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1.
墨西哥中新生代岩浆作用与太平洋板块向东俯冲消减作用及晚白垩-始新世的拉腊米期造山运动有关,岩浆作用控制了矿床的分布规律。文章通过综合分析大量墨西哥中新生代岩浆岩和矿床资料,讨论了岩浆活动规律及构造活动和成矿作用的关系。墨西哥主要有5个岩浆活动时期,分别为晚古生代岩浆作用、早-中侏罗世岩浆作用、白垩世岩浆作用、古近纪岩浆作用、中新世岩浆作用。墨西哥的成矿作用主要与拉腊米期岩浆活动有关(约80 Ma—40 Ma),中新生代的矿床明显分成晚侏罗世(J3)、早白垩世(K1)、晚白垩世(K2)、古新世(E1)、始新世(E2)、渐新世(E3)、中新世(N1)等地质时期。古太平洋板块、法拉隆板块和科科斯板块等三大板块俯冲消减形成3个俯冲成矿系列,即从沿海到内陆依次发育有IOCG型铁铜金成矿带→斑岩型铜钼金成矿带→浅成低温热液型银金多金属成矿带,分别代表太平洋古板块、法拉隆板块和科科斯板块向北美板块从俯冲挤压到碰撞后伸展的岩浆成矿环境。 相似文献
2.
东南亚加里曼丹新生代金成矿作用及成矿动力学 总被引:1,自引:0,他引:1
对加里曼丹岛区域地质背景、金成矿作用与新生代岩浆弧关系研究认为,该区浅成低温热液金矿床与新生代岩浆弧内晚渐新世—中中新世钙碱性岩浆活动存在着密切的时空及成因联系。其动力学机制为,始新世—中新世期间印度—澳大利亚板块向欧亚板块俯冲引起的地幔物质向南东方向的流动导致早渐新世亚洲边缘发生裂解,裂解作用又导致南中国海板块向加里曼丹岛北缘俯冲。俯冲过程中加里曼丹岛北缘在晚渐新世—中中新世发生大规模的构造岩浆活动及浅成低温热液金成矿作用。成岩成矿作用是在总体挤压背景体制下的局部拉张环境下进行的。 相似文献
3.
中国东部中生代岩浆活动与太平洋板块向西俯冲有关吗? 总被引:13,自引:0,他引:13
通常认为,中国东部中生代岩浆活动与太平洋板块的向西俯冲有关,而本文的研究表明,中生代时中国东部不属于环太平洋构造带,不处于安第斯活动陆缘环境,没有岛弧玄武岩和岛弧花岗岩.许多资料表明,在中生代早期,太平洋板块基本上是向北俯冲的,至早白垩世中期(125 Ma左右)才转向西俯冲,而中国东部大规模岩浆活动主要发生于侏罗纪—早白垩世(约180~130 Ma),因此,中国东部中生代大规模岩浆活动与太平洋板块的向西俯冲无关.太平洋板块真正向西俯冲的时间非常短暂,只有125~110 Ma和43~0 Ma两个时段.在前一时段,中国东部岩浆活动仅限于中国东部沿海;在后一个时段,中国东部岩浆活动几乎绝迹.因此,中国东部中生代大规模岩浆活动与太平洋板块向西俯冲有关的命题是错误的. 相似文献
4.
目前对珠江口盆地中生代以来的演化过程及其与沉积环境演变的响应关系尚缺乏系统性认识.基于珠江口盆地中-新生代岩浆活动、断陷结构样式及其改造、典型构造变形样式、沉积中心的转换等特征的对比分析,将盆地中-新生代的构造演化划分为4个阶段、7个期次:(1)中侏罗世-晚白垩世早期(~170~90 Ma)为古太平洋板块俯冲主控的陆缘岩浆弧-弧前盆地演化阶段;(2)晚白垩世-始新世中期(~90~43 Ma)为太平洋板块俯冲后撤背景下弧后周缘前陆/造山后塌陷-主动裂谷演化阶段;(3)始新世中期-中中新世(~43~10 Ma)为华南挤出-古南海俯冲拖曳主导的被动陆缘演化阶段;(4)晚中新世以来(~10~0 Ma)为菲律宾板块NWW向仰冲主导的挤压张扭演化阶段.~90 Ma、~43 Ma、~10 Ma分别实现了由安第斯型俯冲向西太平洋型俯冲、由主动裂谷向被动陆缘伸展、由被动陆缘伸展向挤压张扭的转换.在此过程中,伴随着古南海和南海的发育-消亡,新生代裂陷期沉积环境由东向西、由南向北逐渐海侵,裂后期由南向北阶段性差异沉降,由陆架浅水向陆坡深水转换,这使得珠一/三、珠二、珠四坳陷的石油地质条件具有显著的分带差异性. 相似文献
5.
位于青藏高原南部的冈底斯岩浆弧形成于中生代新特提斯大洋岩石圈的长期俯冲过程中,而且在印度与亚洲大陆碰撞过程中叠加了强烈的新生代岩浆作用,是世界上典型的复合型大陆岩浆弧,已经成为研究汇聚板块边缘岩浆作用和大陆地壳生长与再造的天然实验室。基于对现有研究成果的总结,我们将冈底斯岩浆弧的岩浆构造演化划分为5个阶段:第1阶段发生在晚白垩世之前,以新特提斯洋岩石圈长期正常俯冲和钙碱性弧岩浆岩的发育为特征;第2阶段发生在晚白垩世时期,以活动的新特提斯洋中脊发生俯冲和强烈的岩浆作用与显著的新生地壳生长为特征;第3阶段发生在晚白垩世晚期,以残余的新特提斯大洋岩石圈俯冲和正常弧型岩浆作用为特征;第4阶段发生在古新世至中始新世,以印度与亚洲大陆碰撞、俯冲的新特提斯洋岩石圈回转和断离,及其诱发的幔源岩浆作用、新生和古老地壳的强烈再造为特征;第5阶段为发生在晚渐新世到中中新世的后碰撞阶段,深俯冲印度岩石圈的回转和断离,或加厚岩石圈地幔的对流移去导致了加厚下地壳的部分熔融和埃达克质岩石的广泛发育,同时伴随幔源钾质超钾质岩浆作用。冈底斯弧岩浆作用与岩浆成分的系统时空变化很好地记录了从新特提斯洋俯冲到印度亚洲大陆碰撞的完整构造演化过程。 相似文献
6.
以菲律宾岛弧构造岩浆作用和斑岩型铜金成矿作用为例,以与板块俯冲相关的深部物质循环和斑岩型铜金成矿为研究对象,综述了铜金在弧岩浆中复杂的地球化学过程和行为。通过对中酸性岩浆活动与区域斑岩铜金成矿响应进行系统综述,根据以往对菲律宾群岛中新生代岛弧岩浆岩和斑岩型铜金成矿开展的地质-地球化学研究,提出有利于成矿的地球化学指标,探讨了西环太平洋菲律宾群岛中酸性岩浆活动对区域铜金等多金属矿床的贡献,总结区域成矿规律,建立成矿动力学模式。通过研究菲律宾群岛周缘中新生代板块俯冲洋壳重熔岩浆作用及矿床形成机理,进一步揭示板块俯冲过程中以流体为纽带的物质和能量交换及斑岩型铜金成矿效应。 相似文献
7.
20世纪60年代提出的"威尔逊旋回"以关闭洋盆两侧板块的碰撞作为板块运动旋回的终结,然而板块构造学说"登陆"20多年来的实践说明这种认识是不全面的。大陆弥散而宽广的陆内变形说明洋盆闭合两侧板块的碰撞并未终止板内构造作用。古亚洲大陆形成后中国东部中—新生代广泛发育的板内构造变形、岩浆活动、克拉通内盆地的形成都和古亚洲大陆南、北,印度洋和北冰洋洋脊的持续扩张、西太平洋和菲律宾洋壳的俯冲相关。本文拟厘清中国东部中—新生代大陆构造形成与演化的重大事件、构造性质、形成背景及其时空展布:(1)晚海西—印支期古特提斯洋关闭陆块拼合碰撞古亚洲大陆雏形形成;(2)晚侏罗—早白垩世蒙古—鄂霍茨克海闭合,陆-陆碰撞古亚洲大陆形成,挤压逆冲推覆构造在陆内变形中形成高潮,西太平洋伊佐奈岐洋壳板块的斜俯冲叠加了自东而西的影响;(3)早白垩世晚期—古近纪加厚地壳-岩石圈减薄、转型,陆内伸展变形达到高潮,大陆克拉通泛盆地、准平原化;(4)始新世晚期—早中新世(40~23 Ma)太平洋板块运动转向对东亚大陆NWW向的挤压和印度洋脊扩张印—澳板块对古亚洲南部陆-陆碰撞挤压的叠加,形成中国东部新生的构造地貌;(5)中-上新世—早更新世受东亚—西太平洋巨型裂谷系和印度洋中脊扩张的叠加影响,中国东部岩石圈地幔隆升、地壳减薄,陆缘、陆内伸展变形相继形成边缘海、岛弧、裂谷型盆地和剥蚀高原地貌;(6)早更新世晚期(0.9~0.8 Ma)—晚更新世末(0.01 Ma)中国东部大陆构造地貌基本形成。 相似文献
8.
为了查明出露于云南省西部潞西市邦木二长花岗岩体的时代和形成的构造背景,对其进行了锆石SHRIMP定年研究。结果显示该花岗岩的锆石具有清晰的生长振荡环带,其Th/U比值为0.13~1.00,属于典型的岩浆成因锆石。邦木二长花岗岩中锆石的8个测点206Pb/238U年龄加权平均值为(120.5±1.7)Ma(n=8,MSWD=1.6)(95%置信度),代表了岩体的结晶年龄,表明该花岗岩体的形成时代为早白垩世。岩石地球化学研究表明,邦木二长花岗岩为过铝质钙碱性I型花岗岩,形成于早白垩世岛弧构造环境,具有岛弧花岗岩的特征,属于燕山中期侵入的花岗岩。在中—晚侏罗世,左贡—保山微板块沿班公湖—怒江—泸水—瑞丽板块缝合带由北东向南西方向与波密—腾冲微板块发生洋壳俯冲,导致班公湖—怒江—泸水—瑞丽洋关闭。左贡—保山板块俯冲插入到波密—腾冲板块之下。晚侏罗世末—早白垩世初,随着板块俯冲碰撞造山作用的进行,形成波密—腾冲岛弧。不同板块之间的碰撞拼合导致大规模的中酸性岩浆形成、侵入活动。邦木二长花岗岩就是这期构造岩浆活动的产物。邦木二长花岗岩体形成时代的厘定,为进一步探讨腾冲地块中生代构造演化提供了新证据。 相似文献
9.
吉林延边东部J_2-K_1火山-侵入杂岩岩浆的生成与演化 总被引:4,自引:0,他引:4
位于古生代东西向构造岩浆带和中、新生代北东向构造岩浆带交汇处的延边地区,在中侏罗-早白垩世期间生成两套中-高钾钙碱性火山-侵入杂岩。中侏罗世(180-170Ma),该区受Farallon板块俯冲作用影响,在(24—27)×108Pa,1078—1230℃和80—90km深处,由地幔岩两阶段熔融产生玄武安山质岩浆,经分异演化生成一套低稀土元素且分异作用良好的火山岩系.晚侏罗世(160—145Ma)期间,Farallon板块向北东方向横推致使该地区缺乏岩浆活动。早白垩世(140—130Ma)期间Izanagi板块向欧亚大陆低角度俯冲,该区在25.5-28.5)×108Pa,1117—1138℃和85—95km处生成玄武安山质岩浆,经分界演化形成一套高稀土分异作用较差的火山岩系。 相似文献
10.
<正> 黄汲清教授(1979)在研究板块构造演化模式时曾经强调指出:板块构造是长期的、多阶段发展的,也就是说是多旋回发展的。它包括多旋回构造运动(板块俯冲、褶皱造山),多旋回沉积建造,多旋回岩浆活动(花岗岩、火山岩等)以及多旋回找矿作用。南海及其周缘的地质构造就是板块构造多旋回发展的一个实例。本文试图根据南海及周缘地区的地质地球物理调查成果,对其新生代(包括晚白垩世)的多旋回构造作一简要概述。 相似文献
11.
Physiographically, Chihuahua includes Sierra Madre Occidental (western) and Mesa Central (eastern) provinces. Stratigraphically, coal occurs in Triassic-Jurassic strata and upper Cretaceous rocks, porphyry Cu-Mo deposits in stocks, fissure-vein Ag-Au lodes in andesite-rhyolite sequences and in Cretaceous sediments, Mn fissure-vein deposits in rhyolitic extrusives, U in fissures and contacts in rhyolites, gypsum in Late Jurassic and Early Cretaceous strata, manto Pb-Zn-Ag and stratiform Cu-Ba deposits separately in Lower Cretaceous strata, magmatic segregation and contact Fe deposits in trachyte and rhyolite and adjacent intrusives respectively, and fluorite as mantos and veins in Cretaceous sediments. Assemblages occur in zones that strike NW paralleling other mineral belts in adjacent northwestern Mexico. Temporal, spatial and genetic relationships link magmatic-hydrothermal origin deposits to magmatic suites that vary from calc-alkaline (west) to alkaline (east). Favorable localizing structures include doming by batholiths, normal faulting and contact metamorphism in the Sierra Madre Occidental Orogen and by folding, thrusting and stock emplacement in the eastern Chihuahua Tectonic Belt, all during Laramide time. Mineralization persisted through the Oligocene interval, although post-mineral volcanism continued until Late Cenozoic time. Contemporaneous events in the eastern Pacific basin suggest that tectonism, magmatism and metallogenesis are consistant with a convergent plate model along a continental margin. 相似文献
12.
《Journal of South American Earth Sciences》1999,12(6):513-535
The Tertiary magmatic rocks of the Sierra Madre del Sur (SMS) are broadly distributed south of the Trans-Mexican Volcanic Belt (TMVB) and extend to the southern continental margin of Mexico. They represent magmatic activity that originated at a time characterized by significant changes in the plate interactions in this region as a result of the formation of the Caribbean plate and the southeastward displacement of the Chortis block along the continental margin of southwestern Mexico. The change from SMS magmatism to an E–W trending TMVB volcanism in Miocene time reflects the tectonic evolution of southwestern Mexico during these episodes of plate tectonic rearrangement.The distribution and petrographic characteristics of the magmatic rocks of the SMS define two belts of NW orientation. The first is represented by the nearly continuous coastal plutonic belt (CPB), which consists of batholiths and stocks of predominantly felsic composition. The second belt is inland of the first and consists of discontinuously distributed volcanic fields with piles of andesitic to rhyolitic flows, as well as epiclastic and pyroclastic materials. These two belts were emplaced along a continental crust segment constituted by a mosaic of basements with recognizable petrologic and isotopic differences. These basements originated during different tectono-thermal events developed from the Proterozoic to the Mesozoic.Major and trace element data of the SMS magmatic rocks define a clear sub-alkaline tendency. Variations in the general geochemical behavior and in the Sr and Nd isotopic ratios indicate different degrees of magmatic differentiation and/or crustal contamination. These variations, specially in the inland Oligocene volcanic regions of Guerrero and Oaxaca states, seem to have been controlled by the particular tectonic setting at the time of magmatism. In northwestern Oaxaca greater extension related to transtensional tectonics produced less differentiated volcanic rocks with an apparently lower degree of crustal contamination than those of northeastern Guerrero.The geochronologic data produced by us up to now, in addition to those previously reported, indicate that the Tertiary magmatic rocks of the SMS range in age from Paleocene to Miocene. The general geochronologic patterns indicate a southeastward decrease in the age of igneous activity, rather than a gradual northeastward migration of the locus of magmatism toward the present-day TMVB. SMS magmatic rocks exposed to the west of the 100°W meridian are dominantly Late Cretaceous to Eocene, while those to the east range from Oligocene to Miocene, also following a southeastward age-decreasing trend. Paleocene and Eocene magmatic rocks of the western region of the SMS seem to keep a general NNW trend similar to that of the Tertiary magmatic rocks of the Sierra Madre Occidental (SMO). In the eastern region of the SMS the Oligocene magmatic rocks show a trend that roughly defines an ESE orientation. The change in the trend of arc magmatism may be the effect of the landward migration of the trench, for a given longitude, as a result of the displacement of the Chortis block. The transtensional tectonic regime developed in Oligocene time in NW Oaxaca probably accentuated this trend by facilitating magma generation and ascent in these northerly regions.The geochronologic data of the SMS, in conjunction with those of the TMVB, suggest that there is a spatial and temporal magmatic gap in south central Mexico between 97 and 100°W longitude during late Oligocene and middle Miocene time (24–16 Ma). This magmatic gap is interpreted in terms of a combination of the relatively rapid change in the subducted slab geometry after the passage of the Chortis block from a moderate to a shallow angle and the time needed for the mantle wedge to mature sufficiently to produce magmas. 相似文献
13.
墨西哥中——新生代成矿系列和成矿带划分及其大地构造意义 总被引:1,自引:0,他引:1
墨西哥是矿产资源大国,其中产量最高的包括银、铜、铁、铅锌等。这些矿产的生成主要源于多种多样的矿床类型和各式各样的矿化类型,其中浅成低温热液型、斑岩型、矽卡岩型、IOCG(铁氧化物铜金)型是最突出的矿床类型。这些矿床的形成与北科迪勒拉山系的形成有关,体现了联合大陆长期积聚或解体的某些阶段,尤其是中新生代成矿带的空间展布特征与其形成的大地构造环境密切相关。划分的9个构造-岩浆-成矿带,分别形成3个俯冲成矿系列,即从沿海到内陆依次发育的IOCG型铁铜金成矿带→斑岩型铜钼金成矿带→浅成低温热液型银金多金属成矿带,分别代表太平洋古板块、法拉隆板块和科科斯板块向北美板块从俯冲、挤压到碰撞后伸展的板块构造岩浆成矿环境。这类俯冲边界型成矿系统的主体部分是西马德里造山带岩浆弧中的斑岩型铜钼矿成矿系统和盆岭省中的火山岩控制的浅成低温热液型银金矿成矿系统。 相似文献
14.
《International Geology Review》2012,54(14):1685-1696
Understanding Pangea breakup requires a robust reconstruction, and this article focuses on the Middle America sector of the supercontinent. Although most Pangean reconstructions locate the Yucatan Block along the southern USA, the Chortis Block is generally placed off southern Mexico (Pacific model), undergoing sinistral relative motion during the Mesozoic and Cenozoic. However, the Pacific model is inconsistent with the absence of a Cenozoic fault linking the Cayman transforms and the Middle America Trench. We present an alternative Pangean reconstruction, where both the Yucatan and Chortis Blocks are placed in the future Gulf of Mexico, moving Mexico westwards along the Mojave–Sonora megashear to accommodate overlap with South America. Subsequent Mesozoic and Cenozoic evolution is inferred to have occurred in two stages: (i) Jurassic clockwise rotation along the Mojave–Sonora and West Florida megashears, followed by (ii) Cenozoic anticlockwise rotation along the Sierra Madre Oriental and East Yucatan megashears. The first stage is linked to the breakup of Pangea where the Gulf of Mexico formed as a pull-apart basin. The second stage is related to the evolution of the Caribbean where the Chortis and Yucatan Blocks rotated into the trailing side of the Caribbean Plate (pirate model). The new reconstruction is consistent with major parameters, such as (i) gravity, magnetic, and palaeomagnetic data; (ii) the westward continuation of the Cayman transform faults through the Chiapas foldbelt and along the N–S front of the Sierra Madre Oriental foldbelt; (iii) the 27–19 Ma removal of the southern Mexican forearc; (iv) offset of the Cretaceous volcanic arc (Guerrero-Suina); (v) the deflection of the Laramide orogen (Sierra Madre Oriental–Zongolica–Colon); and (vi) the continuity of Cretaceous platformal carbonates containing Caribbean fauna across Middle America. In this latter context, the Motagua high-pressure belt is interpreted as a Cretaceous extrusion zone into the upper plate above a subduction zone rather than as an oceanic suture. 相似文献
15.
南沙海区及其周缘中-新生代岩浆活动及构造意义 总被引:16,自引:3,他引:13
通过对南沙海区及其周缘地区中-新生代以来4个主要地质时期即燕山期、喜山早期、喜山晚期一幕和二幕各种类型岩浆岩的发育特征(包括时空分布、地球化学及构造环境)的综合分析,重构了研究区中-新生代岩浆活动的演化历程:燕山期(侏罗纪到白垩纪)在南沙西面和西南面陆区以中酸性岩浆活动为主,代表中生代东亚陆缘火山岩带的南段。同时在南沙与加里曼丹之间广泛发育的是基性-超基性岩,是在俯冲过程中折返到浅部的古南海洋壳碎片。喜山早期(古新世至始新世)岩浆活动微弱。喜山晚期一幕(晚渐新世至中中新世)在加里曼丹—卡加延一带岩浆活动相对重新活跃,西段主要有英安岩、花岗闪长岩、安山岩、闪长岩等,东段主要为玄武安山岩,但规模较小,似乎不足以构成与古南海俯冲伴生的火山岩带。喜山晚期二幕(晚中新世至第四纪)岩浆活动出现高峰,为大规模的中基性火山喷发,与燕山期及喜山早期截然不同,在中南半岛南部和加里曼丹岛中-北部尤为广泛,可能是该区出现上涌的地幔热团的指示。 相似文献
16.
K. Birkenmajer 《International Journal of Earth Sciences》1994,83(2):309-321
The sector of the northern Antarctic Peninsula between the Tula and Shackleton Fracture Zones provides evidence for the subduction of south-east Pacific oceanic crust under Antarctic continental crust during Late Mesozoic through Miocene times. The pre-subduction depositional history of this sector includes the formation of a marine siliciclastic turbidite wedge (?Permian-Triassic) deposited in a marginal basin setting. It was folded and thrust retroarc before the Middle Jurassic to form the Trinity accretion foldbelt, which extended for several hundred kilometres along the Pacific margin of Gondwanaland. The foldbelt was deeply eroded and levelled under subaerial conditions, then unconformably covered either by Middle-Upper Jurassic alluvial to lacustrine deposits (in the north) or by Early Cretaceous basic lavas (in the south). The subduction-related magmatism, in the form of acidic effusions and intrusions, began in the northern Antarctic Peninsula during Middle Jurassic times and continued as predominantly basic lavas and agglomerates intruded by basic, intermediate and acidic plutons, and by a succession of dykes, during the Early to Late Cretaceous. Thus the inner magmatic are of the northern Antarctic Peninsula (northern Graham Land-Trinity Peninsula) was formed. An outward (north-westerly) migration of centres of magmatic activity with time (Cretaceous-Tertiary) towards the subduction trench, coupled with a northeastward shift of these centres along the Arc's length due to the counterclockwise rotation of Antarctica, produced the outer magmatic arc of the South Shetland Islands. Slight folding of Late Mesozoic and Tertiary magmatic suites occurred at several stages of subduction. Stronger folding and retroarc thrusting appeared locally as a result of the collision of the Aluk Ridge-Antarctic Peninsula during the Mid-Miocene. The latest plate tectonic event was the opening of the Bransfield Rift (Oligocene-Recent) as a spreading back-arc basin, associated with terrestrial and submarine volcanic activity. 相似文献
17.
《International Geology Review》2012,54(9):1145-1161
The Huautla volcanic field (HVF), in the Sierra Madre del Sur (SMS), is part of an extensive record of Palaeogene magmatism reflecting subduction of the Farallon plate along the western edge of North America. Igneous activity resulting from Farallon subduction is also exposed to the north, in the Sierra Madre Occidental (SMO) and Mesa Central (MC) provinces. We present the results of a stratigraphic and K–Ar, Ar–Ar, and U–Pb geochronological study of the Huautla volcanic successions, in order to refine our knowledge on the petrologic and temporal evolution of the northern SMS and gain insights on magmatic–tectonic contrasts between the SMS and the SMO–MC provinces. The HVF is made up of lava flows and pyroclastic successions that overlie marine Cretaceous sequences and post-orogenic continental deposits of Palaeogene age. In the study area, the main Oligocene succession is pre-dated by the 36.7 million years its caldera west of the Sierra de Huautla. The HVF succession ranges in age from ~33.6 to 28.1 Ma and comprises a lower group of andesitic–dacitic lava flows, an intermediate sequence of ignimbrites and dacitic lavas, and an upper group of andesitic units. The silicic succession comprises a crystal-poor ignimbrite unit (i.e. the Maravillas ignimbrite; 31.4 ± 0.6, 32.0 ± 0.4 Ma; ~260 km3), overlain by a thick succession of dacitic lavas (i.e. the Agua Fría dacite; 30.5 ± 1.9, 31.0 ± 1.1 Ma). Integration of the new stratigraphic and geochronological data with prior information from other explosive centres of the north-central SMS allows us to constrain the temporal evolution of a silicic flare-up episode, indicating that it occurred between 37–32 Ma; it consisted of three major ignimbrite pulses at ~36.5, ~34.5, and ~33–32 Ma and probably resulted from a progressive, mantle flux-driven thermomechanical maturation of the continental crust, as suggested in the HVF by the transition from andesitic to voluminous siliceous volcanism. The information now available for the north-central sector of the SMS also allows recognition of differences between the temporal and spatial evolution of magmatism in this region, and of that documented in the southern SMO and MC provinces, suggesting that such contrasts are probably related to local differences in configuration of the subduction system. At ~28 Ma, the MC and southern SMO provinces experienced a trenchward migration of volcanism, associated with slab rollback; on the other hand, the broad, more stable distribution of Oligocene magmatism in the central and north oceanic plate was subducting at a low angle. 相似文献
18.
19.
中国东北晚中生代-新生代盆山体系构造演化及成因探讨 总被引:1,自引:0,他引:1
中国东北盆山体系主要形成和发展于晚侏罗世晚期-新近纪,经历了晚侏罗世晚期-早白垩世小盆山(盆岭)和晚白垩世-新近纪大盆山(盆山)两个阶段的构造发展过程.盆岭阶段起始于东北高原向盆岭体系转换的张家口期,全盛于义县-九佛堂期,萎缩于盆岭向盆山体系构造转换的沙海-阜新期,结束于张老公屯期(东山期).盆山阶段经历了晚白垩世早期大规模拗陷、晚白垩世晚期拗陷萎缩、古近纪大规模裂谷和新近纪后裂谷拗陷.认为太平洋板块对盆山体系形成和发展有巨大的影响,但无论是板块、地幔柱和超级地幔柱均不太可能形成如此规模,又具北北东向的中-新生代岩浆岩带和盆山体系,更可能是超级地幔热带、地幔柱和东亚多向板块汇聚背景下,西太平洋板块俯冲共同作用的结果. 相似文献