志留系三位一体蛇绿岩(美国加利福尼亚)化石缓慢扩张中心多期热液蚀变的氧同位素证据

Christophe Lécuyer, Serge Fourcade
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引用次数: 37

摘要

三位一体蛇绿岩由广泛分布的地幔单元(三位一体橄榄岩)和不连续露头的薄地壳层序(~ 2 km)组成。暴露良好的层状各向同性辉长岩、辉绿岩脉和枕状熔岩构成了一个完整的海洋地壳层序。玄武岩、岩脉和辉长岩以逆变质组合为特征。以前的研究表明,变化的程度与循环海水的数量直接相关,并随着温度的升高而下降。对整个岩石样品和蛇绿岩剖面上的一些矿物分离物进行了氧同位素组成测量。显然,在海水存在下的热液蚀变,与假定成分为典型地幔源物质的起始岩石相比,导致了“80/ 60”比率的巨大变化。δ 18o值随深度的演化与阿曼相似,但存在显著差异:在地幔参考成分上,上段(枕状熔岩)富集至10.1‰;部分片状岩脉、各向同性辉长岩和堆积辉长岩δ 18o值低至+4‰。然而,三位一体蛇绿岩与阿曼蛇绿岩的强烈区别在于蛇绿岩剖面深层存在富集18o的岩石。通过对几个含石英样品的流体包裹体进行显微测温,以及从以前的Sr同位素数据推断出的水/岩石比率,我们可以计算出与水-岩石相互作用复杂机制相一致的蚀变温度模式:低温(~ 110-170°C)交换在枕状熔岩剖面中普遍发生,但也不规则地影响到地壳的深层部分(各向同性和层状辉长岩),在那里发生了前一段高温(~ 300-390°C)相互作用。海水在低温下的深通道侵彻可能与较宽较深的断层模式有关,其特征是中心缓慢扩张。这种低温、离轴相互作用(上半部分普遍存在,深层不均匀)可能破坏轴向热液活动期间可能建立的δ 18平衡。三位一体杂岩热液蚀变岩氧同位素组成与志留系海水δ 18o值(0±2‰)一致。
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Oxygen isotope evidence for multi-stage hydrothermal alteration at a fossil slow-spreading center: the Silurian Trinity ophiolite (California, U.S.A. )

The Trinity ophiolite consists of a widespread mantle unit (the Trinity Peridotite) and a thin crustal sequence ( ∼2 km) outcropping discontinuously. The well-exposed massifs of layered and isotropic gabbros, diabasic dikes and pillow lavas define a complete oceanic crustal sequence. The basalts, dikes and gabbros are characterized by retrograde metamorphic associations. Previous work has shown that the extent of alteration is directly correlated to the amount of circulating seawater and decreases downwards for increasing temperatures.

Oxygen isotopic compositions were measured on whole-rock samples and a few mineral separates across the ophiolite section. Clearly, hydrothermal alteration in the presence of seawater has introduced large variations of '80/'60 ratios with respect to those of the starting rocks whose composition is assumed to be typical of mantle-derived materials. The evolution of δ 18O-values as a function of depth is similar to the Oman example but there are some significant differences: with respect to the mantle reference composition, the upper section (pillow lavas) is '80 enriched up to 10.1‰. Low δ 18O-values down to +4‰ are recorded by some sheeted dikes, isotropic and cumulate gabbros. However, the Trinity ophiolite strongly differs from the Oman ophiolite by the presence of 18O-enriched rocks at deep levels of the ophiolite section.

Microthermometry on fluid inclusions from a few quartz-bearing samples and water/rock ratios inferred from previous Sr isotope data allow us to calculate a pattern of alteration temperatures consistent with a complex regime of water-rock interactions: low-temperature ( ∼ 110–170°C) exchange occurred pervasively through the pillow lava section but also irregularly affected deeper parts of the crust (isotropic and layered gabbros) in which a previous episode of high-temperature ( ∼ 300–390°C) interaction took place. Deep channelized penetration of seawater at low temperature could be related to the wider and deeper faulting pattern which characterizes slow-spreading centers. Such a low-temperature, off- axis interaction (pervasive in the upper section and heterogeneous at deeper levels) could destroy the δ 18) balance possibly established during the axial hydrothermal activity.

The oxygen isotope composition of hydrothermally-altered rocks in the Trinity complex is consistent with a δ 18O-value of 0 ± 2‰ for Silurian seawater.

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