地质学报
地質學報
지질학보
ACTA GEOLOGICA SINICA
2009年
12期
1860-1868
,共9页
肖波%秦克章%李光明%李金祥%夏代祥%陈雷%赵俊兴
肖波%秦剋章%李光明%李金祥%夏代祥%陳雷%趙俊興
초파%진극장%리광명%리금상%하대상%진뢰%조준흥
岩浆硬石膏%磷灰石%富S岩浆%氧逸度%驱龙Cu-Mo矿床%冈底斯%西藏
巖漿硬石膏%燐灰石%富S巖漿%氧逸度%驅龍Cu-Mo礦床%岡底斯%西藏
암장경석고%린회석%부S암장%양일도%구룡Cu-Mo광상%강저사%서장
magmatic anhydrite%apatite%S-rich magma%oxygen fugacity%Qulong porphyry Cu-Mo deposit%Gangdese%Tibet
西藏冈底斯成矿带上的驱龙巨型斑岩Cu-Mo矿床以发育大量的硬石膏为特征.详细的岩相学研究发现:驱龙矿床不仅发育热液脉状的硬石膏,含矿斑岩中还产出岩浆成因硬石膏,这在国内系首次报道.观察表明,在岩浆演化早期的花岗闪长岩、黑云母二长花岗岩中,岩浆硬石膏以矿物包体的形式产于斜长石、石英中;在主成矿期的二长花岗斑岩、花岗闪长斑岩中,岩浆硬石膏以矿物包体产于斜长石斑晶中,局部以斑晶形式产出,并伴有富S的磷灰石(SO_3含量为0.11%~0.44%)、磁铁矿发育.后期热液活动也形成了大量的硬石膏±石英+硫化物脉,是矿区主要的矿化类型之一.电子探针分析结果显示,后期的热液硬石膏与岩浆硬石膏相比,在微量成分上明显富集Sr(分别为0.24%和0.03%),可能是由于在岩浆-热液演化过程中,Sr的不相容性或者/以及粘土化蚀变造成的.岩浆硬石膏以及与之共生的富S磷灰石的出现,明确指示驱龙矿床成矿岩浆具有富S、高氧逸度的特征;同时也为研究S在斑岩型矿床岩浆演化过程中的状态、行为,提供了很好的研究对象.
西藏岡底斯成礦帶上的驅龍巨型斑巖Cu-Mo礦床以髮育大量的硬石膏為特徵.詳細的巖相學研究髮現:驅龍礦床不僅髮育熱液脈狀的硬石膏,含礦斑巖中還產齣巖漿成因硬石膏,這在國內繫首次報道.觀察錶明,在巖漿縯化早期的花崗閃長巖、黑雲母二長花崗巖中,巖漿硬石膏以礦物包體的形式產于斜長石、石英中;在主成礦期的二長花崗斑巖、花崗閃長斑巖中,巖漿硬石膏以礦物包體產于斜長石斑晶中,跼部以斑晶形式產齣,併伴有富S的燐灰石(SO_3含量為0.11%~0.44%)、磁鐵礦髮育.後期熱液活動也形成瞭大量的硬石膏±石英+硫化物脈,是礦區主要的礦化類型之一.電子探針分析結果顯示,後期的熱液硬石膏與巖漿硬石膏相比,在微量成分上明顯富集Sr(分彆為0.24%和0.03%),可能是由于在巖漿-熱液縯化過程中,Sr的不相容性或者/以及粘土化蝕變造成的.巖漿硬石膏以及與之共生的富S燐灰石的齣現,明確指示驅龍礦床成礦巖漿具有富S、高氧逸度的特徵;同時也為研究S在斑巖型礦床巖漿縯化過程中的狀態、行為,提供瞭很好的研究對象.
서장강저사성광대상적구룡거형반암Cu-Mo광상이발육대량적경석고위특정.상세적암상학연구발현:구룡광상불부발육열액맥상적경석고,함광반암중환산출암장성인경석고,저재국내계수차보도.관찰표명,재암장연화조기적화강섬장암、흑운모이장화강암중,암장경석고이광물포체적형식산우사장석、석영중;재주성광기적이장화강반암、화강섬장반암중,암장경석고이광물포체산우사장석반정중,국부이반정형식산출,병반유부S적린회석(SO_3함량위0.11%~0.44%)、자철광발육.후기열액활동야형성료대량적경석고±석영+류화물맥,시광구주요적광화류형지일.전자탐침분석결과현시,후기적열액경석고여암장경석고상비,재미량성분상명현부집Sr(분별위0.24%화0.03%),가능시유우재암장-열액연화과정중,Sr적불상용성혹자/이급점토화식변조성적.암장경석고이급여지공생적부S린회석적출현,명학지시구룡광상성광암장구유부S、고양일도적특정;동시야위연구S재반암형광상암장연화과정중적상태、행위,제공료흔호적연구대상.
The Qulong giant porphyry Cu-Mo deposit in the Gangdese metallogenic belt, southern Tibet, is characterized with a great amount of well-developed anhydrite. Detailed petrographic study discovered firstly that the Qulong deposit contains not only hydrothermal vein-like anhydrite but magmatic anhydrite. Our observation showed that magmatic anhydrite at granodiorite and biotite monzogranite stock formed at early stage of magmatic evolution occurs as inclusions in plagioclase and quartz. Accompanied with the occurrence of S-rich apatite (0.11%~0.44% of SO_2) and magnetite, magmatic anhydrite occurs as mineral inclusions in plagioclase phenocrysts hosted in monzogranite porphyry and granodiorite porphyry at the main mineralization period, with minor as phenocrysts. Late hydrothermal activity resulted in formation of a large amount of anhydrite+quartz+sulfide veins, constituting one of the dominating mineralization forms in this deposit. Electron microprobe analyses showed that the magmatic anhydrite is enriched in Sr (0.24%) compared with late-phase hydrothermal anhydrite (Sr 0.03%), and this probably resulted from incompatible behavior of Sr or/and from advanced argillic alteration during the hydrothermal evolution of magma. The coexistence of magmatic anhydrite and sulfur-rich apatite indicated that the magmas that formed the Qulong giant porphyry Cu-Mo deposit is characterized with high S and high oxygen fugacity, providing an ideal case for studying the state and behavior of sulphur in the magma evolution of porphyry-type deposits.
