A GNSS velocity field for geophysical applications in Fennoscandia

IF 2.1 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Halfdan Pascal Kierulf , Holger Steffen , Valentina R. Barletta , Martin Lidberg , Jan Johansson , Oddgeir Kristiansen , Lev Tarasov
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引用次数: 20

Abstract

In Fennoscandia, tectonics, Glacial Isostatic Adjustment (GIA), and climatic changes cause ongoing crustal deformation of some millimetres per year, both vertically and horizontally. These displacements of the Earth can be measured to a high degree of precision using a Global Navigation Satellite System (GNSS). Since about three decades, this is the major goal of the Baseline Inferences for Fennoscandian Rebound, Sea-level, and Tectonics (BIFROST) project.

We present a new velocity field for an extended BIFROST GNSS network in the ITRF2008 reference frame making use of the GNSS processing package GPS Analysis Software of MIT (GAMIT). Compared to earlier publications, we have almost doubled the number of stations in our analysis and increased the observation time span, thereby avoiding the early years of the network with many instrument changes. We also provide modelled vertical deformation rates from contributing processes, i.e. elastic deformation due to global atmospheric and non-tidal ocean loading, ice mass and hydrological changes as well as GIA. These values for the vertical component can be used for removal of these contributions so that the residual uplift signal can be further analysed, e.g., in the context of local or regional deformation processes or large-scale but low-magnitude geodynamics.

The velocity field has an uplift maximum of 10.3 mm/yr in northern Sweden west of the Gulf of Bothnia and subsidence exceeding 1 mm/yr in northern Central Europe. The horizontal velocity field is dominated by plate motion of more than 20.0 mm/yr from south-west to north-east. The elastic uplift signal sums up to 0.7–0.8 mm/yr for most stations in Northern Europe. Hence, the maximum uplift related to the past glaciation is ca. 9.6 mm/yr. The residual uplift signal after removal of the elastic and GIA contribution may point to possible improvements of the GIA model, but may also indicate regional tectonic and erosional processes as well as local deformation effects. We show an example of such residual signal discussing potential areas of interest for further studies.

用于Fennoscandia地球物理应用的GNSS速度场
在芬诺斯坎迪亚,构造、冰川均衡调整(GIA)和气候变化导致地壳在垂直和水平方向上每年发生几毫米的持续变形。地球的这些位移可以使用全球导航卫星系统(GNSS)进行高精度测量。近三十年来,这一直是Fennoscandian回弹、海平面和构造基线推断(BIFROST)项目的主要目标。在ITRF2008参考系下,利用MIT的GPS分析软件(GAMIT),提出了一种新的扩展BIFROST GNSS网络速度场。与早期的出版物相比,我们在分析中几乎增加了一倍的台站数量,并增加了观测时间跨度,从而避免了网络早期仪器频繁更换的情况。我们还提供了来自贡献过程的模拟垂直变形率,即由于全球大气和非潮汐海洋载荷,冰质量和水文变化以及GIA引起的弹性变形。这些垂直分量的值可以用来去除这些贡献,以便可以进一步分析残余的隆起信号,例如,在局部或区域变形过程或大尺度但低震级的地球动力学背景下。速度场在瑞典北部波希尼亚湾以西最大隆升10.3 mm/yr,在中欧北部下沉超过1 mm/yr。水平速度场主要是由西南向东北方向的20.0 mm/yr以上的板块运动。北欧大部分台站的弹性隆起信号总和为0.7 ~ 0.8 mm/yr。因此,与过去冰期有关的最大隆升约为9.6 mm/yr。去除弹性和GIA贡献后的残余隆起信号可能指向GIA模型可能的改进,但也可能表明区域构造和侵蚀过程以及局部变形效应。我们展示了一个这样的残余信号的例子,讨论了进一步研究的潜在兴趣领域。
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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来源期刊
Journal of Geodynamics
Journal of Geodynamics 地学-地球化学与地球物理
CiteScore
4.60
自引率
0.00%
发文量
21
审稿时长
6-12 weeks
期刊介绍: The Journal of Geodynamics is an international and interdisciplinary forum for the publication of results and discussions of solid earth research in geodetic, geophysical, geological and geochemical geodynamics, with special emphasis on the large scale processes involved.
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