矿床地质
礦床地質
광상지질
MINERAL DEPOSITS
2010年
1期
158-168
,共11页
胡沛青%任立业%傅飘儿%张铭杰%李晓亚%秦宏毅
鬍沛青%任立業%傅飄兒%張銘傑%李曉亞%秦宏毅
호패청%임립업%부표인%장명걸%리효아%진굉의
地质学%成矿作用%成岩作用%镁铁-超镁铁质岩体%铜镍硫化物矿床%黄山东%新疆
地質學%成礦作用%成巖作用%鎂鐵-超鎂鐵質巖體%銅鎳硫化物礦床%黃山東%新疆
지질학%성광작용%성암작용%미철-초미철질암체%동얼류화물광상%황산동%신강
geology%ore-forming process%petrogenesis%mafic-ultramafic rocks%Ni-Cu sulfide deposit%Huangshandong%Xinjiang
黄山东铜镍硫化物矿床赋存于橄榄岩、苏长岩、辉长岩和闪长岩组成的镁铁-超镁铁质杂岩体中,赋矿岩体包含至少4套岩石组合.不同类型岩石微量元素和稀土元素原始地幔标准化配分模式指示,该矿床明显亏损Nb、Ta、Zr、Hf等高场强元素和Cr元素,富集Sr及大离子亲石元素;(La/Yb)_N=1.08~2.70,δEu=0.50~2.57;含矿岩石Cu/Pd比值和Ti/Pd比值大于原始地幔值,表明不同类型岩石是高镁玄武质岩浆在深部分异结晶演化的产物.根据橄榄石和全岩化学组成可估算出母岩浆MgO含量约为12%.成矿岩浆深部演化过程中,富硅的地壳混染组分和外来流体的加入可能促成了岩浆中的硫饱和;深部熔离的不混溶硫化物珠滴被上升岩浆携带,富集在橄榄岩和苏长岩的底部.
黃山東銅鎳硫化物礦床賦存于橄欖巖、囌長巖、輝長巖和閃長巖組成的鎂鐵-超鎂鐵質雜巖體中,賦礦巖體包含至少4套巖石組閤.不同類型巖石微量元素和稀土元素原始地幔標準化配分模式指示,該礦床明顯虧損Nb、Ta、Zr、Hf等高場彊元素和Cr元素,富集Sr及大離子親石元素;(La/Yb)_N=1.08~2.70,δEu=0.50~2.57;含礦巖石Cu/Pd比值和Ti/Pd比值大于原始地幔值,錶明不同類型巖石是高鎂玄武質巖漿在深部分異結晶縯化的產物.根據橄欖石和全巖化學組成可估算齣母巖漿MgO含量約為12%.成礦巖漿深部縯化過程中,富硅的地殼混染組分和外來流體的加入可能促成瞭巖漿中的硫飽和;深部鎔離的不混溶硫化物珠滴被上升巖漿攜帶,富集在橄欖巖和囌長巖的底部.
황산동동얼류화물광상부존우감람암、소장암、휘장암화섬장암조성적미철-초미철질잡암체중,부광암체포함지소4투암석조합.불동류형암석미량원소화희토원소원시지만표준화배분모식지시,해광상명현우손Nb、Ta、Zr、Hf등고장강원소화Cr원소,부집Sr급대리자친석원소;(La/Yb)_N=1.08~2.70,δEu=0.50~2.57;함광암석Cu/Pd비치화Ti/Pd비치대우원시지만치,표명불동류형암석시고미현무질암장재심부분이결정연화적산물.근거감람석화전암화학조성가고산출모암장MgO함량약위12%.성광암장심부연화과정중,부규적지각혼염조분화외래류체적가입가능촉성료암장중적류포화;심부용리적불혼용류화물주적피상승암장휴대,부집재감람암화소장암적저부.
The Huangshandong Cu-Ni sulfide deposit is hosted by mafic-ultramafic rocks composed of peridotite, norite, gabbro and diorite in at least four intrusive rock assemblages. Mineral chemistry and whole-rock major and minor elements, REE and PGE compositions suggest that primitive mantle-normalized trace element pattems show significant depletion of such high field strength elements as Nb,Ta, Zr and Th as well as Cr, and enrichment of Sr and some large ion lithophile elements; ( La/Yb)_N = 1.08~2.70 and δEu = 0.50 ~2.57. The Cu/Pd and Ti/Pd ratios of ore-bearing rocks are higher than the values of primitive mantle. The above evidence indi-cates that different types of rocks were produced by fractional crystallization of a MgO Mg0 basaltic magma at depth. The MgO con-tent of the parental magma is estimated to be 12% on the basis of olivine and whole-rock compositions. Sulfide saturation in the ore-forming magma might have been induced in the deep chamber by Si-rich crustal contamination and exotic fluids. Immiscible sulfide droplets segregated at depth were carried by ascending magma and concentrated at the bottom of peridotite and norite.
