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粤北诸广山南部水源岩体形成时代及成因机制 被引量:3
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作者 张俊涛 谢小占 +2 位作者 姚东红 曾宏伟 张跃跃 《华南地质》 CAS 2022年第4期596-613,共18页
粤北水源岩体位于诸广山复式岩体南部,岩性以细粒含斑黑云母二长花岗岩为主,细粒含斑二云母二长花岗岩和细粒二云母二长花岗岩少量分布。LA-ICP-MS锆石U-Pb测试结果显示,水源岩体中不同岩性岩石具有一致的成岩年龄(240.6±1.6Ma、24... 粤北水源岩体位于诸广山复式岩体南部,岩性以细粒含斑黑云母二长花岗岩为主,细粒含斑二云母二长花岗岩和细粒二云母二长花岗岩少量分布。LA-ICP-MS锆石U-Pb测试结果显示,水源岩体中不同岩性岩石具有一致的成岩年龄(240.6±1.6Ma、240.2±1.7Ma和240.0±2.9Ma),属中三叠世岩浆活动的产物。水源岩体元素地球化学及Sr-Nd-Hf同位素分析结果表明:(1)岩石具有高硅(SiO_(2)=68.14%~70.22%),富碱(ALK=6.59%~7.50%),高钾(K_(2)O/Na_(2)O>1),贫铁、镁、钙、钛、磷,铝饱和指数大于1.1(A/CNK=1.56~1.90),里特曼指数小于3.3(δ=1.73~2.14)的特征,常含白云母等富铝矿物,属高钾钙碱性系列强过铝质花岗岩;(2)稀土总量较高,属轻稀土富集型(LREE/HREE=13.41~19.90),中等负铕异常(δEu=0.43~0.45);(3)富集大离子亲石元素Rb、Th、U、K、Pb,而亏损Ba、Sr,贫Nb、Ta、Ti、Zr等高场强元素;(4)具较低的ε_(Nd)(t)值(-10.8~-11.3)和锆石ε_(Hf)(t)值(-12.5~-9.4),二阶段Nd模式年龄和Hf模式年龄分别为1.86~2.02Ga和1.86~2.06Ga。主、微量元素和Sr-Nd-Hf同位素组成指示水源岩体源区物质来自古元古代成熟度较高的陆壳组分(以变泥质岩为主,含少量变杂砂岩),明显区别于I型、A型花岗岩特征,属于S型花岗岩。结合成岩温压条件及区域地质构造演化分析,本文认为水源岩体是由处于碰撞加厚向伸展减薄构造转换阶段的古老地壳组分经过升温、减压等机制部分熔融形成。 展开更多
关键词 S型花岗 锆石U-PB年代学 SR-ND-HF同位素 石成因 水源岩体 诸广山南部
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The water content and hydrogen isotope composition of continental lithospheric mantle and mantle-derived mafic igneous rocks in eastern China 被引量:1
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作者 XU Zheng GONG Bin ZHAO ZiFu 《Science China Earth Sciences》 SCIE EI CAS CSCD 2016年第5期910-926,共17页
The water contents of minerals and whole-rock in mantle-derived xenoliths from eastern China exhibit large variations and are generally lower than those from other on- and off-craton lithotectonic units. Nevertheless,... The water contents of minerals and whole-rock in mantle-derived xenoliths from eastern China exhibit large variations and are generally lower than those from other on- and off-craton lithotectonic units. Nevertheless, the water contents of mineral and whole-rock in Junan peridotite xenoliths, which sourced from the juvenile lithospheric mantle, are generally higher than those elsewhere in eastern China. This suggests that the initial water content of juvenile lithospheric mantle is not low. There is no obvious correlation between the water contents and Mg~# values of minerals in the mantle xenoliths and no occurrence of diffusion profile in pyroxene, suggesting no relationship between the low water content of mantle xenolith and the diffusion loss of water during xenolith ascent with host basaltic magmas. If the subcontinental lithospheric mantle(SCLM) base is heated by the asthenospheric mantle, the diffusion loss of water is expected to occur. On the other hand, extraction of basaltic melts from the SCLM is a more efficient mechanism to reduce the water content of xenoliths. The primary melts of Mesozoic and Cenozoic basalts in eastern China have water contents, as calculated from the water contents of phenocrysts, higher than those of normal mid-ocean ridge basalts(MORB). The Mesozoic basalts exhibit similar water contents to those of island arc basalts, whereas the Cenozoic basalts exhibit comparable water contents to oceanic island basalts and backarc basin basalts with some of them resembling island arc basalts. These observations suggest the water enrichment in the mantle source of continental basalts due to metasomatism by aqueous fluids and hydrous melts derived from dehydration and melting of deeply subducted crust. Mantle-derived megacrysts, minerals in xenoliths and phenocrysts in basalts from eastern China also exhibit largely variable hydrogen isotope compositions, indicating a large isotopic heterogeneity for the Cenozoic SCLM in eastern China. The water content that is higher than that of depleted MORB mantle and the hydrogen isotope composition that is deviated from that of depleted MORB mantle suggest that the Cenozoic continental lithospheric mantle suffered the metasomatism by hydrous melts derived from partial melting of the subducted Pacific slab below eastern China continent. The metasomatism would lead to the increase of water content in the SCLM base and then to the decrease of its viscosity. As a consequence, the SCLM base would be weakened and thus susceptible to tectonic erosion and delamination. As such, the crust-mantle interaction in oceanic subduction channel is the major cause for thinning of the craton lithosphere in North China. 展开更多
关键词 Eastern China Continental basalt Lithospheric mantle Water Hydrogen isotope
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