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31.
为了研究大兴安岭中段哈达陶勒盖组火山岩的形成时代和岩石成因,进行了锆石U-Pb同位素年龄测试和地球化学研究.LA-ICP-MS锆石U-Pb定年结果显示,哈达陶勒盖组火山岩形成于234~244Ma的中三叠世.岩石地球化学研究表明,哈达陶勒盖组火山岩具有低硅富碱、富钙镁的特征;稀土丰度总量w(∑RE)= 122.32×10-6~140.66×10-6,轻、重稀土分馏较明显,m(La)/m (Yb)N=11.99~18.68, 无明显Eu负异常(δ○Eu=0.84~0.98),微量元素以富集Rb,K,Ba,Th,亏损Nb,P,Ti为特征.哈达陶勒盖组火山岩岩浆源区为富集的岩石圈地幔, 并遭受了地壳物质的混染. 相似文献
32.
西秦岭中生代花岗岩锆石U-Pb-Lu-Hf同位素特征及地质意义 总被引:1,自引:0,他引:1
对西秦岭地区中川岩体、柏家庄岩体和教场坝花岗岩体进行LA-ICP-MS锆石U-Pb同位素年代学分析, 获得其岩浆侵位年龄分别为220±1, 216±6和222±3 Ma, 表明3个岩体均形成于中?晚三叠世。样品的全岩地球化学分析结果表明, 3个岩体具有相似的稀土及微量元素特征, 均表现为显著亏损高场强元素Nb, Ti和P等, 具有明显的右倾式球粒陨石标准化稀土元素配分模式。锆石Lu-Hf同位素分析结果表明, 3个岩体锆石测年样品的εHf(t)值介于?3.31~+1.68之间, 二阶段模式年龄介于1151~1456 Ma之间。岩石成因分析表明, 这些印支期花岗岩体的母岩浆主要来源于新元古代地壳物质的部分熔融。结合岩体形成时代、岩石成因和区域岩浆作用, 认为这些岩体形成于南秦岭与华南板块沿勉略缝合带相碰撞的造山动力学背景, 可能与华南板块的俯冲板片断离有关。 相似文献
33.
通过对哈尔滨东部地区海西期钾长花岗岩年代学、地球化学特征的研究,讨论兴蒙造山带的演化.研究区钾长花岗岩呈肉红色细粒,主要由钾长石、斜长石、石英和黑云母组成.岩石中siO2的质量分数为74.70%~75.70%,为酸性岩.Al2 O3的质量分数为12.07%~13.18%;Na2O+K2O的质量分数为7.78%~8.09%,K2O/Na2O为0.93%~1.60%.里特曼指数为1.85~2.06.∑REE的质量分数为96.32×10-6~172.83×10-6,δEu为0.21~0.77,为铕负异常;铝饱和指数为0.88~1.12,属于高钾钙碱性花岗岩,与造山带垮塌导致的大规模岩石圈伸展作用有关.该花岗岩LA-ICP-MS锫石U-Pb年龄为(298.54士0.86) Ma(MSWD=0.94),属于晚石炭世,形成于古亚洲洋闭合后兴安地块和松嫩地块碰撞拼合后的伸展作用. 相似文献
34.
Zircon U-Pb ages of granites at Changba and Huangzhuguan in western Qinling and implications for source nature 总被引:2,自引:0,他引:2
Mesozoic granitoids are widespread in the Qinling-Dabie-Sulu orogenic belt. Precise U-Pb dating on these granitoids can reveal
the evolution of the continental collision orogen and thus provide information on the nature of magma sources. This study
presents zircon LA-ICP-MS U-Pb dating and whole-rock geochemical analyses for two intrusions at Changba and Huangzhuguan in
western Qinling. Zircon U-Pb ages for central and marginal phases of the Huangzhuguang intrusion are 214±1 Ma and 213±3 Ma,
respectively. Zircons from the Changba intrusion yield a dominant cluster with an U-Pb age of 213±2 Ma. Collectively, these
ages are younger than ages of 220 to 240 Ma for ultrahigh-pressure metamorphism due to the continental collision between the
South China Block and the North China Block, corresponding to syn-exhumation magmatism. Some inherited zircons occur in the
Changba intrusion, yielding a weighted mean of 206Pb/238U ages at 757±14 Ma. This indicates that the Changba intrusion has the crustal source of mid-Neoproterozoic ages and a tectonic
affinity to the South China Block. Geochemically, the two intrusuons are both rich in LILE and LREE but depleted in HFSE and
HREE, similar to arc-type igneous rocks. The Huangzhuguang intrusion exhibits linear correlations between SiO2 and the other major oxides, implying chemical evolution from a cognate magma source. It contains mafic enclaves, suggesting
possible mixing of felsic-mafic magmas. The Changba granite is rich in Si and K but poor in Fe and Mg as well as has a high
value of Fe*, suggesting strong differentiation of granitic magma. Therefore, the two intrusions were derived from the Late
Triassic anatexis of the continental crust of different compositions in the northern margin of South China Block. This process
may be coupled with exhumation of the subducted continental crust in the stage of late collision. 相似文献
35.
The strontium isotopic compositions (87Sr/86Sr) of samples including soils, bedrock, soil waters, drip waters and their corresponding speleothems in the Qixing Cave (QXC), Guizhou Province, China, were systemically measured and analyzed. The results indicate that there are significant Sr isotopic differences among samples. The mean 87Sr/86Sr ratios in drip water for the samples 1#, 4# and 9# were 0.709568, 0.709139 and 0.708761, respectively, which possibly result from different flow paths, residence times, and other hydrogeological processes in the unsaturated zone overlying QXC. Meanwhile, levels of 40.8%, 57.6% and 72.4% of Sr in drip waters for 1#, 4# and 9#, respectively, were derived from bedrock dissolution, which was calculated by the mixture model of the two end-members (soil and bedrock). There is, however, no positive correlation between the relative proportion from bedrock dissolution (δ13C value is 1.8‰) and drip water δ13CDIC values. The mean drip water δ13CDIC value in 1# is the heaviest (–4.5‰) with the lowest contribution rate of bedrock dissolution, whereas the value in 9# is the lightest (–9.3‰) with the highest contribution rate of bedrock dissolution. The proportion from host rock dissolution in 4# is higher than that in 1# and lower than that in 9#, while its mean drip water δ13CDIC value (–8.6‰) is higher than that of 9# and lower than that for 1#. This suggests that the prior calcite precipitation (PCP) processes in the unsaturated zone overlying the cave are responsible for the δ13CDIC value differences between different drip waters, and not bedrock dissolution. Furthermore, this study also demonstrates that the 87Sr/86Sr ratios of speleothems in the 1# and 4# mainly reflect the variation in the relative proportions from the soil system (soil water) and bedrock dissolution overlying the cave. It is, therefore, feasible to use the strontium isotopic signals of speleothems as an indicator for soil chemical weathering intensity, and consequently as a monsoon proxy in the study area. 相似文献
36.
Little is known about the range or controls on the molybdenum isotopic composition of low-medium temperature hydrothermal
ore-forming systems. We present molybdenum isotope data from 12 hydrothermal syndepositional silicalite and carbonaceous slate
samples from the Dajiangping pyrite deposit in western Guangdong Province, South China. The δ
97/95 Mo values from Orebody III range from −0.02‰ to 0.29‰, with an average of 0.18‰. In contrast, the composition values from
Orebody IV display a larger variation from −0.70‰ to 0.62‰. However, the five samples from the main ore bed all show strong
negative values. This indicates that the significant variation in molybdenum isotopic composition supports different hydrothermal
ore-forming metallogenesis and a metallogenic environment between the two orebodies. Orebody III is likely to have been deposited
from submarine exhalative hydrothermal fluids under a relatively strong reducing environment and Orebody IV may have also
been influenced by hydrothermal superimposition in a more oxidized disequilibrium condition. In addition, the δ
97/95 Mo values of Orebody IV are clearly negative, together with the values increasing stratigraphically upward in the ore beds,
suggesting that the metallogenic environment of Orebody IV is different from the open oceanic systems. There might be dynamic
fractionation in this restricted environment. Therefore, the molybdenum isotope can be used as an effective tracer for the
ore-forming fluid and metallogenic environment. 相似文献
37.
38.
39.
THE ZIRCON U-Pb AGE OF METAMORPHOSED BASIC VOLCANIC ROCKS FROM THE BAINAIMIAO GROUP IN INNER MONGOLIA 总被引:1,自引:0,他引:1
《科学通报(英文版)》1991,36(9):738-738
40.