泽列兹涅霍里（捷克共和国）VápennýPodol附近的“ottrélite”板岩矿物

Q3 Earth and Planetary Sciences

Bulletin Mineralogie Petrologie Pub Date : 2020-01-01 DOI:10.46861/bmp.28.339

J. Jirásek, D. Matýsek, M. Sivek

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引用次数: 1

摘要

1882年，在Železné堀山的奥陶系变质岩带描述了奥陶系变质岩。尽管最初的论文声称锰实际上是不存在的，但20世纪的许多论文和书籍只是复制了这种矿物的原始名称，而不考虑其化学成分。由于无法进行定量分析，我们决定修改此事件。在布依纳山附近新收集的材料(平均海拔606米)来自Vápenný Podol村的SW符合原始描述，即富含石英和伊白云母的长英质岩石，具有明显的片岩性和丰富的绿石群深绿色矿物的斑母岩，最大可达3mm。采用不同输入结构模型对粉末x射线衍射进行Rietveld细化，得到P-1空间群的三斜拟合最佳(RBragg最低)。单元胞参数为:a = 5.483(1)， b = 5.479(1)， c = 9.1476(5) Å， α = 83.452(10)°，β = 76.639(11)°，γ = 59.993(15)°。其7个WDS点的平均公式为(Fe0.83Mg0.17Mn0.01)Σ1.01Al1.97(SiO4)Σ1.02O0.92(OH)2.00，因此必须归类为拟氯化物。片岩中的副矿物有金红石晶体和集合体、绿泥石族的棱柱状锆石和副长石。值得注意的是，意外出现了可能为原生的10 μm大小的稀有xenotime-(Y)晶粒，其平均分子式为(Y0.71Sm0.01Gd0.03Tb0.01Dy0.07Ho0.01Er0.05Tm0.01Yb0.04Lu0.01)Σ0.96(P1.02Si0.01)Σ1.03O4.00 (P1.02Si0.01)，更常见的是横纹石-(Ce)，可能是磷灰石浸出后形成的针状部分骨架晶体。其平均公式为Y0.01La0.18 Ce0.40Pr0.04Nd0.15Sm0.03Eu0.01Gd0.04Al0.02Ca0.18Fe0.04Th0.02)Σ1.12(P0.95Si0.01S0.01)Σ0.97O4.00·0.97 H2O。我们建议将这些变质长岩用“绿绿片岩”一词来描述，这些变质长岩形成于中晚奥陶世石墨页岩与Železné horyts .深部杂岩的Variscan黑云母花岗岩的侵入接触中。

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Minerály „ottrélitových“ břidlic u Vápenného Podola v Železných horách (Česká republika)

From the belt of Ordovician metapelites in the Železné hory Mountains, ottrélite was described in 1882. Although the original paper stated the virtual absence of manganese, many papers and books from the 20th century copied just the original name of the mineral, without respect to its chemistry. Since the quantitative analysis was not available, we decided to revise this occurrence. Material newly collected in the vicinity of the Bučina Hill (606 m a.s.l.) SW from the Vápenný Podol village fits the original description, i.e. felsic rocks rich in quartz and illite-muscovite, with significant schistosity and abundant porphyroblasts of dark green mineral of the chloritoid group up to 3 mm large. Rietveld refinement of powder X-ray diffraction using different input structural models gave the best fit (the lowest RBragg) for the triclinic chloritoid of P-1 space group. Unit cell parameters are as follow: a = 5.483(1), b = 5.479(1), c = 9.1476(5) Å, α = 83.452(10)°, β = 76.639(11)°, γ = 59.993(15)°. Its average formula from seven WDS spots is (Fe0.83Mg0.17Mn0.01)Σ1.01 Al1.97(SiO4)Σ1.02O0.92(OH)2.00, and therefore must be classified as a chloritoid. As accessory minerals in the schist, we found rutile crystals and aggregates, prismatic zircons, a mineral from the chlorite group, and paragonite. Attention was paid to the unexpected occurrence of possibly primary rare grains of xenotime-(Y) up to 10 μm with average formula (Y0.71Sm0.01Gd0.03Tb0.01Dy0.07Ho0.01Er0.05Tm0.01Yb0.04Lu0.01)Σ0.96(P1.02Si0.01)Σ1.03O4.00 and more common rhabdophane-(Ce), which forms acicular, partly skeletal crystals in cavities, possibly after leached apatite. Its average formula is Y0.01La0.18 Ce0.40Pr0.04Nd0.15Sm0.03Eu0.01Gd0.04Al0.02Ca0.18Fe0.04Th0.02)Σ1.12(P0.95Si0.01S0.01)Σ0.97O4.00·0.97 H2O. We suggest using the term “chloritoid schist” for these metapelites formed at the contact of Middle to Late Ordovician graphite shales with the intrusion of the Variscan biotite granite of the Železné Hory Mts. Plutonic Complex.

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Bulletin Mineralogie Petrologie Earth and Planetary Sciences-Economic Geology

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期刊介绍： Bulletin Mineralogie Petrologie is a peer-reviewed journal focused especially on: mineralogy, crystal chemistry and study of crystal structures of minerals study of mineral associations and processes of their origin meteoritics, research of tectites economic geology (of ore deposits) and study of history of mining of ore deposits topographic mineralogy petrology of igneous, metamorphic and sedimentary rocks instrumental analytical methods at mineralogy and petrology mineralogy and petrology as tools for archeology and similar disciplines