中国地质
中國地質
중국지질
Geology in China
2015年
5期
1337-1353
,共17页
冯光英%杨经绥%熊发挥%刘飞%牛晓露%连东洋%王云鹏%赵一珏
馮光英%楊經綏%熊髮揮%劉飛%牛曉露%連東洋%王雲鵬%趙一玨
풍광영%양경수%웅발휘%류비%우효로%련동양%왕운붕%조일각
雅鲁藏布江蛇绿岩带%错不扎蛇绿岩%地幔橄榄岩%部分熔融%熔/流体-岩石反应
雅魯藏佈江蛇綠巖帶%錯不扎蛇綠巖%地幔橄欖巖%部分鎔融%鎔/流體-巖石反應
아로장포강사록암대%착불찰사록암%지만감람암%부분용융%용/류체-암석반응
Yarlung Zangbo suture zone%Cuobuzha ophiolite%peridotite%partial melting%melt/fluid-mantle interaction
错不扎蛇绿岩位于雅鲁藏布江缝合带西段北亚带,岩体呈北西-南东走向带状产出,主要由地幔橄榄岩和辉长岩脉组成。地幔橄榄岩主体为方辉橄榄岩,详细的矿物学及岩石地球化学研究表明,错不扎方辉橄榄岩中橄榄石为镁橄榄石,斜方辉石主要为顽火辉石,而单斜辉石主要为顽透辉石和透辉石,铬尖晶石具有高Al和高Mg(Mg#=60~70)特征。稀土配分图解显示其具有轻稀土亏损而重稀土富集的左倾型亏损地幔源区特征,(La/Yb)N=0.11~0.60,模拟结果显示其为经历了15%~20%部分熔融后的残余,与快速扩张大洋中脊环境下形成的深海橄榄岩的熔融程度(10%~22%)较为一致。此外,错不扎方辉橄榄岩轻稀土含量明显高于部分熔融模型中LREE的含量,而且,在微量元素原始地幔标准化图解中富集大离子亲石元素Rb、Sr和高场强元素Ta、Hf和Ti,这一特征指示错不扎方辉橄榄岩在大洋中脊环境形成后又受到后期俯冲带熔/流体的改造。结合南北两带不同蛇绿岩体构造环境的对比,笔者认为雅鲁藏布江西段南北两带蛇绿岩体具有相似的形成环境,两者在地理位置以及产状方面的差别可能是受到构造侵位的影响。
錯不扎蛇綠巖位于雅魯藏佈江縫閤帶西段北亞帶,巖體呈北西-南東走嚮帶狀產齣,主要由地幔橄欖巖和輝長巖脈組成。地幔橄欖巖主體為方輝橄欖巖,詳細的礦物學及巖石地毬化學研究錶明,錯不扎方輝橄欖巖中橄欖石為鎂橄欖石,斜方輝石主要為頑火輝石,而單斜輝石主要為頑透輝石和透輝石,鉻尖晶石具有高Al和高Mg(Mg#=60~70)特徵。稀土配分圖解顯示其具有輕稀土虧損而重稀土富集的左傾型虧損地幔源區特徵,(La/Yb)N=0.11~0.60,模擬結果顯示其為經歷瞭15%~20%部分鎔融後的殘餘,與快速擴張大洋中脊環境下形成的深海橄欖巖的鎔融程度(10%~22%)較為一緻。此外,錯不扎方輝橄欖巖輕稀土含量明顯高于部分鎔融模型中LREE的含量,而且,在微量元素原始地幔標準化圖解中富集大離子親石元素Rb、Sr和高場彊元素Ta、Hf和Ti,這一特徵指示錯不扎方輝橄欖巖在大洋中脊環境形成後又受到後期俯遲帶鎔/流體的改造。結閤南北兩帶不同蛇綠巖體構造環境的對比,筆者認為雅魯藏佈江西段南北兩帶蛇綠巖體具有相似的形成環境,兩者在地理位置以及產狀方麵的差彆可能是受到構造侵位的影響。
착불찰사록암위우아로장포강봉합대서단북아대,암체정북서-남동주향대상산출,주요유지만감람암화휘장암맥조성。지만감람암주체위방휘감람암,상세적광물학급암석지구화학연구표명,착불찰방휘감람암중감람석위미감람석,사방휘석주요위완화휘석,이단사휘석주요위완투휘석화투휘석,락첨정석구유고Al화고Mg(Mg#=60~70)특정。희토배분도해현시기구유경희토우손이중희토부집적좌경형우손지만원구특정,(La/Yb)N=0.11~0.60,모의결과현시기위경력료15%~20%부분용융후적잔여,여쾌속확장대양중척배경하형성적심해감람암적용융정도(10%~22%)교위일치。차외,착불찰방휘감람암경희토함량명현고우부분용융모형중LREE적함량,이차,재미량원소원시지만표준화도해중부집대리자친석원소Rb、Sr화고장강원소Ta、Hf화Ti,저일특정지시착불찰방휘감람암재대양중척배경형성후우수도후기부충대용/류체적개조。결합남북량대불동사록암체구조배경적대비,필자인위아로장포강서단남북량대사록암체구유상사적형성배경,량자재지리위치이급산상방면적차별가능시수도구조침위적영향。
The Yarlung Zangbo suture zone (YZSZ) , which separates Eurasia in the north from the Indian plate in the south, can be divided into eastern, central and western segments. The western part is further divided into Dajiweng-Saga ophiolite zone in the north and Daba-Xiugugabu ophiolite zone in the south. The studied Cuobuzha ophiolite is located in the north part of the western YZSZ. The mantle peridotites mainly consists of harzburgites and associatd dikes or veins of gabbro in the massif. The characteristics of the mineral show that the Fo values of the olivine in mantle peridotites are high, and all of the olivines are forsterites;in addition, the orthopyroxenes are mainly enstatites, the clinopyroxenes are endiopsides and diopsides. Chrome spinels are characterized by high Al (Cr#=22-39) and high Mg# (60-70). The harzburgite in Cuobuzha has similar distribution patterns of rare earth elements, characterized by their slight depletion of LREE and weak enrichment of HREE with (La/Yb)N being 0.11-0.60. Fractional melting modeling indicates that harazburgites may be the residues from 15%-22%melting. However, the LREE values of the Cuobuzha peridotites are higher than the calculated LREE values. In combination with their enrichment of large ion lithophile elements (LILE, e.g., Rb and Sr) and high field strength elements (HFSE, e.g., Ta, Hf and Ti) , the authors hold that these rocks originated from partial melting of mantle source and was later modified by fluids and melts in a suprasubduction zone mantle wedge. Comparative study of the western YZSZ suggests that the tectonic setting of the two ophiolitic subbelts are similar to each other, and the tectonic emplacement probably resulted in the differences between them.
