六盘山晚更新世以来抬升过程沉积响应及环境效应

六盘山构造带夹持于青藏高原与鄂尔多斯地块之间,记录了青藏高原抬升向东北方向推挤的远程效应。关于六盘山抬升过程的研究主要集中在白垩纪及新生代早期,而与人类活动密切相关的晚更新世的研究很少涉及。以盆山响应关系理论为指导,立足于与六盘山相邻的清水河盆地,开展系统的沉积学研究,查明清水河盆地晚更新世的地层序列、沉积充填过程,演绎了六盘山盆地晚更新世以来抬升的过程及其产生的环境效应。研究认为,清水河盆地晚更新世早中期发育2期古湖,以温暖湿润的气候环境为主,晚期由于相邻六盘山的快速抬升,湖水彻底退出了清水河流域,环境逐步开始恶化。晚更新世—全新世清水河流域发育了巨大的六盘山山前冲积扇,该扇体不断沿清水河河谷向东推移,有进一步阻隔清水河形成巨大堰塞湖的趋势。研究成果将为六盘山晚更新世抬升过程研究提供重要依据,为清水河流域的综合治理提供基础地质参考。移动阅读      

宁夏红寺堡盆地萨拉乌苏组地层时代重新厘定及意义

以沉积旋回划分为基础,采用光释光和碳十四测年技术手段,将宁夏红寺堡盆地上更新统地层时代进行了重新划分与厘定。研究结果将红寺堡盆地原定为萨拉乌苏组的湖相沉积解体为上下两套,下部湖相沉积即为传统意义上的萨拉乌苏组,上部湖相沉积结合区域地层对比结果将其重新划归为水洞沟组,总体上反映了晚更新世青藏高原东北缘发育的两期重要的古大湖事件。在深海大洋氧同位素曲线上这两期古大湖事件分别相当于MIS3与MIS5段,代表了区域上两期温暖湿润的气候环境,也与该时期全球古气候环境的变迁基本一致。同时,在这两期古大湖发育期间,存在一期重要的构造隆升事件,表现为两套地层之间存在明显的区域不整合接触,可能是青藏高原晚更新世强烈隆升的响应。因此,针对青藏高原东北缘上更新统萨拉乌苏组湖相沉积层开展系统的年代学研究,对其地层时代进行重新划分与厘定,对于研究晚更新世古大湖形成与演化、古气候变迁以及青藏高原的隆升提供了重要的地质背景资料。      

思茅地块西缘龙洞河组放射虫动物群及其地质意义

思茅地块西缘的龙洞河组为一套火山—沉积岩系 ,原定时代为晚石炭世 ,被认为属南澜沧江洋弧后盆地沉积。现在龙洞河组层状硅质岩断片中发现了晚泥盆世放射虫化石 ,在细碧角斑岩之硅质岩夹层中发现了早石炭世放射虫动物群 ,表明龙洞河组不全是晚石炭世地层 ,而是由晚古生代的一些地层断片组成。思茅地块西缘深水沉积盆地的演化始于泥盆纪 ,应为滇西南古特提斯多岛洋的一个分支 ,向南可能与泰国难河带对比。     

The outer arc of the costa rican orogen (oceanic basement complexes of the Nicoya and Santa Elena Peninsulas)

The basement of the Costa Rican outer arc consists of two major complexes. The older is composed of peridotite-serpentinite, pillow lava and radiolarite; the younger is made up of gabbro-diorite, pillow lava, pyroclastic rocks and siliceous limestone.The observational data are interpreted as follows. The older pillow lavas are believed to be oceanic crust generated along the north-south-spreading Carnegie Ridge during the late Coniacian. The younger lavas flowed from fissures along a west-northwest-trending volcanic belt (Culebra arc) which developed in this crust during early to middle Campanian time, when it collided with the Chortis block. Paleomagnetic evidence suggests that the older sequence originated on the Southern Hemisphere, and the younger in the Northern.During the Paleocene, the crust fragmented and separated into the Caribbean and Cocos plates, probably as a result of the outer arc escaping the tectonic influence of the Carnegie Ridge and entering that of the ancestral East Pacific Rise. This fragmentation resulted in the formation of two parallel volcanic belts (San Antonio and Cachimbas arcs) in the inner deep (Tempisque Valley), which remained active throughout the Eocene. It is postulated that subduction of the Cocos beneath the Caribbean plate was initiated during Oligocene time and resulted in the formation of yet another volcanic belt (Tilarán-Talamanca arc). The outer arc was uplifted, folded, and thrust south westward. The resulting pattern shows a gradual clockwise rotation west to northwest, and north-astward migration of the volcanic arcs through time. Aeromagnetic and tectonic data indicate that differential uplift and later gravitational décollement of the sedimentary rock blanket characterize the tectonic deformation of singular volcanic belts, and that tectonic overprinting is usually restricted to one major phase.     

Tectonomagmatic setting and provenance of the Santa Marta Schists,northern Colombia: Insights on the growth and approach of Cretaceous Caribbean oceanic terranes to the South American continent

Metamorphosed volcano-sedimentary rocks accreted to the northern South American continental margin are major vestiges of the Caribbean oceanic plate evolution and its interactions with the continent. Selected whole rock geochemistry, Nd–Sr isotopes and detrital zircon geochronology were obtained in metabasic and metasedimentary rocks from the Santa Marta and San Lorenzo Schists in northernmost Colombia. Trace element patterns are characterized by primitive island arc and MORB signatures. Similarly initial ⁸⁷Sr/⁸⁶Sr-ε_Nd isotopic relations correlate with oceanic arcs and MORB reservoirs, suggesting that the protoliths were formed within a back-arc setting or at the transition between the inta-oceanic arc and the Caribbean oceanic crust. Trace element trends from associated metasedimentary rocks show that the provenance was controlled by a volcanic arc and a sialic continental domain, whereas detrital U/Pb zircons from the Santa Marta Schists and adjacent southeastern metamorphic units show Late Cretaceous and older Mesozoic, Late Paleozoic and Mesoproterozoic sources. Comparison with continental inland basins suggests that this arc-basin is allocthonous to its current position, and was still active by ca. 82 Ma. The geological features are comparable to other arc remnants found in northeastern Colombia and the Netherland Antilles. The geochemical and U/Pb detrital signatures from the metasedimentary rocks suggest that this tectonic domain was already in proximity to the continental margin, in a configuration similar to the modern Antilles or the Kermadec arc in the Pacific. The older continental detritus were derived from the ongoing Andean uplift feeding the intra-oceanic tectonic environment. Cross-cutting relations with granitoids and metamorphic ages suggest that metamorphism was completed by ca. 65 Ma.     

安徽北淮阳构造带基底变质岩的构造属性

安徽北淮阳构造带的基底由一套变火山沉积岩建造 (即原称庐镇关群 )所组成。岩类学、岩石地球化学、年代学的研究表明 ,这套火山岩属碱性玄武岩系列、拉斑玄武岩系列和钙碱性玄武岩系列 ,分别形成于中元古宙陆内裂解 (扩张 )带和晚元古宙岛弧两种构造环境 ,其中以岛弧环境火山岩为主要部分 ,由此可以证明北淮阳构造带是在中元古宙陆内裂解带基础上发展起来的古弧系 ,具有大陆型基底性质     

第四纪洞庭盆地赤山隆起与安乡凹陷升降运动的沉积记录

通过地表地质调查和钻井资料,对第四纪洞庭盆地南部赤山隆起及其西侧安乡凹陷的沉积和地貌特征进行研究,进而探讨二者的升降过程。赤山隆起为居于洞庭盆地南部的小型抬升断块,主要受东、西边界正断裂所控制,长约18 km,宽4~5 km。隆起内早更新世汨罗组和中更新世新开铺组、白沙井组组成多级阶地。安乡凹陷内充填200~300 m厚的河流和湖泊相沉积,自下而上依次为早更新世华田组、汨罗组,中更新世洞庭湖组,晚更新世坡头组,全新世湖积、冲积等。地貌与沉积特征表明,早更新世—中更新世中期赤山隆起总体表现出抬升期与稳定期交替的脉动式抬升,而安乡凹陷则表现出缓慢与快速沉降交替的幕式沉降特征;前者构造较稳定期和构造抬升期分别对应于后者缓慢沉降期和快速沉降期。中更新世晚期二者因区域构造反转而整体抬升并遭受剥蚀。晚更新世—全新世安乡凹陷在拗陷背景下接受沉积。上述第四纪早期赤山隆起脉动式抬升与安乡凹陷幕式沉降的对应关系,为洞庭盆地与周边隆起的盆—山耦合过程提供了约束,同时暗示盆地断陷活动可能与地幔上隆导致中地壳物质自凹陷向周边迁移有关。     

循化-化隆盆地晚白垩世以来盆山耦合过程: 来自物源与磷灰石裂变径迹年代学分析的证据

循化-化隆盆地新生代沉积及盆地基底和周缘山系磷灰石裂变径迹年代学分析揭示了青藏高原东北缘晚白垩世以来经历过3期隆升剥露事件: (1)盆地基底及拉脊山和西秦岭北缘构造带磷灰石裂变径迹年龄分析普遍记录了晚白垩世-始新世中期相对快速的区域性的隆升剥露事件, 西秦岭北缘快速抬升的起始时间为84Ma, 受控于向北的逆冲抬升; 向北到循化-化隆盆地中部的拉目峡抬升的起始时间为69Ma; 更北的拉脊山一带快速抬升期主要为40~50Ma, 从而反映晚白垩世-始新世中期的快速抬升由南向北逐渐扩展.这一期构造隆升事件导致循化-化隆盆地和临夏盆地缺失了北部西宁-民和盆地古近纪所具有的西宁群沉积.隆升剥露结束于31Ma左右, 此时化隆-循化盆地向东与同时期的临夏盆地相连为一个统一的大型西秦岭山前盆地, 两者具有相同的构造、沉积演化史, 因此循化-化隆盆地他拉组底部地层年龄最老不会超过临夏盆地最老地层的古地磁年龄, 即29Ma.(2)渐新世晚期约26Ma拉脊山开始双向逆冲隆升, 并可能延续到中新世早期约21Ma, 隆升作用使循化-化隆盆地成为挟持于拉脊山逆冲带和西秦岭构造带之间的山前挤压型前陆盆地, 循化-化隆盆地开始大规模沉积巨厚的他拉组冲积扇相粗碎屑岩.(3)通过循化-化隆盆地咸水河组和临夏组的沉积相分析、古流方向和砾石成分分析, 揭示出拉脊山构造带在中新世8Ma左右发生的最大规模的双向逆冲隆升事件, 这次事件直接导致循化-化隆盆地由前陆挤压盆地转变为山间盆地, 形成现今青藏高原东北缘的盆山地貌基本格局.      

罗布泊东部阿奇克谷地第四纪古地理

通过对罗布泊东部阿奇克谷地中部AK1孔及露头剖面第四纪沉积特征的综合研究,初步分析了阿奇克谷地第四纪以来的沉积环境与古地理演化。结果表明,阿奇克谷地第四纪古地理受上新世以来区域构造控制,谷地两侧北山及阿尔金山的隆升,一方面为其提供了丰富的物质来源,同时也控制了其沉积环境的演化。其中第四纪以来阿奇克谷地沉积环境有两次明显变化,早更新世中期谷地中开始出现湖相沉积;中更新世晚期湖相沉积范围扩大,为罗布泊湖的大发展期。晚更新世谷地两侧普遍出现砾石层,与中更新世呈不整合接触,表明构造抬升造成湖泊退缩。晚更新世以来湖泊沉积环境波动变化加快。     

青藏高原西北缘晚新生代的隆升特征——来自西昆仑山前盆地的沉积学证据

对西昆仑北缘山前盆地新生代沉积特征的研究结果表明,沿西昆仑山前发育的各沉积序列的垂向特征相似:古新世—中新世早期为石膏层、含瓣腮化石的石灰岩和紫红色较细粒的碎屑岩沉积,指示了海相和海陆过渡相较平静的沉积环境;中新世晚期—上新世初期开始出现陆相磨拉石,指示了陆相非平静的沉积环境,砾石的直径由下至上呈增大趋势,可能反映了西昆仑山体不断隆升,其间相对稳定的层段可能是构造运动间歇期或平稳期的沉积,指示了脉动式的隆升模式;磨拉石底部砾石的成分以沉积岩为主,向上火成岩和变质岩砾石逐渐增多,表明剥蚀程度不断加深。根据磨拉石建造的特征,判断剥蚀量和剥蚀强度自西向东有减小和变弱的趋势,可能暗示了西昆仑山晚新生代隆升有自西向东由强变弱的过渡特征。该结论与本区构造地貌学的研究结果一致。     

兴安地块中部奥陶纪构造沉积环境

兴安地块奥陶纪构造沉积环境受到地质界的广泛关注。在区域地质调查工作的基础上,首先对红花尔基地区碎屑岩及萨其图地区火山岩进行研究,结果显示研究区西部奥陶纪为与岛弧作用有关的构造沉积环境;进而通过一系列的层序地层对比,研究分析兴安地块中部奥陶纪的构造沉积环境及演化过程。结果表明：研究区奥陶纪为一个北西向倾斜、北东向延伸的斜坡,哈拉哈河组沉积期沿斜坡发育一套海侵的滨-浅海相碎屑岩,由南东向北西沉积环境由滨海过渡为浅海;多宝山组岛弧火山岩广泛发育,靠近岛弧区发生隆升形成扎兰屯-多宝山岛弧的西南向延伸部分,远离岛弧地区发生弧后沉降作用,局部发育含放射虫硅质岩;裸河组沉积期岛弧作用停止,原岛弧区发生沉降回返,研究区转为碎屑岩沉积,后经过多期地壳抬升-沉降-抬升的幕式运动,最终暴露地表遭受剥蚀。     

柳河盆地中生代充填特征与盆地演化

柳河盆地中生代地层发育有中侏罗统侯家屯组,下白垩统果松组、鹰嘴砬子组、林子头组、下桦皮甸子组和亨通山组。主要岩石类型为碎屑岩、火山碎屑沉积岩、火山碎屑岩和熔岩,沉积相为扇三角洲-湖泊相。根据岩性变化和岩相组合,将下白垩统划分为13个三级层序和8种充填类型。根据盆地构造和层序特征,划分为5个构造发育阶段,分别是中侏罗世初始凹陷阶段、晚侏罗世抬升剥蚀阶段和早白垩世的3个火山喷发-沉降阶段。柳河盆地是一个受走滑张扭-走滑压扭机制控制的走滑伸展盆地。     

西秦岭晚中生代-新生代构造层划分及其构造演化过程

从西秦岭晚中生代-新生代红层沉积的岩石组合、空间分布和构造变形特征分析,西秦岭晚中生代-新生代红层沉积可以分为三个构造层,分别对应于三个构造演化阶段。1)晚侏罗世-早白垩世构造层:该构造层以深紫红色、灰色砾岩、砂岩为主,并含有特征性的黑色页岩和煤层为特征;构造变形以北东东向褶皱和断裂构造变形为特征,反映了早白垩世末期(燕山运动)的构造变形动力学为北西-南东向地壳挤压收缩,可能与扬子板块与华北板块陆内斜向汇聚有关。2)晚白垩世-古近纪构造层:该构造层以砖红色、紫红色砾岩、砂岩、页岩为主,间夹有灰色、灰黄色、灰绿色泥岩和页岩层,具有不连续面状分布的特征,指示了其沉积时地壳的广泛拉伸的构造背景;古近纪末期的构造变形以与现今北西向构造线一致的宽缓褶皱和断裂构造变形为特征,可能指示了新生代初印度板块和亚洲板块碰撞的构造动力作用第一次远程构造响应。3)新近纪构造层:该构造层以近水平的产状、典型的细碎屑沉积为主要特征,特别是红粘层、淡水碳酸盐层的存在以及含有的三趾马化石特征,空间上与主夷平面的密切联系指示了新近纪早期经历一个夷平剥蚀期,这一阶段地壳构造稳定,变形以块断作用为主。西秦岭在经历了上述三个阶段构造演化过程后,开始进入了第四纪以来以块体变形和快速隆升的构造阶段,这与印度板块与亚洲板块的持续汇聚导致的周缘山系的崛起和变形相一致。     

Volcanic-sedimentary complex of Otrozhnaya sheet in the Ust-Belaya Terrane,western Koryakia

New data on the structure and composition of the rock complexes making up the Otrozhnaya sheet of the Ust-Belaya Terrane are discussed. This sheet is currently regarded as a complete section of the Early Devonian oceanic crust. The U-Pb age of zircon (547 ± 17 Ma) from plagiogranite porphyry that cuts through the ultramafic-gabbroic complex indicates that the country rocks are much older. Basalts of volcanic complex are similar to MORB-type rocks. The contact between volcanic and volcano-sedimentary complexes is tectonic. No volcanic-cherty association of rocks typical of ophiolites has been established at the base of the sedimentary sequence. The U-Pb age of detrital zircons from the base of this section is 571 Ma. As follows from the composition of terrigenous rocks and the suprasubduction origin of andesitic lavas and tuffs, the rocks of the lower part of volcano-sedimentary complex were deposited at the marginal part of the basin near convergent boundary. The remains of conodont elements make it possible to estimate the age of the upper part of the volcano-sedimentary complex as Late Devonian. The composition of terrigenous rocks shows that the provenance has abruptly changed. Sporadic rock fragments evidence the erosion of ophiolitic sections. Silurian rocks became the main source of clastic material. This is corroborated by redeposited microfauna species and U-Pb age of detrital zircons (～432 Ma). The geochemistry of dacite pebbles from conglomerate indicates that this volcanic rock was formed in a suprasuduction setting. The Ordovician-Silurian island arc could have been a source.     

藏北羌塘盆地中央隆起带下二叠统展金组沉积岩稀土元素地球化学特征及其地质意义

对于青藏高原北部羌塘盆地中央隆起带晚古生代的构造演化历史,学术界目前仍存在不同观点。位于盆地中央隆起带角木日地区的羌资5井揭示出的下二叠统展金组细碎屑岩,对于该地区古地理研究和构造背景约束具有重要意义。通过对该井中17个展金组粉砂质泥岩和泥质粉砂岩样品的稀土元素地球化学研究表明:样品 ω(ΣREE) 整体较高,ω(ΣLREE)/ω(ΣHREE)及(La/Yb)_N等比值显示其具有较弱的轻、重稀土元素分异;Ce_anom,Ce/Ce^*,Eu/Eu^*等参数反映样品主要形成于具有一定深度的浅海还原环境;(La/Yb)_N值自下而上呈降低趋势,表明下部的沉积速率低于上部。稀土元素组合及其比值特征指示展金组物源以玄武岩和沉积岩混合为主。根据La-Th-Sc构造背景判别图解分析,并与不同构造背景下的杂砂岩稀土元素特征比较,认为展金组沉积岩的物源可能来自于具有类似岛弧构造特征的环境。     

Polyphase late Palaeozoic deformation in the southeastern foreland and northwestern Piedmont of the Alabama Appalachians

Late Palaeozoic deformation in the southern Appalachians is believed to be related to the collisional events that formed Pangaea. The Appalachian foreland fold and thrust belt in Alabama is a region of thin-skinned deformed Palaeozoic sedimentary rocks ranging in age from Early Cambrian to Late Carboniferous, bounded to the northwest by relatively undeformed rocks of the Appalachian Plateau and to the southeast by crystalline thrust sheets containing metasedimentary and metaigneous rocks ranging in age from late Precambrian to Early Devonian. A late Palaeozoic kinematic sequence derived for a part of this region indicates complex spatial and temporal relationships between folding, thrusting, and tectonic level of décollement. Earliest recognized (Carboniferous(?) or younger) compressional deformation in the foreland, observable within the southernmost thrust sheets in the foreland, is a set of large-scale, tight to isoclinal upright folds which preceded thrafing, and may represent the initial wave of compression in the foreland. Stage 2 involved emplacement of low-angle far-traveled thrust sheets which cut Lower Carboniferous rocks and cut progressively to lower tectonic levels to the southwest, terminating with arrival onto the foreland rocks of a low-grade crystalline nappe. Stage 3 involved redeformation of the stage 2 nappe pile by large-scale upright folds oriented approximately parallel to the former thrusts and believed to be related to ramping or imbrication from a deeper décollement in the foreland rocks below. Stage 4 involved renewed low-angle thrusting within the Piedmont rocks, emplacement of a high-grade metamorphic thrust sheet, and decapitation of stage 3 folds. Stage 5 is represented by large-scale cross-folding at a high angle to previous thrust boundaries and fold phases, and may be related to ramping or imbrication on deep décollements within the now mostly buried Ouachita orogen thrust belt to the southwest. Superposed upon these folds are stage 6 high-angle thrust faults with Appalachian trends representing the youngest (Late Carboniferous or younger, structures in the kinematic sequence.     

Late Pleistocene to Holocene record of changing uplift rates in southern Calabria and northeastern Sicily (southern Italy, Central Mediterranean Sea)

A combination of published and new radiometric dates on uplifted Holocene fossil beaches from northeastern Sicily and southern Calabria (southern Italy) is compared with the altitude of the inner margin of the Last Interglacial (LIg) (Late Pleistocene, 124 ka) and older marine terraces in order to gain a regional-scale outline of uplift rates and their temporal changes in a region which is one of the fastest uplifting sectors of the Central Mediterranean Sea. Late Holocene radiocarbon dates from Ioppolo (southern Calabria) and Ganzirri (northeast Sicily), two newly discovered sites are here presented for the first time. The Holocene uplift rates are highest at St. Alessio and Taormina in eastern Sicily (2.4 mm/y) and at Scilla in southwestern Calabria (2.1 mm/y), two sites located across the Messina Straits and which separate the island of Sicily from mainland Italy. Uplift rates decrease towards the south and north from this centre of uplift. Late Holocene uplift rates show an apparent increase of between 64 and 124% when compared with the longer-term uplift rates calculated from the LIg highstand terraces. Furthermore, we discovered that the locations of fastest Late Pleistocene and Late Holocene uplift rates spatially coincide. To what extent the Holocene increase in uplift rates results from incomplete elastic strain release along the major extensional faults which frame the seismotectonic of the area, or indicate a true change in regional tectonic processes, is not resolved. Nonetheless, the heterogeneity of uplift, with a well-defined centre that crosses the Messina Straits, and its persistence at different time-scales indicates a tight connection between wider regional processes and fault-related displacement in controlling crustal instability in this area.     

亚洲大陆内部盐湖沉积特征、阶段性演化及其控制因素探讨——基于罗布泊LDK01深孔岩心记录

罗布泊位于塔里木盆地东端,地处欧亚大陆深腹地,罗北凹地则是罗布泊东北部的一个次级凹地。通过对罗北凹地LDK01深孔沉积物粒度、磁化率和地球化学的分析,并结合沉积物的岩性、盐类矿物形态特征和和组合类型、构造背景,对罗布泊地区第四纪成钾环境的阶段性变化规律进行探讨。研究表明,罗布泊地区早更新世以来依次发育了河流相、三角洲相、湖泊相-风成相等沉积体系,并呈现出明显快速的湖相推进和退缩交替的频繁变化,指示盐湖演化是干湿气候周期变化和湖盆周围山区淡水周期补给共同作用结果。第四纪时期罗北凹地发展并最终形成塔里木"高山深盆"中最深的次级凹地地貌,这是青藏高原隆升导致的向北挤压的必然结果,大地构造和环境的变化直接控制了罗布泊盐湖的构造演化和沉积体系的转变。罗布泊盐湖的演化大致可分为三个阶段:第一阶段为断陷阶段,早更新世以来主要沉积淡水河流湖泊相陆源碎屑物;第二阶段为坳陷阶段,中更新世中期发育膏岩湖相,以石膏等硫酸盐析出为主要特征;第三阶段为萎缩阶段,进入晚更新世,大量盐湖相钙芒硝沉积至全新世时期石盐等氯化物析出;上述三个阶段构成一个完整蒸发沉积构造旋回并于最终阶段中形成了超大型的钾盐矿床。     

四川新龙地区甘孜-理塘蛇绿混杂岩带侏罗系地层沉积学、地球化学和年代学研究及其构造背景分析SCIEI北大核心CSCD

甘孜-理塘蛇绿混杂岩带作为扬子板块与中咱地块的碰撞结合带,其对探讨西南“三江”多岛弧盆系构造演化具有重要意义。本文选取四川新龙地区瑞环山组进行沉积学、古生物学、地球化学和同位素年代学研究,限定其沉积时代及物质属性,探讨其沉积构造背景。新龙地区瑞环山组为碳酸盐岩夹碎屑岩岩石组合,其碎屑岩物源区为安山质火山岩及陆缘复理石,母岩构造背景为大洋岛弧环境。瑞环山组灰岩中珊瑚化石主要集中于晚侏罗世-早白垩世。碎屑锆石定年结果表明砂岩中锆石主要来源于扬子板块(435Ma、764Ma、1888Ma峰值)以及甘孜-理塘俯冲增生杂岩(229Ma峰值),锆石最新年龄为196±2Ma,指示其应沉积于早侏罗世之后的残留海盆地。研究结果表明,甘孜-理塘洋在晚三叠世末弧陆碰撞造山之后又经历了侏罗纪残留海阶段,在残留海盆地西侧临近甘孜-理塘俯冲增生杂岩浅海环境中沉积了瑞环山组碳酸盐岩夹碎屑岩建造,至早白垩世全面进入造山隆升阶段。     

伊宁地块构造单元划分——来自火山岩浆作用的证据

伊宁地块不是一个之前一贯认为的"均匀地块"或"均一地块",而是以乌孙山-塔勒得近东西向区域性大断裂为界的南、北两大次级构造带("弧-盆"体系)叠加拼贴增生而成,火山岩浆作用为这一新的构造单元划分与建立提供了佐证。南构造带由喀拉峻岛弧带和其北的阿腾套弧后盆地构成,主要发育于晚泥盆世-早石炭世早期,火山岩同位素年龄峰值为355～350Ma,17个年龄平均值为351Ma;北构造带由北而南可再细分出清水河-苏布台弧后盆地→阿吾拉勒叠加岛弧带→特克斯-新源弧前盆地,主要发育于早石炭世中-晚期,同位素年龄峰值集中于345～329Ma,18个火山岩年龄平均值为340Ma。这两个"弧-盆"体系以大哈拉军山组钙碱性火山岩为主体,共生早石炭世海相阿克沙克组弧前及弧后沉积岩组合。大哈拉军山组火山岩主体以岛弧火山岩为主,见有富Nb玄武岩、高镁安山岩等,共生埃达克岩和高分异I型花岗岩等小岩体;在弧后还见有碱性火山岩、碱性球泡流纹岩,共生双峰式火山岩。不仅大哈拉军山组火山岩在各构造相中显著有别,而且共生的阿克沙克组在各构造相中差异极为显著。两大次级构造带具有独立的基底建造史,差异显著的盆地沉积史,独特的火山岩浆史和构造演化史。早晚石炭世之间的鄯善运动使南、北两个次级构造带叠加拼贴,构成统一的伊宁地块,晚石炭世进入统一的陆内构造发展演化阶段,发育以伊什基里克组碱性双峰式火山岩为代表的裂谷火山岩浆建造。