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论兴蒙造山带叠生成矿作用--以锡林浩特和额尔古纳地块为例 被引量:12

Preliminary discussions on the rejuvenated metallogenesis of the Da Hinggan-Mongolia Paleozoic orogenic belt as deduced from the studies on Sn,W and Mo-polymetallic deposits occurring within the Xilinhot and Ergun Massifs
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摘要 兴蒙造山带前寒武纪变质岩中间地块分布广泛,其中锡林浩特和额尔古纳地块以出露范围广泛、岩性组合复杂、后期改造明显和找矿潜力巨大而为人们所关注。找矿勘查结果表明,锡林浩特和额尔古纳地块及邻区铜、铁、铅-锌和银矿床(点)星罗棋布,并且以含有大量锡、钨和钼为特征。这些矿床独特的成矿元素组合(如铜-锡、铁-锡、铜-锡-铅-锌-银、铜-银-锡和铁-钨-钼)及其与前寒武纪变质岩块体和显生宙花岗岩密切时空分布关系均表明,它们很可能是深源岩浆再造和古陆块体活化相互联动(叠生)作用的产物。所谓的叠生作用主要指地壳浅部构造形迹活化和地壳深部物质再造,前者为成岩(矿)物质的就位提供了空间条件,后者为岩(矿)体的形成的奠定了物质基础。钕和铪同位素数据表明,前寒武纪变质岩块体和显生宙含锡、钨和钼花岗岩分别具有完全不同的εNd(t)值和εHf(t)值,成岩(矿)物质分别属于壳源和幔源,其中后者对前者的叠加改造是导致铜-锡、铁-锡和铜-银-锡等多元素矿床形成的关键因素。叠生成矿作用概念的提出不仅很好地解释了兴蒙造山带含锡、钨和钼多金属矿床的成因,而且为寻找隐伏金属矿床指明了方向。 Precambrian metamorphic intermediate massifs are widely distributed in the Da Hinggan-Mongolia Paleozoic orogenic belt, among whieh the Xilinhot and Ergnn massifs are the largest ones, and show a complex rejuvenation history. Mineral exploration and regional metallogenic studies show that Sn-, W- and Mo-polymetallie deposits are well developed both in the Xilinhot and Ergnn massifs, and can be elassified into five types in term of their host rocks and metallogenic features. They are ( 1 ) porphyry type Sn, W (Mo) and Cu (Mo) deposits; (2) skarn type Sn-Fe and Sn-Ag-Cu deposits; (3) shallow-emplaced granitoid intrusive dykes (swarms)-related vein type Sn, Wand Mo-W deposits; (4) deep-seated emplaced granitoid intrusive stocks (batholiths)-related vein type Sn, W and Mo deposits; (5) felsic volcanic type Sn deposits. Among all the five type deposits, the first two bear the most important eeonomie significance. It has been noted that Sn-, W- and Mo-polymetallie mineralization occurs within the Preeambrian metamorphic massifs, but they have an intimate spatial and temporal relationship with Mesozoic granitoid intrusions. In general, Sn, W and Mo are considered as the continent-affiliation elements, while Cu, Ni, Au and PGE are derived from the mantle-relate magmatic and its related or hydrothermal sources. Preliminary studies show that the rejuvenation of pre-existing crust and lithosphere or/and mantle may be the important factor for the regional metallogenesis of Sn-, W- and Mo-polymetallic deposits occurring within the Xilinhot and Ergun intermediate massifs. The rejuvenation occurs largely via two related processes: reactivation and re-working. The reactivation is normally considered to involve the rejuvenation of discrete structures, whilst reworking involves the repeated focusing of metamorphism, deformation and magmatism into the same crustal- or lithospheric-seale volume. Melting of existing continental lithosphere (mantle) is a dramatic thermal expression of reworking. However, the emplacement of the granitoid magma commonly exploits pre-existing structures and may promote transient fault weakening during emplacement. Thus the vastly different processes of magma generation (reworking) and emplacement (reactivation) are both essentially expressions of the thermal rejuvenation of existing continental lithosphere. Our Nd-Sr-Pb isotopic studies show that the ore-forming materials, dynamic force and fluids may be provided by the Mesozoic granitoid magma. Moreover, the accumulation conditions of the ore-forming materials were given by the reactivation of previous-exist faults and fracture zones. The Mesozoic lithosphere stretching and asthenosphere upwelling may result in the reworking of continental crust (Precambrian metamorphic intermediate massifs) and primitive crust ( previously formed mafic igneous rocks with positive εNd(t) and εHf(t) values), and then produced Sn-, W-, and Mo-rich granitoid magma. When the magma moved along reactivated structures developed within the Precambrian metamorphic intermediate massifs, ore-bearing fluids derived from condensation fraction of the granitoid magma filled the structures and replaced country rock, thus forming the Sn-, W-, and Mo-polymetallic deposits. Therefore, it is believed that the all the deposits are the products of the Mesozoic intraplate granitoid magmatic occurring in the Xilinhot and Ergun intermediate massifs. Moreover, the intensive superimposition of the Mesozoic tectono-magmatic events and the Precambrian metamorphic massifs may greatly upgrade the enrichment of the Sn-, W- and Mo-polymetallic elements. The rejuvenated metallogenic model and mineral exploration criteria of the Sn, W and Mo-polymetallic deposits can also be used as useful tool during the comprehensive evaluation of concealed deposits in the Da Hinggan-Mongolia Paleozoic orogenic belt.
出处 《岩石学报》 SCIE EI CAS CSCD 北大核心 2014年第7期2063-2080,共18页 Acta Petrologica Sinica
基金 国家“973“项目(2013CB429805) 国家自然科学基金重点项目(41030421)联合资助
关键词 锡、钨和钼多金属矿床 再造 活化 叠生成矿作用 中生代花岗岩 锡林浩特地块 额尔古纳地块 兴蒙造山带 Sn, W and Mo-polymetrallic deposits Reworking Reactivation Rejuvenated metallogeny Mesozoic granitoidintrusions Xilinhot massif Ergun massif Da Hinggan-Mongolia orogenic belt
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