Active tectonics of the Circum-Pannonian region in the light of updated GNSS network data

IF 1.4 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
Kristóf Porkoláb, Taco Broerse, Ambrus Kenyeres, Eszter Békési, Sándor Tóth, Bálint Magyar, Viktor Wesztergom
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引用次数: 2

Abstract

The Pannonian basin is an extensional back-arc basin that has undergone neotectonic inversion and is currently shortening. The understanding and quantification of present-day deformation processes during this inversion are still incomplete. To this end, we investigate the active deformation of the Circum-Pannonian region via the interpolation of GNSS-derived velocity field and the derivation of the strain rate fields. For the interpolation of the velocity field, we use ordinary kriging, a strochastic interpolation method. Our results show that estimating a strain rate field that is virtually free of short-wavelength noise requires the scaling of the velocity uncertainties, i.e. assuming a minimum standard deviation of 1 mm/yr in our case. The deformation of the Circum-Pannonian region is defined by the 2–3 mm/yr, NNE-directed motion of the Dinarides, and by the 0.5–1.5 mm/yr, WSW to SSW directed motion of the eastern areas (European foreland, East Carpathians, South Carpathians, Transylvanian basin). These opposite-sense motions define a large-scale, on average NE-SW shortening and transpression-type deformation in the Dinarides as well as in the Pannonian basin, while the East and South Carpathians undergo regional N–S extension. Neotectonic structures generally show good agreement with the strain rate field, for example in the Dinarides, Eastern Alps, or in the western Pannonian basin. However, the presence of fault-parallel shortening or biaxial shortening along sinistral neotectonic structures in the central and eastern Pannonian basin show some discrepancy between current geodetic and observed neotectonic deformation. The vertical velocity field shows dominantly 100 and 1000 km wavelength signals, the former is probably related to the response of the Pannonian lithosphere-asthenosphere system to neotectonic basin inversion, while latter can possibly be explained by far-field subsidence patterns induced by the mantle response to melting of the Fennoscandian ice sheet during the current interglacial period.

Abstract Image

基于最新GNSS网络数据的环潘诺尼亚地区活动构造
潘诺尼亚盆地是一个经历了新构造反转并正在缩短的伸展弧后盆地。对这一反演过程中现今变形过程的理解和量化仍然不完整。为此,我们通过插值gnss导出的速度场和推导应变率场来研究环潘诺尼亚区域的主动变形。对于速度场的插值,我们使用普通克里格插值法,这是一种随机插值方法。我们的结果表明,估计一个几乎没有短波噪声的应变率场需要对速度不确定性进行缩放,即假设在我们的情况下,最小标准偏差为1毫米/年。环潘诺尼亚地区的变形由第纳里季的2-3 mm/yr的北北东向运动和东部地区(欧洲前陆、东喀尔巴阡山脉、南喀尔巴阡山脉、特兰西瓦尼亚盆地)的0.5-1.5 mm/yr的WSW - SSW运动决定。这些反向运动决定了第纳里季和潘诺尼亚盆地的大规模、平均为NE-SW的缩短和挤压型变形,而东喀尔巴阡山脉和南喀尔巴阡山脉则经历了区域性的N-S伸展。新构造构造通常与应变速率场具有较好的一致性,例如在迪纳里德斯、东阿尔卑斯或潘诺尼亚盆地西部。然而,潘诺尼亚盆地中东部沿左旋新构造断层平行缩短或双轴缩短的存在,表明当前大地测量与观测到的新构造变形存在一定的差异。垂直速度场以100 km和1000 km波长信号为主,前者可能与潘诺尼亚期岩石圈-软流圈系统对新构造盆地反转的响应有关,后者可能与当前间冰期地幔对芬诺斯坎德冰盖融化的响应引起的远场沉降模式有关。
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来源期刊
Acta Geodaetica et Geophysica
Acta Geodaetica et Geophysica GEOCHEMISTRY & GEOPHYSICS-
CiteScore
3.10
自引率
7.10%
发文量
26
期刊介绍: The journal publishes original research papers in the field of geodesy and geophysics under headings: aeronomy and space physics, electromagnetic studies, geodesy and gravimetry, geodynamics, geomathematics, rock physics, seismology, solid earth physics, history. Papers dealing with problems of the Carpathian region and its surroundings are preferred. Similarly, papers on topics traditionally covered by Hungarian geodesists and geophysicists (e.g. robust estimations, geoid, EM properties of the Earth’s crust, geomagnetic pulsations and seismological risk) are especially welcome.
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