解析大峡谷前寒武纪基底内的压力差异:对新生代构造的影响

Geology Pub Date : 2024-01-25 DOI:10.1130/g51706.1
Suzanne Autrey-Mulligan, Chloe Bonamici, Michael L. Williams, K.E. Karlstrom, C. Condit
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引用次数: 0

摘要

山带内的埋藏压力(深度)对大陆地壳的生长和稳定具有根本性的制约作用。我们报告了大峡谷上花岗岩峡谷(UGG)约 1.7 Ga 岩石的精确变质压力。我们报告了大峡谷(美国西南部)上花岗岩峡谷(UGG)约 1.7 Ga 岩石的精确变质压力,并首次解析了这一连续出露的地壳中层岩石的压力变化。我们应用石英石榴石(QuiG)气压测量法和假吸力模型来确定具有较高和较低变质峰值的区域("区块")的压力。利用这种综合方法构建的新的压力-温度(P-T)路径显示,热块样本的压力达到了7千巴,而冷块样本的压力从未超过5千巴,这揭示了热块和冷块之间的压力差∼2千巴,并为UGG中的这些域划分了不同的P-T路径。我们的研究结果表明,热块和冷块很可能是在前亚瓦派世、古新生代造山运动中的不同地壳层位变质的,随后在亚瓦派造山运动期间和/或之后并置在中地壳层位。造成地壳块体不同垂直位移的变形发生在变质作用高峰期之后,可能反映了大型造山带的延伸塌陷和/或新生代劳伦伦板块边缘的褶皱与推移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Resolving pressure differences within the Grand Canyon Precambrian basement: Implications for Proterozoic tectonics
Burial pressures (depths) within mountain belts place fundamental constraints on the growth and stabilization of continental crust. We report precise metamorphic pressures for ca. 1.7 Ga rocks from the Upper Granite Gorge (UGG) of the Grand Canyon (southwestern United States) and, for the first time, resolve pressure variations across this continuous exposure of mid-crustal rocks. We applied quartz-in-garnet (QuiG) barometry and pseudosection modeling to determine pressures in domains (“blocks”) with evidence of higher and lower peak metamorphic grades. New pressure-temperature (P-T) paths constructed using this integrated approach show that a hot block sample reached 7 kbar and a cold block sample never surpassed 5 kbar, revealing an ∼2 kbar P difference between hot and cold blocks and delineating distinct P-T paths for these domains in the UGG. Our findings suggest that hot and cold blocks were likely metamorphosed at different crustal levels within a pre-Yavapai, Paleoproterozoic orogen and were subsequently juxtaposed during and/or after the Yavapai Orogeny at mid-crustal levels. The deformation that produced differential vertical displacement of crustal blocks post-dated peak metamorphism and could reflect extensional collapse of a large orogen and/or renewed folding and thrusting at the Paleoproterozoic Laurentian plate margin.
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