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安徽铜陵岩浆岩中辉长质岩石包体的发现及其地质意义

杜杨松1 2, 李铉具3   

  1. 1. 岩石圈构造、深部过程及探测技术教育部重点实验室北京 100083; 2. 中国地质大学 地球科学与资源学院, 北京 100083; 3. 韩国忠南大学自然科学学院大田 305-764
  • 收稿日期:2004-09-20 修回日期:2004-09-20 出版日期:2004-09-20 发布日期:2004-09-20

Discovery of Gabbroic Xenoliths from Early Cretaceous Intrusions in Tongling,Anhui Province,China and Its Geological Significance

DU Yang-song1 2, LEE Hyun-koo3   

  1. 1. Key Laboratory of Lithospheric Tectonics and Lithoprobe Propecting, Ministry of Education, Beijing 100083, China; 2. China University of Geosciences, Beijing 100083, China; 3. College of Natural Sciences, Chungnam National University, Taejon 305-764, Korea
  • Received:2004-09-20 Revised:2004-09-20 Online:2004-09-20 Published:2004-09-20

摘要: 在安徽铜陵白芒山、老庙基和小铜官山岩体中发现了3个辉长质岩石包体。报道了这些辉长质岩石包体及其寄主岩的岩相学观察以及矿物电子探针和全岩岩石化学、微量元素、稀土元素和锶钕同位素分析资料,总结了辉长质岩石包体的特征,讨论了它们的地质意义。该区辉长质岩石包体主要有两类。一类具“斑状”结构,“斑晶”主要是斜长石和角闪石。“基质”具微粒半自形一自形等粒状结构,主要矿物成分为斜长石和角闪石;另有少量黑云母,有时还有少量辉石。另一类具辉长结构,主要由辉石、斜长石、角闪石和黑云母组成。本区辉长质岩石包体低铝高镁和富碱,其Cr,Co和Ni的含量明显偏高,重稀土元素,特别是钇相对富集,(^87Sr/^86Sr).为0.7063到0.7069,εNd(t)为-4.9~-8.8,与大陆裂谷碱性玄武岩的特征一致,表明本区此时属于拉张环境。研究还表明,铜陵地区不具“斑状”结构的辉长质岩石包体是由底侵的碱性玄武岩浆在约26km深处的深位岩浆房中直接冷凝结晶形成的。本区具“斑状”结构的辉长质岩石包体中的“斑晶”由闪长质岩浆在8~13km深处的中位岩浆房中发生结晶分异作用形成,而“基质”是在“斑晶”形成以后,由深位岩浆房中的中基性演化岩浆上侵到中位岩浆房,并围绕早期“斑晶”矿物结晶而形成。

Abstract: Three gabbroic xenoliths have been found for the first time from Early Cretaceous intrusions of quartz monzonitic dioritic to pyroxene monzonitic dioritic composition in Tongling,Anhui Province,China.This paper presents new petrographic observations and microprobe analyses,as well as petrochemical and geochemical analyses on the xenoliths and their hosts,and provides new insight into their formation process and tectonic setting.Two types of gabbroic xenoliths have been identified in these intrusions based on their texture:one with "porphyritic"texture,and the other with gabbro texture.The gabbroic xenoliths are lower in ω(A1203)(13.12%~13.13%),but higher in ω(MgO)(11.28%~11.66%) and alkali co(K20+Na20 =5.50% ~5.81%).They ale rich in Cr(169.9~186.9 tm/g),Co(19.2 tm/g)and Ni(299.4~356.7 ug/g),and have smaller LREE to HREE ratios(4.43~5.94) with enrichment in Y(22.92~23.56 tc/g).Their initial 87Sr/86Sr ratios range from 0.706 3 to 0.7069,with epsilon Nd(t)= -4.9~-8.8.These data indicate that the gabbroic xenoliths have characteristics consistent with those of alkaline basalt formed in continental rift,and support extension in the regional tectonic regime during their formation.The crystallization temperatures of the minerals in the xenoliths with gabbro texture and the"matrix"in the xenoliths with "porphyritic"texture were determined in the range of 1049℃ and 910~933℃,respectively,using the amphibole-plagioclase and Al-in-amphibole geothermometers.The pressures determined based on electron microprobe analyses of these phases and the"phenocryst"in the xenoliths with "porphyritic" texture indicate that they were formed at the depths of 26 km,8~10 km,and 13 km.These temperatures and depths represent the conditions of magmatic crystallization corresponding to a deep-level magma chamber and a shallow-level magma chamber,respectively.The depth of the deep-level magma chamber is correlated to the depth of the lower sima crust of the lithosphere,and the depth of the shallow-level magma chamber is at the depth between the Arehean Group- Lower Proterozoic Series of hypometamorphic rocks and the Middle-Upper Proterozoic Series of epimetamorphic rocks.Based on the facts mentioned above,it may be inferred that a continent- continent collision between the Yangtz and North China Cratons in the Triassic followed by a continental extension led to the transformation of the regional tectonic regime from early (T2-T3) compression to late(J3一K1)extension and fault depression,and resulted in a regional magma activity of alkaline basalts.The alkaline basaltic magma was derived from upper mantle,and underplated at the depth of 26km± at about 140Ma.After this,crystallization of the underplated alkaline basaltic magma attributed to the formation of the xenoliths with gabbro texture in the deep-level magma chamber at the depth of 26km±.The relevant Sr and Nd isotope results and petrological and mineralogical data are consistent with assimilation of the underplated alkaline basaltic magma with the lower sima crest in the formation of the derived magma with gabbroic composition in the deep-level magma chamber,and support formation of the magma with dioritic composition in the shallow-level magma chamber at the depth of 8~13 km by assimilation of the derived magma from the deep-level magma chamber with the metamorphic rocks.Crystallization fractionation of the dioritic magma in the shallow-level magma chamber Was responsible for formation of the"phenocrysts"in the xenoliths with "porphyritic" texture.and crystallization of the derived magma intruding from the deep-level magma chamber into the shallow-level magma chamber resulted in formation of the"ma trix"around the earlier "phenocrysts" in the xenoliths with "porphyritic"texture.