Discovery of the Baldy toreva near urban areas along the southern Wasatch Range, Utah

Q3 Earth and Planetary Sciences

Rocky Mountain Geology Pub Date : 2020-07-01 DOI:10.24872/rmgjournal.55.1.55

Eric R. Meyer, R. Harris

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引用次数: 1

Abstract

Structural and geomorphic studies, and lithostratigraphic and biostratigraphic mapping reveal that a giant toreva block (6.125 km3) slid off Mount Timpanogos toward what are now densely populated urban areas along the Wasatch Front of Utah. The block forms a prominent peak known as Big Baldy, which consists of steeply dipping and locally brecciated limestone and quartzarenite over nearly horizontal shale. Preferential erosion of this shale below overlying limestone and quartzarenite cliffs is most likely the cause of this particular landslide and potential future slides along the Wasatch Front. The low-angle contact at the base of the giant toreva block was initially mapped as a thrust, then as a low-angle normal fault. In both cases, these faults were inferred to have large amounts of displacement (900 meters), but no traces of such faults are found in adjacent canyons. The Baldy slide is associated with geomorphologic features, such as faceted spurs, landslide scarps, sackungen, and hummocky terrain. Limestone and quartzarenite beds in the block are back-rotated up to 80° and are locally broken and brecciated. No evidence of hydro-fracturing is found in the breccia or of multiple brecciation episodes, which indicates surficial rather than deep-crustal processes and perhaps a single event of slip. We speculate based on structural reconstructions of the slide block, and interpolation of maximum downcutting rates on nearby streams, that the slide initiated between 700 and 500 ka. Discovery of the Baldy slide attests to the importance of recognizing the influence of surficial processes in mountain front development and demonstrate the ongoing geologic hazard of mass wasting to communities along the seismically active Wasatch Front and similar horst blocks.

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在犹他州瓦萨奇山脉南部城市地区附近发现Baldy toreva

结构和地貌研究以及岩石地层和生物地层测绘显示，一个巨大的托雷瓦地块（6.125 km3）从Timpanogos山滑向犹他州瓦萨奇前线目前人口稠密的城市地区。该区块形成了一个被称为Big Baldy的突出山峰，由陡峭倾斜的局部角砾岩石灰岩和石英砂岩组成，覆盖在几乎水平的页岩上。上覆石灰岩和石英岩悬崖下方的页岩受到优先侵蚀，很可能是这场特殊滑坡和瓦萨奇前缘未来潜在滑坡的原因。巨大托雷瓦地块底部的低角度接触最初被绘制为逆冲断层，然后被绘制为低角度正断层。在这两种情况下，这些断层都被推断有大量的位移（900米），但在相邻的峡谷中没有发现此类断层的痕迹。巴尔迪滑坡与地貌特征有关，如多面丁坝、滑坡陡崖、沙孔根和丘状地形。区块中的石灰岩和石英岩床反向旋转至80°，局部破碎和角砾化。在角砾岩中没有发现水力压裂的证据，也没有发现多个角砾岩事件的证据，这表明表层地壳而不是深层地壳过程，可能还有一次滑动事件。根据滑块的结构重建，以及附近溪流最大下切速率的插值，我们推测滑块在700至500 ka之间开始滑动。Baldy滑坡的发现证明了认识到地表过程对山前开发的影响的重要性，并证明了大规模浪费对地震活跃的Wasatch front和类似地垒地块沿线社区的持续地质危害。

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来源期刊

Rocky Mountain Geology Earth and Planetary Sciences-Geology

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Rocky Mountain Geology (formerly Contributions to Geology) is published twice yearly by the Department of Geology and Geophysics at the University of Wyoming. The focus of the journal is regional geology and paleontology of the Rocky Mountains and adjacent areas of western North America. This high-impact, scholarly journal, is an important resource for professional earth scientists. The high-quality, refereed articles report original research by top specialists in all aspects of geology and paleontology in the greater Rocky Mountain region.