ACCESSOR MINERALS OF RARE METALS IN THE GRORUDITES OF EASTERN AZOV (UKRAINE)

IF 0.2 Q4 GEOLOGY
О. Dubyna, S. Kryvdik, V. Belskyy, О. Vyshnevskyi
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引用次数: 0

Abstract

Unlike other Precambrian platforms and shields, alkaline granites and their hypabyssal and effusive variaties in Ukraine have limited distribution. In Eastern Azov region dike analogs of alkaline granites (grorudites) are known. They are different in chemical and mineral composition and considered as analogs of pantellerites (aegirine hihg-Ti) and comendites (amphibole low-Ti). The high-Ti aegirine grorudites are more intensively enriched with incompatible rare elements (REE, Zr, Nb) compared with their low-Ti varieties. Despite the high or elevated concentration of HFSE in grorudites, there are few of their own minerals in these rocks. Thus, in high-Ti grorudites there have been identified such minerals of rare elements as monazite-(Ce), bastnäsite-(Ce), britholite-like mineral and rare earth apatite, zircon and undiagnosed zirconium mineral, whereas only zircon and niobium-containing rutile are diagnosed in amphibole one. These minerals are very small in size, the largest of them can reach 15-20 μm (sometimes up to 50 μm), although most of them do not exceed 10 μm (usually 5-6 μm). It is assumed that a significant part of rare metals are isomorphically included in rock-forming minerals (alkaline pyroxenes and amphiboles), and zirconium minerals, at least part of them, are secondary and formed as result of changing of primary sodium (eudialyte, catapleite, ilerite) or calcium (gittingsite) zirconosilicates which are more typical for peralkaline (agpaitic) rocks. Taking into account the peculiarities of the mineral composition, geochemical features and rare-earth mineralization of the Azov region, there is reason to believe that the HFSE mineralization of these rocks is a consequence of the differentiation of the primary igneous silica unsaturated melt(s). Secondary hydrothermal processes are weakly manifested in the studied rocks and probably presented by replacement of primary accessory minerals. Elevated or high concentrations of Nb in high-Ti grorudites and absence of Nb-minerals may indicate that the PTcondition of differentiation of these rocks (low F concentration, high fO2, and hypabyssal conditions of crystallization) did not contribute to their crystallization. The presence of grorudites in this region increase the prospects of discovering small alkaline granite massifs (holocrystalline analogues of grorudites) to which deposits and/or occurrences of Nb, REE, Zr, Sn, Be can be related
东亚速(乌克兰)花岗岩中稀有金属的辅助矿物
与其他前寒武纪地台和盾不同,乌克兰的碱性花岗岩及其浅成和喷涌型花岗岩分布有限。在东亚速地区,碱性花岗岩(粗粒岩)的脉状类似物是已知的。它们在化学和矿物组成上不同,被认为是潘特莱石(高钛)和角闪石(低钛)的类似物。与低钛品种相比,高钛品种的稀土元素(REE、Zr、Nb)不相容富集程度更高。尽管HFSE在粗晶岩中含量很高或升高,但这些岩石中很少有它们自己的矿物。因此,在高钛岩中发现了独居石-(Ce)、bastnäsite-(Ce)、类橄榄岩矿物和稀土磷灰石、锆石和未诊断的锆矿物等稀有元素矿物,而在角闪孔岩中只发现了锆石和含铌金红石。这些矿物的粒径很小,最大的可达15-20 μm(有时可达50 μm),但大多数不超过10 μm(通常为5-6 μm)。认为在造岩矿物(碱性辉石岩和角闪石)中有相当一部分稀有金属是同构的,而锆矿物至少有一部分是次生的,是由原生钠(双析出物、闪辉石、银辉石)或钙(闪辉石)锆硅酸盐变化而形成的,而原生钠(双析出物、闪辉石)锆硅酸盐在过碱性(agpaltic)岩石中更为典型。考虑到亚速地区矿物组成、地球化学特征和稀土矿化的特殊性,有理由认为这些岩石的HFSE矿化是原生火成岩硅石不饱和熔体分异的结果。次生热液作用在研究岩石中表现较弱,可能是对原生副矿物的替代作用。高钛粗晶岩中Nb的升高或高浓度和Nb矿物的缺失可能表明这些岩石分化的pt条件(低F浓度、高fO2和浅成结晶条件)对其结晶没有贡献。该地区粗晶岩的存在增加了发现小型碱性花岗岩块体(粗晶类似物)的前景,这些块体与Nb, REE, Zr, Sn, Be的沉积和/或赋存有关
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