本文主要研究内容
作者张泽中(2019)在《攀西米易地区晚二叠世碱性岩成因机制及地质意义》一文中研究指出:大火成岩省的形成与演化历来是国际地质学界关注的热点。位于中国西南部的晚二叠世峨眉山大火成岩省是世界公认的地幔柱成因的大火成岩省之一。峨眉山大火成岩省内带的攀西(攀枝花-西昌)地区发现有大量中酸性碱性岩和与其时空联系紧密的辉长岩,然而目前对于这两套岩体具体的形成过程仍较为模糊。因此,本论文围绕攀西中部米易地区的猴子山角闪正长岩,纪家湾正长岩,横山石英正长岩以及和平村角闪辉长岩,展开详细的岩石学、岩石地球化学、Sr-Nd同位素,锆石U-Pb年代学及原位Lu-Hf同位素的研究,结合MELTS软件以期探明该区域晚二叠世碱性侵入岩和辉长岩的时空格架,探讨岩石成因和详细的岩浆演化过程,为进一步探究攀西地区晚二叠世火成岩与峨眉山地幔柱的联系提供有效约束。研究工作主要结论如下:(1)猴子山角闪正长岩的锆石U-Pb年龄为260.2±1.8 Ma,纪家湾正长岩的年龄为259.8±1.7 Ma,横山石英正长岩的年龄为260.1±1.4Ma,和平村角闪辉长岩的年龄为260.3±1.0 Ma,四套岩体的年龄在误差范围内一致,并与峨眉山大火成岩省的形成时间(259Ma)吻合,代表了峨眉山省地幔柱活动的晚期产物。(2)米易地区的正长岩和辉长岩表现出与峨眉山高Ti玄武岩相似的Sr-Nd同位素组成;正长岩单元均表现出不同程度的Eu负异常,亏损Sr,Ba,Rb,Th,Nb等元素的特征,该特征恰好与辉长岩地化特征呈现互为对称的关系,表明正长岩单元和辉长岩单元来自于同一母岩浆。猴子山石英正长岩(+8.9+11.0),与纪家湾正长岩(+6.0+10.3)及和平村角闪辉长岩(+6.6+9.4)的ε(Hf)t值十分接近;而横山石英正长岩的锆石Lu-Hf同位素成分变化较大,点HS-1的ε(Hf)t值达到+10,远不同于横山样品中其余锆石测试点的ε(Hf)t值(-5.4+1.3)。因此,本文认为横山石英正长岩中的最高ε(Hf)t值(HS-1)应代表了其真正的源区属性,其较大的成分变化应与后期地壳物质的混染有关。(3)MELTS模拟的结果表明,高Ti玄武质岩浆在900℃左右时,经过4%橄榄石,11%单斜辉石,11%斜方辉石,40%斜长石和8%氧化物的分离结晶,可以形成与米易地区猴子山、纪家湾和横山正长岩十分接近的岩浆成分,和平村角闪辉长岩应代表了岩浆分异过程中的分离相。(4)本次研究自东向西所采集的猴子山角闪正长岩,纪家湾正长岩和横山石英正长岩SiO2含量不断升高,暗色矿物(角闪石)逐渐减少,石英含量不断增多,并且同位素向更富集的方向演化。这种在成分上的过渡特征很好地代表了峨眉山地幔柱头部熔融所产生的玄武质岩浆与峨眉山大火成岩省内部古老地壳混合程度不断加深的过程,证实了峨眉山地幔柱对于地壳增生和成分改变具有重要意义。
Abstract
da huo cheng yan sheng de xing cheng yu yan hua li lai shi guo ji de zhi xue jie guan zhu de re dian 。wei yu zhong guo xi na bu de wan er die shi e mei shan da huo cheng yan sheng shi shi jie gong ren de de man zhu cheng yin de da huo cheng yan sheng zhi yi 。e mei shan da huo cheng yan sheng nei dai de pan xi (pan zhi hua -xi chang )de ou fa xian you da liang zhong suan xing jian xing yan he yu ji shi kong lian ji jin mi de hui chang yan ,ran er mu qian dui yu zhe liang tao yan ti ju ti de xing cheng guo cheng reng jiao wei mo hu 。yin ci ,ben lun wen wei rao pan xi zhong bu mi yi de ou de hou zi shan jiao shan zheng chang yan ,ji jia wan zheng chang yan ,heng shan dan ying zheng chang yan yi ji he ping cun jiao shan hui chang yan ,zhan kai xiang xi de yan dan xue 、yan dan de qiu hua xue 、Sr-Ndtong wei su ,gao dan U-Pbnian dai xue ji yuan wei Lu-Hftong wei su de yan jiu ,jie ge MELTSruan jian yi ji tan ming gai ou yu wan er die shi jian xing qin ru yan he hui chang yan de shi kong ge jia ,tan tao yan dan cheng yin he xiang xi de yan jiang yan hua guo cheng ,wei jin yi bu tan jiu pan xi de ou wan er die shi huo cheng yan yu e mei shan de man zhu de lian ji di gong you xiao yao shu 。yan jiu gong zuo zhu yao jie lun ru xia :(1)hou zi shan jiao shan zheng chang yan de gao dan U-Pbnian ling wei 260.2±1.8 Ma,ji jia wan zheng chang yan de nian ling wei 259.8±1.7 Ma,heng shan dan ying zheng chang yan de nian ling wei 260.1±1.4Ma,he ping cun jiao shan hui chang yan de nian ling wei 260.3±1.0 Ma,si tao yan ti de nian ling zai wu cha fan wei nei yi zhi ,bing yu e mei shan da huo cheng yan sheng de xing cheng shi jian (259Ma)wen ge ,dai biao le e mei shan sheng de man zhu huo dong de wan ji chan wu 。(2)mi yi de ou de zheng chang yan he hui chang yan biao xian chu yu e mei shan gao Tixuan wu yan xiang shi de Sr-Ndtong wei su zu cheng ;zheng chang yan chan yuan jun biao xian chu bu tong cheng du de Eufu yi chang ,kui sun Sr,Ba,Rb,Th,Nbdeng yuan su de te zheng ,gai te zheng qia hao yu hui chang yan de hua te zheng cheng xian hu wei dui chen de guan ji ,biao ming zheng chang yan chan yuan he hui chang yan chan yuan lai zi yu tong yi mu yan jiang 。hou zi shan dan ying zheng chang yan (+8.9+11.0),yu ji jia wan zheng chang yan (+6.0+10.3)ji he ping cun jiao shan hui chang yan (+6.6+9.4)de ε(Hf)tzhi shi fen jie jin ;er heng shan dan ying zheng chang yan de gao dan Lu-Hftong wei su cheng fen bian hua jiao da ,dian HS-1de ε(Hf)tzhi da dao +10,yuan bu tong yu heng shan yang pin zhong ji yu gao dan ce shi dian de ε(Hf)tzhi (-5.4+1.3)。yin ci ,ben wen ren wei heng shan dan ying zheng chang yan zhong de zui gao ε(Hf)tzhi (HS-1)ying dai biao le ji zhen zheng de yuan ou shu xing ,ji jiao da de cheng fen bian hua ying yu hou ji de ke wu zhi de hun ran you guan 。(3)MELTSmo ni de jie guo biao ming ,gao Tixuan wu zhi yan jiang zai 900℃zuo you shi ,jing guo 4%gan lan dan ,11%chan xie hui dan ,11%xie fang hui dan ,40%xie chang dan he 8%yang hua wu de fen li jie jing ,ke yi xing cheng yu mi yi de ou hou zi shan 、ji jia wan he heng shan zheng chang yan shi fen jie jin de yan jiang cheng fen ,he ping cun jiao shan hui chang yan ying dai biao le yan jiang fen yi guo cheng zhong de fen li xiang 。(4)ben ci yan jiu zi dong xiang xi suo cai ji de hou zi shan jiao shan zheng chang yan ,ji jia wan zheng chang yan he heng shan dan ying zheng chang yan SiO2han liang bu duan sheng gao ,an se kuang wu (jiao shan dan )zhu jian jian shao ,dan ying han liang bu duan zeng duo ,bing ju tong wei su xiang geng fu ji de fang xiang yan hua 。zhe chong zai cheng fen shang de guo du te zheng hen hao de dai biao le e mei shan de man zhu tou bu rong rong suo chan sheng de xuan wu zhi yan jiang yu e mei shan da huo cheng yan sheng nei bu gu lao de ke hun ge cheng du bu duan jia shen de guo cheng ,zheng shi le e mei shan de man zhu dui yu de ke zeng sheng he cheng fen gai bian ju you chong yao yi yi 。
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论文详细介绍
论文作者分别是来自西北大学的张泽中,发表于刊物西北大学2019-10-11论文,是一篇关于峨眉山大火成岩省论文,碱性岩论文,分离结晶论文,米易地区论文,地幔柱论文,西北大学2019-10-11论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自西北大学2019-10-11论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:峨眉山大火成岩省论文; 碱性岩论文; 分离结晶论文; 米易地区论文; 地幔柱论文; 西北大学2019-10-11论文;