Adakites without slab melting: High pressure differentiation of island arc magma, Mindanao, the Philippines

地质学 埃达克岩 厚板 地球化学 部分熔融 岩浆 火成岩分异 高压 弧(几何) 俯冲 岛弧 岩石学 结壳 地震学 火成岩 大洋地壳 构造学 古生物学 火山 几何学 数学 工程物理 工程类
作者
Colin G. Macpherson,Scott T. Dreher,M. F. Thirlwall
出处
期刊:Earth and Planetary Science Letters [Elsevier BV]
卷期号:243 (3-4): 581-593 被引量:880
标识
DOI:10.1016/j.epsl.2005.12.034
摘要

Abstract New geochemical data for Pleistocene magmatic rocks from the Surigao peninsula, eastern Mindanao, the Philippines, demonstrate typical adakitic traits, including elevation of Sr / Y and depletion of the heavy rare earth elements. 87Sr / 86Sr and 143Nd / 144Nd ratios of the adakites do not support melting of the subducted Philippine Sea Plate but resemble Pliocene arc lavas generated in the same subduction zone. Excepting the heavy rare earth elements, the adakites and arc lavas also possess similar ratios of incompatible elements suggesting that the adakites were ultimately derived from melting of the mantle wedge. The wide range of SiO2 in the adakites and its strong correlation with trace element concentrations and ratios indicate two possible mechanisms for generating the adakitic signature. (1) Adakitic melt was produced from basaltic arc magma by fractional crystallisation of a garnet-bearing assemblage. (2) Solidified basaltic rock containing garnet melted to yield adakitic magma. In either case the basaltic precursor was generated from fluid-modified mantle then differentiated within the garnet stability field. In Surigao this requires differentiation within mantle. The Surigao example suggests that any subduction zone has the potential to produce adakitic magma if basalt crystallises at sufficient depth. This has important implications for the geodynamics of modern and ancient subduction zones that have generated similar rocks.

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