Lead and Strontium Isotopic Study of Igneous Rocks and Ores, Gold Hill District, Utah

Utah Geology Pub Date : 1900-01-01 DOI:10.34191/ug-5-1_1

J. Stacey, R. Zartman

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Abstract

A multistage model is presented to account for the different lead isotopic compositons of the northern and southern parts of the Gold Hill stock. The stock was found actually to be two bodies of different ages - Oligocene in the north (38 m. y.) and Jurassic in the south (152 m.y.). Initial 87 Sri 86 Sr ratios computed from measurements made on the intrusive rocks are 0.715 ± 0.001 for the north and 0.709 ± 0.001 for the south. Lead in the northern intrusion at Gold Hill and 100 km eastwards in the Oquirrh Mountains region is shown by the model to have originated in an Archean upper crustal environment (determined 11 =238U1204Pb ;::;::: 12) from 2.7 b.y. to 1.65 b.y. ago. Subsequently, this lead was incorporated in 1.65 b.y. lower crust and subjected to granulite or higher rank metamorphism (determined 11 ;::;::: 4 to 7), and remained there until being remobilized in the Oligocene by plutonic activity. The ore and feldspar lead in the southern intrusion at Gold Hill, however, seems to have remained in upper crustal environments (11 ;::;::: 12) continuously since 2.7 b.y. ago (e.g., there was no high rank metamorphism of this material in the Precambrian) until being remobilized in Jurassic time. By implication, this must apply to much of the miogeosynclinal material of similar lead isotopic composition found westwards in Nevada.

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犹他州金山地区火成岩和矿石铅锶同位素研究

提出了一种多阶段模型，用于解释金山矿石南北两部分铅同位素组成的差异。这些化石实际上被发现是两个不同年龄的化石——北部的渐新世(38万年)和南部的侏罗纪(152万年)。通过对侵入岩的测量计算出的初始87 Sri - 86 Sr比值，北为0.715±0.001，南为0.709±0.001。该模型表明，金山北部侵入体和奥奇尔山脉以东100 km处的铅起源于2.7 ~ 1.65 b.y.以前的太古宙上地壳环境(测定值11 =238U1204Pb;::;::: 12)。随后，该铅被合并到1.65 b.y.下地壳中，并受到麻粒岩或更高级别变质作用(测定11;:::::4 ~ 7)，一直留在那里，直到渐新世被深部活动重新调动。而金山南岩体中的矿石和长石铅，自2.7 b.y.(如前寒武纪未发生高阶变质作用)以来，似乎一直停留在地壳上层环境(11;:::::12)中，直到侏罗纪被重新活化。由此可见，在内华达州西部发现的许多具有类似铅同位素组成的新地槽物质也必须如此。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Utah Geology

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