P-T Paths, H2O recycling, and depth of crystallisation for crustal melts

Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy Pub Date : 2001-04-01 DOI:10.1016/S1464-1895(01)00050-3

A.B. Thompson

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引用次数: 8

Abstract

The P-T (pressure-temperature) paths taken by the high-grade metamorphic rocks during orogenesis govern which melting and crystallisation reactions are encountered and hence the location and amount of melt. Small differences in rock fertility, water amount and migmatite deformability influence the amount and distribution of anatectic partial melt on an outcrop scale. Layer-scale migration of H₂O in response to gradients in μH₂O controls when melting in one layer occurs while partial melt in a nearby layer crystallises. Suprasolidus decompression - dehydration reactions (SDDR) can occur patchily at mid-crustal depths generating feldspathic segregations with alumino-silicates, and releasing H₂O. Quite different mineralogies and textures are diagnostic of the possible crystallisation reactions at different crustal depths. Local mineralogical variations in anatectites can reveal whether melting occurred in response to decompression through a melting reaction or to access of H₂O. This is particularly important to help decide whether anatexis required a localised heat supply or an influx of H₂O.

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地壳熔体的P-T路径、H2O循环和结晶深度

高品位变质岩在造山运动过程中所采取的P-T（压力-温度）路径决定了遇到的熔融和结晶反应，从而决定了熔融的位置和数量。岩石肥力、水量和混合岩变形能力的微小差异影响了露头尺度上深熔部分熔体的数量和分布。当一层发生熔融，而附近层的部分熔融结晶时，H2O响应μH2O梯度的层级迁移得到控制。地壳上减压-脱水反应（SDDR）可以在地壳中部深处零星发生，与铝硅酸盐产生长石偏析，并释放H2O。不同的矿物和结构可以诊断不同地壳深度可能发生的结晶反应。锐钛矿的局部矿物学变化可以揭示熔融是由于通过熔融反应减压还是由于H2O的进入而发生的。这对于帮助决定锐钛矿是否需要局部供热或H2O流入尤为重要。

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Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy

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