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11.
藏南雅鲁藏布蛇绿岩被认为是新特提斯大洋岩石圈的残留。该带中段的日喀则白马让蛇绿岩是保存较完整的蛇绿岩岩块之一。该蛇绿岩主要由橄榄岩、蛇纹岩、镁铁质侵入岩和玄武岩组成,缺堆晶岩系。镁铁质侵入岩主要呈辉绿岩脉、岩床和少量的岩墙产出。辉绿岩脉在整个蛇绿岩层序中均有分布,侵入橄榄岩的部分岩脉已经变为变辉绿岩和异剥钙榴岩。辉绿岩床(墙)向上逐渐过渡为玄武岩。局部可见日喀则群整合覆盖在玄武岩之上。地球化学分析显示不同产状的镁铁质岩均属于低钾或中钾的拉斑玄武岩,亏损Nb、Ta、Ti和LREE,具有弧前玄武岩(FAB)或弧后盆地玄武岩(BABB)的特征,它们的Ti/V和Yb/V的比值与BABB或正常大洋中脊玄武岩(N-MORB)相似,Sr-Nd-Pb同位素数据指示了亏损地幔(DM)与富集地幔(EM)过渡的源区。镁铁质岩野外产出关系和地球化学特征表明,白马让蛇绿岩的镁铁质岩组合可能形成于SSZ环境。考虑到超镁铁质岩、镁铁质岩和日喀则群在空间上的连续性,认为白马让蛇绿岩可能是起源于亚洲大陆边缘俯冲带上的洋盆,属于原地系统,而非外来的构造岩片。 相似文献
12.
Basaltic lavas at Renbu, Southern Tibet are associated with the Xigaze ophiolite in the Yarlung-Zangbo suture zone. They are alkaline lavas rich in large ion lithophile elements (LILE, Ba, Rb and Sr) and high field strength elements (HFSE, Nb, Ta, Zr and Hf), but poor in Cr, Co and Ni. All of the rocks have chondrite-normalized REE patterns enriched in light rare earth elements (LREE), comparable to modern basalts of the Society Islands, Kerguelen Plateau and Broken Ridge. Abundances of some immobile or moderately immobile elements (Nb, Ta, Zr, Hf, Y, Ti and REE) are also comparable to Kerguelen alkaline basalts. The Renbu basalts are geochemically similar to oceanic island basalts (OIB) and have some elemental ratios, such as Nb/Ta ratios = 15.7–18.1, Th/Nb = 0.06–0.10, La/Nb = 0.59–0.83 and Th/Ta = 1.03–1.52, similar to the primitive mantle. Their 87Sr/86Sr ratios (0.70453–0.70602) are relatively high, similar to OIB. In the 87Sr/86Sr vs. εNd(t) diagram, the Renbu basalts plot along a trend from N-MORB to EMII (enriched mantle II), suggesting the involvement of at least two mantle sources in their generation. The Renbu basalts represent seamount volcanism associated with the Xigaze ophiolite. They formed from an OIB-type mantle source within the Neo-Tethyan Ocean that had a composition similar to the modern Indian Ocean mantle. 相似文献
13.
日喀则近53年气候变化特征分析 总被引:5,自引:1,他引:4
利用线性趋势函数及Mann-Kendall突变检测分析法,分析了西藏藏南河谷日喀则气象站气温及降水近53年的气候变化特征。结果表明,年平均气温与极端气温均呈上升趋势,而最高气温的上升趋势尤为明显,年降水量波动上升。冬春季增温趋势较秋、夏季更为明显,春夏季降水呈增加趋势,而秋季降水略有减少。Mann-Kendall突变检测表明,近53年日喀则地区气温有明显的增暖趋势,但20世纪60—70年代变冷趋势亦十分显著,在2001年温度发生一次突变。年降水量在1958年发生了由少向多的突变,但这一突变仅维持到20世纪60年代中期。 相似文献
14.
YARLUNG ZANGBO OPHIOLITES,SOUTHERN TIBET REVISITED 相似文献
15.
物源分析是古地理重建与盆地分析的关键,典型的物源区包括岩浆弧、大陆地块、再旋回造山带等。重矿物种类多样,蕴含丰富的母岩信息,是物源分析的重要对象。现代砂的研究表明,不同大地构造背景下形成的沉积物具有不同的重矿物组合。遗憾的是,由于古代沉积的重矿物组合在成岩过程中会被改造,现代砂的重矿物组合与物源区的耦合规律并不能直接应用于古代砂岩。科学界尚不清楚岩浆弧与大陆地块来源的古代砂岩的重矿物特征。西藏日喀则弧前盆地与特提斯喜马拉雅侏罗纪—古近纪砂岩物源明确,要么来自亚洲大陆的冈底斯弧,要么来自印度大陆地块,是探讨岩浆弧与大陆地块来源的古代砂岩重矿物特征的绝佳场所。16件砂岩重矿物定量分析结果表明,两个物源区来源的砂岩重矿物组合均被成岩作用严重改造,辉石、角闪石等不稳定矿物消失,绿帘石等自生矿物出现;冈底斯弧来源的砂岩以出现大量绿帘石或磷灰石为特征,ZTR指数小于40;印度大陆地块来源的砂岩以出现大量锆石、电气石和金红石为特征,ZTR指数大于75。这一结果指示岩浆弧与大陆地块来源的砂岩的重矿物组合具有明显差异性,可以用来探讨物源的大地构造背景。 相似文献
16.
BURIAL AND EXHUMATION OF THE XIGAZE FORE-ARC BASIN FROM LOW TEMPERATURE THERMOCHRONOLOGICAL EVIDENCE 
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下载免费PDF全文 The Xigaze fore-arc basin is adjacent to the Indian plate and Eurasia collision zone. Understanding the erosion history of the Xigaze fore-arc basin is significant for realizing the impact of the orogenic belt due to the collision between the Indian plate and the Eurasian plate. The different uplift patterns of the plateau will form different denudation characteristics. If all part of Tibet Plateau uplifted at the same time, the erosion rate of exterior Tibet Plateau will be much larger than the interior plateau due to the active tectonic action, relief, and outflow system at the edge. If the plateau grows from the inside to the outside or from the north to south sides, the strong erosion zone will gradually change along the tectonic active zone that expands to the outward, north, or south sides. Therefore, the different uplift patterns are likely to retain corresponding evidence on the erosion information. The Xigaze fore-arc basin is adjacent to the Yarlung Zangbo suture zone. Its burial, deformation and erosion history during or after the collision between the Indian plate and Eurasia are very important to understand the influence of plateau uplift on erosion.
In this study, we use the apatite fission track(AFT)ages and zircon and apatite(U-Th)/He(ZHe and AHe)ages, combined with the published low-temperature thermochronological age to explore the thermal evolution process of the Xigaze fore-arc basin. The samples' elevation is in the range of 3 860~4 070m. All zircon and apatite samples were dated by the external detector method, using low~U mica sheets as external detectors for fission track ages. A Zeiss Axioskop microscope(1 250×, dry)and FT Stage 4.04 system at the Fission Track Laboratory of the University of Waikato in New Zealand were used to carry out fission track counting. We crushed our samples finely, and then used standard heavy liquid and magnetic separation with additional handpicking methods to select zircon and apatite grains.
The new results show that the ZHe age of the sample M7-01 is(27.06±2.55)Ma(Table 2), and the corresponding AHe age is(9.25±0.76)Ma. The ZHe and AHe ages are significantly smaller than the stratigraphic age, indicating suffering from annealing reset(Table 3). The fission apatite fission track ages are between(74.1±7.8)Ma and(18.7±2.9)Ma, which are less than the corresponding stratigraphic age. The maximum AFT age is(74.1±7.8)Ma, and the minimum AFT age is(18.7±2.9)Ma. There is a significant north~south difference in the apatite fission track ages of the Xigaze fore-arc basin. The apatite fission track ages of the south part are 74~44Ma, the corresponding exhumation rate is 0.03~0.1km/Ma, and the denudation is less than 2km; the apatite fission track ages of the north part range from 27 to 15Ma and the ablation rate is 0.09~0.29km/Ma, but it lacks the exhumation information of the early Cenozoic. The apatite(U-Th)/He age indicates that the north~south Xigaze fore-arc basin has a consistent exhumation history after 15Ma.
The results of low temperature thermochronology show that exhumation histories are different between the northern and southern Xigaze fore-arc basin. From 70 to 60Ma, the southern Xigaze fore-arc basin has been maintained in the depth of 0~6km in the near surface, and has not been eroded or buried beyond this depth. The denudation is less than the north. The low-temperature thermochronological data of the northern part only record the exhumation history after 30Ma because of the young low-temperature thermochronological data. During early Early Miocene, the rapid erosion in the northern part of Xigaze fore-arc basin may be related to the river incision of the paleo-Yarlungzangbo River. The impact of Great Count Thrust on regional erosion is limited. The AHe data shows that the exhumation history of the north-south Xigaze fore-arc basin are consistent after 15Ma. In addition, the low-temperature thermochronological data of the northern Xigaze fore-arc basin constrains geographic range of the Kailas conglomerate during the late Oligocene~Miocene along the Yarlung Zangbo suture zone. The Kailas Basin only develops in the narrow, elongated zone between the fore-arc basin and the Gangdese orogenic belt.
The southern part of the Xigaze fore-arc basin has been uplifted from the sea level to the plateau at an altitude of 4.2km, despite the collision of the Indian plate with the Eurasian continent and the late fault activity, but the plateau has been slowly denuded since the early Cenozoic. The rise did not directly contribute to the accelerated erosion in the area, which is inconsistent with the assumption that rapid erosion means that the orogenic belt begins to rise. 相似文献
17.
西藏吉定蛇绿岩地球化学特征及其构造指示意义 总被引:3,自引:2,他引:1
吉定蛇绿岩位于雅鲁藏布江蛇绿岩带的中段,是该带保存较好的蛇绿岩之一,通过对该岩体的研究及与附近蛇绿岩剖面的对比有助于恢复早白垩世雅鲁藏布江蛇绿岩带的演化过程。吉定蛇绿岩包括玄武岩、辉绿岩、堆晶岩及地幔橄榄岩四个岩石单元。壳层岩石岩浆结晶顺序为:橄榄石→单斜辉石→斜长石,代表湿岩浆系统分异。吉定蛇绿岩壳层熔岩(玄武岩和辉绿岩)Ti O2含量为0.87%~1.45%,平均1.1%,与印度洋N-MORB玻璃(1.19%)相似。REE配分模式具有明显的LREE亏损特征,稀土配分模式与典型的大洋中脊玄武岩相似。但其微量元素蛛网图上表现为富集LILE,而亏损HFSE,并具有较高LILE/HFSE比值特征,与俯冲带上的(SSZ)蛇绿岩相似。蛇绿岩熔岩在岩石地球化学上表现出既亲MORB,又具部分IAB的特征。结合区域上大竹卡、得几等蛇绿岩岩石及地球化学资料对比分析,提出吉定蛇绿岩形成于在洋内俯冲带上发育起来的弧后盆地,并提出日喀则地区早白垩世洋壳演化的解释模式:雅鲁藏布江中段蛇绿岩至少包含三种组分特征的蛇绿岩体,其代表性剖面分别是吉定,得村和大竹卡,分别形成于近俯冲带的弧后盆地、弧前盆地和弧后盆地,这些洋壳共同组成早白垩世时期的与特提斯洋俯冲带斜交的一条分段发育的洋中脊。 相似文献
18.
西藏雅鲁藏布蛇绿岩带中段日喀则地区的白朗蛇绿混杂岩中,存在作为变质底板的石榴角闪岩。本文对其进行了矿物学、变质温压条件和岩石地球化学研究。根据岩相学和矿物化学研究,日喀则石榴角闪岩经历了四个变质阶段,矿物组合分别为:Am_1+Pl_1+Ep_1+Ttn(M1);Grt-c+Cpx-e+Ep_2+Pl_2+Rt(M2);Grt-r+Ep_3/Czo_3+Cpx-l+Am_3+Pl_3+Ttn(M3)和Prh+Ab+Czo+Chl+Cal(M4)。根据SAFMCNHO体系矿物组合演化的视剖面图,结合传统的地质温压计,估算出峰期前的温压条件为560~620℃/9.1~9.8kbar;峰值为830~870℃/18.0~22.0kbar,退变质阶段保留了640~680℃/10.7~14.9kbar的温压条件,最终止于葡萄石-绿纤石的前绿片岩相变质条件;得出一条逆时针的P-T轨迹。白朗变质底板的岩性可分为三类,即石榴角闪岩、角闪辉石岩和单辉角闪岩。三种岩性具有相似的地球化学性质:主量元素具有低钛(0.92%~1.29%)、低钾(0.26%)、低钠(0.24%~2.46%)的特征。稀土元素和微量元素特征与N-MROB相似,富集大离子亲石元素(Rb、Ba、U),亏损部分高场强元素(Nb、Ti、Zr、Hf),表现出白朗蛇绿混杂岩中的石榴角闪岩等与洋中脊玄武岩有亲缘性,且叠加有俯冲上板片SSZ环境特征。白朗石榴角闪岩的存在表明日喀则蛇绿岩在形成后不久就发生了构造就位,体现了大洋内部俯冲/侵位事件。 相似文献
19.
在特殊的大地构造位置——西藏日喀则弧前盆地内新发现了彭措林斑岩型铜多金属矿点,从矿点成矿地质背景和地球化学特征推测,该矿点具有中型斑岩型铜多金属矿的找矿远景。与成矿关系密切的花岗闪长斑岩LA-ICP-MS锆石U-Pb法定年结果为(11.04±0.46)Ma,指示该矿点形成时代为晚喜马拉雅期,可能属于冈底斯斑岩铜矿带大规模成矿事件。该矿点的发现扩大了冈底斯斑岩铜矿带南成矿亚带的范围,使斑岩型铜矿今后的找矿空间一直向南扩大到日喀则弧前盆地。 相似文献
20.
The Xigaze ophiolite is located in the middle section of the Yarlung Zangbo River ophiolite belt and includes a well-preserved sequence section of seven ophiolite blocks. The relatively complete ophiolitic sequence sections are represented by Jiding, Dejixiang, Baigang, and Dazhuqu ophiolites and consist of three–four units. The complete ophiolite sequence in order from the bottom to top consists of mantle peridotite, cumulates, sheeted sill dike swarms, and basic lavas±radiolarian chert. These cumulates are absent in the remaining blocks of Dejixiang and Luqu. The age of radiolaria in the radiolarian chert is Late Jurassic–Cretaceous. The basalt and ultramafic rock of the ophiolite also are overlaid by Tertiary Liuqu conglomerate, which contains numerous pebble components of ophiolite, indicating that the Tethys Ocean began to close at the end of Cretaceous Period. The isotopic data of gabbro, diabase, and albite granite in the Xigaze ophiolite are approximately 126–139 Ma, which indicates that the ophiolite formed in the Early Cretaceous. The K–Ar age of amphibole in garnet amphibolite in the ophiolite mélange is 81 Ma, indicating that tectonic ophiolite emplacement occurred at the end of Late Cretaceous. 相似文献