岩石矿物学杂志
巖石礦物學雜誌
암석광물학잡지
ACTA PETROLOGICA ET MINERALOGICA
2009年
4期
316-328
,共13页
王绘清%朱云海%林启祥%李益龙
王繪清%硃雲海%林啟祥%李益龍
왕회청%주운해%림계상%리익룡
隆务峡%蛇绿岩%构造环境%电子探针%岛弧%西秦岭
隆務峽%蛇綠巖%構造環境%電子探針%島弧%西秦嶺
륭무협%사록암%구조배경%전자탐침%도호%서진령
Longwuxia Gorge%ophiolite%tectonic environment%EPMA%island arc%West Qinling
同仁隆务峡蛇绿岩大地构造位置位于西秦岭造山带与中祁连带结合部,其组成为:地幔橄榄岩(纯橄岩、蛇纹石化纯橄岩)、超镁铁质堆晶单元(单辉橄榄岩、橄榄辉石岩)、镁铁质堆晶单元(含橄榄石辉长岩、辉长岩等)及少量辉绿岩,各单元均以断层接触,弱蚀变.镜下研究发现其岩浆结晶序列为橄榄石-单斜辉石-(斜方辉石)-斜长石,与典型的SSZ型(Supra-Subduction Zone type)蛇绿岩结晶序列吻合.对各单元矿物电子探针研究发现:橄榄石成分多为贵橄榄石,单斜辉石则多为普通辉石和透辉石,在利用其成分进行构造环境判别中,本区蛇绿岩形成于与挤压背景密切相关的环境.该蛇绿岩表现出轻稀土元素略富集、重稀土元素平坦的稀土元素配分形式,与MORB有较大差异.微量元素特征为相对富集大离子亲石元素Ba、Rb、K,而强烈亏损Nb、P,这恰与俯冲带组分特点吻合;同时高场强元素构造判别图解佐证了前述构造环境的判定.研究区的蛇绿岩应形成于成熟度较高的岛弧环境中.
同仁隆務峽蛇綠巖大地構造位置位于西秦嶺造山帶與中祁連帶結閤部,其組成為:地幔橄欖巖(純橄巖、蛇紋石化純橄巖)、超鎂鐵質堆晶單元(單輝橄欖巖、橄欖輝石巖)、鎂鐵質堆晶單元(含橄欖石輝長巖、輝長巖等)及少量輝綠巖,各單元均以斷層接觸,弱蝕變.鏡下研究髮現其巖漿結晶序列為橄欖石-單斜輝石-(斜方輝石)-斜長石,與典型的SSZ型(Supra-Subduction Zone type)蛇綠巖結晶序列吻閤.對各單元礦物電子探針研究髮現:橄欖石成分多為貴橄欖石,單斜輝石則多為普通輝石和透輝石,在利用其成分進行構造環境判彆中,本區蛇綠巖形成于與擠壓揹景密切相關的環境.該蛇綠巖錶現齣輕稀土元素略富集、重稀土元素平坦的稀土元素配分形式,與MORB有較大差異.微量元素特徵為相對富集大離子親石元素Ba、Rb、K,而彊烈虧損Nb、P,這恰與俯遲帶組分特點吻閤;同時高場彊元素構造判彆圖解佐證瞭前述構造環境的判定.研究區的蛇綠巖應形成于成熟度較高的島弧環境中.
동인륭무협사록암대지구조위치위우서진령조산대여중기련대결합부,기조성위:지만감람암(순감암、사문석화순감암)、초미철질퇴정단원(단휘감람암、감람휘석암)、미철질퇴정단원(함감람석휘장암、휘장암등)급소량휘록암,각단원균이단층접촉,약식변.경하연구발현기암장결정서렬위감람석-단사휘석-(사방휘석)-사장석,여전형적SSZ형(Supra-Subduction Zone type)사록암결정서렬문합.대각단원광물전자탐침연구발현:감람석성분다위귀감람석,단사휘석칙다위보통휘석화투휘석,재이용기성분진행구조배경판별중,본구사록암형성우여제압배경밀절상관적배경.해사록암표현출경희토원소략부집、중희토원소평탄적희토원소배분형식,여MORB유교대차이.미량원소특정위상대부집대리자친석원소Ba、Rb、K,이강렬우손Nb、P,저흡여부충대조분특점문합;동시고장강원소구조판별도해좌증료전술구조배경적판정.연구구적사록암응형성우성숙도교고적도호배경중.
Located in Tongren of Qinghai Province, the Longwuxia Gorge ophiolite lies at the juncture between West Qinling and Middle Qilian orogenic belts and is composed of mantle peridotite (dunite, serpentinized dunite), ultramafic cumulate units (clinopyroxene-peridotites, olivine-pyroxenites), mafic cumulate units (olivine-bearing gabbro, gabbro etc.) and diabases. All these units are in contact with faults and have been weakly altered. Polarized light microscope studies of thin sections reveal that the crystallization sequences is Ol→Cpx→(Opx)→Pl, consistent well with the marked SSZ-type ophiolite crystallization sequence. EPMA analyses of the minerals show that olivines belong to the chrysolite family, and clinopyroxenes mostly have the composition similar to that of augite and diopside. Discrimination diagrams based on clinopyroxene geochemical data indicate that ophiolite originated in a compression tectonic background related closely to volcanic-arc. REE concentrations of most samples assume the chondrite-normalized distribution pattern with weak LREE enrichment, which is very different from the pattern of MORB. The enrichment of large ion lithophile trace elements (e.g., Ba, Rb and Sr) and the depletion of Nb, P are similar to things of the subduction zone components. High field strength elements discrimination diagrams also prove the above conclusion. In addition, the ophiolite is supposed to have been derived from a mature island arc tectonic environment, with the participation of some continental crust materials during the formation process.
