PRELIMINARY INVESTIGATION OF THE LAND SUBSIDENCE PHENOMENA OCCURRING AT THE INDUSTRIAL-COMMERSIAL AREA OF ELEONAS, ATHENS, GREECE


Published: Jul 27, 2016
Keywords:
Geohazard Aquifer overexploitation PSI technique
A. Kaitantzian
C. Loupasakis
Abstract

Land subsidence is a common phenomenon occurring in several regions worldwide.
The current work focus on the industrial-commersial area of Eleonas, Athens, where vertical displacements were identified by Persistent Scatterer Interferometry (PSI) analysis. The rate of deformation in the study area according to the PSI results, during the period from May 1992 to December 2000, ranged between -1.5 and -10 mm/yr. The evaluation of the geological, geotechnical and hydrogeological conditions of the area combined with the PSI data provided substantial information for the interpretation of the land subsidence phenomenon. Also, the knowledge of the land use distribution and the activities taking place in the area helped the detection of its causal factors.

Article Details
  • Section
  • Remote Sensing and GIS
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References
Adam, N., Rodriguez Gonzalez, F., Parizzi, A. and Liebhart, W., 2011. Wide area persistent scatterer Interferometry, Proc. of IGARSS, Vancouver, Canada.
Andronopoulos, V., Rozos, D. and Hatzinakos, I., 1991. Subsidence phenomena in the industrial area of Thessaloniki, Greece. In: Johnson, A., ed., Land Subsidence, 200, Wallingford, Oxfordshire, IAHS Publishers, 59-69.
Colesanti, C., Ferretti, A., Prati, C. and Rocca, F., 2003. Monitoring landslides and tectonic motion with the Permanent Scatterers technique, Eng. Geol., 68, 3-14.
CORINE land cover 2000 project, Commission of the European Communities. Costantini, F., Mouratidis, A., Schiavon, G. and Sarti, F., 2016. Advanced InSAR techniques for deformation studies and for simulating the PS-assisted calibration procedure of Sentinel-1 data: Case study from Thessaloniki (Greece), based on the Envisat / ASAR archive, Int. Journal of Remote Sensing, 37, 729-744, doi: 10.1080/01431161.2015.1134846.
Ferretti, A., Prati, C. and Rocca, F., 2000. Nonlinear subsidence rate estimation using Permanent Scatterers in differential SAR interferometry, IEEE T. Geosci. Remote, 38, 2202-2212.
Ferretti, A., Fumagalli, A., Novali, F., Prati, C., Rocca, F. and Rucci, A., 2011. A new algorithm for processing interferometric data-stacks, SqueeSAR™, IEEE T. Geosci. Remote, 99, 1-11.
Kaplanides, A. and Fountoulis, D., 1997. Subsidence phenomena and ground fissures in Larissa, Karla basin, Greece: their results in urban and rural environment. In: Marinos, P., Koukis,
G., Tsiambaos, G. and Sambatakakis, G., eds., Eng. Geol. Environ., 729-735.
Kontogianni, V., Pytharouli, S. and Stiros, S., 2007. Ground subsidence, Quaternary faults and vulnerability of utilities and transportation networks in Thessaly, Greece, Environ. Geol., 52, 1085-1095.
Koukis, G. and Sabatakakis, N., 2000. Engineering geological environment of Athens, Greece, Bull. Eng. Geol. Environ, 59, 127-135.
Koumantakis, I., 1997. Research of hydrogeological conditions and of the operating procedures of the ground water in the basin of Attica, Main Issue, (Α΄ and Β΄ Phase), research program in the years 1996 and 1997 performed by the research team of the Section of Geological Sciences in cooperation with the Organization of Planning and Environmental Protection οf Athens.
Loupasakis, C., Agelitsa, B., Rozos, D. and Spanou, N., 2014. Mining geohazards-land subsidence caused by the dewatering of opencast coal mines: The case study of the Amyntaio coal mine, Florina, Greece, Natural Hazards, Springer, 70, 675-691, doi: 10.1007/s11069-013-0837-1.
Loupasakis, C. and Rozos, D., 2009. Land subsidence induced by water pumping in Kalochori village (north Greece) - simulation of the phenomenon by means of the finite element method, Q. J. Eng. Geol. Hydrog., 42, 369-382.
Marinos, G., Katsikatsos, G., Georgiadou-Dikeoulia, E. and Mirkou, R., 1971. The Athens’ schist formation. I. Stratigraphy and structure (in Greek), Ann. Geol. Pays Hell., 22, 183-216.
Mertikas, S.P. and Papadaki, E.S., 2009. Radar Intererferometry for Monitoring Land Subsidence due to over-pumping Ground Water in Crete, Greece, Proc. of the Fringe Workshop, Italy, 30 November- 4 December.
Psimoulis, P., Ghilardi, M., Fouache, E. and Stiros, S., 2007. Subsidence and evolution of the Thessaloniki plain, Greece, based on historical levelling and GPS data, Eng. Geol., 90, 55-70.
Raspini, F., Loupasakis, C., Rozos, D. and Moretti, S., 2013. Advanced interpretation of land subsidence by validating multi interferometric SAR data: the case study of the Anthemountas basin (northern Greece), Nat. Hazards Earth Syst. Sci. Discuss., 1, 1213-1256.
Raucoules, D., Parcharidis, I., Feurer, D., Novalli, F., Ferretti, A., Carnec, C., Lagios, E., Sakkas, V., Le Mouelic, S., Cooksley, G. and Hosford, S., 2008. Ground deformation detection of the greater area of Thessaloniki (Northern Greece) using radar interferometry techniques, Nat. Hazards Earth Syst. Sci., 8, 779-788, doi: 10.5194/nhess-8-779(08).
Rozos, D., Sideri, D., Loupasakis, C. and Apostolidis, E., 2010. Land subsidence due to excessive groundwater withdrawal, a case study from Stavros-Farsala site, west Thessaly Greece, Proc. of the 12th International Congress, Patras, Bull. Geol. Soc. Greece, 4, 1850-1857.
Soulios, G., Tsapanos, T., Voudouris, K., Kaklis, T., Mattas, C. and Sotiriadis, M., 2011. Ruptures on surface and buildings due to land subsidence in Anargyri village (Florina Prefecture, Macedonia), Environ. Earth Sci., 5, 505-512.
Stiros, S.C., 2001. Subsidence of the Thessaloniki (northern Greece) coastal plain, 1960-1999, Eng. Geol., 61, 243-256.
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