地球学报
地毬學報
지구학보
ACTA GEOSCIENTIA SINICA
2013年
2期
176-192
,共17页
李大鹏%杜杨松*%庞振山%涂其军%张永平%葛松胜%沈立军%王开虎
李大鵬%杜楊鬆*%龐振山%塗其軍%張永平%葛鬆勝%瀋立軍%王開虎
리대붕%두양송*%방진산%도기군%장영평%갈송성%침립군%왕개호
锆石LA-ICP-MS%地球化学%火山岛弧%大哈拉军山组%阿吾拉勒
鋯石LA-ICP-MS%地毬化學%火山島弧%大哈拉軍山組%阿吾拉勒
고석LA-ICP-MS%지구화학%화산도호%대합랍군산조%아오랍륵
Zircon LA-ICP-MS%geochemistry%volcanic arc%Dahalajunshan Formation%Awulale area
西天山阿吾拉勒裂谷带内广泛发育石炭纪火山岩,主要由玄武岩、粗面玄武岩、玄武质粗安岩、玄武质安山岩、粗面岩和流纹岩组成.以中基性岩为主,多为钙碱性系列.LA-ICP-MS锆石U-Pb测年结果显示,区内流纹岩形成于(316.1±2.2) Ma,为早石炭世晚期.微量和稀土元素特征表明,本区的火山岩具有俯冲带大陆边缘岛弧火山岩的典型特征,应形成于早石炭世晚期的准噶尔洋向伊犁板块俯冲的大陆边缘弧环境.可能是由受俯冲流(熔)体交代的地幔楔尖晶石二辉橄榄岩发生1%~5%的部分熔融,并在上升过程中经历了不同程度的结晶分离和同化混染作用而形成的.
西天山阿吾拉勒裂穀帶內廣汎髮育石炭紀火山巖,主要由玄武巖、粗麵玄武巖、玄武質粗安巖、玄武質安山巖、粗麵巖和流紋巖組成.以中基性巖為主,多為鈣堿性繫列.LA-ICP-MS鋯石U-Pb測年結果顯示,區內流紋巖形成于(316.1±2.2) Ma,為早石炭世晚期.微量和稀土元素特徵錶明,本區的火山巖具有俯遲帶大陸邊緣島弧火山巖的典型特徵,應形成于早石炭世晚期的準噶爾洋嚮伊犛闆塊俯遲的大陸邊緣弧環境.可能是由受俯遲流(鎔)體交代的地幔楔尖晶石二輝橄欖巖髮生1%~5%的部分鎔融,併在上升過程中經歷瞭不同程度的結晶分離和同化混染作用而形成的.
서천산아오랍륵렬곡대내엄범발육석탄기화산암,주요유현무암、조면현무암、현무질조안암、현무질안산암、조면암화류문암조성.이중기성암위주,다위개감성계렬.LA-ICP-MS고석U-Pb측년결과현시,구내류문암형성우(316.1±2.2) Ma,위조석탄세만기.미량화희토원소특정표명,본구적화산암구유부충대대륙변연도호화산암적전형특정,응형성우조석탄세만기적준갈이양향이리판괴부충적대륙변연호배경.가능시유수부충류(용)체교대적지만설첨정석이휘감람암발생1%~5%적부분용융,병재상승과정중경력료불동정도적결정분리화동화혼염작용이형성적.
@@@@Carboniferous volcanic rocks are widespread in Awulale rift zone area. Geochemical data suggest that they belong to calc-alkalic series, and consist of basalt, trachybasalt, basaltic trachyandesite, basaltic andesite, trachyte and rhyolite. LA-ICP-MS zircon dating of the rocks yielded an isotopic age of (316.1±2.2) Ma, which represents the late Early Carboniferous. Their major and trace element geochemistry shows that these volcanic rocks are characterized by the enrichment of large ion lithophile elements, suggesting that they had a very intimate relationship with volcanic-arc rocks and probably resulted from the northward sudbuction of the Junggar Ocean beneath the Ili-Middle Tianshan Plate. They might have been formed from a partially melted (about 1%~5%) lithospheric mantle (probably spinel-lherzolite) source that had been enriched with subduction fluids, and experienced extensive fractional crystallization and crustal contamination before eruption.
