Study of micro-textures and chemistry of feldspar minerals of East Sarbisheh volcanic complex (Eastern Iran), for evidence of magma chamber process

IF 1 Q4 GEOSCIENCES, MULTIDISCIPLINARY
M. Jamshidibadr, Sahar Tarabi, Kazem Qolizadeh
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引用次数: 3

Abstract

The Eocene-Oligocene Sarbisheh volcanic complex is a part of the Lut-Sistan Zone that outcrops in eastern Iran. In the east of this complex, three groups of volcanic rocks (i.e., andesite, dacite, and rhyolite) exist. Plagioclase as the main mineral of these rocks is found with varying micro-textures. Based on a changing trend in the concentration of anorthite, the developed micro-textures (coarse/fine-sieve, fine-scale oscillatory zoning, and resorption surfaces) are not affected by the chemical composition of the magma. Rather, such changes can occur by temperature variations during magma crystallization or H2O fugacity changes in the magmatic system. The recharge of basic magma leads to a temperature rise, partial melting of the central part of the crystal, and formation of sieve texture, and resorption surfaces. Consequently, the chemical changes of magma in the chamber cause the formation of An-enrichment in the outer layer of the plagioclase crystal and formation of oscillatory zoning. In addition, the morphological micro-textures (i.e., glomerocryst, synneusis, swallow-tailed, microlite, and broken crystals) are developed by the influence of dynamic behavior of the crystallizing magma and magmatic differentiation. The thermobarometry evaluation using pyroxene and biotite chemistry showed that the temperature ranges between 700 and 1150°C and the pressure were less than 2 kbar.
伊朗东部东Sarbisheh火山杂岩长石矿物显微结构和化学特征,寻找岩浆房作用证据
始新世-渐新世Sarbisheh火山杂岩是伊朗东部露头的Lut-Sistan火山带的一部分。在该杂岩的东部,存在三组火山岩(即安山岩、英安岩和流纹岩)。斜长石是这些岩石的主要矿物,具有不同的微观结构。从钙长石浓度的变化趋势来看,发育的微结构(粗/细筛、细尺度振荡带和吸收面)不受岩浆化学成分的影响。相反,这种变化可以通过岩浆结晶过程中的温度变化或岩浆系统中H2O逸度的变化来发生。基性岩浆的补给导致温度升高,晶体中心部分熔融,形成筛状结构和吸收面。因此,岩浆在岩浆房内的化学变化导致斜长石晶体外层富安的形成和振荡带的形成。此外,受岩浆结晶动力学行为和岩浆分异的影响,形成了球状结晶、连结、燕尾、微晶和破碎晶体等形态微结构。利用辉石和黑云母化学进行热压测定,温度范围在700 ~ 1150℃之间,压力小于2 kbar。
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来源期刊
Iranian Journal of Earth Sciences
Iranian Journal of Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
1.40
自引率
12.50%
发文量
0
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