胶东苏鲁地体范家埠金矿成矿作用与矿床成因浅析:兼与胶北地体金矿对比

范家埠金矿是胶东半岛苏鲁地体内规模最大的石英脉型金矿。含金石英脉中锆石阴极发光和LA-ICP-MS微量元素及U-Pb同位素分析结果表明,含金石英脉中的锆石均为捕获围岩(新元古代威海片麻状花岗岩)的岩浆锆石,其中15个颗粒在U-Pb图解上位于谐和线上,其206Pb/238U加权平均年龄为(726±14)Ma(MSWD=4.6);另外7颗锆石位于不一致线上,其上交点年龄为(758±25)Ma,下交点年龄为(123±11)Ma(MSWD=0.45)。这些锆石的下交点年龄与金矿脉旁侧斜闪煌斑岩脉的角闪石40Ar/39Ar年龄分别为(118.8±1.6)Ma和(117.5±1.5)Ma,在误差范围内一致,表明范家埠金矿的成矿时代为120Ma左右。由此认为,苏鲁地体和胶北地体的金矿成矿作用均发生于早白垩世晚期120Ma前后,与目前多数人认为的华北克拉通岩石圈减薄的峰期时间一致,表明苏鲁地体的金矿成矿受岩石圈减薄的构造背景控制。范家埠金矿床成矿流体具中高温、中高盐度15.5%～23.2%(NaCleq)、低δ18OH2O(-3.84‰～-4.05‰)和低δDH2O(-82.5‰～-80.8‰)值等特点,载金矿物黄铁矿富32S(δ34S=-5.5‰～-9.1‰),与含油气盆地热卤水的组成相近,暗示范家埠金矿的成矿流体可能来源于中生代胶莱盆地。这种盆地流体沿断裂——五莲—米山深大断裂及其次级构造迁移,同时萃取基底岩石中的金形成含矿热液并在还原的环境中成矿。相反,胶北地体大量金矿床成矿流体具有低盐度、高δ18OH2O和δDH2O,δ34S(‰)为正值等特点。胶北和苏鲁地体早白垩世金成矿强度和成矿作用的差异可能反映了两者在地壳基底、流体来源和成矿环境等方面的不同。     

New evidence from a calcite-dolomite carbonatite dyke for the magmatic origin of the massive Bayan Obo ore-bearing dolomite marble, Inner Mongolia, China

Summary New data on Sr and Nd isotope composition and major and trace element distribution in dolomite-calcite carbonatite dykes at Bayan Obo are provided, and a Mid-Proterozoic age is deduced. The dykes and the neighbouring massive dolomite (H8) body have similar geochemical characteristics, interpreted to indicate a carbonatitic magmatic origin. The occurrence of riebeckite-bearing fenitized quartzites marginal to both dykes and H8 dolomite body, and the presence of xenoliths in the latter, supports this conclusion. Taken together with previously published stable isotope data, these data confirm a mantle-derived origin for the H8 body. The oxygen isotope composition of the dolomite and magnetite in the dykes is lower than that in the fine-grained dolomite. Oxygen data from samples of the coarse-grained dolomite host are either similar to the dykes or to the fine-grained type in agreement with their other geochemical characteristics. The carbonate-magnetite thermometric pairs of the fine-grained dolomite indicate a range of 350–540 °C, which is probably lower than that of the original main magmatic emplacement. This supports the distinction made between the original coarse-grained dolomite marble and dyke composition from the later fine-grained dolomite. Thus the large H8 dolomite is interpreted as a carbonatite intrusion that contains wall-rock xenoliths and caused fenitization of the hanging wall, foot wall and the xenoliths, and that the coarse-grained portions of the H8 marble are those portions that, in the Late Proterozoic to Palaeozoic, escaped recrystallization to fine-grained dolomite and subsequent REE-Fe mineralization. Currently at National Oceanography Centre, University of Southampton, Southampton, UK An erratum to this article is available at .     

Paleoenvironmental dynamics in central-eastern Brazil during the last 23 000 years: tropical peatland record in the Cerrado biome

The Cerrado biome is the second largest in Brazil, but the evolution of the Cerrado during the late Quaternary is not yet fully known. This study identifies paleoenvironmental changes during the last 23 000 years, based on a tropical mountain peatland record, in the Serra do Espinhaço Meridional in central-eastern Brazil. A multi-proxy approach was used that involved palynological analysis, stable isotopes (δ¹³C, δ¹⁵N), geochemistry, radiocarbon dating and multivariate statistics derived from a peatland core from Rio Preto (Minas Gerais state). The study reveals a very humid and cold climate during the late Pleistocene, with an increase in temperature and decrease in humidity at the Pleistocene–Holocene transition. During this period there was strong instability in the landscape (episodes of erosion). At the beginning of the Holocene there was a reduction in humidity with greater landscape stability. The current sub-humid climatic conditions seem to have been established in the mid-/late Holocene, with periods of landscape instability. Our findings agree with other Cerrado records that contradict previously established hypotheses, such as the Amazonian Refuge and the Pleistocene Arc.