Alunogen from the sulfate efflorescence of the Stone Town Nature Reserve in Ciężkowice (the Outer Carpathian Mountains, Poland)

IF 0.4 Q4 ENVIRONMENTAL SCIENCES Geology, Geophysics and Environment Pub Date : 2023-06-07 DOI:10.7494/geol.2023.49.2.139
M. Marszałek, A. Gaweł
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Abstract

Alunogen (Al2(SO4)3∙17H2O), a rare secondary mineral, has been found in the efflorescence on sandstones from the Stone Town Nature Reserve in Ciężkowice, southeastern Poland. This is probably the first find of this salt on such rocks in Poland. Alunogen forms in various geological environments, but mainly from the oxidation of pyrite and other metal sulfides in ore deposits and Al-rich Earth materials under low-pH conditions. Its crystallization at this particular site depends on a set of necessary physicochemical (pH, concentration), climatic (season, temperature, humidity), site-related (location and protection of efflorescence), and mineralogical (the presence of pyrite) conditions. This paper presents the mineralogical and geochemical characteristics of the alunogen from the Stone Town Nature Reserve (based on SEM-EDS, XRPD, EPMA and Raman spectroscopy methods) as well as of the efflorescence itself (based on XRPD and STA coupled with QMS and FTIR for the analysis of gas products). Crystals of alunogen take the shape of flakes, often with a hexagonal outline, clustered in aggregates forming a cellular network. Its calculated formula is (Al1.96Fe3+0.01)Σ1.97(SO4)3∙17H2O (based on 12 O and 17 H2O). The unit-cell parameters refined for the triclinic space group P1 are: a = 7.423 (1) Å, b = 26.913 (5) Å, c = 6.056 (1) Å, a = 89.974 (23)°, b = 97.560 (25)°, g = 91.910 (22)°. The Raman spectra (SO4) bands are: intensive 995 cm−1 (ν1); low-intensive 1069, 1093 and 1127 cm−1 (ν3); low-intensive 419 and 443; medium-intensive 470 cm−1 (ν2); and medium-intensive 616 cm−1 (ν4). Those at 530, 312 and at 338 cm−1 are assigned to water vibrations and those at 135, 156, 180 cm−1 to the lattice modes. Although the efflorescence contained an admixture of other minerals (pickeringite, gypsum and quartz), the predominant alunogen is almost chemically pure and the above parameters are consistent with the values reported in the literature for alunogen from different locations and of various origins.  
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来自Ciężkowice(外喀尔巴阡山脉,波兰)石城自然保护区硫酸盐风化的矾根
Alunogen (Al2(SO4)3∙17H2O)是一种罕见的次生矿物,在波兰东南部Ciężkowice石城自然保护区砂岩的风化层中被发现。这可能是波兰首次在这种岩石上发现这种盐。铝原形成于各种地质环境中,但主要是在低ph条件下由矿床中的黄铁矿等金属硫化物和富铝土物质氧化而成。它在这个特定地点的结晶取决于一系列必要的物理化学(pH值、浓度)、气候(季节、温度、湿度)、地点相关(开花的位置和保护)和矿物学(黄铁矿的存在)条件。本文介绍了石镇自然保护区铝土矿的矿物学和地球化学特征(基于SEM-EDS、XRPD、EPMA和拉曼光谱方法)以及花期本身(基于XRPD和STA结合QMS和FTIR对气体产物进行分析)。卵黄原的晶体呈片状,通常有六边形的轮廓,聚集在一起形成一个细胞网络。其计算公式为(Al1.96Fe3+0.01)Σ1.97(SO4)3∙17H2O(以12o和17H2O为基础)。三斜空间群P1的单元胞参数细化为:a = 7.423 (1) Å, b = 26.913 (5) Å, c = 6.056 (1) Å, a = 89.974(23)°,b = 97.560(25)°,g = 91.910(22)°。拉曼光谱(SO4)波段为:密集的995 cm−1 (ν1);低强度1069、1093和1127 cm−1 (ν3);低强度419和443;中等强度470 cm−1 (ν2);中等强度616 cm−1 (ν4)。在530、312和338 cm−1处的那些被分配给水振动,而在135、156、180 cm−1处的那些被分配给晶格模式。虽然花苞中含有其他矿物(pickeringite,石膏和石英)的混合物,但主要的铝原几乎是化学纯的,上述参数与文献中报道的来自不同地点和不同来源的铝原的值一致。
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Alunogen from the sulfate efflorescence of the Stone Town Nature Reserve in Ciężkowice (the Outer Carpathian Mountains, Poland) Integration of seismic and well data for a 3D model of the Balkassar anticline (Potwar sub-basin, Pakistan) 3D Block Modelling of the Sin Quyen IOCG Deposit, North Vietnam The use of algae to remove copper and lead from industrial wastewater The fluid flow modeling procedure including a critically stressed fracture analysis of coalbed methane reservoir: a case study of Upper Silesian Coal Basin, Poland
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