根据差分激光雷达(2012-2021 年)和 InSAR(2015-2020 年)数据确定的上西里西亚煤炭盆地长期沉降情况

IF 0.9 4区 地球科学 Q3 GEOLOGY
Maria Przyłucka, Zbigniew Perski, Zbigniew Kowalski
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引用次数: 0

摘要

我们提供了波兰最大的煤炭盆地所在地上西里西亚因地下采矿造成的沉降地图。该地图结合了使用两种 InSAR 处理技术获得的数据和差分激光雷达数据。持久散射干涉测量和差分合成孔径雷达干涉测量技术应用于哨兵-1 号卫星拍摄的图像,时间跨度为 2015 年至 2020 年,为期六年。结果确定了 132 个受每年 5 毫米变形影响的沉降区,面积达 430 平方公里。此外,还分析了 2012-2021 年期间的差分激光雷达模型,确定了 103 个沉降区,总面积 88 平方公里,记录的最大变形值超过 10 米。然而,InSAR 和激光雷达数据的比较显示,DInSAR 对盆地中部的沉降值估计不足。我们展示了哨兵 1 号和激光雷达数据作为传统测量方法的补充,在确定大面积和长时间位移方面的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Long-term subsidence over the Upper Silesia Coal Basin identified on differential LIDAR (2012–2021) and InSAR (2015–2020) data
We provide a map of subsidence caused by underground mining in Upper Silesia, which hosts the largest coal basin in Poland. The map combines data obtained using two InSAR processing techniques and differential LIDAR data. Persistent Scatterer Interferometry and Differential SAR Interferometry techniques were applied on images from the Sentinel-1 satellite covering a six-year period from 2015 to 2020. As a result, 132 subsidence areas affected by deformation of >5 mm/year covering 430 km² were determined. Additionally, a differential LIDAR model covering the period 2012-2021 was analyzed, where 103 subsidence areas were identified, of a total area of 88 km² and where the largest recorded deformation value exceeded 10 m. Despite the large time difference between the two subsidence datasets, good correlation of the data regarding the location and shape of the troughs was observed. However, comparison of InSAR and LIDAR data showed a large underestimation by DInSAR of values of subsidence in the central parts of the basins. We show the potential of Sentinel-1 and LIDAR data to determine displacements taking place over large areas and over long periods, as a supplement to traditional measurement methods.
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来源期刊
Geological Quarterly
Geological Quarterly 地学-地质学
CiteScore
2.20
自引率
0.00%
发文量
19
审稿时长
>12 weeks
期刊介绍: The policy of the Geological Quarterly is to publish significant contributions of information and geological insight relevant to an international readership. The journal has been issued since 1957 at the Polish Geological Institute - National Research Institute and, at present, is the leading Earth sciences journal in Poland. All aspects of Earth and related sciences, and universal and broad regional rather than locally oriented topics are covered. The journal is intended to be an international forum for the exchange of information and ideas, particularly on important geological topics of Central Europe.
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