Cenozoic Crustally-derived Carbonate-rich Magmatic Rocks in West Junggar,North Xinjiang,Western China: Geochronology,Geochemistry and Tectonic Implications     

CHEN Shi  LIANG Xinxin  ZHANG Yuanyuan  GUO Zhaojie  QI Jiafu 《《地质学报》英文版》2021,95(4):1112-1127

The carbonate-rich magmatic rocks of West Junggar are distributed in the Baijiantan and Darbut ophiolitic mélanges in the forms of extrusive rocks overlying the mélanges and dykes, either along the margins of the mélange or cross-cutting components of mélanges. Chilled margin and flow structures are present. A SHRIMP zircon U-Pb age of 39.7 ± 1.3 Ma indicates that these carbonate-rich rocks in West Junggar were formed during the Eocene. They have low concentrations in REEs, Th, U, Nb, Ta and are characterized by extremely low εN d(t), high(87 Sr/86 Sr)i ratios, relatively high δ18 OV-SMOW values and high δ13 CV-PDB values, which is similar with most sedimentary carbonates. Furthermore, no contemporaneous mantle-derived silicate rocks have yet been found in West Junggar. The carbonate-rich rocks in West Junggar are thus distinct from mantle-derived carbonatites and are interpreted to result from melting of the Carboniferous sedimentary carbonates at crustal levels, these rocks therefore being referred to as 'crustal carbonatites'. The Eocene crustal carbonatites in West Junggar and other Cenozoic magmatic rocks in North Xinjiang are generally situated along regional strike-slip faults or fault intersections. Therefore, we propose that the reactivation of the Darbut and Baijiantan crustal-scale strike-slip fault zones(ophiolitic mélanges), due to the far-field effects of the Indian-Eurasian collision, enables decompression melting of the underlying continental lithospheric mantle. These resulting melts ascended to the lower crust through the strike-slip faults, causing partial melting of the Carboniferous carbonaceous sediments. The crustal carbonatites in West Junggar provide a new piece of evidence for Cenozoic magmatism in North Xinjiang and are also significant for the investigation of tectono-magmatic relations in North Xinjiang and the Central Asian Orogenic Belt.  相似文献   

Cretaceous paleogeomorphology restoration and its controlling mechanism on sand-bodies in Chunguang exploration area,Junggar Basin          下载免费PDF全文

Cheng Yi-Fan  Dong Yan-Lei  Zhu Xiao-Min  Yang Dao-Qing  Wu Wei  Yang Ke  Su Bin  Zhao Rui-Xing  Qiao Chen-Kai 《古地理学报》2021,22(6):1127-1142

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砾石在分析盆地物源区迁移与湖岸线演化中的作用^*     

高志勇  石雨昕  冯佳睿  周川闽 《古地理学报》2021,23(3):507-524

中国中西部盆地的盆山结合部位,勘探程度较低、钻井少、地震成像复杂,致使利用传统的地震相、测井相、岩心资料等研究原型盆地岩相古地理特征较为困难。基于露头中巨厚砾岩发育层段对应盆地内储集层平面展布范围最广这一认识,运用“将今论古”方法,建立南天山前现代冲积扇、扇三角洲平原、河流等沉积体系中砾石与搬运距离关系,以及不同沉积相类型中砾石发育产状与湖岸线远近关系,定量计算了准噶尔盆地多条重点剖面侏罗系—白垩系现今位置与沉积物源区和湖岸线演化的距离,恢复了侏罗纪—白垩纪物源区范围与湖岸线演化过程。认为侏罗纪—早白垩世砂砾岩储集体向盆地内延伸范围最大时期的湖岸线,明显与现今盆地边缘线有一向西北方向敞开的夹角,该认识对在编制岩相古地理图过程中以盆地边缘线即为湖岸线的观念提出了不同见解,为恢复准南等低勘探程度区原型盆地的岩相古地理特征、预测有利储集体的展布提供参数依据。建立的刻画物源区变化和湖岸线迁移的定量评价方法与参数,是对传统沉积学研究的有益补充。  相似文献   

辽河西部凹陷曙北地区沙四段薄砂层成因类型及分布规律     

宋兵  王波  刘兴周  刘少治  陈希光  卢文忠 《地质与资源》2021,30(6):698-706

为了明确辽河西部凹陷曙北地区沙河街组四段薄砂层成因类型及分布规律,从岩心、测井响应和地震反射特征等方面总结了各类成因薄砂层的识别标志,并预测了各砂层组的砂体展布,探讨了砂体发育的控制因素,总结了沉积模式.研究结果表明,曙北地区沙四段为扇三角洲-湖泊的沉积体系,薄砂层发育水下分流河道、河口坝、低隆滩坝、沿岸浅滩4种成因类型,其中以水下分流河道和低隆滩坝为主.古地貌、古物源和古水深控制了各类砂体的展布.以曙光和兴隆台古潜山一线为界,南部为扇三角洲体系沉积区,主要发育前缘水下分流河道和河口坝;北部（包括低隆区）为无明显水流注入的半封闭湖湾区,主要发育低隆滩坝砂体和灰/云坪,在西侧沿岸局部地区还发育沿岸浅滩.储量区外大面积发育的低隆滩坝砂体,是下一步碎屑岩增储上产的潜在接替区域.  相似文献   

苏丹Muglad盆地中南部西斜坡沉积层序及有利地层圈闭预测     

冉怀江  范乐元  孔庆东  续晓璟 《地学前缘》2021,28(1):131-140

苏丹Muglad 盆地油气资源丰富,是重要的油气探区。盆地中南部西斜坡位于Kaikang坳陷西部斜坡带,是Muglad盆地重要的勘探区之一。研究区在构造转型时期遭受严重剥蚀,目前残余地层厚度约为5 000 m。受区域构造活动的影响,研究区的沉积储层发育演化与构造演化密切相关。随着构造圈闭勘探进入中后期,寻找新的勘探领域和目标已成为当务之急。因此,岩性地层圈闭勘探已成为研究区目标转换的重要途径。目前,对Muglad盆地中南部西斜坡层序地层结构等基本问题的认识还不够系统,制约了研究区油气勘探的进程。综合利用岩心、测井及地震等资料,运用层序地层学原理,在苏丹Muglad盆地中南部西斜坡层序地层格架划分的基础上,重点对沉积层序演化特征及其控制因素进行了分析。同时,探讨了有利生储盖组合,并预测和评价了有利地层圈闭。主要成果及认识如下:(1)Muglad盆地经历了3次裂谷断陷活动及其后裂谷期的3次热沉降坳陷活动,形成了6个二级层序;在二级层序格架内将白垩系Abu Gabra组至古近系Adok组划分为13个三级层序,每个层序的充填和演化都受区域构造控制。(2)研究区地层发育经历了三期断-坳作用,各阶段盆地均保持了其构造背景下的沉积特征,不同阶段构造控沉积作用差异明显。通过对Muglad盆地中南部西斜坡岩心、测井、地震及古水流分析,认为研究区在断陷期主要发育湖泊及辫状河三角洲沉积体系,坳陷期主要发育辫状河及三角洲等沉积体系。由于湖盆多期次的扩张与收缩,沉积体系在时空分布上具有继承性和差异性。(3)根据Muglud盆地中南部西斜坡白垩系-古近系烃源岩、储层和盖层形成的先后顺序及其空间组合关系,研究区可识别划分出四套生储盖组合。它们的成藏方式不同,主要包括两种类型的生储盖组合,即下生上储型和自生自储型。研究区以发育地层剥蚀不整合圈闭以及地层超覆不整合圈闭为主。研究区西部SQ5层序顶界面为区域剥蚀不整合面,与下伏地层形成剥蚀不整合三角区域,为有利的地层剥蚀不整合圈闭发育区。研究区西北部SQ4上超于不整合面之上,形成超覆不整合三角区域,为有利的地层超覆不整合圈闭发育区。  相似文献   

滇西漕涧地区崇山杂岩带始新世花岗岩的发现及其地质意义     

黄亮  浦涛  刘军平  王晓林  刘小春  熊波  宋冬虎 《地球学报》2021,42(5):579-592

崇山杂岩带为滇西三江造山系西侧边缘的一条重要边界构造,属青藏高原造山带的南东缘.带内岩浆活动强烈,前人认为其主要由晚元古代、中生代的花岗岩组成;而据地质调查发现,带内新生代的岩浆作用十分发育.本文对带内新发现的灰白色黑云二花岗岩进行研究,获得了锆石U-Pb LA-ICP-MS年龄为34.88 Ma和35.25 Ma,表明其侵位于古近纪始新世.岩石地球化学表明,黑云二花岗岩为钾玄质-高钾钙碱性系列的过铝质花岗岩类,稀土元素配分曲线为右倾,其中LREE明显富集,HREE为不同程度亏损,具明显的负Eu异常;富集Rb、Th、Ce、Sm和亏损K、Ba、Ta、Hf、Y等元素,且为淡色花岗岩特征;据锆石Hf同位素测试分析,εHf(t)值为–2.35～+2.33和TDM2为962～1259 Ma,表明了花岗岩岩浆源区为壳幔混合的产物,以及源岩主要源自中元古代—新元古代陆壳基底物质的部分熔融.综合研究认为,始新世黑云二长花岗岩形成于喜马拉雅期碰撞造山向造山晚期转换阶段,是一套典型的"超厚地壳"部分熔融和壳幔相互作用的淡色花岗岩;以及其侵位时间代表了漕涧地区喜马拉雅碰撞造山阶段的完成和造山晚期阶段的开始,且转换时间约为35 Ma.  相似文献   

川西甘孜地区活动断裂与地质灾害分布相关性探讨     

秦宇龙  吴建亮  詹涵钰  熊昌利  贾春  白宪洲  李名则  武文辉  徐云峰 《地质力学学报》2021,27(3):463-474

活动断裂带的地质灾害效应是工程地质与地质灾害领域研究的重要内容。川西甘孜地区位于青藏高原东南缘,区内新构造运动强烈,地质灾害频繁发生,对人类生命财产安全造成威胁,对社会生活和经济建设起到了破坏作用。文章从活动断裂与地质灾害点空间分布之间关系进行分析研究,总结出两者在空间分布的规律。认为活动断裂是川西甘孜地区地质灾害孕育的内动力条件之一;在空间位置上关系密不可分,在主要活动断裂0~1 km范围内0.095处/km2、1~2 km范围内0.050/km2、2~5 km范围内0.029处/km2频发。在活动断裂沿线开展针对地质灾害的监测和防范工作亟待落实,可为减轻或避免地质灾害提供依据和建议。   相似文献   

渤海西部沙东南构造带东营组古地貌特征及对沉积的控制作用     

康海亮  林畅松  牛成民 《地质力学学报》2021,27(1):19-30

渤海西部海域沙东南构造带处于沙垒田凸起向沙南凹陷的过渡部位,受继承性凸起、不同时期同沉积断裂和古沟谷多种因素影响,沉积相的发育较为复杂,制约了下步油气勘探。为此,通过分析由地层厚度法恢复的沙东南构造带东营组各三级层序沉积时期的古地貌,明确了研究区发育凸起区、斜坡区、古沟谷、断槽、浅洼和深洼陷区等多种地貌单元。同时,以北北东向转换断裂为界,划分出两种不同的地貌组合分区:西区为由侵蚀沟谷、古潜山斜坡和早期同沉积断裂组成的沟谷-斜坡-断坡地貌,东区为由侵蚀沟谷、2~3条同向不同期同沉积断层组成的沟谷-多级断坡地貌。研究表明两种构造地貌中位于凸起边缘的沟谷早期均为物源通道,晚期接受沉积充填,对沉积相类型、分布以及充填控制的差异主要受斜坡-断坡和多级断坡的影响:在沟谷-斜坡-断坡地貌中,沉积体系的分布和沉积充填过程主要受古斜坡-断坡控制,控制断坡的同沉积断裂在沙河街组活动较强,控制了沙河街组低位扇、浊积扇的沉积和充填,SQ-Ed3时期断裂活动逐渐减弱,继承性断坡地貌成为SQ-Ed3层序扇三角洲平原和前缘以及SQEd2^d,SQ-Edu2时期辫状河三角洲前缘和滨浅湖沉积的大致界限;在沟谷-多级断坡地貌中,形成于SQ-Ed3时期的沙东南1号断裂仅在SQ-Ed3时期活动,控制了深洼陷的形成和一级坡折之下小型扇三角洲的发育,形成于SQ-Ed2^d时期的沙南断裂主要活动时期也在SQ-Ed2^d,形成了分隔凸起与斜坡间的二级坡折,控制了SQ-Ed2^d小型扇三角洲的沉积充填。  相似文献   

SIMULATION OF TROPICAL CYCLONES OVER THE WESTERN NORTH PACIFIC AND LANDFALLING IN CHINA BY REGCM4     

吴婕  高学杰 《热带气象学报(英文版)》2019,25(4):437-447

This study evaluates the performance of the regional climate model RegCM4 in simulating tropical cyclone (TC) activities over the Western North Pacific (WNP) and their landfalling in China. The model is driven by ERA-Interim boundary conditions at a grid spacing of 25 km, with the simulation period as 1991–2010. Results show that RegCM4 performs well in capturing the main structural features of observed TCs, and in simulating the genesis number and annual cycle of the genesis. The model reproduces the general pattern of the observed TC tracks and occurrence frequency. However, significant underestimation of the occurrence frequency as well as the TC intensity is found. Number of the landfalling TCs over China is also much less than the observed. Bias of the model in reproducing the large-scale circulation pattern and steering flow may contribute to the underestimated landfalling TC numbers.  相似文献   

Seesaw Pattern of Rainfall Anomalies between the Tropical Western North Pacific and Central Southern China during Late Summer     

Xinyu LI  Riyu LU 《大气科学进展》2019,36(3):261-270

It is well known that suppressed convection in the tropical western North Pacific(WNP) induces an anticyclonic anomaly,and this anticyclonic anomaly results in more rainfall along the East Asian rain band through more water vapor transport during summer, as well as early and middle summer. However, the present results indicate that during late summer(from mid-August to the beginning of September), the anomalous anticyclone leads to more rainfall over central southern China(CSC), a region quite different from preceding periods. The uniqueness of late summer is found to be related to the dramatic change in climatological monsoon flows: southerlies over southern China during early and middle summer but easterlies during late summer. Therefore, the anomalous anticyclone, which shows a southerly anomaly over southern China, enhances monsoonal southerlies and induces more rainfall along the rain band during early and middle summer. During late summer,however, the anomalous anticyclone reflects a complicated change in monsoon flows: it changes the path, rather than the intensity, of monsoon flows. Specifically, during late summers of suppressed convection in the tropical WNP, southerlies dominate from the South China Sea to southern China, and during late summers of enhanced convection, northeasterlies dominate from the East China Sea to southern China, causing more and less rainfall in CSC, respectively.  相似文献