机构地区:[1]中南大学地球科学与信息物理学院,有色金属成矿预测教育部重点实验室,长沙410083 [2]中国科学院广州地球化学研究所,中国科学院矿物学与成矿学重点实验室,广州510640 [3]Institute of Geological Sciences, Polish Academy of Sciences, 00-818 Warszawa, Poland [4]中国科学院大学,北京100049
出 处:《岩石学报》2015年第1期200-216,共17页Acta Petrologica Sinica
基 金:国家自然科学基金项目(41302049;41472171);国家"973"项目(2012CB416806);中国科学院矿物学与成矿学重点实验室合作研究基金(KLMM20120102)联合资助
摘 要:海南石碌铁矿是我国最大的富赤铁矿矿床,同时伴生有钴、铜等多金属矿产。轴向北西-南东向的复式向斜是石碌铁、钴铜矿体的主要控矿构造,富铁矿和钴铜矿的形成与该褶皱变形及伴随的韧性剪切和高温塑性流动有着密切的关系。为获得该构造变形的年代学信息和证实构造变形对成矿物质的富集影响,本文开展了石碌铁矿近矿围岩-石碌群第六层透辉石透闪石岩中独居石的显微结构观察和电子探针化学Th—U—Pb定年(CHIME法)。显微结构观察发现独居石往往沿岩石面理定向分布,且具典型的球冠结构,表现为围绕独居石核部向外依次出现磷灰石、褐帘石、绿帘石同心环。电子探针分析结果表明这些独居石为Ce—La-Nd磷酸盐[(Ce,La,Nd,Th)PO4],具富钍独居石端元组分。ThO2含量范围(0.78%-4.61%)、稀土特征以及独居石的产出特征均暗示了其为同构造变质成因。电子探针CHIME化学定年结果表明独居石的年龄变化范围为614—397Ma,并具有两个峰值年龄:即主峰值ca.455Ma和次峰值ca.564Ma。低的ThO2(0.78%-1.65%),PbO(0.02%~0.04%)和CaO(0.50%-0.97%)含量,以及高的Th/U比值(23.06—53.11)暗示了构成ca.564Ma的独居石是早期剪切变形事件的产物。而在随后剪切变形过程中独居石在低角闪岩相变质条件下以及碱性变质流体诱导下发生了溶解-再沉淀,形成了具ca.455Ma年龄的补丁状成分区。该过程引起了U—Pb体系的局部重置,形成的独居石具有变化较大的ThO2(0.92%-4.61%)、PbO(0.01%~0.08%)和CaO(0.28%~1.58%)含量范围以及Th/U值(24.83—52.86)。在剪切变形之后,早期变质成因的独居石在绿片岩相退变质作用过程中及富Ca、Fe、Si、Al流体参与的条件下,经不平衡反应形成了磷灰石-褐帘石-绿帘石球冠物�Shilu iron ore deposit in Hainan Province is the largest hematite-rich deposit in China, associated with cobalt, copper and other polymetallic mineral resources. This deposit is largely hosted within the Neoproterozoic Shilu Group, a suite of low-garde, neritic siliciclastic and carbonate sedimentary succession with generally greenschist (locally up to amphibolite) facies metamorphism. The NWW-trending synclinorium is main ore-controlling structure for iron, cobalt and copper ore bodies in the district. Previous studies suggested that folding and associated ductile shearing and high-temperature plastic flow had played an important role in enrichment of iron, cobalt and copper metals. To confirm this, we carried out in situ analysis on chemical compositions and CHIME (total Th-U-Pb) dating on monazite from the proximal diopside-tremolite rocks in the Shilu Group, using electronic probe microanalysis (EPMA) on thin sections assisted by BSE image. Microscopic observation revealed an alignment of monazite parallel to regional foliation defined by low amphibolite-facies minerals, and that monazite was characterized by typical replacement of breakdown coronas with obviously mineral concentric zoning, i. e. , monazite in the core successively ringed by apatite, allanite and epidote towards rims. EPMA analysis suggests that monazite is composed of cerium phosphate ( (Ce, La, Nd, Th)PO4 ) with cheralite as the main end member. The typical occurrence, ThO2 contents (ranging from 0.78% to 4. 61% ) and REE pattern all indicate a metamorphic origin for studied monazite. CHIME dating results show that monazite yields the apparent ages ranging from 397Ma to 614Ma with a main age peak at 455Ma and a subordinate peak at 564Ma. Low contents of ThO2(0. 78% - 1.65% ) , PbO (0. 02% -0. 04% ) and CaO (0. 50% -0. 97% ), and high ratios of Th/U (23.06 -53.11 ) could interpret monazite with ca. 564Ma age as production of the early deformational metamorphic event. Subsequent dissolution-reprecipitat
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