伊春火成岩带二股矽卡岩型铁多金属矿床^(40)Ar_^(39)Ar年代学及其地质意义

文章在矿床地质特征研究基础上,首次确定了伊春火成岩带内的二股铁多金属矿床的成矿时代。结合前人研究成果,分析了伊春火成岩带早中生代金属矿床的成矿时限,成矿规律及找矿方向。金云母40Ar_39Ar同位素测年结果表明,二股铁多金属矿床的成矿年龄为(181.0±4.2)Ma。伊春火成岩带内早中生代金属成矿作用分为:早期(200~181 Ma)与二长花岗岩有关的矽卡岩型_热液脉型铁多金属矿床成矿作用;晚期(178~175 Ma)与花岗斑岩有关的斑岩型钼矿床成矿作用。晚三叠世—早侏罗世花岗岩类侵入岩(如二长花岗岩)与铅山组碳酸盐岩接触部位是伊春火成岩带内矽卡岩型_热液脉型铁多金属矿床成矿的有利部位。

峨眉火成岩省内带岩浆硫化物含矿岩体橄榄石的成因意义

峨眉火成岩省内带出露数十个含Ni-Cu-铂族元素(PGE)硫化物矿床(或矿化)的镁铁质-超镁铁质侵入岩体.根据铂族元素(PGE)含量的不同,这些岩浆硫化物矿床可分为Ni-Cu型(如力马河和清水河)、Ni-Cu-PGE型(如清矿山和黄草坪)和PGE型(如金宝山和杨合武).不同类型含矿岩体的橄榄石电子探针分析表明,除了清矿山岩体少数几个橄榄石晶体属于镁橄榄石外(Fo90.1～Fo93.1),其余均为贵橄榄石(Fo76.8～Fo89.6).不同矿化类型的岩体的橄榄石成分差异明显.Ni-Cu型硫化物含矿岩体的橄榄石Fo为77～87,Ni含量变化范围为(976～2176)×10-6.Ni-Cu-PGE型硫化物含矿岩体的橄榄石Fo为80～86,Ni含量范围为(1024～2543)×10-6.PGE型硫化物含矿岩体的橄榄石Fo为78～84,Ni含量在(776～1755)×10-6之间变化.清矿山Ni-Cu-PGE型硫化物含矿岩体橄榄石具有高Fo(最高达93.1)和CaO含量(0.245%～1.14%)、以及非常低的Ni(266×10-6)的特征,可能是同化混染作用的结果.利用力马河岩体最高Fo含量的橄榄石成分计算表明,母岩浆是高镁苦橄玄武质岩浆.橄榄石分离结晶和硫化物熔离模拟显示:Ni-Cu型矿化侵入体母岩浆经历了最广泛的硫化物熔离(～0.1%),Ni-Cu-PGE型侵入体次之,大约为0.06%,而PGE型侵入体母岩浆硫化物熔离程度最低(～0.02%).早期结晶的橄榄石晶体与间隙硅酸盐熔浆之间再平衡过程是橄榄石成分变化的原因.

Bimodal Volcano-Plutonic Complexes in the Northern Frames of Eastern Section of MongoI-Okhotsk Orogenic Belt

Mongol-Okhotsk orogenic belt was formed during almost all the Phanerozoic period. The bimodal late Paleozoic-early Mesozoic formations were stated in the frames of the western section of Mongol-Okhotsk belt. Their formation is connected with the collision of north Asian and Sino-Korean continents. These collision processes were conjugated with the dimensioned intraplate processes in the region. The rocks of the bimodal volcano-plutonic complex were also stated in the frames of the eastern section of Mongol-Okhotsk orogenic belt. This should proof the identity of geological processes, which accompanied the collision of north Asian and Sino-Korean continents, during all the stage of the formation of the Mongol-Okhotsk belt.