碱性火成岩磁化率的矿物学和岩石学约束:以土耳其Gölcük火山(Isparta)为例

IF 0.8 4区 综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES
H. Evrim Tütünsatar, Ömer Elitok, Muhammet Yilmaz, M. Nuri Dolmaz
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引用次数: 0

摘要

对位于土耳其西南部伊斯帕塔角顶端的富含碱性钾的Gölcük火山岩进行了磁化率(SI)测量和矿物学和岩石学研究。采用手持式KT10-R型磁化率仪对火山碎屑岩和露头进行磁化率测量。分类和SI值从研究区火成岩的粗面岩(SI之间0.45×三分和36.3×三分),trachyandesite (SI之间0.5×三分和5.7×三分),斜辉石(Cpx) -phyric玄武岩trachyandesite (SI: 36.3×三分),斜辉石(Cpx) -phyric trachyandesite (SI: 0.63×三分),碱性长石正长岩(SI: 20.9××三分和26.4三分),正长岩(SI: 16××三分和35.6三分),淡色二长正长岩(SI: 23.3×三分),二长正长岩(SI:基性二长石(SI: 15.4 × 10-3 ~ 20.7 × 10-3)、辉石二长石(SI: 0.56 × 10-3)、云母辉石岩(SI: 0.42 × 10-3)、绢纹石(SI: 11.3 × 10-3 ~ 3.32 × 10-3,但大部分在17 × 10-3 ~ 25 × 10-3之间)。通过薄片调查,可以清楚地看到火成岩中含有不同数量的不透明矿物。x射线数据表明,不透明矿物主要为磁铁矿矿物。岩石学测定和磁化率SI测量表明,相同组成和结构的火成岩可能具有不同的磁化率值和不同数量的磁铁矿矿物。另一方面,某些成分相同但结构不同的火山岩磁化率值也不同。不透明矿物的存在是控制Gölcük火山岩磁化率值的主导因素,磁铁矿矿物的含量与磁化率大小成正比。认为存在于同一分类中的岩石具有相同的磁化率值是不合理的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mineralogical and Petrographical Constraints on the Magnetic Susceptibility of Alkaline Igneous Rocks: A Case Study from the Gölcük Volcano (Isparta), Turkey

Mineralogical and Petrographical Constraints on the Magnetic Susceptibility of Alkaline Igneous Rocks: A Case Study from the Gölcük Volcano (Isparta), Turkey

Magnetic susceptibility (SI) measurements and mineralogical and petrographical studies were carried out on the alkaline potassium-rich Gölcük volcanic rocks, situated in the apex of the Isparta Angle in the southwest of Turkey. Magnetic susceptibility was measured on the pyroclastic rocks and outcrops using hand-held KT10-R Magnetic Susceptibility meter. The classification and SI values of the igneous rocks from the study area are as trachyte (SI between 0.45 × 10–3 and 36.3 × 10–3), trachyandesite (SI between 0.5 × 10–3 and 5.7 × 10–3), Clinopyroxene (Cpx)-phyric basaltic trachyandesite (SI: 36.3 × 10–3), Clinopyroxene (Cpx)-phyric trachyandesite (SI: 0.63 × 10–3), alkali feldspar syenite (SI: 20.9 × 10–3 and 26.4 × 10–3), syenite (SI: between 16 × 10–3 and 35.6 × 10–3), leucocratic monzosyenite (SI: 23.3 × 10–3), monzosyenite (SI: 31.2 × 10–3), mafic monzosyenite (SI: 15.4 × 10–3 and 20.7 × 10–3), pyroxene monzonite (SI: 0.56 × 10–3), micaceous pyroxenite (SI: 0.42 × 10–3), tephriphonolites (SI: between 11.3 × 10–3 and 3.32 × 10–3 but most of them between 17 × 10–3 and 25 × 10–3). Based on thin-section investigations, it is clearly seen that igneous rocks contain various amount of opaque minerals. X-ray data show that the opaque minerals are mainly magnetite minerals. Petrographical determinations and magnetic susceptibility SI measurements show that igneous rocks with the same composition and texture may have different magnetic susceptibility values and varying amount of magnetite minerals. On the other hand, some of the volcanic rocks with the same composition but different textures have also different magnetic susceptibility values. The presence of opaque minerals is the dominant factor controlling the magnetic susceptibility value of the Gölcük volcanites and the amount of magnetite mineral is directly proportional to the magnitude of the magnetic susceptibility. It is not plausible to suggest that rocks existing in the same classification should have the same magnetic susceptibility values.

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期刊介绍: To promote research in all the branches of Science & Technology; and disseminate the knowledge and advancements in Science & Technology
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