皖南燕山期早阶段花岗闪长岩和晚阶段正长花岗岩的稀有金属成矿潜力对比
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摘要
皖南燕山期花岗岩可分为早阶段(152-137Ma)和晚阶段(136-122Ma),早阶段岩性主要为花岗闪长岩,晚阶段岩性主要为正长花岗岩。本文通过对皖南燕山期两期花岗岩的分析,发现两期花岗岩在稀有金属含量特征上表现出较大的差异性:两阶段花岗岩的Li、Cs含量大致相当,而晚阶段正长花岗岩的Be、Nb、Rb、Zr、Hf、Ta含量要高于早阶段花岗闪长岩,其中Rb相当于早阶段的两倍,因此晚阶段正长花岗岩相比早阶段花岗闪长岩成矿潜力更高。
The Yanshanian granites in southern Anhui can be divided into early stage(152-137 Ma) and late stage(136-122 Ma). The early stage lithology is mainly granodiorite, and the late stage lithology is mainly syenite granite. Based on the analysis of the Yanshanian two-stage granite in southern Anhui Province, it is found that the two-stage granite shows a large difference in the characteristics of rare metal: the Li and Cs content of the two-stage granite is roughly equal, while the content of Be, Nb, Rb, Zr, Hf and Ta in the late-stage syenogranite is higher than that in the early stage granodiorite., and Rb is equivalent to twice the early stage. Therefore, the later stage syenogranite has greater mineralization potential than the early stage granodiorite.
The Yanshanian granites in southern Anhui can be divided into early stage(152-137 Ma) and late stage(136-122 Ma). The early stage lithology is mainly granodiorite, and the late stage lithology is mainly syenite granite. Based on the analysis of the Yanshanian two-stage granite in southern Anhui Province, it is found that the two-stage granite shows a large difference in the characteristics of rare metal: the Li and Cs content of the two-stage granite is roughly equal, while the content of Be, Nb, Rb, Zr, Hf and Ta in the late-stage syenogranite is higher than that in the early stage granodiorite., and Rb is equivalent to twice the early stage. Therefore, the later stage syenogranite has greater mineralization potential than the early stage granodiorite.
引文
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[2]陈江峰,周泰禧,李学明,K.A.Foland,黄承义,卢伟.安徽南部燕山期中酸性侵入岩的源区锶、钕同位素制约[J].地球化学,1993(03):261-268.
[3]迟清华,鄢明才.2007.应用地球化学元素丰度数据手册.北京地质出版社:2-3.
[4]何晗晗,王登红,苏晓云,张怡军,王国瑞,李建康,赵斌,李建国.湘南骑田岭岩体的稀有金属地球化学特征及其含矿性研究[J].大地构造与成矿学,2014,38(02):366-374.
[5]李洁,黄小龙.江西雅山花岗岩岩浆演化及其Ta-Nb富集机制[J].岩石学报,2013,29(12):4311-4322.
[6]马东升.2008.华南重要金属矿床的成矿规律-时代爆发性、空间分带性、基底继承性和热隆起成矿.矿物岩石地球化学通报,27(3):209~217.
[7]熊小林,饶冰,朱金初等.黑鳞云母花岗质岩浆的结晶分异及钠长花岗质岩浆的形成.岩石学报,2002,18(2):223-23.
[8]邢凤鸣,徐祥.皖南中生代花岗岩类Nd、Sr、Pb同位素特点[J].安徽地质,1993(01):35-41.
[9]鄢明才,迟清华.1997.中国东部地壳与岩石的化学组成.北京:科学出版社,1~292.地质,2016,37(04):275-283.
[10]闫峻,后田结,王爱国,王德恩,张定源,翁望飞,刘建敏,刘晓强,李全忠.皖南中生代早期成矿和晚期非成矿花岗岩成因对比[J].中国科学:地球科学,2017,47(11):1269-1291.
[11]张虹,戴圣潜,管运财,吴海权.皖南绩溪伏岭岩体岩石地球化学特征[J].中国地质,2005(03):411-416.
[12]张建芳,龚瑞君,汪隆武,蔡晓亮,徐双辉,陈津华,陈小友,汪建国.浙皖晚中生代仙霞岩体锆石U-Pb年代学、地球化学及成岩地质意义[J].地质学报,2017,91(01):198-212.
[13]周涛发,袁峰,侯明金,杜建国,范裕,朱光,岳书仓.江南隆起带东段皖赣相邻区的成矿条件与资源潜力对比研究[J].自然科学进展,2003(10):30-35.
[14]周涛发,袁峰,侯明金,杜建国,范裕,朱光,岳书仓.江南隆起带东段皖赣相邻区燕山期花岗岩类的成因及形成的地球动力学背景[J].矿物岩石,2004(03):65-71.
[15]赵劲松,赵斌,饶冰.Ta,Nb,W在钠长花岗岩岩浆结晶分异过程中于各相间分配行为的实验研究[J].科学通报,1996(15):1413-1417.
[16]郑勇,余心起,王德恩,汪诚.安徽绩溪伏岭岩体隆升时代的磷灰石裂变径迹证据[J].地质论评,2009,55(03):385-394
[17]中国科学院贵阳地球化学研究所.1979.华南花岗岩类的地球化学.北京科学出版社:1-421.
[18]Huang X L,Wang R C,Chen X M,et al.Vertical variations in the mineralogy of the Yichun topaz lepidolite granite,Jiangxi Province,southern China.The Canadian Mineralogist,2002,40(4):1047-1068.
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