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71.
The existence of the Cretaceous-Tertiary (K/T) boundary in the non-marine succession is expected at Jiayin in the Heilongjiang River area, China. Zircons from a tuff sample from the Baishantou Member of Wuyun Formation in Jiayin were analyzed by the laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) U-Pb dating and fission-track dating methods. Ages of 64.1±0.7 Ma (U-Pb) and 61.7±1.8 Ma (fission-track dating) were obtained, which allow re-evaluation of a previously reported late Maastrichian age for the tuff layer that was in conflict with the paleontological evidence. These results confirm the Danian age of the section in agreement with the paleontological evidence. 相似文献
72.
粤北下庄矿田新生代构造演化及其对铀成矿的影响 总被引:1,自引:0,他引:1
粤北南岭地区是我国重要的花岗岩型铀矿产地,通过野外地质调查与构造变形研究,结合34件石英脉体电子自旋共振(ESR)测年研究,论述了粤北地区下庄矿田的新生代构造演化期次.构造变形研究与ESR年龄测定显示:新生代主要发生了三幕构造变形,第Ⅰ幕(65.5~55.0Ma)为地块的差异升降运动,断裂活动规模大;第Ⅱ幕(40.3~... 相似文献
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75.
本文对比了鞍本地区前寒武纪铅-锌-银矿区和铀矿区的硫化物矿石和花岗岩长石Pb同位素组成,分别用矿石铅二阶段普通铅法、铅构造模式图解和全岩铅同位素组成三阶段拟合法计算了年龄和全岩原始铀含量。结果表明,矿石铅和长石铅模式年龄约为2000 Ma,在铅构造模式图上投影于2000~1600 Ma间,花岗岩和辽河群全岩拟合年龄为2000~1800 Ma;铅同位素组成显示铅-锌-银来自早元古代辽河群地层,连山关地区明显为放射性成因Pb同位素组成,源于富铀花岗岩。连山关矿石铅年龄和全岩三阶段年龄与该区铀矿床沥青铀矿的年龄基本一致;花岗岩原始铀的得失计算表明,该地区不同地质体均经历了约2000~1800 Ma花岗岩重熔改造,花岗质岩石发生了铀的丢失,是连山关地区铀矿的主要来源。 相似文献
76.
鲁东地区玲珑型(超单元)花岗岩的锆石SHRIMP定年 总被引:1,自引:0,他引:1
玲珑型(超单元)花岗岩主要岩性为不同粒度的二长花岗岩,原划为新元古代震旦纪。根据在招掖地区新测的锆石SHRIMP U-Pb年龄,崔召单元中粒二长花岗岩为(158±3)Ma、郭家店单元中粗粒二长花岗岩为(144±3)Ma;昆嵛山地区九曲单元弱片麻状中粒二长花岗岩锆石SHRIMP U-Pb年龄(153±2)Ma。玲珑型(超单元)锆石SHRIMP U-Pb同位素年龄值集中在160~140 Ma,结合宏观与其他地质体相互关系,改划为侏罗纪。玲珑型(超单元)花岗岩体属于侏罗纪钙碱系列的侵入体,主要显示长英质陆壳深熔花岗岩的特征。推断其形成于中下地壳深度,可能来源于加厚陆壳的部分熔融,是加厚下地壳拆沉作用的产物,而且可能标志着中国东部岩石圈减薄的开始。 相似文献
77.
精确同位素地质测年结果表明,沂水岩群形成时代为2 760~2 700Ma,泰山岩群雁翎关岩组、柳杭岩组下亚组和孟家屯岩组形成时代为2 750~2 700Ma,均属新太古代早期;泰山岩群柳杭岩组上亚组、山草峪岩组形成时代为2 600~2 540Ma(被峄山岩套石英闪长岩和傲徕山岩套二长花岗岩侵入),济宁岩群岩浆锆石年龄(2 561±24)Ma,均属新太古代晚期。荆山群和粉子山群的形成时代为古元古代晚期。芝罘群碎屑锆石U-Pb年龄(1 658±32)Ma、(1 792±43)Ma,形成时代为中元古代。云台岩群花果山组碎屑锆石U-Pb年龄800~740Ma,形成时代为新元古代。 相似文献
78.
本文系统地报道了内蒙古北部乌日尼图地区阿仁绍布辉长岩的主量元素、微量元素和稀土元素特征,重点讨论了阿仁绍布辉长岩体的岩石成因、原始岩浆的源区特征及其地质意义。研究结果表明,阿仁绍布辉长岩体SiO2含量为49.62%,Al2O3为17.34%,CaO为8.94%,TiO2为1.44%,P2O5为0.26%;岩石富集LILE、亏损HFSE。岩体的Mg#值(0.28~0.68,平均为0.52)较高,反映原始岩浆具幔源原生玄武岩浆特征,在上升过程中经历的结晶分异程度较低。U-Pb锆石年龄测定结果为309±2Ma,代表了阿仁绍布辉长岩体的结晶年龄,为晚石炭世。计算出石英结晶温度为928℃,斜长石结晶温度为1206℃;岩浆冷凝矿物共结晶时的深度大于10km,其结晶条件代表岩体侵位时的物理环境,是在较深的岩浆房中结晶的。阿仁绍布辉长岩具有大陆边缘弧的地球化学特征,可能反映在岩浆形成之前,地幔源区发生了俯冲交代富集作用。 相似文献
79.
A.M. Korjenkov S.V. Abdieva A.B. Dzhumabaeva A.B. Fortuna E. Mamyrov E.A. Morozova L.A. Orlova P.S. Vakhrameeva 《Russian Geology and Geophysics》2011,52(9):1007-1015
The northern Tien Shan is the northern front of the Himalayan mountain belt, which resulted from the collision between the Indian and Eurasian Plates. This region encompasses the most active seismic zones of the orogen, which generated the strongest (M > 8) earthquakes. Since there are scarcely any written accounts, the only way to trace back strong earthquakes is the paleoseismologic method. Since 1984 we have been studying the northwestern Issyk Kul’ basin, where there are differently directed anticlines, which constitute the Kungei meganticline. Here, several active tectonic structures (faults, folds) are located, whose development was accompanied by strong earthquakes. Our field studies of 2008 in the Iiri-Taldybulak Valley, along the adyrs (foothills) of the Kungei-Ala-Too Range, revealed two unknown historical earthquakes. The first one, which occurred along the southern rupture in the late 7th century A.D., gave rise to a seismic scarp; the latter broke through the river floodplain and a tash-koro (ancient settlement). The second one, which occurred along the northern rupture in the late 9th century A.D., increased the height of the seismic scarp, existing on the Early Holocene and older terraces. Note that this region already records a strong seismic event around 500 A.D. Archeologic data have revealed one more strong earthquake, which took place in the 14th century A.D. Note that the above-mentioned strong seismic events are coeval with the decline of the nomadic cultures (Wusun, Turkic, Mogul) in the northern Tien Shan and Zhetysu (Semirech’e). 相似文献
80.
Variscan to Alpine magmatic activity on the North Tethys active Eurasian margin in the Caucasus region is revealed by 40Ar/39Ar ages from rocks sampled in the Georgian Crystalline basement and exotic blocs in the Armenian foreland basin. These ages provide insights into the long duration of magmatic activity and related metamorphic history of the margin, with: (1) a phase of transpression with little crustal thickening during the Variscan cycle, evidenced by HT-LP metamorphism at 329–337 Ma; (2) a phase of intense bimodal magmatism at the end of the Variscan cycle, between 303 and 269 Ma, which is interpreted as an ongoing active margin during this period; (3) further evolution of the active margin evidenced by migmatites formed at ca. 183 Ma in a transpressive setting; (4) paroxysmal arc plutonic activity during the Jurassic (although the active magmatic arc was located farther south than the studied crystalline basements) with metamorphic rocks of the Eurasian basement sampled in the Armenian foreland basin dated at 166 Ma; (5) rapid cooling suggested by similar within-error ages of amphibole and muscovite sampled from the same exotic block in the Armenian fore-arc basin, ascribed to rapid exhumation related to extensional tectonics in the arc; and finally (6) cessation of ‘Andean’-type magmatic arc history in the Upper Cretaceous. Remnants of magmatic activity in the Early Cretaceous are found in the Georgian crystalline basement at c. 114 Ma, which is ascribed to flat slab subduction of relatively hot oceanic crust. This event corresponds to the emplacement of an oceanic seamount above the N Armenian ophiolite at 117 Ma. The activity of a hot spot between the active Eurasian margin and the South Armenian Block is thought to have heated and thickened the Neo-Tethys oceanic crust. Finally, the South Eurasian margin was uplifted and transported over this hot oceanic crust, resulting in the cessation of subduction and the erosion of the southern edge of the margin in Upper Cretaceous times. Emplacement of Eocene volcanics stitches all main collisional structures. 相似文献