The Permian Cornubian granite batholith, SW England; Part 2: Gravity anomalies, structure, and state of isostasy

A. B. Watts, C. Xu, M. P. Searle, C. Jurkowski, R. Shail
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Abstract

A new compilation of Bouguer gravity anomaly data has been used, together with forward and inverse modeling, to reappraise the structure, volume, and state of isostasy of the Cornubian batholith of SW England. We show the individual plutons that comprise the batholith are, on average, ∼10−11 km thick, are outward-sloping in their upper 2−3 km, and are underlain by roots which protrude downward into the middle crust. The batholith volume is estimated within the range of 76,367 ± 17,286 km3, significantly larger than previous estimates. Granite outcrops correlate with elevated topography, and mass balance calculations show that the mass deficiency of the granites relative to their host metasedimentary rocks is approximately equal to the mass excess of the topography relative to air. The existence of roots beneath individual plutons is in general agreement with predictions of an Airy model of isostasy and a depth of compensation that is within the crust rather than at the Moho. In addition, a middle crust compensation depth is compatible with the origin of the granites by heating and melting of metasedimentary rocks and with data from experimental rock mechanics which suggest that at the melting temperature and pressure of granite formation, deformation is likely to be plastic and controlled by glide along dislocations. During pluton emplacement the middle crust would, therefore, have acted as a mechanically weak layer, effectively decoupling the topography from any support it might otherwise have received from the lower crust and/or upper mantle.
英格兰西南部二叠纪 Cornubian 花岗岩熔岩;第 2 部分:重力异常、结构和等压状态
利用新汇编的布格尔重力异常数据以及正演和反演模型,重新评估了英格兰西南部康努比岩床的结构、体积和等压状态。我们的研究表明,组成该浴岩的各块岩体平均厚度为 10-11 千米,上部 2-3 千米向外倾斜,岩根向下延伸至中地壳。据估计,浴成岩的体积在76,367 ± 17,286立方公里范围内,明显大于之前的估计。花岗岩露头与地形抬升相关,质量平衡计算显示,花岗岩相对于其寄主变质岩的质量不足约等于地形相对于空气的质量过剩。个别岩块下存在的岩根与艾里等压模型的预测基本一致,补偿深度在地壳内部而不是莫霍面。此外,地壳中部的补偿深度与花岗岩起源于变质岩的加热和熔融相一致,也与岩石力学实验数据相一致,这些数据表明,在花岗岩形成的熔融温度和压力下,变形很可能是塑性的,并受位错滑动的控制。因此,在花岗岩形成过程中,中地壳会成为一个机械薄弱层,有效地使地形脱离下地壳和/或上地幔可能提供的任何支持。
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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