大高加索地下俯冲、分离和撕裂的板块

GeoResJ Pub Date : 2015-03-01 DOI:10.1016/j.grj.2014.09.004
Tea Mumladze , Adam M. Forte , Eric S. Cowgill , Charles C. Trexler , Nathan A. Niemi , M. Burak Yıkılmaz , Louise H. Kellogg
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引用次数: 54

摘要

大高加索山脉拥有欧洲最高的山峰,在850多公里的范围内,是地球上第二大活跃碰撞造山带的前沿。然而,构建这一范围的机制仍然存在争议。利用来自格鲁吉亚、俄罗斯和阿塞拜疆当地网络的地震记录的新数据库,以及先前公布的震源位置,我们表明,大高加索山脉的中部和东部被一个东北倾斜的地幔地震活动性带所覆盖,我们将其解释为俯冲板块。在大高加索中部(东经45°)以下,地震活动性区延伸至至少158公里的深度,倾角为东经40°,板块长度为130-280公里。相比之下,在西GC(45°E以西)之下,在~ 50 km以下明显缺乏事件,我们推断这反映了板块断裂和分离。我们还观察到在大高加索中部俯冲板块西端的中深度地震活动性(45-75公里)的间隙,我们将其解释为向东传播的撕裂。这一撕裂与小高加索和大高加索之间水平辐合率最低的地区相吻合,正如预期的那样,这是一个活跃的板块断裂地区。大高加索东部的活动性俯冲呈现出比以前认识到的更大的潜在地震危险,这可能解释了该地区大震级(8级)地震活动的历史记录。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Subducted, detached, and torn slabs beneath the Greater Caucasus

Subducted, detached, and torn slabs beneath the Greater Caucasus

The Greater Caucasus Mountains contain the highest peaks in Europe and define, for over 850 km along strike, the leading edge of the second-largest active collisional orogen on Earth. However, the mechanisms by which this range is being constructed remain disputed. Using a new database of earthquake records from local networks in Georgia, Russia, and Azerbaijan, together with previously published hypocenter locations, we show that the central and eastern Greater Caucasus Mountains are underlain by a northeast-dipping zone of mantle seismicity that we interpret as a subducted slab. Beneath the central Greater Caucasus (east of 45°E), the zone of seismicity extends to a depth of at least 158 km with a dip of ∼40°NE and a slab length of ∼130–280 km. In contrast, beneath the western GC (west of 45°E) there is a pronounced lack of events below ∼50 km, which we infer to reflect slab breakoff and detachment. We also observe a gap in intermediate-depth seismicity (45–75 km) at the western end of the subducted slab beneath the central Greater Caucasus, which we interpret as an eastward-propagating tear. This tear coincides with a region of minimum horizontal convergence rates between the Lesser and Greater Caucasus, as expected in a region of active slab breakoff. Active subduction beneath the eastern Greater Caucasus presents a potentially larger seismic hazard than previously recognized and may explain historical records of large magnitude (M 8) seismicity in this region.

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