Strong, localised country-rock contamination and partial homogenisation of a mafic magma: An example from west central Sweden

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• 作者：Anders Lindh ; Anders Kjö ; llerströ ; m and Zoltan Solyom
• 关键词：Contamination ; Major elements ; Trace elements ; Mixing ; Mingling ; Hyperbolic modelling ; Ratio correlation ; Sm– ; Nd isotopes ; Dolerite
• 刊名：Lithos
• 出版年：2006
• 出版时间：February 2006
• 年：2006
• 卷：86
• 期：3-4
• 页码：212-228
• 全文大小：656 K

文摘

A dolerite sill cutting slightly older basalt in west-central Sweden shows a strong chemical variation (54 % < SiO₂ < 73 % ) within a restricted area (< 100 × 100 m²). The linear correlation among almost all elements is extremely high; in addition, _NdT is strongly correlated with the SiO₂ content. Least-square hyperbolic-ratio and three-element ratio modelling (common denominator) suggests that most of the chemical variation is explained by mixing and/or micro-mingling. In all, we test 407 hyperbolas, of which 402 are fitted. The five ratio pairs, which could not be fitted to a hyperbola using a least-square fitting procedure, have the ratio Th / Eu in common. Testing the goodness of fit is problematic for hyperbolic distributions; for comparing purposes we sum the distances to chords approximating the hyperbola. Mobile and immobile elements behave similarly, suggesting that no elements are lost or added from outside the system. The data suggests that already the most mafic of the analysed rocks is a mixture of the ‘normal’ dolerite and a siliceous crustal rock. A mafic magma intruded into the base of the crust, where it fractionated resulting in a decreased Mg number. The magma was then contaminated with country rocks in an intermediate magma chamber due to country rock melting; during mixing/mingling almost no fractionation took place. The contaminated rock suggests the presence of a fluid phase. This was probably a prerequisite for country-rock melting. Enrichment in some incompatible elements suggests that besides major mixing/mingling a thermochemical separation process has affected the most felsic rock enriching it in light rare earths and Zr.