, Chappell BW.1987. A-type granites:geochemical characteristics, discrimination and petrogenesis[J]. Contributions to Mineralogy and Petrology.95 (4):407-419.
[444]DePaolo DJ, DaleyE E. Neodymium isotopes in basalts of the southwest basin and range and lithospheric thinning during continental extension[J]. Chemical Geology,2000,169:157-185.
[445]Taylor SR, McLennan SM. The Continental Crust:its Composition and Evolution[M]. Blackwell Scientific, Oxford,1985,312.
[446]Yang XM, David R, Lentz, et al. ThorneGeochemical characteristics of gold-related granitoids in southwestern New Brunswick, Canada[J]. Lithos,2008,104:355-377.
[447]Lentz DR. Petrogenetic evolution of felsic volcanic sequences associated with Phanerozoic volcanic-hosted massive sulphide systems:the role of extensional geodynamics[J]. Ore Geology Reviews,1998,12:289-327.
[448]Jahn BM, Wu F, Lo CH, et al. Crust-mantle interaction induced by deep subduction of the continental crust:geochemical and Sr-Nd isotopic evidence from post-collisional mafic-ultramafic intrusions of the northern Dabie complex, central China[J]. Chemical Geology,1999,157,119-146.
[449]Pearce JA. Trace element characteristics of lavas from destructive plate boundaries[A]. In:Thorpe RS. (eds.), Andesites Wiley[C]. New York,1982,525-548.
[450]Pearce JA, Bender JF, De Long SE, et al. Genesis of collision volcanism in Eastern Anatolia, Turkey[J]. Journal of Volcanology and Geothermal Research,1990,44,189-229.
[451]Durmus B, Yehudit H, Greg BA, et al. K-Ar age, whole-rock and isotope geochemistry of A-type granitoids in the Divrii-Sivas region, eastern-central Anatolia, Turkey[J]. Lithos,2007,97(1-2): 193-218.
[452]Wolf MB, Wyllie PJ. The formation of tonalitic liquids during the vapor-absent partial melting of amphibolite at 10 kbar[J].EOS,1989,70:506-518.
[453]Beard JS, Lofgren GE. Dehydration melting and water-saturated melting of basaltic and andesitic greenstones and amphibolites at 1.3 and 6.9 kb[J]. Journal of Petrology,1991,32:365-402.
[454]Johannes W, Holtz F. Petrogenesis and experiment petrology of granitic rock[M]. Berlin: Springer-Verlag,1996.
[455]Sisson TW, Ratajeski K, Hankins W B, et al. Voluminous granitic magmas from common basaltic sources[J]. Contrib Mineral Petrol,2005,148 (5):635-661.
[456]Chappell BW, White AJR. Two contrasting granite types[J]. Pacific Geology,1974,8:173-174.
[457]Vielzeuf D, Montel JM. Partial melting of metagreywackes. Part Ⅰ:Fluid-absent experiments and phase relationships[J]. Contrihution to Mineralogy and Petrology,1994,117 (4):375-393.
[458]Montel JM, Vielzeuf D. Partial melting of metagreywackes, Part Ⅱ:Compositions of minerals and melts[J]. Contribution to Mineralogy and Petrology,1997,128:176-196.
[459]Castro A, Patino-Douce AE, Correge LG, et al. Origin of peraluminous granites and granodiorites, Iberian massif, Spain:an experimental test of granite petrogenesis[J]. Contribution to Mineralogy and Petrology,1999,135 (2-3):255-276.
[460]Ferrara G, Lombardo B, Tonarini S and Tun B. Sr-Nd and O isotopic characterization of the Gophu La and Gumburanjun leucogranites (High Himalaya) [J]. Schweizerische Mineral Petrogr Mitteilungen,1991,71:35-51.
[461]Harris NBW, Inger S. Trace element modelling of pelite-derived granites[J]. Contribution to Mineralogy and Petrology,1992,110 (1):46-56.
[462]Sylvester PJ. Post-collisional strongly peraluminous granites[J]. Lithos,1998,45 (1):29-44.
[463]吴福元,李献华,杨进辉,等.花岗岩成因研究的若干问题[J]岩石学报,2007,23(6):1217-1238.
[464]Brown GC.Calc-alkaline intrusive rocks:Their diversity, evolution and relation to volcanic arcs[A]. In:Thorpe RS (ed). Andesites-orogenic andesites and related rocks[C]. New York:John Wiley and Sons,1982,437-464.
[465]李永飞,赖绍聪,秦江锋,等.碧口火山岩系地球化学特征及Sr-Nd-Pb同位素组成-晋宁期扬子北缘裂解的证据[J].中国科学(D辑),2007,37(增刊Ⅰ):295-306.
[466]Druschke PA, Hanson AD, Yan QR, et al. Stratigraphic and U-Pb SHRIMP detrital zircon evidence for a Neoproterozoic continental arc, Central China:Rodinia Iimplications[J].The Journal of Geology,2006,114:627-636.
[467]李庭柱,张仪娴.米仓山“铁船山组”火山岩系中的熔岩组合系列研究[J].西南工学院学报,1995,10(4):54-63.
[468]李建林,张万林,胡能高,等.川北米仓山地区晚前寒武纪熔结凝灰岩的发现及铁船山组时代归属的探讨[J].成都地质学院学报,1978,(02):26-41.
[469]唐海清.陕南碑坝地区晚前寒武纪地层[M].西北地质,1984,(1):57-69.
[470]张宗清,张国伟,唐索寒,等.汉南侵入杂岩年龄及其快速冷凝原因[J].科学通报,2000,45(23):2567-2571.
[471]陶洪祥,陈祥荣,冯鸿儒,等.汉南“西乡群”的地层划分与对比[J].西安地质学院学报,1982,(1):31-44.
[472]陶洪祥,陈祥荣,冯鸿儒,等.略论扬子古陆核北缘西段元古代岛弧火山岩的生成和演化[J].西安地质学院学报,1982,4(2):20-28.
[473]程建萍,凌文黎.米仓山新元古代岩浆岩省——一个潜在的Rodin ia重建方案验证地区[J].地质科技情报,2000,19(3):12-16.
[474]马永旺,王国芝,胡新伟.“彭灌杂岩”推覆体的构造变形特征[J].四川地质学报,1996,16(2):110-114.
[475]詹行礼,李远图,何绍府.1986.川西龙门山“彭灌杂岩”花岗岩成因类型及其构造环境初步探讨.成都地质学院学报,13(1):50-59.
[476]刘肇昌,赵彻经,钟康惠.晋宁—澄江期扬子板块西北缘的地体—板块构造[J].四川地质学报,1990,10(3):151-158.
[477]陈岳龙,罗照华,赵俊香,等.从锆石SHRIMP年龄及岩石地球化学特征论四川冕宁康定杂岩的成因[J].中国科学(D辑),2004,34(8):687-697.
[478]陈岳龙,唐金荣,刘飞,等.松潘-甘孜碎屑沉积岩的地球化学与Sm-Nd同位素地球化学[J].中国地质,2006,33(1):109-118.
[479]许继锋.米仓山碱性岩中的主要矿物研究及其成因信息[J].岩石矿物学杂志,1993,12(3):269-278.
[480]陆松年,李怀坤,陈志宏,等.秦岭中-新元古代地质演化及对Rodinia超级大陆事件的响应[M].北京:地质出版社,2003,95.
[481]刘文均,郑荣才,李祥辉.龙门山泥盆纪沉积盆地的古地理和古构造重建[J].地质学报,1999,73(2):109-119.
[482]冯增昭,杨玉卿,鲍志东.中国南方石炭纪岩相古地理[J].古地理学报,1999,1(1):75-86.
[483]张祖圻.中国石炭纪的岩相—古地理和古构造特征[J].大地构造与成矿学,1991,15(1):63-74.
[484]陈志明.扬子地台晚古生代沉积建造[J].沉积学报,1992,10(2):1-8.
[485]崔秉荃,卢武长,杨绍全.龙门山地区泥盆纪锶、碳同位素与海平面变化[J].成都地质学院学报,1993,20(2):1-8.
[486]朱利东,刘登忠,徐新煌.川北曾家地区二叠纪一早三叠世地层学研究[J].成都理工学院学报,1997,24(1):90-97.
[487]李霞,胡明毅,李士祥.龙门山米苍山前缘二叠系碳酸盐缓坡沉积[J].石油天然气学报(江汉石油学院学报),2005,27(1):36-37.
[488]四川省地质矿产局.四川省岩石地层[M].武汉:中国地质大学出版社,1997.
[489]杨雨,张静,张光荣.川东下三叠统飞仙关组鲕滩分布及其天然气勘探前景[J].成都理工学院学报,2000,27(增刊):147-150.
[490]魏国齐,陈更生,杨威,等.川北下三叠统飞仙关组“槽台”沉积体系及演化[J].沉积学报,2004,22(2):254-260.
[491]王恕一,黄继文,蒋小琼.塔里木盆地上奥陶统沉积及古地理特征[J].石油实验地质,2006,28(3): 236-248.
[492]冯仁蔚,王兴志,张帆,等.川西北广旺地区飞仙关组沉积岩石学特征及沉积环境分析[J].地质调查与研究,2007,30(2):98-109.
[493]王中刚,于学元,赵振华.稀土元素地球化学[M].北京:科学出版社,1989.
[494]赵振华.微量元素地球化学原理[M].北京:科学出版社,1997.
[495]Propach G, Baumann A, Schulz-Schmalschlager M, et al. Zircon and Monazite U-Pb Ages of Variscan Granitoid Rocks and Gneisses in the Moldanubian Zone of Eastern Bavaria, Germany[J]. Neues Jahrbuch Geologie und Palaontologie,2000,6:345-377.
[496]Schmidberger SS, Hegner E. Geochemistry and isotope systematics of calc-alkaline volcanic rocks from the Saar-Nahe basin (SW Germany)-implications for Late-Variscan orogenic development[J]. Contributions to Mineralogy and Petrology,1999,135,373-385.
[497]Pitcher WS. Granite type and tectonic environment[A]. In:Hsu K, eds. Mountain Building Processes[C]. London:Academic Press,1983,19-40.
[498]Williamson BJ, Shaw A, Downes H, et al. Geochemical constraints on the genesis of Hercynian two-mica leucogranites from the Massive Central, France [J]. Chemical Geology,1996,127:25-42.
[499]Forster HJ, Tischendorf G, Gottesmann B, et al. Late-collisional granites in the Variscan Erzgebirge, Germany [J]. Journal of Petrology,1999,40:1613-1645.
[500]Kalsbeek F, Jepsen H, Nutman A. From source migmatites to to plutons:tracking the origin of ca. 435Ma S-type granites in the East Greenland Caledonian orogen[J]. Lithos,2001,57:1-21.
[501]杨坤光,杨巍然.碰撞后的造山过程及造山带巨量花岗岩的成因[J].地质科技情报,1997,16(4):16-22.
[502]Turner SP, Platt JP, George RMM, et al. Magmatism associated orogenic collapse of the Betic-Alboran, SE Spain[J]. Journal of Petrology,1999,40 (6):1011-1033.
[503]韩宝福.后碰撞花岗岩类的多样性及其构造环境判别的复杂性[J].地学前缘,2007,14(3):64-72.
[504]林良彪,陈洪德,姜平,等.川西前陆盆地须家河组沉积相及岩相古地理演化[J].成都理工大学学报(自然科学版),2006,33(4):376-383.
[505]苟宗海.四川龙门山中段上三叠统须家河组特征[J].沉积与特提斯地质,2001,21(1):93-101.
[506]王全伟,梁斌,谢启兴,等.青川地区青川断裂带的显微构造及其变形条件研究[J].矿物岩石,2000,20(1):87-90.
[507]林茂炳,俞广.茂汶韧性断裂带(耿达-汶川段)的基本特征[J].成都理工学院学报,1997, 24(2):40-47.
[508]安其美,丁立丰,王海忠,等.龙门山断裂带的性质与活动性研究[J].大地测量与地球动力学,2004,24(2):115-119.
[509]唐文清,刘宇平,陈智梁,等.龙门山断裂构造带GPS研究[J].大地测量与地球动力学,2004,24(3):57-60.
[510]江富华.龙门山映秀二五龙大断层岩中石英的动态重结晶及“退火”重结晶现象[J].矿物岩石,1988,8(1):69-75.
[511]陶晓风.四川彭灌地区映秀断裂带的显微构造特征[J].成都地质学院学报,1992,19(1):18-24.
[512]胡新伟,王道永.映秀断裂带构造岩、显微构造及组构特征和形成机制讨论[J].成都理工学院学报,1995,22(4):54-59.
[513]马保起,苏刚,侯治华,等.利用岷江阶地的变形估算龙门山断裂带中段晚第四纪滑动速率[J].地震地质,2005,27(2):234-242.
[514]张季生,高锐,曾令森,等.龙门山及邻区重、磁异常特征及与地震关系的研究[J]_地球物理学报,2009,52(2):572-578.
[515]王绪本,余年,朱迎堂,等.龙门山逆冲构造带大地电磁测深初步成果[J].成都理工大学学报(自然科学版),2008,35(4):398-403.
[516]李渭娟,梁桂培,姚政生.龙门山及其邻区地球物理场与地震的关系[J].华南地震,1995,15(2):34-41.
[517]李远图.龙门山南西段飞来峰构造的基本特征[J].中国区域地质,1989,(3):247-249.
[518]唐若龙.龙门山一大雪山一锦屏山推覆构造带特征[J].四川地质学报,1991,11(1):1-9.
[519]林茂炳.初论龙门山推覆构造带的基本结构样式[J].成都理工学院学报,1994,21(3):1-7.
[520]王天泽.龙门山逆冲作用在川西盆地演化及油气勘探中的意义[J].现代地质,1997,11(4):496-500.
[521]林良彪.川西前陆盆地上三叠统须家河组沉积相及岩相古地理演化[D].成都理工大学硕士学位论文,2005.
[522]丁仨平,裴先治,李佐臣,等.祁连造山带中段雾宿山群的构造属性探讨[J].中国地质,2008,35(4):577-589.
[523]Dewey JF, Shackelton RM, Cheng C, et al. The tectonic evolution of the Tibetan plateau[J]. Philosophical Transactions of the Royal Society,1988, A327:379-413.
[524]张宏飞,靳兰兰,张利,等.基底岩系和花岗岩类Pb-Nd同位素组成限制祁连山带的构造属 性[J].地球科学,2006,31(1):57-65.
[525]勾永东,徐天德.川西反s形构造岩浆带北段侵入岩岩石构造组合序列的划分[J].四川地质学报,2002,22(2):65-71.
[526]徐世球,佘继完.四川省剑门关一带晚侏罗世沉积体系与古环境演化[J].地球科学——中国地质大学学报,2001,26(3):235-240.
[527]邓广君.龙门山前缘构造样式与构造演化研究[D].成都理工大学硕士学位论文,2005.
[528]邓明森.米仓山区盖层褶皱构造变形分析[J].矿物岩石,1997,17(增刊):132-142.
[529]吴世祥,汤良杰,马永生,等.四川盆地米仓山前陆冲断带成藏条件分析[J].地质学报,2006,80(3):337-343.
[530]刘树根,罗志立,戴苏兰,等.川西前陆盆地的“四川运动”及与油气的关系[J].石油与天然气地质,1996,17(4):276-281.
[531]庄忠海.四川盆地雅安地区白垩系至下第三系古地磁研究[J].物探与化探,1988,3:10-14.
[532]唐荣昌,韩渭宾,等.四川活动断动断裂与地震[M].北京:地震出版社,1993,67-138.
[533]陈智梁,张选阳,沈凤,等.中国西南地区地壳运动的GPS监测[J].科学通报,1999,4(8):851-854.
[534]王二七,Burchfiel BC, Rogden RH,等.滇中小江走滑剪切带晚新生代挤压变形研究[J].地质科学,1995,30(3):209-219.
[535]季建清,钟大赉,张连生.滇西南新生代走滑断裂运动学,年代学,及对青藏高原东南部块体运的意义[J].地质科学,2000,35(3):336-349.
[536]王晓鹏,吴根耀,钟大赉.受红河断裂控制的晚第三纪走滑松弛盆地一以漠沙盆地为例[J].地质科学,2001,36(3):370-379.
[537]何顺东,丁林,吴根耀,等.藏南格仁错地区孜桂错断裂的第四纪活动及其构造意义[J].地质科学,2002,37(1):8-12.
[538]张岳桥,陈文、杨农.川西鲜水河断裂带晚新生代剪切变形40Ar/39Ar测年及其构造意义[J].中国科学D辑(地球科学),2004,34(7):613-621.
[539]郑德文,张培震,万景林,等.西秦岭北缘中生代构造活动的40Ar/39Ar, FT热年代学证据[J].岩石学报,2004,20(3):697-706.
[540]周荣军,陈国星,李勇,等.四川西部理塘-巴塘地区的活动断裂与1989年巴塘6.7级震群发震构造研究[J].地震地质,2005,27(1):31-43.
[541]吴根耀.华南的格林威尔造山带及其坍塌:在罗迪尼亚超大陆演化中的意义[J].大地构造与成 矿学,2000,24(2):112-123.
[542]刘和甫,李小军,刘立群.地球动力学与盆地层序及油气系统分析[J].现代地质,2003,17(1):80-86.
[543]赵宗举,俞广,朱琰,等.中国南方大地构造演化及其对油气的控制[J].成都理工大学学报(自然科学版),2003,30(2):155-168.
[544]陈发景,汪新文,陈昭年,等.伸展断陷盆地分析[M].北京:地质出版社,2004:169-178.
[545]王剑.华南“南华系”研究新进展——论南华系地层划分与对比[J].地质通报,2005,24(6):491-495.
[546]陈懋弘,梁金城,张桂林,等.加里东期扬子板块与华夏板块西南段分界线的岩相古地理制约[J].高校地质学报,2006,12(1):111-122.
[547]汪新伟,沃玉进,张荣强.扬子克拉通南华纪-早古生代的构造-沉积旋回[J].现代地质,2008,22(4):525-533.
[548]吴朝东.湘西震旦-寒武纪交替时期古海洋环境的恢复[J].地学前缘,2000,7(增刊):45-57.
[549]严德天,王清晨,陈代钊,等.扬子及周缘地区上奥陶统-下志留统烃源岩发育环境及其控制因素[J].地质学报,2008,82(3):321-327.
[550]刘宝珺,许效松.中国南方岩相古地理图集(震旦纪-三叠纪)[M].北京:科学出版社,1994.
[551]Rong JY, Chen X,Su YZ, et al. Silurian paleogeography of China[A]. In:Landing E, Johnson ME. Silurian Lands and Seas:Paleogeography, Outside of Laurentia[C]. New York:New York State Museum Bulletin,2003,493:243-298.
[552]楼雄英,谭钦银,贾保江.龙门山北段志留系宁强组沉积特征和空问相变[J].沉积与特提斯地质,2002,22(3):74-79.
[553]曾允孚,张锦泉,刘文均,等.中国南方泥盆纪岩相古地理与成矿作用[M].北京:地质出版社,1993,1-140.
[554]覃建雄,曾允孚,黄志勋,等.四川龙门山马角坝地区石炭纪层序地层及海平面变化研究[J].岩相古地理,1996,16(1):19-33.
[555]李学森,吴汉宁,黄宝春,等.四川江油-北川地区下石炭统灰岩的古地磁研究[J].地球物理学进展,2002,17(3):406-413.
[556]Royden LH, Burchfiel BC, King RW, et al. Surface deform ation an d lower crustal flow in eastern Tibet[J]. Science,1997,276:788-790.
[557]Clark MK, House MA, Royden LH, et al. Late Cenozoic uplift of southeastern Tibet[J]. Geology, 2005,33(6):525-528.
[558]朱守彪,石耀霖.青藏高原地形扩展力以及下地壳对上地壳的拖曳力的遗传有限单元法反演[J].北京大学学报(自然科学版),2005,41(2):225-234.
[559]王椿镛,吴建平,楼海,等.青藏高原东部壳幔速度结构和地幔变形场的研究[J].地学前缘,2006,13(5):349-359.
[560]牛之俊,王敏,孙汉荣,等.中国大陆现今地壳运动速度场的最新观测结果[J].科学通报,2005,50(8): 839-840.
[2]罗志立.龙门山造山带岩石圈演化动力学模式[J].成都地质学院学报,1991,18(1):1-7.
[3]许志琴,侯立玮,王宗秀,等.中国松潘-甘孜造山带的造山过程[M].北京:地质出版社,1992,1-190.
[4]刘和甫,梁慧社,蔡立国,等.川西龙门山冲断系构造样式与前陆盆地演化[J].地质学报,1994,68(2):101-118.
[5]刘和甫.前陆盆地类型及褶皱-冲断层样式[J].地学前缘,1995,2(3-4):59-68.
[6]刘和甫.盆地-山岭耦合体系与地球动力学机制[J].地球科学——中国地质大学学报,2001,26(6):581-596.
[7]颜丹平,宋鸿林,傅照仁.扬子地台西缘江浪变质核杂岩的出露地壳剖面构造地层柱[J].现代地质,1997,11(3):290-297.
[8]李佐臣.扬子地块西北缘轿子顶变质核杂岩构造特征及其地质意义[D].长安大学硕士学位论文,2006.
[9]李勇,曾允孚.龙门山前陆盆地充填序列[J].成都理工学院学报,1994,21(3):46-55.
[10]王道永.龙门山中段中生代前陆盆地的构造演化史[J].成都理工学院学报,1994,21(3):20-28.
[11]曾允孚,李勇.龙门山前陆盆地形成与演化[J].矿物岩石,1995,15(1):40-49.
[12]刘树根,赵锡奎,罗志立,等.龙门山造山带-川西前陆盆地系统构造事件研究[J].成都理工学院学报,2001,28(3):221-230.
[13]张箭,徐强,廖仕孟,等.川西龙门山前陆盆地构造沉降初步分析[J].沉积与特提斯地质,2002,22(4):67-72.
[14]陈竹新,贾东,魏国齐,等.川西前陆盆地中-新生代沉积迁移与构造转换[J].中国地质,2008,35(3):472-481.
[15]李勇,曾允孚,尹海生.龙门山前陆盆地沉积及构造演化[M].成都:成都科技大学出版社,1995.
[16]许志琴,侯立玮,王宗秀.松潘-甘孜造山带构造研究新进展[J].中国地质,1991,(12):14-16.
[17]胡健民,孟庆任,石玉若,等.松潘-甘孜地体内花岗岩锆石SHRIMP U-Pb定年及其构造意义[J].岩石学报,2005,21(3):867-880.
[18]雷裕红,马昌前,王国灿.巴颜喀拉沉积盆地基底为扬子地台西缘的一部分:来自花岗岩的证 据[J].高校地质学报,2006,12(3):298-309.
[19]赵永久,袁超,周美夫,等.川西老君沟和孟通沟花岗岩的地球化学特征、成因机制及对松潘-甘孜地体基底性质的制约[J].岩石学报,2007,23(5):995-1006.
[20]赵永久,袁超,周美夫,等.松潘甘孜造山带早侏罗世的后造山伸展:来自川西牛心沟和四姑娘山岩体的地球化学制约[J].地球化学,2007,36(2):139-152.
[21]刘鹤,颜丹平,魏国庆.扬子板块西北缘碧口地块变形变质作用序列——松潘一甘孜造山带伸展垮塌事件的意义[J].地质学报,2008,82(4):464-474.
[22]郭安林,张国伟,程顺有.超越板块构造——大陆地质研究新机遇评述[J].自然科学进展,2004,7(14),729-733.
[23]Suess E. Das Antlitz der Erde (Band Ⅰ-Ⅳ) [M].Temmsky Wien,1875,65-78.
[24]KronerA. Proterzoie Mobile Belts Compatible with the Plate Tectonie Coneept[J]. Geologeal Soeiety Ameriea Memoir,1983,161:59-73.
[25]Tapponier P, Peltzer D, Armmijo R. On the mechanics of the collision between India and Asia[J]. Geological Society London Special Publications,1986,19:115-157.
[26]Sengor AMC. Plate Tectonics and Orogenic Research after 25 Years.-A Tethyan perspective[J]. Earth Science Reviews,1990,27,1-201.
[27]杨巍然,杨坤光,刘忠明,等.桐柏-大别造山带加里东期构造-热事件及其意义[J].地学前缘,1994,6(4):247-253.
[28]杨志华,张传林,朱立华,等.秦岭造山带结构与演化若干问题的再认识[J].地学前缘,1999,10(4):273282.
[29]Hsu KJ, Chen H. Geologic atlas of China:an application of the tectonic fades concept to the geology of China Amsterdame Netherlands[M]. Elsevier Science BV,1999,1-262.
[30]Mattauar M, Malavieille J, Calassou S, et al. The Songpan-Garze Triassic belt of west Sichuan and eastern Tibet:a decollement fold belt on passive margin[J]. Comptes Rendus Academy of Sciences Paris,1992,314 (6):619-626.
[31]崔盛芹.论全球性中-新生代陆内造山作用与造山带[J].地学前缘(中国地质大学,北京),1999,6(4):283-293.
[32]张原庆,钱祥麟,李江海.造山作用概念和分类[J].地质论评,2002,48(2):193-197.
[33]张原庆,钱祥麟,李江海.造山作用的两大类型与成因差异[J].吉林大学学报(地球科学版),2002,32(1):5-10.
[34]Wilson JT. On the building and classification of mountains[J]. Journal of Geophysical Research, 1990,95 (B5):6611-6628.
[35]Dewey JF, Bird J. Mountain belt of the new global tectonics[J]. Journal of Geophysical Research, 1970,75:2625-2647.
[36]Bally AW. Dynamics Geology of Oil and Gas, Glohal Tectonics and Petroleum Exploration[M]. Beijing:Oil and Chemical Industry Press,1975.
[37]Sengor AMC. Plate tectonics and orogenic research after 25 years[J]. Synopsis of A Tethyan Perspective Tectonophysies,1991,187 (1-3):315-344.
[38]李继亮,孙枢,郝杰,等.论碰撞造山带的分类[J].地质科学,1999,34(2):129-138.
[39]Sengor AMC, Natalin BA. Paleotectonics of Asia:fragments of a synthesis [A]. In:Yin A, Harrison TM eds. The Tectonics of Asia[C]. New York:Cambridge University Press,1996,486-640.
[40]罗志立.试论中国型(C-型)冲断带及其油气勘探问题[J].石油与天然气地质,1984,5(4):315-324.
[41]许志琴.陆内俯冲及滑脱构造-以我国几个山链的地壳变形研究为例[J].地质论评,1986,32(1):79-90.
[42]邓万明.西藏阿里地区北部新生代火山岩——兼论陆内俯冲作用[J].岩石学报,1989,5(3):1-11.
[43]葛肖虹.华北板内造山带的形成史[J].地质论评,1989,35(3):254-261.
[44]杨巍然.断裂造山带[J].地球科学,1989,14(1):9-18.
[45]刘树根,罗志立,宋鸿彪,等.四川龙门山冲断带中北段岩石圈结构研究[J].石油与天然气地质,1990,11(1):86-95.
[46]刘树根,罗志立,曹树恒.一种新的陆内俯冲类型——龙门山型俯冲成因机制研究[J].石油实.验地质,1991,13(4):314-324.
[47]杨巍然,王豪.中国板块构造概况[J].地球科学——中国地质大学学报,1991,16(5):505-513.
[48]邓晋福,赵海玲,赖绍聪,等.白云母/二云母花岗岩形成与陆内俯冲作用[J].地球科学——中国地质大学学报,1994,19(2):139-147.
[49]罗志立.试评A-型俯冲带术语在中国大地构造学中的应用[J].石油实验地质,1994,16(4):317-324.
[50]邓晋福,赵海玲,莫宣学,等.扬子大陆的陆内俯冲与大陆的缩小——由白云母(二云母)花岗岩推导[J].高校地质学报,1995,1(1):50-57.
[51]罗志立,宋鸿彪,赵锡奎.C-俯冲带及对中国中西部造山带形成的作用[J].石油勘探与开发,1995,22(2):1-7.
[52]赵宗溥.试论陆内型造山作用[J].地质科学,1995,30(1):19-18.
[53]蔡学林,魏显贵,刘援朝,等.中国陆内造山带造山过程地球动力学分析[J].矿物岩石,1998,18(增刊):1-7.
[54]宋鸿林.燕山式板内造山带基本特征与动力学探讨[J].地学前缘,1999,6(2):309-316.
[55]张长厚.初论板内造山带[J].地学前缘,1999,6(4):295-308.
[56]张国伟,张本仁,袁学诚,等.秦岭造山带与大陆动力学[M].北京:科学出版社,2001,1-855.
[57]杨志华,李勇,苏生瑞,等.论陆内造山作用和陆内造山带[J].矿物岩石.2001,81(3):169-172.
[58]罗志立,刘树根.评述“前陆盆地”名词在中国西部含油气盆地中的应用[J].地质论评,2002,48(4):398-407.
[59]万天丰,赵维明.论中国大陆的板内变形机制[J].地学前缘(中国地质大学,北京),2002,9(2):451-463.
[60]张长厚,吴正文.造山带构造研究中几个重要学术概念问题的讨论[J].地质论评,2002,48(4):337-344.
[61]刘树根,罗志立,赵锡奎,等.中国西部盆山系统的耦合关系及其动力学模式——以龙门山构造带-川西前陆盆地系统为例[J].地质学报,2003,77(2):177-186.
[62]刘树根,罗志立,赵锡奎,等.试论中国西部陆内俯冲型前陆盆地的基本特征[J].石油与天然气地质,2005,26(1):37-56.
[63]张长厚.大陆板内构造变形及其动力学机制[J].地学前缘,2008,15(3):140-149.
[64]Sandiford M, Hand M. Controls on the locus of intraplate deformation in central Australia[J]. Earth and Planetary Science Letters,1998,162:97-110.
[65]Martin H, Sandiford M. Intraplate deformation in central Australia, the link between subsidence and fault reactivation[J]. Tectonophysics,1999,305 (1-3):121-140.
[66]闫义,林舸,李自安,等.中新生代陆内造山带的地层学研究——以燕辽造山带为例[J].沉积与特提斯地质,2002,22(1):60-64.
[67]Hatcher RD Jr, Williams RT. Mechanical model for single thrust sheets Part I:Crystalline thrust sheets and their relationships to the mechanical/thermal behaviour of orogenic belts[J]. Geological Society of America Bulletin.1986,97:975-985.
[68]Hatcher RD Jr, Hooper RJ. EvoLution of crystalline thrust sheets in the internel part of mountain chain[A]. In:McClay KR. Thrust Tectonics[C]. London:Chapman and Hall,1992:817-233.
[69]Escher A, Masson H, Steck A. Nappe geometry in the Western Swiss Alps[J]. Journal of Structural Geology,1993,15 (3-5):501-509.
[70]Hatcher RD Jr. Structural geology-principles,concepts, and problems[M]. New jersey:Prentice-Hall lnc,1995:525.
[71]Epard JL, Escher A. Transition from basement to cover:a geometric model[J]. Journal of Structural Geology,1996,18 (5):533-548.
[72]Escher A, Beaumont C. Formation, burial and exhumation of basement nappes at crustal scale:a geometric model based on the Western Swiss-Italian Alps[J]. Journal of Structural Geology,1997,19 (7):955-974.
[73]Davis GH, Coney PJ. Geologic development of the Cordilleran metamorphic core complexes[J]. Geology,1979,7:120-124.
[74]Coney PJ. Cordilleran metamorphic core complexes:an overview[J]. Geological Society of America Memoir,1980,153:7-31.
[75]Crittenden MD Jr. Metamorphic core complexes of the North American Cordillera[A]. In:Crittenden MD Jr, Coney PJ, Davis GH eds. Cordillrean Metamorphic Core Complexes[C]. Geological Society of America Memoir,1980,153:485-490.
[76]Wernicke B. Low-angle normal faults in the Basin and Range Province:nappe tectonics in an extending orogen[J]. Nature,1981,291:645-648.
[77]钱祥麟.伸展构造研究[M].北京:地质出版社,1994.
[78]宋鸿林.变质核杂岩研究进展、基本特征及成因探讨[J].地学前缘,1995,2(1-2):1-10.
[79]张家声.造山后伸展构造研究的最新进展[J].地学前缘,1995,29(1/2):67-83.
[80]张进江,郑亚东.变质核杂岩与岩浆作用成因关系综述[J].地质科技情报,1998,17(1):9-23.
[81]宋鸿林.关于变质核杂岩构造特征的几个问题[J].地质通报,2002,21(4-5):193-197.
[82]刘德民.中国变质核杂岩的基本特征[J].现代地质,2003,17(2):125-130.
[83]Li ZX, Li XH, Kinny PD, et al. The breakup of Rodinia:Did it start with a mantle plume beneath South China[J]. Earth and Planetary Science Letters,1999,173:171-181.
[84]沈渭洲,凌洪飞,徐士进,等.扬子板块西缘北段新元古代花岗岩类的地球化学特征和成因[J].地质论评,2000,46(5):512-519.
[85]李献华,周汉文,李正祥,等.扬子块体西缘新元古代双峰式火山岩的锆石U-Pb年龄和岩石 化学特征[J].地球化学,2001,30(4):315-322.
[86]Ling HF, Shen WZ, Wang RC, et al. Geochemical characteristics and genesis of Neoproterozoic granitoids in the northwestern margin of the Yangtze block[J]. Physics and Chemistry of the Earth, 2001,26 (9-10):805-819.
[87]凌文黎,王歆华,程建萍.扬子北缘晋宁期望江山基性岩体的地球化学特征及其构造背景[J].矿物岩石地球化学通报,2001,20(4):218-222.
[88]Li XH, Zheng XL, Zhou HW, et al. U-Pb zircon geochronology, geochemistry and Nd isotopic study of Neoproterozoic bimodal volcanic rocks in the Kang-dian Rift of South China:Implications for the initial rifting of Rodinia[J]. Precambrian Research,2002,113:135-154.
[89]Li ZX, Li XH, Zhou H, et al. Grenville-aged continental collision in South China:New SHRIMP U-Pb zircon results and implication for Rodinia configuration[J]. Geology,2002,30:163-166.
[90]李献华,李正祥,周汉文,等.川西新元古代玄武质岩浆岩的锆石U-Pb年代学、元素和Nd同位素研究:岩石成因与地球动力学意义[J].地学前缘,2002,9(4):329-338.
[91]李献华,李正祥,周汉文,等.川西南关刀山岩体的SHRIMP锆石U-Pb年龄、元素和Nd同位素地球化学-岩石成因与构造意义[J].中国科学(D辑),2002,32(增刊):60-68.
[92]凌文黎,高山,欧阳建平,等.西乡群的时代与构造背景:同位素年代学及地球化学制约[J].中国科学(D),2002,32(2):101-112.
[93]沈渭洲,高剑锋,徐士进,等.扬子板块西缘泸定桥头基性杂岩体的地球化学特征和成因[J].高校地质学报,2002,8(4):380-389.
[94]颜丹平,周美夫,宋鸿林,等.华南在Rodina古陆中位置的讨论——扬子地块西缘变质-岩浆杂岩证据及其与Seychelles地块的对比[J].地学前缘,2002,9(4):249-256.
[95]Zhou MF, Kennedy AK, Sun M, et al. Neoproterozoic arc-related mafic intrusions along the northern margin of South China:Implications for accretion of Rodinian[J]. Journal of Geology,2002,110: 611-618.
[96]Zhou MF, Yan DP, Kennedy AK, et al. SHRIMP U-Pb zircon geochronological and geochemical evidence for Neoproterozoic arc-magmatism along the western margin of the Yangtze Block, South China[J]. Earth and Planetary Science Letters,2002,196:51-67.
[97]Li ZX, Li XH, Kinny PD, et al. Geochronology of Neoproterozoic syn-rift magmatism in the Yangtze Craton, South China and correlations with other continents:Evidence for a mantle superplume that broke up Rodinia[J]. Precambrian Research,2003,122 (1-4):85-109.
[98]Li XH, Li Z, Ge WC, et al. Neoproterozoic granitoids in South China:Crustal meting above a mantle plume at ca.825Ma[J]. Precambrian Research,2003,122:45-83.
[99]Ling WL, Gao S, Zhang BR, et al. Neoproterozoic tectonic evolution of the northern Yangtze craton, South China:Implications for amalgamation and break-up of the Rodinia Supercontinent[J]. Precambrian Research,2003,122:111-140.
[100]沈渭洲,高剑锋,徐士进,等.四川盐边冷水箐岩体的形成时代和地球化学特征[J].岩石学报,2003,49(1):27-37.
[101]沈渭洲,高剑锋,徐士进,等.四川石棉蛇绿岩的地球化学特征及其构造意义[J].地质论评,2003,49(1):17-27.
[102]Wang XL, Zhou JC, Qiu JS, et al. Geochemistry of the Meso-to Neoproterozoic basic-acid rocks from Hunan Province, South China:Implication for the evolution ofwestern Jiangnan orogen[J]. Precambrian Research,2004,135:79-103.
[103]朱维光,邓海琳,刘秉光,等.四川盐边高家村镁铁-超镁铁质杂岩体的形成时代:单颗粒锆石U-Pb和角闪石40Ar/39Ar年代学制约[J].科学通报,2004,49(10):985-992.
[104]朱维光,刘秉光,邓海琳,等.扬子地块西缘新元古代镁铁-超镁铁质岩研究进展[J].矿物岩石地球化学通报,2004,23(3):255-264.
[105]杜利林,耿元生,杨崇辉,等.扬子地台西缘盐边群玄武质岩石地球化学特征及SHRIMP锆石U-Pb年龄[J].地质学报,2005,79(6):805-813.
[106]李志红,罗照华,陈岳龙,等.康定变质侵入岩的年代学及岩石地球化学特征[J].地球学报,2005,26(增刊):87-89.
[107]杜利林,耿元生,杨崇辉,等.扬子地台西缘新元古代TTG的厘定及其意义[J].岩石矿物学杂志,2006,25(4):273-281.
[108]Li XH, Li ZX, Sinclair JA, et al. Revisiting the" Yanbian Terrane":Implications for Neoproterozoic tectonic evolution of the western Yangtze, South China[J]. Precambrian Research,2006,151(1-2): 14-30.
[109]林广春,李献华,李武显.川西新元古代基性岩墙群的SHRIMP锆石U-Pb年龄、元素和Nd-Hf同位素地球化学:岩石成因与构造意义[J].中国科学(D辑),2006,36(7):630-645.
[110]凌文黎,高山,程建萍,等.扬子陆核与陆缘新元古代岩浆事件对比及其构造意义——来自黄陵和汉南侵入杂岩LA-ICP MS锆石U-Pb同位素年代学的约束[J].岩石学报,2006,22(2):387-397.
[111]Wang XL, Zhou JC, Qiu JS, et al. LA-ICP-MS zircon geochronology of the Neoproterozoic igneous rocksfrom northern Guangxi, South China:Implication for tectonic evolution[J]. Precambrian Research,2006,145:111-130.
[112]Wu RX, Zheng YF, Wu YB, et al. Reworking of juvenile crust:Element and isotope evidence from Neoproterozoic granitoids in South China[J]. Precambrian Research,2006,146:179-212.
[113]赵俊香,陈岳龙,李志红.康定杂岩锆石SHRIMP U-Pb定年及其地质意义[J].现代地质,2006,20(3):378-385.
[114]赵凤清,赵文平,左义成,等.陕南汉中地区新元古代岩浆岩U-Pb年代学[J].地质通报,2006,25(3):383-388.
[115]Zhu WG, Zhong H, Deng H, et al. SHRIMP zircon U-Pb age, geochemistry, and Nd-Sr isotopic of Gaojiacun mafic-ultramafic intrusive complex, Southwest China[J]. International Geology Review,2006,48:650-668.
[116]Zhou MF, Ma YX, Yan DP, et al. The Yanbian terrane (Southern Sichuan Province, SW China): A Neoproterozoic arc assemblage in the western margin of the Yangtze Block[J]. Precambrian Research,2006,144:19-38.
[117]Zhou MF, Yan DP, Wang CL, et al. Subduction-related origin of the 750Ma Xuelongbao adakitic complex (Sichuan Province, China):Implications for the tectonic setting of the giant Neoproterozoic magmatic event in South China[J]. Earth and Planetary Science Letters,2006,248:286-300.
[118]Zheng YF, Zhao ZF, Wu YB, et al. Zircon U-Pb age.Hf and O isotope constraints on protolith origin of ultrahigh-pressure eclogite and gneiss in the Dabie orogen[J]. Chemical Geology,2006,231: 135-138.
[119]杜利林,耿元生,杨崇辉,等.扬子地台西缘康定群的再认识:来自地球化学和年代学证据[J].地质学报,2007,81(11):1562-1577.
[120]耿元生,杨崇辉,王新社,等.扬子地台西缘结晶基底的时代[J].高校地质学报,2007,13(3):429-441.
[121]Li ZX, Wartho JA, Occhipinti S, et al. Early history of the eastern Sibao orogen (South China) during the assembly of Rodina:New mica 40Ar/39Ar dating and SHRIMP U-Pb detrital zircon provenance constrints[J]. Precambrian Research,2007,59 (1-2):79-94.
[122]李鹏春,陈广浩,许德如,等.湘东北新元古代过铝质花岗岩的岩石地球化学特征及其成因讨论[J].大地构造与成矿学,2007,31(1):126-136.
[123]Munteanu M, Yao Y. The Gaojiacun intrusion:Rift or subduction-related? Comment on "Revisiting the Yanbian Terrane":Implication for Neoproterozoic tectonic evolution of the western Yangtze Block, South China[J].Precam brian Research,2007,155:324-327.
[124]Wang XL, Zhou JC, Griffin WL, et al. Detrital zircon geochronology of Precambrian basement sequences in the Jiangnan orogen:Dating the assembly of the Yangtze and Cathaysia blocks[J]. Precambrian Research,2007,159:117-131.
[125]Wu YB, Zheng YF, Tang J, et al. Zircon U-Pb dating of water-rock interaction during Neoproterozoic rift magmatism in South China[J].Chemical Geology,2007,246:65-86.
[126]Zhao JH, Zhou MR Geochemistry of Neoproterozoic mafic intrusions in the Panzhihua district (Sichuan Province, SW China):Implications for subduction-related metasomatism in the uppermantle[J]. Precambrian Research,2007,152:27-47.
[127]Zhou MF, Zhao JH, Xia XP, et al. Comment on "Revisiting the Yanbian Terrane":Implications for Neoproterozoic tectonic evolution of the western Yangtze Block, South China[J]. Precambrian Research,2007,155:313-317.
[128]Zheng YF, Zhang SB, Zhao ZF, et al. Contrasting zircon Hf and O isotope in the two episodes of Neoproterozoic granitoids in South China:Implications for growth and reworking of continental crust[J]. Lithos,2007,96:127-150.
[129]李大鹏,陈岳龙,罗照华,等.四川康定-冕宁地区变质侵入岩的地球化学及Nd同位素研究[J].岩石学报,2008,24(6):1251-1260.
[130]李献华,王选策,李武显,等.华南新元古代玄武质岩石成因与构造意义:从造山运动到陆内裂谷[J].地球化学,2008,37(4):382-399.
[131]李志红,罗照华,陈岳龙,等.康定-泸定地区变质侵入岩的地质地球化学特征及其构造环境[J].现代地质,2008,22(2):181-189.
[132]Wang XL, Zhou JC, Qiu JS, et al. Geochronology and geochemistry of Neoproterozoic mafic rocks from western Hunan, South China:Implication for petrogenesis and post-orogenic extension[J]. Geological Magazine,2008,145:215-233.
[133]张沛,周祖翼,许长海,等.川西龙门山彭灌杂岩地球化学特征:岩石成因与构造意义[J].大地构造与成矿学,2008,32(1):105-116.
[134]Zheng YF, Wu RX, Wu YB, et al. Rift melting of juvenile arc-derived crust:Geochemical evidence from Neoproterozoic volcanic and graniticrocks in the Jiangnan orogen, South China[J]. Precambrian Research,2008,163 (3-4):351-383.
[135]Zhu WG, Zhong H, Deng HL, et al. SHRIMP zircon U-Pb geochronology, elemental, and Nd isotopic geochemistry of the Neoproterozoic mafic dykes in the Yanbian aera, SW China[J]. Precambrian Research,2008,164 (1-2):66-85.
[136]谢士稳,高山,柳小明,等.扬子克拉通南华纪碎屑锆石U-Pb年龄、Hf同位素对华南新元古代岩浆事件的指示[J].地球科学——中国地质大学学报,2009,34(1):117-126.
[137]卢华复,董火根,邓锡殃,等.前龙门山前陆盆地推覆构造的类型和成因[J].南京大学学报,1989,25(4):32-41.
[138]林茂炳,吴山.龙门山推覆构造变形特征[J].成都地质学院学报,1991,18(1):46-55.
[139]龙学明.龙门山中北段地史发展中的若干问题[J].成都地质学院学报,1991,18(1):8-14.
[140]代建全.四川省青川断裂的特征及形成的物理条件[J].四川地质学报.1992,12(4):311-319.
[141]罗志立,龙学明.龙门山造山带崛起和川西陆前盆地沉降[J].四川地质学报,1992,12(1):1-17.
[142]刘树根.龙门山冲断带与川西前陆盆地的形成演化[M].成都:成都科技大学出版社,1993.
[143]Chen SF, Wilson CJL, DengQ D, et al. Active faulting and block movement associated with large earthquakes in the Min Shan and Longmen Mountains, Northeastern Tibetan Plateau[J]. Journal of Geophysical Research,1994,99:24025-24038.
[144]陈社发,邓起东,赵小麟,等.龙门山中段推覆构造带及相关构造的演化历史和变形机制(一)[J]_地震地质,1994,16(4):404-420.
[145]陈社发,邓起东,赵小麟.龙门山中段推覆构造带及相关构造的演化历史和变形机制(二)[J].地震地质,1994,16(4):413-421.
[146]Dirks PHG, Wilson CJL, Chen S, et al. Tectonic evolution of the NE margin of the Tibetan plateau: evidence from the central Longmen mountains, Sichuan Province, China[A]. 见:罗志立主编.龙门山造山带的崛起和四川盆地的形成[C].成都:成都科技大学出版社,1994,230-248.
[147]文德华.龙门山北段断裂活动特征[J].四川地震,1994,(1):53-57.
[148]Worley BA, Wilson CJL, Liu S, et al. Structural observation from Wenchuan-Mouwen metamorphic belt, Longmen mountains, China[A].见:罗志立主编.龙门山造山带的崛起和四川盆地的形成[C].成都:成都科技大学出版社,1994,265-284.
[149]Burchfiel BC, Chen ZL, Liu YP, et al. Tectonics of the Longmen Shan and adjacent regions, central China[J]. International Geology Re view,1995,37:661-735.
[150]Dirks PHG, Wilson CJL, Chen S, et al. Tectonic evolution of the NE margin of the Tibetan plateau: evidence from the central Longmen mountains Sichuan Province, China[J]. Journal of Southeast Asian Earth Sciences,1995,9 (1-2):181-192.
[151]李勇,曾允孚.龙门山逆冲推覆作用的地层标识[J].成都理工学院学报,1995,22(2):1-10.
[152]刘树根,童崇光,罗志立,等.川西晚三叠世前陆盆地的形成与演化[J].天然气工业,1995,15(2): 11-15.
[153]Worley BA, Wilson CJL. Deformation partitioning and foliation reactivation during transpressional orogenesis, an example from the Central Longmen Shan, China[J]. Journal of Structural Geology, 1996,18 (4):395-411.
[154]蔡学林,魏显贵,刘援朝,等.论楔入造山作用——以龙门山造山带为例[J].四川地质学报,1996,16(2):97-101.
[155]Chen SF, Wilson CJL. Emplacement of the Longmen Shan Thrust2Nappe Belt along the eastern margin of the Tibetan Plateau[J]. Journal of Structural Geology,1996,18 (4):413-430.
[156]郭正吾,邓康龄,韩永辉,等.四川盆地形成与演化[M].北京:地质出版社,1996,1-200.
[157]林茂炳,苟宗海,王国芝,等.四川龙门山造山带造山模式研究[M].成都:成都科技大学出版社,1996.
[158]Wang JQ. Relationship between tectonic evolution and hydrocarbon in the foreland of the Longmen mountains[J]. Journal of Southeast Asian Earth Sciences,1996,13 (3-5):327-336.
[159]Worley BA, Powell R, Wilson CJL. Crenulation cleavage formation:Evolving diffusion, deformation and equilibration mechanisms with increasing metamorphic grade[J]. Journal of Structural Geology, 1997,19 (8):1121-1135.
[160]潘桂棠,陈智粱,李兴振,等.东特提斯地质构造形成演化[M].北京:地质出版杜,1997,1-237.
[161]骆耀南.龙门山-锦屏山陆内造山带[M].成都:四川科学技术出版社,1998.
[162]王二七,孟庆任,陈智,等.龙门山断裂带印支期左旋走滑运动及其大地构造成因[J].地学前缘,2001,8(2):375-384.
[163]刘和甫.盆地-山岭耦合体系与地球动力学机制[J].地球科学——中国地质大学学报,2001,26(6):581-596.
[164]贾东,陈竹新,贾承造,等.龙门山前陆褶皱冲断带构造解析与川西前陆盆地的发育[J].高校地质学报,2003,9(3):402-469.
[165]陈竹新,贾东,张惬,等.龙门山浅露褶皱冲断带的平衡剖面分析[J].地质学报,2005,79(1):38-45.
[166]李勇,Densmore AL,周荣军,等.青藏高原东缘龙门山晚新生代剥蚀厚度与弹性挠曲模拟[J].地质学报,2005,79(5):608-615.
[167]蒋良文,王士天,王运生等.川西北断块东部区域活动构造体系及其对地震活动的控制作用[J].成都理工大学学报(自然科学版),2005,32(4):340-344.
[168]唐文清,陈智梁,刘宇平,等.青藏高原东缘鲜水河断裂与龙门山断裂交会区现今的构造活动[J].地质通报,2005,24(12):1169-1172.
[169]李勇,周荣军,Densmore AL,等.青藏高原东缘龙门山晚新生代走滑-逆冲作用的地貌标志[J].第四纪研究,2006,26(1):40-51.
[170]李勇,周荣军,Densmore AL,等.青藏高原东缘龙门山晚新生代走滑挤压作用的沉积响应[J].沉积学报,2006,24(2):153-164.
[171]朱艾斓.川西地区主干活动断裂间震期滑动习性与运动状态的地震学初步研究[D].中国地震局地质研究所博士学位论文,2006.
[172]唐文清,刘宇平,陈智梁,等.基于GPS技术的活动断裂监测——以鲜水河、龙门山断裂为例[J].山地学报,2007,25(1):103-107.
[173]樊春,王二七,王刚,等.龙门山断裂带北段晚新近纪以来的右行走滑运动及其构造变换研究——以青川断裂为例[J].地质科学,2008,43(3):417-433.
[174]刘顺,刘树根,宋春彦,等.龙门山中央断裂运动学研究[J].成都理工大学学报(自然科学版),2008,35(4):463-470.
[175]潘桂棠.汶川八级地震的区域地质构造背景[J].决策咨询通讯,2008,(3):1-8.
[176]颜丹平.变质核杂岩研究的新进展[J].地质科技情报,1997,16(3):13-19.
[177]Wang E, Burchfiel BC, Roydenl HL, et al. Late Cenozoic Xianshuihe-Xiaojiang, Red River, and Dali fault systems of southwestern Sichuan and central Yunnan, China[J]. Geological Society of America special paper,1998,199:327.
[178]Li Y, Densmore AL, Allen PA, et al. Sedimentary responses to thrusting and strike2slipp ing of Longmen Shan along eastern margin of Tibetan Plateau, and their imp lication of Cimmerian continents and India/Eurasia collision[J]. Scientia Geologica Sinica,2001,10 (4):223-243.
[179]刘树根,罗志立,赵锡奎,等.龙门山造山带-川西前陆盆地系统形成的动力学模式及模拟研究[J].石油实验地质,2003,25(5):432-438.
[180]周荣军,李勇,Densmore AL,等.青藏高原东缘活动构造[J].矿物岩石,2006,26(2):40-51.
[181]李勇,周荣军,董顺利,等.汶川地震的地表破裂与逆冲-走滑作用[J].成都理工大学学报(自然科学版),2008,35(4):404-413.
[182]刘树根,田小彬,李智武,等.龙门山中段构造特征与汶川地震[J].成都理工大学学报(自然科学版),2008,35(4):388-397.
[183]Enkin RJ. The stationary Cretaceous paleomagnetic pole of Sichuan (South China block). Tectonic, 1991,10 (3):547-559.
[184]赵小麟,邓起东,陈社发.龙门山逆断裂带中段的构造地貌学研究[J].地震地质,1994,16(4):422-428.
[185]陈智梁,刘宇平,张选阳,等.全球定位系统测量与青藏高原东部流变构造[J].第四纪研究,1998,2:262-270.
[186]Li Y, Ellis MA, Densmore AL, et al. Evidence for active st rike-slip fault s in the Longmen Shan, Eastern margin of Tibet[J]. EOS Transactions of the American Geophysical Union,2000,82 (47): 1104.
[187]Li Y, Ellis M, Densmore A L, et al. Active tectonics in the Longmen Shan region, Eastern Tibetan Plateau[J]. EOS Transactions of American Geophysical Union,2000,81 (48):1109.
[188]余团,何昌荣.龙门山构造带区域稳定性探讨[J].地震研究,2000,23(4):378-383.
[189]周荣军,李勇,Densmore AL,等.晚第四纪以来青藏高原东缘构造变形的新证据[A].见:陈运泰主编.全国地震会议论文集[C].北京:地震出版社,2000,56.
[190]Chen Z, Burchfiel BC, Lin Y, et al. Global positioning system measurements from Eastern Tibet and their imp lications for India/Eurasia intercontinental deformation[J]. Journal of Geophysical Research,2001,105 (B7):16215-16227.
[191]李传友,宋方敏,冉勇康.龙门山断裂带北段晚第四纪活动性讨论[J].地震地质,2004,26(2):248-258.
[192]Zhang PZ, Shen Z, Wan GM, et al. Continuous deformation of the Tibetan Plateau from global positioning system data[J]. Geology,2004,32:809-812.
[193]Densmore AL, Li Yong, Ellis M A, et al. Active tectonic and erosional unloading at the eastern margin of the Tibetan Plateau[J]. Journal of Mountain Sciences,2005,2 (2):146-154.
[194]陈国光,计凤桔,周荣军,等.龙门山断裂带晚第四纪活动性分段的初步研究[J].地震地质,2007,29(3):657-673.
[195]Densmore AL, Ellis MA, Li Y, et al. Active tectonics of the Beichuan and Pengguan faults at the eastern margin of the Tibetan Plateau[J]. Tectonics,2007,80 (8):113-127.
[196]陈运泰,许力生,张勇,等.2008年5月12日汶川特大地震震源特性分析报告[EB/OL]. http: //www.csi.ac.cn.
[197]马保起,张世民,田勤俭,等.汶川8.0级地震地表破裂带[J].第四纪研究,2008,28(4):513-517.
[198]许志琴,杨经绥,姜枚,等.大陆俯冲作用及青藏高原周缘造山带的崛起[J].地学前缘,1999,6(3):139-151.
[199]Tavarnelli E, Peacock DCP. From extension to contraction in syn-orogenic foredeep basins:the Contessa section, Umbria-Marche Apennines, Italy[J]. Terra Nova,1999,11:55-60.
[200]Ghisetti F, Vezzani L. Normal faulting, extension and oplift in the outer thrust belt of the central Apennines (Italy):role of the Caramanico fault[J]. Basin Research,2002,14:225-236.
[201]Laurent-Charvet S, Charvet J, ShuLS, et al. Palaeozoic late collisional strike-slip deformations in Tianshan and Altay, Eastern Xinjiang, NW China[J]. Terra Nova,2002,14:249-256.
[202]Avigad D, Chopin C, Le Bayon R. Thrusting and extension in the Southern Dore-Maira ultra-high-pressure massif (Western Alps):view from below the coesite-bearing unit[J]. Journal of Geology,2003,111:57-70.
[203]Reddy SM, Wheeler J, Butler RWH, et al. Kinematic reworking and exhumation within the convergent Alpine Orogen[J]. Tectonophysics,2003,365 (1-4):77-102.
[204]Murphy JB, Keppie JD. Collisional orogenesis in the geological record and modern analogues[J]. Tectonophysics,2003,365 (1-4):1-5.
[205]Tavarnelli E, Renda P, Pasqui V, et al. The effects of post-orogenic extension on different scales: an example from the Apennine-Maghrebide fold-and-thrust belt, SW Sicily [J]. Terra Nova,2003, 15 (1):1-7.
[206]Gray DR, Miller J McL, Forster D A, et al. Transition from subduction-to exhumation-related fabrics in glaucophane-bearing eclogites, Oman:evidence from relative fabric chronology and 40Ar/39Ar ages[J]. Tectonophysics,2004,389:35-64.
[207]地质部陕西省地质局区域地质测量队二十三分队.1:20万碧口幅地质图和区域地质调查报告[Z].1967.
[208]四川省地质局第二区域地质测量队.1:20万广元幅地质图和区域地质调查报告[Z].1967.
[209]四川省地质局第二区域地质测量队.1:20万绵阳幅地质图和区域地质调查报告[Z].1971.
[210]四川省地质局第二区域地质测量队.1:20万平武幅地质图和区域地质调查报告[Z].1977.
[211]张洪刚,李承炎.四川的前震旦系四川的前震旦系-震旦系地层总结研究报告[R].1983.
[212]朱占祥,潘云唐.四川、甘肃交界地区碧口群与通木梁群时代及层位关系的确定[J].四川地质学报,1988,(2):39-48.
[213]四川地质矿产局.四川省区域地质志[M].北京:地质出版社,1991,1-730.
[214]四川省地质矿产局川西北地质大队.青川幅、关庄坝幅1:5万地质图和区域地质调查报告[z].1993.
[215]四川省地质矿产开发局川西北地质大队.龙门山北段十九幅1:5万地质图和区调联测报告[Z].1996.
[216]梁慧社,刘和甫.川西龙门山褶皱-冲断带构造研究[J].河北地质学院学报,1992,15(4):407-414.
[217]梁斌.龙门山北段唐王寨-仰天窝地区伸展构造解析[J].四川地质学报,1998,18(3):165-168.
[218]李勇,孙爱珍.龙门山造山带构造地层学研究[J].地层学杂志,2000,24(3):101-106.
[219]邓康龄.四川盆地形成演化与油气勘探领域[J].天然气工业,1992,12(5):7-12.
[220]颜仰基,吴应林.巴颜喀拉川西边缘前陆盆地演化[J].岩相古地理,1996,16(3):16-29.
[221]张宏飞,欧阳建平,凌文黎,等.南秦岭宁陕地区花岗岩类Pb、Sr、Nd同位素组成及其深部地质信息[J].岩石矿物学杂志,1997,16(1):22-32.
[222]朱茂旭,骆庭川,张宏飞.南秦岭东江口岩体群Pb、Sr和Nd同位素地球化学特征及其对物源的制约[J].地质地球化学,1998,(1):30-36.
[223]张宗清,张国伟,唐索寒,等.秦岭沙河湾奥长环斑花岗岩的年龄及其对秦岭造山带主造山期时间的限制[J].科学通报,1999,44(9):981-983.
[224]卢欣祥,尉向东,肖庆辉,等.秦岭环斑花岗的年代学研究及意义[J].高校地质学报,1999,5(4):373-377.
[225]孙卫东,李曙光,Yadong Chen,等.南秦岭花岗岩锆石U-Pb定年及其地质意义[J].地球化学,2000,29(3):209-216.
[226]王晓霞,王涛,卢欣祥,等.北秦岭老君山、秦岭梁环斑结构花岗岩及构造环境——一种可能的造山带型环斑花岗岩[J].岩石学报,2003,19(4):650-660.
[227]李淼,张成立,苑克增,等.南秦岭迷坝岩体的地球化学特征及其地质意义[J].西北大学学报(自然科学版),2004,34(3):325-330.
[228]张成立,张国伟,晏云翔,等.南秦岭勉略带北光头山花岗岩体群的成因及其构造意义[J].岩石学报,2005,21(3):711-720.
[229]晏云翔,张成立.南秦岭张家坝岩体和新院岩体地球化学特征及其形成环境[J].高校地质学报,2005,11(3):425-433.
[230]秦江峰,赖绍聪,李永飞.扬子板块北缘碧口地区阳坝花岗闪长岩体成因研究及其地质意义[J].岩石学报,2005,21(3):697-710.
[231]张宏飞,靳兰兰,张利,等.西秦岭花岗岩类地球化学和Pb-Sr-Nd同位素组成对基底性质及其构造属性的限制[J].中国科学(D辑),2005,35(10):914-926.
[232]金维浚,张旗,何登发,等.西秦岭埃达克岩的SHRIMP定年及其构造意义[J].岩石学报,2005,21(3):959-966.
[233]Zhang HF, Zhang BR, Harris N, et al. U-Pb zircon SHRIMP ages, geochemical and Sr-Nd-Pb isotopic compositions of intrusive rocks from the Longshan-Tianshui area in the southeast corner of the Qilian orogenic belt, China:Constraints on petrogenesis and tectonic affinity[J]. Journal of Asian Earth Sciences,2006,27 (6):751-764.
[234]Zhang HF, Zhang L, Harris N, et al. U-Pb zircon ages, geochemical and isotopic compositions of granitoids in Songpan-Garze fold belt, eastern Tibetan Plateau:Constraints on petrogenesis and tectonic evolution of the basement[J]. Contributions to Mineralogy and Petrology,2006,152:75-88.
[235]张宏飞,肖龙,张利,等.扬子陆块西北缘碧口块体印支期花岗岩类地球化学和Pb-Sr-Nd同位素组成:限制岩石成因及其动力学背景[J].中国科学(D辑),2007,37(4):460-470.
[236]李佐臣,裴先治,丁仨平,等.川西北平武地区南一里花岗闪长岩锆石U-Pb定年及其地质意义[J].中国地质,2007,34(6):1003-1012.
[237]李佐臣,裴先治,丁仨平,等.川西北平武地区南一里花岗岩体地球化学特征及其构造环境[J].地质学报,2009,83(2):260-271.
[238]Pei XZ, Li ZC, Ding SP, et al.2009. Post-Orogenic Granites in Pingwu Region, Northwest Sichuan: Evidence for North China Block and Yangtze Block Collision during Triassic[J]. Journal of Earth Science,20 (2):250-273.
[239]李曙光,孙卫东,张国伟,等.南秦岭勉略构造带黑沟峡变质火山岩的年代学和地球化学-古生代洋盆及其闭合时代的证据[J].中国科学(D辑),1996,26(3):223-230.
[240]赖绍聪,张国伟,裴先治,等.南秦岭康县-琵琶寺-南坪构造混杂带蛇绿岩与洋岛火山岩地球化学及其大地构造意义[J].中国科学(D辑),2003,33(1):10-19.
[241]赖绍聪,李三忠,张国伟.陕西西乡群火山-沉积岩系形成构造环境火山岩地球化学约束[J].岩石学报,2003,19(1):143-152.
[242]赖绍聪,张国伟,董云鹏,等.秦岭-大别勉略构造带蛇绿岩与相关火山岩的性质及其时空分布[J].中国科学(D辑),2003,33(12):1174-1183.
[243]张国伟,董云鹏,赖绍聪,等.秦岭-大别造山带南缘勉略构造带与勉略缝合带[J].中国科学(D辑),2003,33(12):1121-1135.
[244]张国伟,程顺有,郭安林,等.秦岭-大别中央造山系南缘勉略古缝合带的再认识——兼论中国大陆主体的拼合[J].地质通报,2004,23(9-10):846-853.
[245]Chen FK, Hegner E, Todt W. Zircon ages, Nd isotopic and chemical compositions of orthogneisses from the Black Forest, Germany:Evidence for a Cambrian magmatic arc[J]. International Journal of Earth Sciences (Geol Rundsch),2000,88:791-802.
[246]Chen FK, Siebel W, Satir M, et al. Geochronology of the Karadere basement (NW Turkey) and implications for the geological evolution of the Istanbul zone[J]. International Journal of Earth Sciences (Geol Rundsch),2002,91:469-481.
[247]宋彪,张玉海,刘敦一.微量原位分析仪器SHRIMP的产生与锆石同位素地质年代学[J].质谱学报,2002,23(1):58-62.
[248]袁洪林,吴福元,高山,等.东北地区新生代侵入体的锆石激光探针U-Pb年龄测定与稀土元素成分分析[J].科学通报,2003,48(14):1511-1520.
[249]Yuan HL, Gao S, Liu XM, et al. Accurate U-Pb age and trace element determinations of zircon by laser ablation-Inductively coupled plasma mass spectrometry[J]. Geostandards and Geoanalytical Research,2004,28(3):353-370.
[250]Andersen T. Correlation of common lead in U-Pb analyses that do not report 204Pb[J]. Chemical Geology,2002,192:59-79.
[251]Ludwig KR. Isoplot(rev.2.49):A plotting and regression program for radiogenic-isotope data[CP]. US Geological Survey Open-File Report,1991,39.
[252]Ludwig KR. Users Manual for Isoplot/Ex (rev.2.49):A Geochronological Toolkit for Microsoft Excel[J]. Berkeley Geochronology Center Special Publication,2001, la:1-55.
[253]Ludwig KR. Isoplot 3.0-A Geochronological Toolkit for Microsoft Excel[J]. Berkeley Geochronology Center Special Publication,2003, (4):1-70.
[254]王松山,桑海清,胡世玲,等.应用49-2反应堆进行40Ar/39Ar定年及迁安曹庄群斜长角闪岩 年龄谱的地质意义[J].岩石学报,1985,(3):35-44.
[255]王松山.氯对40Ar/39Ar定年的制约及数据处理[J].地质科学,1992,(4):369-378.
[256]李智武,刘树根,陈洪德,等.龙门山冲断带分段-分带性构造格局及其差异变形特征[J].成都理工大学学报(自然科学版),2008,35(4):440-454.
[257]李春昱,刘仰文,朱宝清.秦岭及祁连山构造发展史[A].见:国际交流地质学术论文集——区域地质-地质力学[C].北京:地质出版社,1978,174-187.
[258]王鸿祯.中国地壳构造发展的主要阶段[J].地球科学——中国地质大学学报,1982,3:155-178.
[259]Hsu KJ, Wang Q, Li J, et al. Tectonics evolution of Qinling Mountains, China[J]. Eclogae Geologicae Helvetiae,1987,80:732-752.
[260]许志琴,卢一伦,汤耀庆,等.东秦岭复合山链的形成——变形、演化及板块动力学[M].北京:中国环境科学出版社,1988,1-193.
[261]张国伟,梅志超,周鼎武,等.秦岭造山带的形成及其演化[M].见:张国伟等著,秦岭造山带的形成及其演化.西安:西北大学出版社.1988,1-15.
[262]任纪舜.论中国大陆岩石圈构造的基本特征[J].中国区域地质,1991,4:289-293.
[263]姜春发.中央造山带主要地质构造特征[J].地学研究,1993,(27):107-108.
[264]张国伟,孟庆任,于在平,等.秦岭造山带的造山过程及其动力学特征[J].中国科学(D辑),1996,26(3):193-200.
[265]杨巍然,刘育燕,邓清禄.地球历史的“开”、“合”节律与古地磁变化[J].地学前缘——中国地质大学(北京),1997,4(3-4):241-246.
[266]杨巍然.论造山作用和造山带[J].地质论评,1999,43(1):10-14.
[267]姜春发,王宗起,李锦轶.中央造山带开合构造等[M].北京:地质出版社,2000.
[268]姜春发.中央造山带几个重要地质问题及其研究进展[J].地质通报,2002,21(8-9):453-455.
[269]潘桂棠,李兴振,王立全.青藏高原及邻区大地构造单元初步划分[J].地质通报,2002,21(11):701-707.
[270]万天丰.中国大地构造学纲要[M].北京:地质出版社,2004,1-387.
[271]陆松年,于海峰,李怀坤,等.“中央造山带”早古生代缝合带及构造分区概述[J].地质通报,2006,25(12):1368-1380.
[272]袁学诚,李善芳,华九如.秦岭陆内造山带岩石圈结构[J].中国地质,2008,35(1):1-17.
[273]张国伟,柳小明.关于“中央造山带”儿个问题的思考[J].地球科学——中国地质大学学报,1998,23(5):443-448.
[274]张国伟,周鼎武,于在平,等.秦岭造山带岩石圈组成、结构与演化特征[M].见:叶连俊、钱样麟等(主编),秦岭造山带学术讨论会论文选集.西安:西北大学出版社,1991,121-138.
[275]Kroner A, Zhang GW, Zhou DW, et al. Granulites in the Tongbai area, Qinling belt, China: geochemistry, petrology, single zircon geochronology and implications rnr tectonic evulution of eastern Asia[J]. Tectonics,1993,12:245-255.
[276]Meng QR, Zhang GW. Geologic framework and tectonic evolution of the Qinling orogen, Central China[J].Tectonophys,2000,323:183-196.
[277]陈志宏,陆松年,李怀坤,等.秦岭造山带富水中基性侵入杂岩的成岩时代——锆石U-Pb及全岩Sm, Nd同位素年代学新证据[J].地质通报,2004,23(4):322-328.
[278]张国伟,孟庆任,赖绍聪.秦岭造山带的结构构造[J].中国科学(B辑),1995,25:994-1003.
[279]张国伟,张宗清,董云鹏.秦岭造山带主要构造岩石地层单元的构造性质及其大地构造意义[J].岩石学报,1995,11(2):101-104.
[280]Lai SC, Zhang GW. Geochemical features of ophiolite in Mianxian-Lueyan4g suture zone, Qiriling orogenic belt[J]. Journal of Chinfl University of Geosciences,1996,7 (2):165-172.
[281]Lai SC, Zhong JH. Geochemical features and its tectonic significance of the meta-basalt in Zhoujiawan area, Mianlue suture zone, Qinling-Dabie mountains, Hubei province[J]. Scientia Geologica Sinica,1999,8 (2):127-136.
[282]Lai SC, Zhang GW, Yang R Y. Identification of the island-arc magmatism zone in the Lianghe-Raofeng-Wuliba area, south Qinling and its tectonic signficance[J]. Science in China (Series D),2000,43 (Sup):69-81.
[283]Lai SC, Li SZ. Geochemistry of volcanic rocks from Wuliba in the Mianlue suture zone, Southern Qinling[J]. Scientia Geologica Sinica,2001,10 (3):169-179.
[284]李曙光,侯振辉,杨永成,等.南秦岭勉略构造带三岔子古岩浆弧的地球化学特征及形成时代[J].中国科学(D辑),2003,33(12):1163-1173.
[285]闫全人,王宗起,闫臻,等.秦岭勉略构造混杂带康县-勉县段蛇绿岩块-铁镁质岩块的SHRIMP年代及其意义[J].地质论评,2007,53(6):755-764.
[286]裴先治,张国伟,赖绍聪,等.西秦岭南缘勉略构造带主要地质特征[J].地质通报,2002,21(8-9):486-494.
[287]Sengor AMC. East Asian tectonics callage[J]. Nature,1985,318:15-17.
[288]Meng QR, Zhang GW. Timing of collision of the North and South China blocks:eontroversy and reeonciliation[J]. Geology.1999,27:123-126.
[289]Ratschbacher L. Hacker BR. Calvert A et al. Tectonics of the Qinling (Central China): tectonostratigraphy, geochronology, and deformation history[J]. Tectonophysics.2003,366:1-53.
[290]孟庆任,于在平,梅志超,等.秦岭南缘晚古生代裂谷-有限洋盆沉积作用及构造演化[J].中国科学(D辑),1996,26(增刊):28-33.
[291]许继锋,盛吉虎,韩吟文,等.勉略地区蛇绿岩的初步研究[A].见:张旗主编.蛇绿岩与地球动力学研究[C].北京:地质出版社,1996,163-166.
[292]赖绍聪,张国伟,杨永成,等.南秦岭勉县-略阳结合带变质火山岩岩石地球化学特征[J].岩石学报.1997,13(4):563-573.
[293]盛吉虎,杜远生,冯庆来等.南秦岭勉略蛇绿混杂岩带硅质岩沉积环境研究[J].地球科学——中国地质大学学报,1997,22(6):599-602.
[294]许继锋,于学元,李献华,等.高亏损的N-MORB型火山岩的发现:勉略古洋盆存在的新证据[J].科学通报,1997,42(22):2414-2418.
[295]赖绍聪,张国伟,杨永成,等.南秦岭勉县-略阳结合带蛇绿岩与岛弧火山岩地球化学及其大地构造意义[J].地球化学,1998,27(3):283-293.
[296]杜远生,盛吉虎,顾松竹.南秦岭勉略构造混杂岩带非史密斯地层系统和地层格架[J].地质论评,1999,45(6):563-570.
[297]李亚林,张国伟.王根宝,等.陕西勉略地区两类混杂岩的发现及其地质意义[J].地质论评,1999,45(2):192.
[298]王宗起,陈海泓,郝杰.南秦岭晚古生代一三叠纪弧前增生楔的初步确定[A].见:陈海泓等主编.中国碰撞造山带研究[C].北京:海洋出版社,1999,100-113.
[299]王宗起,陈海泓,李继亮,等.南秦岭西乡群放射虫化石的发现及其地质意义[J].中国科学(D辑),1999,29(1):38-44.
[300]李三忠,张国伟,李亚林,等.勉县地区勉略带内麻粒岩的发现及构造意义[J].岩石学报,2000,16(2):220-226.
[301]李三忠,张国伟,李亚林,等.勉略带三岔子蛇绿岩的变质特征及构造意义[J].青岛海洋大学学报,2001,31(1):89-94.
[302]李亚林,张国伟,王成善,等.秦岭勉略缝合带两期韧性剪切变形及其动力学意义[J].成都理工学院学报,2001,28(1):28-33.
[303]裴先治.勉略-阿尼玛卿构造带的形成演化与动力学特征[D].西北大学博士学位论文,2001.
[304]赖绍聪,张国伟,裴先治.南秦岭勉略结合带琵琶寺洋壳蛇绿岩的厘定及其大地构造意义[J].地质通报,2002,21(8-9):465-470.
[305]Li SG, Hou ZH, Yang YC, et al. Timing and geochemical characters of the Sanchazi magmatic arc in Mianlue tectonic zone, South Qinling[J]. Science in China (Ser.D),2004,47 (4):317-328.
[306]李百祥.西秦岭地球物理场的地质解释[J].甘肃地质学报,1997,6(2):82-91.
[307]张季生,高锐,李秋生,等.松潘-甘孜和西秦岭造山带地球物理特征及基底构造研究[J].地质论评,2007,53(2):261-267.
[308]张本仁,张宏飞,赵志丹,等.东秦岭及邻区壳幔地球化学分区和演化受其大地构造意义[J].中国科学(D辑),1996,26(3):201-208.
[309]王娟,李鑫,赖绍聪,等.印支期南秦岭西茬河、五龙岩体成因及构造意义[J].中国地质,2008,35(2):207-216.
[310]王娟,金强,赖绍聪,等.南秦岭佛坪地区五龙花岗质岩体的地球化学特征及成因研究[J].矿物岩石,2008,28(1):79-87.
[311]李三忠,张国伟,李亚林,等.秦岭造山带勉略缝合带构造变形与造山过程[J].地质学报,2002,76(4):469-483.
[312]任纪舜,姜春发,张正坤,等.中国大地构造及其演化——1:400万中国大地构造图简要说明.北京:科学出版社,1980.
[313]Sengor AMC. The Cimmeride orogenic system and the tectonics of Eurasia[J]. Geological Society of America Special Paper,1984,195:82.
[314]Yin A, Harrison TM. Geologic Evolution of the Himalayan-Tibetan orogen[J]. Annual Review of Earth and Planetary Sciences,2000,28 (1):211-280.
[315]韩永辉,康忠林.上扬子地台基底演化探讨[J].石油与天然气地质,1983,4(4):371-382.
[316]韩永辉,康忠林.上扬子地台基底的地层对比及其演化的初步探讨[J].四川省地质学报,1983,4:19-30.
[317]杨逢清,殷鸿福,杨恒书,等.松潘甘孜地块与秦岭造山带、扬子地台的关系及其发展史[J].地质学报,1994,68(3):208-218.
[318]高锐,马永生,李秋生,等.松潘地块与西秦岭造山带下地壳的性质和关系——深地震反射剖面的揭露[J].地质通报,2006,25(12):1361-1367.
[319]夏祖春,夏林圻,任有祥,等.南秦岭碧口群海相火山岩岩石学研究[J].中国地质科学院西安地质矿产研究所所刊,1989,(25):97-107.
[320]张家润.川西北地区碧口群之火山岩特征与构造环境[J].四川地质学报,1990,10(4):227-236.
[321]秦克令,金浩甲,赵东宏.碧口古岛弧带构造演化与成矿[J].河南地质,1994,12(4):304-317.
[322]王根宝.陕西省勉略宁地区碧口岩群基底构造碰合带的发现及其地质意义[J].陕西地质科技情报,1995,20(1):13-26.
[323]卢一伦,黄建坤,杜定汉,等.碧口群的层序及时代[J].中国区域地质,1997,16(3):305-314.
[324]闫全人,王宗起,Hanson AD,等.南秦岭横丹群浊积岩系——晚古生代发育于扬子板块被动陆缘上的弧前盆地充填物[J].地质通报,2002,21(8-9):495-500.
[325]闫全人,Hanson AD,王宗起,等.扬子板块北缘碧口群火山岩的地球化学特征及其构造环境[J].岩石矿物学杂志,2004,23(1):1-11.
[326]董广法,王国富,刘继顺.勉略宁地区东沟坝组火山岩的成因浅析[J].大地构造与成矿学,1998,22(2):163-169.
[327]刘铁庚,叶霖.碧口群形成的地质构造环境探讨[J].矿物学报,1999,19(4):446-452.
[328]夏林圻,夏祖春,徐学义.南秦岭元古宙西乡群大陆溢流玄武岩的确定及其地质意义[J].地质论评,1996,42(6):513-522.
[329]夏林圻,夏祖春,徐学义.南秦岭中晚元古代火山岩性质与前寒武纪大陆裂解[J].中国科学(D),1996,26(3):237-243.
[330]丁振举,姚书振,周宗桂,等.碧口地体中元古代构造属性[J].大地构造与成矿学,1998,22(3):219-226.
[331]匡耀求,张本仁,欧阳建平.扬子克拉通北西缘碧口群的解体与地层划分[J].地球科学——中国地质大学学报,1999,24(3):251-255.
[332]徐学义,夏祖春,夏林析.南秦岭元古宙板内火山作用特征及构造意义[J].岩石矿物学杂志,2001,20(3):255-262.
[333]徐学义,夏祖春,夏林圻.碧口群火山旋回及其地质构造意义[J].地质通报,2002,21(8-9):478-485.
[334]夏林圻,夏祖春,徐学义,等.碧口群火山岩岩石成因研究[J].地学前缘,2007,14(3):84-101.
[335]左国朝.西秦岭泥盆纪构造一建造及其地壳演化[J].甘肃地质,1984,(2):99-110.
[336]陶洪祥,王全庆,高肇英,等.略论扬子古陆北缘中晚元古代岛弧构造及其演化[J].西安地质学院学报,1986,8(3):7-17
[337]裴先治.南秦岭碧口群岩石组合特征及其构造意义[J].西安地质学院学报,1989,11(2):46-56.
[338]赵祥生,马少龙,邹湘华,等.秦巴地区碧口群的时代、层序、火山作用及含矿性研究[J].中 国地质科学院西安地质矿产研究所所,1990,29:1-128.
[339]裴先治.南秦岭碧口地区韧性剪切带的变形特征[J].西安地质学院学报,1992,14(3):18-23.
[340]刘国惠,张寿广,游振东,等.秦岭造山带主要变质岩群及变质演化[M].北京:地质出版社,1993,1-190.
[341]陶洪祥,何恢亚,王全庆,等.扬子板块北缘构造演化史[M].西安:西北大学出版社,1993.
[342]张二朋,牛道韫,霍有光,等.秦巴及邻区地质构造特征概论[M].北京:地质出版社,1993,1-291.
[343]李永飞.扬子板块北缘碧口火山岩系岩石地球化学研究[D].西北大学硕士学位论文,2006.
[344]赖绍聪,李永飞,秦江锋.碧口群西段董家河蛇绿岩地球化学及LA-ICP-MS锆石U-Pb定年[J].中国科学D辑:地球科学,2007,37(增刊Ⅰ):262-270.
[345]宋史刚,丁振举,姚书振,等.碧口地块富铁硅岩REE及Nd-Sr同位素组成及其古环境意义[J].矿物岩石,2008,28(3):57-63.
[346]闫全人,王宗起,闫臻,等.碧口火山岩的时代SHRIMP锆石U-Pb测年结果[J].地质通报,2003,22(6):456-459.
[347]陕西省地质矿产局.陕西省区域地质志[M].北京:地质出版社,1989.
[348]裴先治.扬子板块西北缘碧口地区前震且系构造特征厦其演化[D].西安地质学院硕士学位论文,1989.
[349]裴先治.碧口地区复理石岩系特征及其构造环境[J].西安地质学院学报,1992,14(1):42-49.
[350]李廷栋.青藏高原隆升的过程和机制[J].中国地质科学院报,1995,34:1-9.
[351]钟大赉,丁林.青藏高原的隆起过程及其机制探讨[J].中国科学(D辑),1996,26:289-295.
[352]肖序常,王军.青藏高原构造演化及隆升的简评述[J].地质论评,1998,44(4):372-381.
[353]Hsu K, Pan GT, Sengor AMC, et al. Tectonic evolution of the Tibetan Plateau:a working hypothesis based on the archipelago model of orogenesis[J]. International Geological Review,1995,37 (6): 473-508.
[354]徐士进,王汝成,沈渭洲,等.松潘-甘孜造山带中晋宁期花岗岩的U-Pb和Rb-Sr同位素定年及其大地构造意义[J].中国科学(D辑),1996,26(12):52-58.
[355]Calassou S. Etude tectonique dune chaine de decollement:A) tectonique et Tertiaire de la chaine de Songpan-Garze;B) geometrie et cinematique des deform ations dans les prismes d'accretion sedimentaire:modelization analogique[D]. Ph.D.Thesis. Univemite de Montpenier Ⅱ,1994.
[356]陈高,吴健生,于鹏.松潘一阿坝地区深部电性特征[J].地球科学——中国地质大学学报, 2006,31(6):857-878.
[357]刘红军.扬子地块西缘古特提斯盆地演化与含锰建造盆控特征[J].矿物岩石,2001,21(3):105-113.
[358]Yin A, Nie S. An indentation model for the north and south China colision an d the development of the Tan lu and Honam Fault systems.eastern Asia[J]. Tectonics,1993,12:801-813.
[359]Nie S, Yin A, Rowley DB et al. Exhumation of the Dabie Shan ultra-high-pressure rocks and accumulation of the Songpan-Ganzi flysh sequence, central China[J]. Geology,1994,22 (11): 999-1002.
[360]Zhou D, Graham SA. Songpan-Gan zi complex of the west Qinling Shan as a Triassic remnant ocean basin[A]. In:Yin A, Harrison TM (eds). Tectonic Evolution of Asia[C]. Cambridge University Press,1996,281-299.
[361]何登发,庄忠海,马永生.松潘一阿坝地块三叠系古地磁结果及运动学意义[J].现代地质,2007,21(3):556-563.
[362]Klimetz MP. Speculations on the Mesozoic plate tectonic evolution of eastern China[J]. Tectonics, 1983,2:139-166.
[363]黄汲清,陈炳蔚.中国及邻区特提斯海的演化[M].北京:地质出版社,1987,1-109.
[364]饶荣标,徐继范,陈永明.青藏高原的三叠系[M].北京:地质出版社,1987,201-239.
[365]张以弗,庞龙廉,李长利,等.可可西里巴颜喀拉三叠纪沉积盆地的形成和演化[M].北京:地质出版社,1997,1-136.
[366]杜德勋,罗建宁,惠兰.巴颜喀拉三叠纪沉积盆地岩相与古地理-以阿坝-若尔盖盆地为例[J].岩相古地理,1998,18(1):1-18.
[367]Chang EZ. Geology and tectonics of the Songpan-Ganzi fold belt, southwestern China[J]. International Geology Review,2000,42:813-831.
[368]Ingersoll R, Dickinson WR, Graham SA. Remnant-ocean submarine fans:Largest sedimentary systems on Earth[J]. Geological Society of America Special Paper,2003,370:191-208.
[369]蔡雄飞,王国灿,李德威.青海省巴颜喀拉山群研究的新近展[J].地学前缘,2004,11(2):47.
[370]李继亮,闫臻,俞良军,等.若尔盖-松潘前陆盆地的沉积与构造特点[J].岩石学报,2007,23(5):919-924.
[371]兰中伍,陈岳龙,苏本勋,等.四川松潘-甘孜盆地砂岩的物质来源:来自锆石U-Pb(SHRIMP) 年龄证据[J].沉积学报,2006,24(3):321-332.
[372]袁海华,张志兰,张平.龙门山老君沟花岗岩体的隆升及冷却史[J].成都地质学院学报,1991,18(11):17-22.
[373]张能德,张怀举.四川西北部几个花岗岩体的时代[J].地球化学,1993,22(3):303-312.
[374]Roger F, Malavieille J, Leloup Ph H, et al. Timing of granite emplacement and cooling in the Songpan-Garz-Fold Belt (eastern Tibetan Plateau) with tectonic implications [J]. Journal of Asian Earth Sciences,2004,22 (5):465-481.
[375]魏显贵,杜思清,刘援朝,等.米仓山推覆构造的结构样式及演化特征[J].矿物岩石,1997,17(增刊):114-122.
[376]魏显贵,杜思清,何政伟,等.米仓山地区构造演化[J].矿物岩石,1997,17(增刊):107-113.
[377]李庭柱,张仪娴.米仓山区“后河群”的时代及岩石特征[J].地层学杂志,1995,9(2):149-155.
[378]马润则,肖渊甫,魏显贵,等.米仓山地区岩浆活动与构造演化[J].矿物岩石,1997,17(增刊):76-82.
[379]肖渊甫,马润则,何政伟,等.米仓山碱性杂岩单元特征及构造环境分析[J]_矿物岩石,1997,17(增刊):59-66.
[380]赖绍聪,杨瑞瑛,张国伟.南秦岭西乡群孙家河组火山岩形成构造背景及其大地构造意义的讨论[J].地质科学,2001,36(3):295-303.
[381]孙树林.米仓山及其南缘薄皮构造初步研究[J].河海大学学报,1994,22(1):53-57.
[382]杜思清,魏显贵,刘援朝,等.汉南-米仓山区叠加东西向隆坳的北东向推覆构造[J].成都理工学院学报,1998,25(3):369-374.
[383]乐光禹,杜思清,等.构造复合联合原理——川黔构造组合叠加分析[J].成都:成都科技大学出版社,1996.
[384]杜思清,魏显贵,刘援朝,等.汉南-米仓山区北东向构造及龙门山推覆构造外缘带[J].矿物岩石,1997,17(增刊):123-131.
[385]李玉文.论四川盆地白垩纪地质发展史[J].中国区域地质,1987,(1):51-58.
[386]陶晓风.龙门山南段推覆构造与前陆盆地演化[J].成都理工学院学报,1999,26(1):73-77.
[387]高红灿,郑荣才,柯光明,等.川东北前陆盆地须家河组层序-岩相古地理特征[J].沉积与特提斯地质,2005,25(3):38-45.
[388]胡晓强,陈洪德,纪相田,等.川西前陆盆地侏罗系层序地层[J].西南石油学院学报,2006,28(2):16-19.
[389]刘树根,罗志立,庞家黎,等.四川盆地西部的峨眉地裂运动及找气新领域[J].成都地质学院学报,1991,18(1):83-90.
[390]刘和甫.前陆盆地类型及褶皱一冲断层样式[J].地学前缘,1995,2(3-4):59-68.
[391]李勇.论龙门山前陆盆地与龙门山造山带的耦合作用[J].矿物岩石地球化学通报,1998,17(2):77-81.
[392]刘和甫,汪泽成,熊保贤,等.中国中西部新生代前陆盆地与挤压造山带耦合分析[J].地学前缘,2000,7(3):55-72.
[393]姚根顺,李大成,卢文忠,等.四川叠合盆地盆山耦合特征分析[J].大地构造与成矿学,2006,30(4):435-444.
[394]沈传波,梅廉夫,徐振平,等.四川盆地复合盆山体系的结构构造和演化[J].大地构造与成矿学,2007,31(3):288-299.
[395]顾家裕,张兴阳.中国西部陆内前陆盆地沉积特征与层序格架[J].沉积学报,2005,23(2):187-193.
[396]蔡立国,刘和甫.扬子周缘前陆盆地演化及类型[J].地球科学,1996,21(4):433-440.
[397]彭军,陈洪德,曾允孚.龙门山南段前陆盆地中-新生代砂岩特征及物源分析[J].中国区域地质,2000,19(1):77-84.
[398]刘少峰.前陆盆地挠曲过程模拟的理论模型[J].地学前缘,1995,2(3-4):69-77.
[399]Miail AD. Principles of Sedimentary Basin Analysis[M]. New York:Springer-Verlag,1998.
[400]汪泽成,赵文智,张林,等.四川盆地构造层序与天然气勘探[M].北京:地质出版社,2002.
[401]Le Maitre RW. Igneous Rocks:A Classification and Glossary of Terms (2nd Edition) [M]. Cambridge:Cambridge University Press,2002,1-236.
[402]Irvine TN, Baragar WRA. A guide to the chemical classification of the common volcanic rocks[J]. Canadian Journal of Earth Sciences,1971,8:523-548.
[403]Rickwood PC. Boundary lines within petrologic diagrams which use oxides of major and minor elements[J]. Lithos,1989,22 (4):247-263.
[404]Sun SS, Mcdonough WE Chemical and isotopic systematics of ocean basins:implications for mantle composition and processes[A]. In:Saunders AD, Norry MJ. Magmatism of the Ocean Basins[C].London:Geological Society Special Publication,1989,42:325-345.
[405]Wood, David A., Joron, et al. A re-appraisal of the use of trace elements to classify and discriminate between magma series erupted in different tectonic settings[J]. Earth and Planetary Science Letters, 1979,45 (2):326-336.
[406]Mesehede MA. A method of diseriminating between different types of ocean-ridge basalt and continental tholeiites with Nb-Zr-Y diagram[J]. Chemical Geology,1986,56:207-218.
[407]Pearce JA. Sources and setting of granitic rocks[J]. Episodes,1996,19 (4):120-125.
[408]Pearce JA, Harris NBW, Tindle AG T race element discrimination diagrams for the tectonic interpretation of granitic rocks[J]. Journal of Petrology,1984,25:956-983.
[409]Belousova EA, Suzanne GW, Fisher Y. Igneous zircon:trace element composition as an indicator of source rock type[J]. Contrib Mineral Petrol,2002,143:602-622.
[410]Siebel W, Blaha U, Chen F, et al. Geochronology and geochemistry of a dyke-host rock association and implications for the formation of the Bavarian Pfahl shear zone, Bohemian Massif [J]. International Journal of Earth Sciences (Geol Rundsch),2005,94 (1):8-23.
[411]吴元保,郑永飞.锆石成因矿物学研究及其对U-Pb年龄解释的制约[J].科学通报,2004,49(16):1589-1604.
[412]Zhang CL, Li M, Wang T, et al. U-Pb Zircon Geochronology and Geochemistry of Granitoids in the Douling Group in the Eastern Qinling[J]. Acta Geological Sinica,2004,78 (1):83-95.
[413]Chen DL, Liu L, Sun Y, et al. Determination of the Neoproterozoic Granite in the Eastern Qinling Mountains Shicaogou Syn-collisionaland Its Geological Implications [J]. Acta Geological Sinica, 2004,78 (1):73-82.
[414]陈志宏,陆松年,李怀坤,等.北秦岭德河黑云二长花岗片麻岩体的成岩时代TIMS和SHRIMP锆石U-Pb同位素年代学[J].地质通报,2004,23(2):136-142.
[415]Wilson M. Igneous petrogenesis[M]. London:Unwin Hyman Press,1989,1-466.
[416]Condie KC. Plate Tectonics and Crustal Evolution[M]. Oxford:Pergamon Press,1997,1-476.
[417]Winchester JA, Floyd PA. Geochemical discrimination of different magma series and their differentiation products using immobile elements[J]. Chemical Geology,1977,20:325-342.
[418]Macdonald R, Davies GR, Bliss CM, et al. Geochemistry of high-silica peralkaline rhyolites, Naivasha, Kenya Rift Valley [J]. J Petrology,1987,28(6):979-1008.
[419]Condie KC. Geochemistry and tectonic setting of early proterozoic supracrustal rocks in the southwestern United States[J]. Journal of Geology,1986,94:845-864.
[420]SivellW J, Waterhouse JB. Petrogenesis of Gympie group volcanics:evidence for remnants of an early Permian volcanic arc in eastern Australia[J]. Lithos,1988,21:81-95.
[421]Polis G, Ghezzo C, Conticelli S. Geochemistry of granitic rocks from the Hercynian Sardinia-Corsica batholith:implication for magma genesis[J]. Lithos,1989,23:247-266.
[422]Gill JB. Orogenic andesites and plate tectonics[M]. Berlin:Springer-Verlag,1981.
[423]Hildreth W, Hallidy AN, Christiansen RL. Isotopic and chemical evidence concerning the genesis and contamination of basaltic and rhyolitic magma beneath the Yellowstone plateau volcanic field[J]. Journal of Petrology,1991,32 (1):63-138.
[424]Pearce JA. Role of the sub-continental lithosphere in magma genesis at active continental margins[A]. In:Hawkesworth CJ and Norry MJ(eds.) Continental basalts and mantle xenoliths[C]. Nantwich Shiva:Academic Press,1983:230-249.
[425]Francalanci L, Taylor SR, Mcculloch MT. Geochemical and isotopic variations in the calc-alkaline rocks of Aeolian arc, southern Tyrrhenian Sea, Italy:constraints on magma genesis[J]. Contrib Mineral Petrol,1993,113:300-313.
[426]Harris NBW, Pearce JA, Tindle A G. Geochemical characteristics of collision-zone magmatism. In: Coward MP, Reis AC eds. Collision tectonics[J]. Geological Society of London, Special Publication, 1986,19:67-81.
[427]Michael PG, Eva SS. From continents to island arcs:A geochemical index of tectonic set ting for arc-related and within-plate felsic to intermediate volcanic rocks[J]. Canada Mineralogy,2000,38: 1065-1073.
[428]李昌年.火成岩微量元素岩石学[M].武汉:中国地质大学出版社,1992,116.
[429]Arculus RJ. The significance of source versus process in the tectonic controls of magma genesis [J]. Journal of Volcanology and Geothermal Research,1987,32:1-12.
[430]陶奎元.中国东南大陆火山带在环太平洋带中的独特地位[A].见:李兆鼐,王碧香主编.火山岩、火山作用及有关矿产[C].北京:地质出版社,1993.23-30.
[431]杨巍然,纪克诚,孙继源,等.大陆裂谷研究中的几个前沿课题[J].地学前缘,1995,2(1-2):93-102.
[432]Streckeisen AL. Plutonic rocks:Classification and nomenclature recommended by the IUGS subcommission on the systematics of igneous rocks [J]. Geotimes,1973,18(7):26-30.
[433]Maniar PD, Piccoli PM. Tectonic discrimination of granitoids[J]. Geological Society of America Bulletin,1989,101:635-643.
[434]Patino-Douce AE, Johnston AD. Phase equilibria and melt productivity in the pelitic system: implications for the origin of peraluminous granitoids and aluminous granulites[J]. Contributions to Mineralogy and Petrology,1991,107 (2):202-218.
[435]Patino-Douce AE, Beard JS. Dehydration-melting of biotite gneiss and quartz amphibolite from 3 to 15 Kbar[J]. Journal of Petrology,1995,36(3):707-738.
[436]Patino-Douce AE, Harris N. Experimental constraints on Himalayan anatexis[J]. Journal of Petrology,1998,39 (4):689-710.
[437]Patino-Douce AE, McCarty TC. Melting of crustal rocks during continental collision and subduction[A]. In:Hacker BR, Liu JG, eds. When continents collide:geodynamics of ultrahigh pressure rocks[C].Netherlands:Kluwer Academic Publish,1998,27-55.
[438]Patino-Douce AE. What do experiments tell us about the relative contributions of crust and mantle to the origin of granitic magmas[A]? In:Castro A, Fernandez C, Vigneresse J. (Eds.), Understanding Granites:Integrating New and Classical Techniques[C]. Geological Society Special Publications, 1999,168:55-75.
[439]Green TH, Pearson NJ. An experimental study of Nb and Ta partitioning between Ti-rich minerals and silicate liquids at high pressure and temperature[J]. Geochimica et Cosmochimica Acta,1987,51 (1):55-62.
[440]Green TH. Significance of Nb/Ta as an indicator of geochemical processes in the crust-mantle system[J]. Chemical Geology,1995,120 (3-4):347-359.
[441]Barth MG, McDonough WF, Rudnick RL. Tracking the budget of Nb and Ta in the continental crust[J]. Chemical Geology,2000,165 (3-4):197-213.
[442]王德滋,刘昌实,沈渭洲,陈繁荣.1993.桐庐Ⅰ和相山S型两类碎斑熔岩对比[J].岩石学报,9(1):44-53
[443]Whalen JB, Currer KL, Chappell BW.1987. A-type granites:geochemical characteristics, discrimination and petrogenesis[J]. Contributions to Mineralogy and Petrology.95 (4):407-419.
[444]DePaolo DJ, DaleyE E. Neodymium isotopes in basalts of the southwest basin and range and lithospheric thinning during continental extension[J]. Chemical Geology,2000,169:157-185.
[445]Taylor SR, McLennan SM. The Continental Crust:its Composition and Evolution[M]. Blackwell Scientific, Oxford,1985,312.
[446]Yang XM, David R, Lentz, et al. ThorneGeochemical characteristics of gold-related granitoids in southwestern New Brunswick, Canada[J]. Lithos,2008,104:355-377.
[447]Lentz DR. Petrogenetic evolution of felsic volcanic sequences associated with Phanerozoic volcanic-hosted massive sulphide systems:the role of extensional geodynamics[J]. Ore Geology Reviews,1998,12:289-327.
[448]Jahn BM, Wu F, Lo CH, et al. Crust-mantle interaction induced by deep subduction of the continental crust:geochemical and Sr-Nd isotopic evidence from post-collisional mafic-ultramafic intrusions of the northern Dabie complex, central China[J]. Chemical Geology,1999,157,119-146.
[449]Pearce JA. Trace element characteristics of lavas from destructive plate boundaries[A]. In:Thorpe RS. (eds.), Andesites Wiley[C]. New York,1982,525-548.
[450]Pearce JA, Bender JF, De Long SE, et al. Genesis of collision volcanism in Eastern Anatolia, Turkey[J]. Journal of Volcanology and Geothermal Research,1990,44,189-229.
[451]Durmus B, Yehudit H, Greg BA, et al. K-Ar age, whole-rock and isotope geochemistry of A-type granitoids in the Divrii-Sivas region, eastern-central Anatolia, Turkey[J]. Lithos,2007,97(1-2): 193-218.
[452]Wolf MB, Wyllie PJ. The formation of tonalitic liquids during the vapor-absent partial melting of amphibolite at 10 kbar[J].EOS,1989,70:506-518.
[453]Beard JS, Lofgren GE. Dehydration melting and water-saturated melting of basaltic and andesitic greenstones and amphibolites at 1.3 and 6.9 kb[J]. Journal of Petrology,1991,32:365-402.
[454]Johannes W, Holtz F. Petrogenesis and experiment petrology of granitic rock[M]. Berlin: Springer-Verlag,1996.
[455]Sisson TW, Ratajeski K, Hankins W B, et al. Voluminous granitic magmas from common basaltic sources[J]. Contrib Mineral Petrol,2005,148 (5):635-661.
[456]Chappell BW, White AJR. Two contrasting granite types[J]. Pacific Geology,1974,8:173-174.
[457]Vielzeuf D, Montel JM. Partial melting of metagreywackes. Part Ⅰ:Fluid-absent experiments and phase relationships[J]. Contrihution to Mineralogy and Petrology,1994,117 (4):375-393.
[458]Montel JM, Vielzeuf D. Partial melting of metagreywackes, Part Ⅱ:Compositions of minerals and melts[J]. Contribution to Mineralogy and Petrology,1997,128:176-196.
[459]Castro A, Patino-Douce AE, Correge LG, et al. Origin of peraluminous granites and granodiorites, Iberian massif, Spain:an experimental test of granite petrogenesis[J]. Contribution to Mineralogy and Petrology,1999,135 (2-3):255-276.
[460]Ferrara G, Lombardo B, Tonarini S and Tun B. Sr-Nd and O isotopic characterization of the Gophu La and Gumburanjun leucogranites (High Himalaya) [J]. Schweizerische Mineral Petrogr Mitteilungen,1991,71:35-51.
[461]Harris NBW, Inger S. Trace element modelling of pelite-derived granites[J]. Contribution to Mineralogy and Petrology,1992,110 (1):46-56.
[462]Sylvester PJ. Post-collisional strongly peraluminous granites[J]. Lithos,1998,45 (1):29-44.
[463]吴福元,李献华,杨进辉,等.花岗岩成因研究的若干问题[J]岩石学报,2007,23(6):1217-1238.
[464]Brown GC.Calc-alkaline intrusive rocks:Their diversity, evolution and relation to volcanic arcs[A]. In:Thorpe RS (ed). Andesites-orogenic andesites and related rocks[C]. New York:John Wiley and Sons,1982,437-464.
[465]李永飞,赖绍聪,秦江锋,等.碧口火山岩系地球化学特征及Sr-Nd-Pb同位素组成-晋宁期扬子北缘裂解的证据[J].中国科学(D辑),2007,37(增刊Ⅰ):295-306.
[466]Druschke PA, Hanson AD, Yan QR, et al. Stratigraphic and U-Pb SHRIMP detrital zircon evidence for a Neoproterozoic continental arc, Central China:Rodinia Iimplications[J].The Journal of Geology,2006,114:627-636.
[467]李庭柱,张仪娴.米仓山“铁船山组”火山岩系中的熔岩组合系列研究[J].西南工学院学报,1995,10(4):54-63.
[468]李建林,张万林,胡能高,等.川北米仓山地区晚前寒武纪熔结凝灰岩的发现及铁船山组时代归属的探讨[J].成都地质学院学报,1978,(02):26-41.
[469]唐海清.陕南碑坝地区晚前寒武纪地层[M].西北地质,1984,(1):57-69.
[470]张宗清,张国伟,唐索寒,等.汉南侵入杂岩年龄及其快速冷凝原因[J].科学通报,2000,45(23):2567-2571.
[471]陶洪祥,陈祥荣,冯鸿儒,等.汉南“西乡群”的地层划分与对比[J].西安地质学院学报,1982,(1):31-44.
[472]陶洪祥,陈祥荣,冯鸿儒,等.略论扬子古陆核北缘西段元古代岛弧火山岩的生成和演化[J].西安地质学院学报,1982,4(2):20-28.
[473]程建萍,凌文黎.米仓山新元古代岩浆岩省——一个潜在的Rodin ia重建方案验证地区[J].地质科技情报,2000,19(3):12-16.
[474]马永旺,王国芝,胡新伟.“彭灌杂岩”推覆体的构造变形特征[J].四川地质学报,1996,16(2):110-114.
[475]詹行礼,李远图,何绍府.1986.川西龙门山“彭灌杂岩”花岗岩成因类型及其构造环境初步探讨.成都地质学院学报,13(1):50-59.
[476]刘肇昌,赵彻经,钟康惠.晋宁—澄江期扬子板块西北缘的地体—板块构造[J].四川地质学报,1990,10(3):151-158.
[477]陈岳龙,罗照华,赵俊香,等.从锆石SHRIMP年龄及岩石地球化学特征论四川冕宁康定杂岩的成因[J].中国科学(D辑),2004,34(8):687-697.
[478]陈岳龙,唐金荣,刘飞,等.松潘-甘孜碎屑沉积岩的地球化学与Sm-Nd同位素地球化学[J].中国地质,2006,33(1):109-118.
[479]许继锋.米仓山碱性岩中的主要矿物研究及其成因信息[J].岩石矿物学杂志,1993,12(3):269-278.
[480]陆松年,李怀坤,陈志宏,等.秦岭中-新元古代地质演化及对Rodinia超级大陆事件的响应[M].北京:地质出版社,2003,95.
[481]刘文均,郑荣才,李祥辉.龙门山泥盆纪沉积盆地的古地理和古构造重建[J].地质学报,1999,73(2):109-119.
[482]冯增昭,杨玉卿,鲍志东.中国南方石炭纪岩相古地理[J].古地理学报,1999,1(1):75-86.
[483]张祖圻.中国石炭纪的岩相—古地理和古构造特征[J].大地构造与成矿学,1991,15(1):63-74.
[484]陈志明.扬子地台晚古生代沉积建造[J].沉积学报,1992,10(2):1-8.
[485]崔秉荃,卢武长,杨绍全.龙门山地区泥盆纪锶、碳同位素与海平面变化[J].成都地质学院学报,1993,20(2):1-8.
[486]朱利东,刘登忠,徐新煌.川北曾家地区二叠纪一早三叠世地层学研究[J].成都理工学院学报,1997,24(1):90-97.
[487]李霞,胡明毅,李士祥.龙门山米苍山前缘二叠系碳酸盐缓坡沉积[J].石油天然气学报(江汉石油学院学报),2005,27(1):36-37.
[488]四川省地质矿产局.四川省岩石地层[M].武汉:中国地质大学出版社,1997.
[489]杨雨,张静,张光荣.川东下三叠统飞仙关组鲕滩分布及其天然气勘探前景[J].成都理工学院学报,2000,27(增刊):147-150.
[490]魏国齐,陈更生,杨威,等.川北下三叠统飞仙关组“槽台”沉积体系及演化[J].沉积学报,2004,22(2):254-260.
[491]王恕一,黄继文,蒋小琼.塔里木盆地上奥陶统沉积及古地理特征[J].石油实验地质,2006,28(3): 236-248.
[492]冯仁蔚,王兴志,张帆,等.川西北广旺地区飞仙关组沉积岩石学特征及沉积环境分析[J].地质调查与研究,2007,30(2):98-109.
[493]王中刚,于学元,赵振华.稀土元素地球化学[M].北京:科学出版社,1989.
[494]赵振华.微量元素地球化学原理[M].北京:科学出版社,1997.
[495]Propach G, Baumann A, Schulz-Schmalschlager M, et al. Zircon and Monazite U-Pb Ages of Variscan Granitoid Rocks and Gneisses in the Moldanubian Zone of Eastern Bavaria, Germany[J]. Neues Jahrbuch Geologie und Palaontologie,2000,6:345-377.
[496]Schmidberger SS, Hegner E. Geochemistry and isotope systematics of calc-alkaline volcanic rocks from the Saar-Nahe basin (SW Germany)-implications for Late-Variscan orogenic development[J]. Contributions to Mineralogy and Petrology,1999,135,373-385.
[497]Pitcher WS. Granite type and tectonic environment[A]. In:Hsu K, eds. Mountain Building Processes[C]. London:Academic Press,1983,19-40.
[498]Williamson BJ, Shaw A, Downes H, et al. Geochemical constraints on the genesis of Hercynian two-mica leucogranites from the Massive Central, France [J]. Chemical Geology,1996,127:25-42.
[499]Forster HJ, Tischendorf G, Gottesmann B, et al. Late-collisional granites in the Variscan Erzgebirge, Germany [J]. Journal of Petrology,1999,40:1613-1645.
[500]Kalsbeek F, Jepsen H, Nutman A. From source migmatites to to plutons:tracking the origin of ca. 435Ma S-type granites in the East Greenland Caledonian orogen[J]. Lithos,2001,57:1-21.
[501]杨坤光,杨巍然.碰撞后的造山过程及造山带巨量花岗岩的成因[J].地质科技情报,1997,16(4):16-22.
[502]Turner SP, Platt JP, George RMM, et al. Magmatism associated orogenic collapse of the Betic-Alboran, SE Spain[J]. Journal of Petrology,1999,40 (6):1011-1033.
[503]韩宝福.后碰撞花岗岩类的多样性及其构造环境判别的复杂性[J].地学前缘,2007,14(3):64-72.
[504]林良彪,陈洪德,姜平,等.川西前陆盆地须家河组沉积相及岩相古地理演化[J].成都理工大学学报(自然科学版),2006,33(4):376-383.
[505]苟宗海.四川龙门山中段上三叠统须家河组特征[J].沉积与特提斯地质,2001,21(1):93-101.
[506]王全伟,梁斌,谢启兴,等.青川地区青川断裂带的显微构造及其变形条件研究[J].矿物岩石,2000,20(1):87-90.
[507]林茂炳,俞广.茂汶韧性断裂带(耿达-汶川段)的基本特征[J].成都理工学院学报,1997, 24(2):40-47.
[508]安其美,丁立丰,王海忠,等.龙门山断裂带的性质与活动性研究[J].大地测量与地球动力学,2004,24(2):115-119.
[509]唐文清,刘宇平,陈智梁,等.龙门山断裂构造带GPS研究[J].大地测量与地球动力学,2004,24(3):57-60.
[510]江富华.龙门山映秀二五龙大断层岩中石英的动态重结晶及“退火”重结晶现象[J].矿物岩石,1988,8(1):69-75.
[511]陶晓风.四川彭灌地区映秀断裂带的显微构造特征[J].成都地质学院学报,1992,19(1):18-24.
[512]胡新伟,王道永.映秀断裂带构造岩、显微构造及组构特征和形成机制讨论[J].成都理工学院学报,1995,22(4):54-59.
[513]马保起,苏刚,侯治华,等.利用岷江阶地的变形估算龙门山断裂带中段晚第四纪滑动速率[J].地震地质,2005,27(2):234-242.
[514]张季生,高锐,曾令森,等.龙门山及邻区重、磁异常特征及与地震关系的研究[J]_地球物理学报,2009,52(2):572-578.
[515]王绪本,余年,朱迎堂,等.龙门山逆冲构造带大地电磁测深初步成果[J].成都理工大学学报(自然科学版),2008,35(4):398-403.
[516]李渭娟,梁桂培,姚政生.龙门山及其邻区地球物理场与地震的关系[J].华南地震,1995,15(2):34-41.
[517]李远图.龙门山南西段飞来峰构造的基本特征[J].中国区域地质,1989,(3):247-249.
[518]唐若龙.龙门山一大雪山一锦屏山推覆构造带特征[J].四川地质学报,1991,11(1):1-9.
[519]林茂炳.初论龙门山推覆构造带的基本结构样式[J].成都理工学院学报,1994,21(3):1-7.
[520]王天泽.龙门山逆冲作用在川西盆地演化及油气勘探中的意义[J].现代地质,1997,11(4):496-500.
[521]林良彪.川西前陆盆地上三叠统须家河组沉积相及岩相古地理演化[D].成都理工大学硕士学位论文,2005.
[522]丁仨平,裴先治,李佐臣,等.祁连造山带中段雾宿山群的构造属性探讨[J].中国地质,2008,35(4):577-589.
[523]Dewey JF, Shackelton RM, Cheng C, et al. The tectonic evolution of the Tibetan plateau[J]. Philosophical Transactions of the Royal Society,1988, A327:379-413.
[524]张宏飞,靳兰兰,张利,等.基底岩系和花岗岩类Pb-Nd同位素组成限制祁连山带的构造属 性[J].地球科学,2006,31(1):57-65.
[525]勾永东,徐天德.川西反s形构造岩浆带北段侵入岩岩石构造组合序列的划分[J].四川地质学报,2002,22(2):65-71.
[526]徐世球,佘继完.四川省剑门关一带晚侏罗世沉积体系与古环境演化[J].地球科学——中国地质大学学报,2001,26(3):235-240.
[527]邓广君.龙门山前缘构造样式与构造演化研究[D].成都理工大学硕士学位论文,2005.
[528]邓明森.米仓山区盖层褶皱构造变形分析[J].矿物岩石,1997,17(增刊):132-142.
[529]吴世祥,汤良杰,马永生,等.四川盆地米仓山前陆冲断带成藏条件分析[J].地质学报,2006,80(3):337-343.
[530]刘树根,罗志立,戴苏兰,等.川西前陆盆地的“四川运动”及与油气的关系[J].石油与天然气地质,1996,17(4):276-281.
[531]庄忠海.四川盆地雅安地区白垩系至下第三系古地磁研究[J].物探与化探,1988,3:10-14.
[532]唐荣昌,韩渭宾,等.四川活动断动断裂与地震[M].北京:地震出版社,1993,67-138.
[533]陈智梁,张选阳,沈凤,等.中国西南地区地壳运动的GPS监测[J].科学通报,1999,4(8):851-854.
[534]王二七,Burchfiel BC, Rogden RH,等.滇中小江走滑剪切带晚新生代挤压变形研究[J].地质科学,1995,30(3):209-219.
[535]季建清,钟大赉,张连生.滇西南新生代走滑断裂运动学,年代学,及对青藏高原东南部块体运的意义[J].地质科学,2000,35(3):336-349.
[536]王晓鹏,吴根耀,钟大赉.受红河断裂控制的晚第三纪走滑松弛盆地一以漠沙盆地为例[J].地质科学,2001,36(3):370-379.
[537]何顺东,丁林,吴根耀,等.藏南格仁错地区孜桂错断裂的第四纪活动及其构造意义[J].地质科学,2002,37(1):8-12.
[538]张岳桥,陈文、杨农.川西鲜水河断裂带晚新生代剪切变形40Ar/39Ar测年及其构造意义[J].中国科学D辑(地球科学),2004,34(7):613-621.
[539]郑德文,张培震,万景林,等.西秦岭北缘中生代构造活动的40Ar/39Ar, FT热年代学证据[J].岩石学报,2004,20(3):697-706.
[540]周荣军,陈国星,李勇,等.四川西部理塘-巴塘地区的活动断裂与1989年巴塘6.7级震群发震构造研究[J].地震地质,2005,27(1):31-43.
[541]吴根耀.华南的格林威尔造山带及其坍塌:在罗迪尼亚超大陆演化中的意义[J].大地构造与成 矿学,2000,24(2):112-123.
[542]刘和甫,李小军,刘立群.地球动力学与盆地层序及油气系统分析[J].现代地质,2003,17(1):80-86.
[543]赵宗举,俞广,朱琰,等.中国南方大地构造演化及其对油气的控制[J].成都理工大学学报(自然科学版),2003,30(2):155-168.
[544]陈发景,汪新文,陈昭年,等.伸展断陷盆地分析[M].北京:地质出版社,2004:169-178.
[545]王剑.华南“南华系”研究新进展——论南华系地层划分与对比[J].地质通报,2005,24(6):491-495.
[546]陈懋弘,梁金城,张桂林,等.加里东期扬子板块与华夏板块西南段分界线的岩相古地理制约[J].高校地质学报,2006,12(1):111-122.
[547]汪新伟,沃玉进,张荣强.扬子克拉通南华纪-早古生代的构造-沉积旋回[J].现代地质,2008,22(4):525-533.
[548]吴朝东.湘西震旦-寒武纪交替时期古海洋环境的恢复[J].地学前缘,2000,7(增刊):45-57.
[549]严德天,王清晨,陈代钊,等.扬子及周缘地区上奥陶统-下志留统烃源岩发育环境及其控制因素[J].地质学报,2008,82(3):321-327.
[550]刘宝珺,许效松.中国南方岩相古地理图集(震旦纪-三叠纪)[M].北京:科学出版社,1994.
[551]Rong JY, Chen X,Su YZ, et al. Silurian paleogeography of China[A]. In:Landing E, Johnson ME. Silurian Lands and Seas:Paleogeography, Outside of Laurentia[C]. New York:New York State Museum Bulletin,2003,493:243-298.
[552]楼雄英,谭钦银,贾保江.龙门山北段志留系宁强组沉积特征和空问相变[J].沉积与特提斯地质,2002,22(3):74-79.
[553]曾允孚,张锦泉,刘文均,等.中国南方泥盆纪岩相古地理与成矿作用[M].北京:地质出版社,1993,1-140.
[554]覃建雄,曾允孚,黄志勋,等.四川龙门山马角坝地区石炭纪层序地层及海平面变化研究[J].岩相古地理,1996,16(1):19-33.
[555]李学森,吴汉宁,黄宝春,等.四川江油-北川地区下石炭统灰岩的古地磁研究[J].地球物理学进展,2002,17(3):406-413.
[556]Royden LH, Burchfiel BC, King RW, et al. Surface deform ation an d lower crustal flow in eastern Tibet[J]. Science,1997,276:788-790.
[557]Clark MK, House MA, Royden LH, et al. Late Cenozoic uplift of southeastern Tibet[J]. Geology, 2005,33(6):525-528.
[558]朱守彪,石耀霖.青藏高原地形扩展力以及下地壳对上地壳的拖曳力的遗传有限单元法反演[J].北京大学学报(自然科学版),2005,41(2):225-234.
[559]王椿镛,吴建平,楼海,等.青藏高原东部壳幔速度结构和地幔变形场的研究[J].地学前缘,2006,13(5):349-359.
[560]牛之俊,王敏,孙汉荣,等.中国大陆现今地壳运动速度场的最新观测结果[J].科学通报,2005,50(8): 839-840.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |