1887

Abstract

Summary

The Krivyy Rih urban area is technogenically-affected land, which is under geodynamic disasters risk now. The Kryvyi Rih city central part geodynamic risk mapping using satellite radar interferometry time series analysis and geological/geophysical data are described. Long-term time series of Sentinel-1 satellite differential InSAR measurements are engaged for this task. Detecting and mapping the high-precision land surface movement dynamics will serve as a very important indicator for potential environmental vulnerability. The technique for time series of land surface small displacements analysis and interpreting are described. Geological and geophysical data are auxiliary for risk forecasting. Finally, the geodynamic risk maps are produced for the study area.

Loading

Article metrics loading...

/content/papers/10.3997/2214-4609.201903199
2019-11-12
2024-03-28
Loading full text...

Full text loading...

References

  1. Belevtsev,Ya.N., Tokhtuyev,G.V., Strygin,A.I.
    (1962) Geology of Kryvyi Rih iron ore deposits. Kiev: Publishing House of UkrSSR Academy of Sciences. [in Russian]
    [Google Scholar]
  2. Belevtsev,Ya.N., and Belevtsev,R.Ya.
    (1981) Geological structure and iron ores of the Kryvorozhsky basin. Kiev: Nauk. Dumka. [in Russian]
    [Google Scholar]
  3. Bondaruk, A.G., Denisov, A.I., Kurochkin, P.E., and Samarskii, R.Ya.
    (1972) About the nature of modern movements of the Earth’s crust at the Krivoy Rog polygon. In Contemporary movements of the Earth’s crust on geodynamic polygons (Tashkent: Fan, 1972), 67–73. [in Russian]
    [Google Scholar]
  4. Chen, C.W., and Zebker, H.A.
    (2002) Phase unwrapping for large SAR interferograms: statistical segmentation and generalized network models. In IEEE Transactions on Geoscience and Remote Sensing,40 (8), 1709–1719.doi: 10.1109/TGRS.2002.802453.
    https://doi.org/10.1109/TGRS.2002.802453 [Google Scholar]
  5. El Hajj, M., Baghdadi, N., Zribi, M. and Angelliaume, S.
    (2016) Analysis of Sentinel-1 Radiometric Stability and Quality for Land Surface Applications. Remote Sensing, 8 (5),406.doi: 10.3390/rs8050406.
    https://doi.org/10.3390/rs8050406 [Google Scholar]
  6. Kruglov, S.S., Arsiriy,Yu.A.,Bobrov, O.B.
    (2007) Tectonic map of Ukraine 1:1 000 000 scale, edited by D.S.Hursky. State Geological Survey of Ukraine. A set of geology and minerals maps of Ukraine. Kiev.
    [Google Scholar]
  7. Paranko, I.S., Smirnova, A.Ja. and Ivanova, O.V.
    (2005) Kryvyi Rih - potential zone of emergencies of technogenic and natural character. In Geological and Mineralogical Visnyk, 1, 5–11. [in Ukrainian].
    [Google Scholar]
  8. Pigulevsky, P., Svistun, V., Stankevich, S., Svideniuk, M. and Kiriliuk,O.
    (2017) The use of geoelectric data and radar satellite imaging for the study of neotectonic processes in the southern part of the Kryvbas. Proceedings of XI International Scientific Conference Monitoring of Geological Processes and Ecological Condition of the Environment (Taras Shevchenko National University of Kyiv, Kyiv, Ukraine, 2017), CD-ROM.
    [Google Scholar]
  9. Pigulevskiy, P.I., Stankevich, S.A. and Svideniuk, M.O.
    (2018) Geo-environmental condition assessment of Kryvbas industrial area using satellite radar interferometry.JProceedings of II International Conference “Innovative Technologies in Science and Education. European Experience, Helsinki, Aalto University, 381–385.
    [Google Scholar]
  10. Stankevich, S.A., Piestova, I.A. and Titarenko, O.V.
    (2017) Geological emergency assessment using satellite radar interferometry: Krivoy Rog urban area case study. TIEMS Newsletter Special Edition, 5, 21–24.
    [Google Scholar]
  11. Titarenko, O.V., Dudar,T.V. and Romanenko,Y.V.
    (2017) Assessment of technogenic load into geological environment using lineament analysis and space imagery. In Ecology and Industry, 2, 52–57. [in Russian].
    [Google Scholar]
  12. Tyapkin, K.F.
    (1972) The study of the nature of fault folding. Section of the Krivoy Rog-Kremenchug zone. In The study of Precambrian tectonics by geological and geophysical methods.Moscow: Nauka, 228–230. [in Russian].
    [Google Scholar]
  13. Yague-Martinez, N., De Zan, F. and Prats-Iraola, P.
    (2017) Coregistration of Interferometric Stacks of Sentinel-1 TOPS Data. In Geoscience and Remote Sensing Letters IEEE, 7 (14), 1002–1006, doi: 10.1109/LGRS.2017.2691398.
    https://doi.org/10.1109/LGRS.2017.2691398 [Google Scholar]
http://instance.metastore.ingenta.com/content/papers/10.3997/2214-4609.201903199
Loading
/content/papers/10.3997/2214-4609.201903199
Loading

Data & Media loading...

This is a required field
Please enter a valid email address
Approval was a Success
Invalid data
An Error Occurred
Approval was partially successful, following selected items could not be processed due to error