Use of PSInSAR data to map highly compressible soil layers

Authors

  • C. DEL VENTISETTE Department of earth Sciences, University of Firenze. Via La Pira 4, 50121 Firenze, Italy.
  • L. SOLARI Department of earth Sciences, University of Firenze. Via La Pira 4, 50121 Firenze, Italy.
  • F. RASPINI Department of earth Sciences, University of Firenze. Via La Pira 4, 50121 Firenze, Italy.
  • A. CIAMPALINI Department of earth Sciences, University of Firenze. Via La Pira 4, 50121 Firenze, Italy.
  • F. DI TRAGLIA Department of earth Sciences, University of Firenze. Via La Pira 4, 50121 Firenze, Italy.
  • M. MOSCATELLI CNR–IGAG, Institute of environmental Geology and Geoengineering. Area della Ricerca di Roma 1. Montelibretti, via Salaria km 29,300, 00015 Monterotondo Stazione, Roma, Italy.
  • A. PAGLIAROLI CNR–IGAG, Institute of environmental Geology and Geoengineering. Area della Ricerca di Roma 1. Montelibretti, via Salaria km 29,300, 00015 Monterotondo Stazione, Roma, Italy.
  • S. MORETTI Department of earth Sciences, University of Firenze. Via La Pira 4, 50121 Firenze, Italy.

DOI:

https://doi.org/10.1344/GeologicaActa2015.13.4.4

Keywords:

InSAR, PS analysis, Surface deformation analysis, 2D stratigraphic reconstruction, Tiber delta, Peat

Abstract

A new approach to the use of Persistent Scatterers (PS) Interferometry data in the reconstruction of the extension of compressible geological bodies is presented. The methodology was applied in the test area of the Tiber River delta (Italy), characterized by the presence of two large marshy zones, known as the Maccarese and Ostia Antica ponds. PSInSAR™ data, derived from ERS1/2, ENVISAT and RADARSAT-1 images, and spanning a time interval between 1992 and 2006 were used to verify the possibility to reconstruct the spatial distribution of the peat levels inside the Maccarese and Ostia Antica ponds. Borehole information was analyzed to calibrate the InSAR data and the deformation rates were used to hypothesize the presence of a thick compressible layer where geological information is lacking. Variations in deformation rates registered by the single PS were assumed to be representative of a variation in the stratigraphic asset. The obtained results demonstrate that this approach could be satisfactorily used to investigate wide areas in a short time, reducing the number of boreholes to drill, and it could be a complementary technique to obtain information about the 2D geometry of specific geological levels.

References

Amenduni, G., 1884. Sulle opere di bonificazione della plaga litoranea dell’Agro Romano che comprende le paludi e gli stagni di Ostia, Porto, Maccarese e delle terre vallive di Stracciacappa, Baccano, Pantano e Lago dei Tartari. Relazione del progetto generale 15/7/1880. Roma, Ministero dei Lavori Pubblici, Ed. E. Botta, 1-36.

Amorosi, A., Milli, S., 2001. Late Quaternary depositional architecture of Po and Tevere river deltas (Italy) and worldwide comparison with coeval deltaic successions. Sedimentary Geology, 144, 357-375.

Bellotti, P., Biagi, P.F., Tortora, P., Valeri, P., 1987. Il delta del Tevere: caratteri morfologici e sedimentologici della piana deltizia. Giornale di Geologia, 49, 89-99.

Bellotti, P., Milli, S., Tortora, P., Valeri, P., 1995. Physical stratigraphy and sedimentology of the late PleistoceneHolocene Tiber Delta depositional sequence. Sedimentology, 42, 617-634.

Bellotti, P., Calderoni, G., Carboni, M.G., Di Bella, L., Tortora, P., Valeri, P., Zernitskaya, V., 2007. Late Quaternary landscape evolution of the Tiber River delta plain (Central Italy): new evidence from pollen data, biostratigraphy and 14C dating. Eitschrift für Geomorphologie, 51, 505-534.

Bellotti, P., Calderoni, G., Di Rita, F., D’Orefice, M., D’Amico, C., Esu, D., Magri, D., Preite Martinez, M., Tortora, P., Valeri, P., 2011. The Tiber River delta plain (central Italy): Coastal evolution and implications for the ancient Ostia Roman settlement. The Holocene, 21(7), 1105-1116.

Belluomini, G., Iuzzolini, P., Manfra, L., Mortari, R., Zalaffi, M., 1986. Evoluzione recente del delta del Tevere. Geologica Roma, 25, 213-234.

Bianchini, S., Cigna, F., Del Ventisette, C., Moretti, S., Casagli, N., 2012. Detecting and monitoring landslide phenomena with TerraSAR-X persistent scatterers data: the Gimigliano case study in Calabria Region (Italy). International Geoscience and Remote Sensing Symposium (IGARSS), 982-985.

Bianchini, S., Cigna, F., Del Ventisette, C., Moretti, S., Casagli, N., 2013. Monitoring landslide-induced displacements with TerraSAR-X persistent scatterer interferometry (PSI): Gimigliano case study in Calabria Region (Italy). International Journal of Geosciences, 4, 1467-1482.

Bürgmann, R., Hilley, G.E., Ferretti, A., 2006. Resolving vertical tectonics in the San Francisco Bay Area from Permanent Scatterer InSAR and GPS Analysis. Geology, 34, 221-224.

Canuti, P., Casagli, N., Farina, P., Ferretti, A., Marks, F., Menduni, G., 2005. Land subsidence in the Arno river basin studied through SAR Interferometry. Shanghai, China, Proceedings of SISOLS 2005, 7th International Symposium on Land Subsidence, 23–28 October 2005, 1, 407-416.

Capelli, G., Mazza, R., Papiccio, C., 2007. Intrusione salina nel Delta del Fiume Tevere. Geologia, idrologia e idrogeologia del settore romano della piana costiera. Giornale di Geologia Applicata, 5, 13-28.

Ciampalini, A., Cigna, F., Del Ventisette, C., Moretti, S., liguori, V., Casagli, N., 2012. Integrated geomorphological mapping in the north-western sector of Agrigento (Italy). Journal of Maps, 8(2), 136-145.

Cigna, F., Del Ventisette, C., Liguori, V., Casagli, N., 2010. InSAR time-series analysis for management and mitigation of geological risk in urban area. IEEE International Symposium on Geoscience and Remote Sensing IGARSS, 1924-1927.

Cigna, F., Del Ventisette, C., Liguori, V., Casagli, N., 2011. Advanced radar-interpretation of InSAR time series for mapping and characterization of geological processes. Natural Hazard and Earth System Sciences, 11, 865-881. DOI:10.5194/nhess-11-865-2011.

Cigna, F., Del Ventisette, C., Gigli, G., Menna, F., Agili, F., Liguori, V., Casagli, N., 2012. Ground instability in the old town of Agrigento (Italy) depicted by on-site investigations and Persistent Scatterers data. Natural Hazards and Earth System Science, 12, 3589-3603.

Cigna, F., Liguori, V., Del Ventisette, C., Casagli. N., 2013. Landslide impact on Agrigento’s cathedral imaged with radar interferometry. Landslide Sciences and practise: Risk Assessment, management and mitigation, 6, 475-481.

Colesanti, C., Ferretti, A., Prati, C., Rocca, F., 2003. Monitoring landslides and tectonic motions with the Permanent Scatterers Tecnique. Engineering Geology, 68, 3-14.

Del Ventisette, C., Ciampalini, A., Calò, F., Manunta, M., Paglia, L., Reichenbach, P., Colombo, D., Mora, O., Strozzi, T., Garcia, I., Mateos, R., Herrera, G., Füsi, B.,Graniczny, M., Przylucka, M., Retzo, H., Moretti, S., Casagli, N., Guzzetti, F., 2013. Exploitation of large archives of ERS and ENVISAT C-Band SAR data to characterize ground deformation. Remote Sensing, 5(8), 3896-3917.

Del Ventisette, C., Righini, G., Moretti, S., Casagli, N., 2014. Multitemporal landslides inventory map updating using spaceborneSAR analysis. International Journal of Applied Earth Observation and Geoinformation, 30, 238-246.

Farina, P., Colombo, D., Fumagalli, A., Marks, F., Moretti, S., 2006. Permanent Scatterers for landslide investigations: outcomes from the ESA-SLAM project. Engineering Geology, 88, 200-217.

Ferretti, A., Prati, C., Rocca, F., 2000. Nonlinear subsidence rate estimation using Permanent Scatterers in differential SAR interferometry. IEEE Transactions on Geoscience and Remote Sensing, 38(5), 2202-2212.

Ferretti, A., Prati, C., Rocca, F., 2001. Permanent Scatterers in SAR interferometry. IEEE Transactions on Geoscience and Remote Sensing, 39(1), 8-20.

Giraudi, C., 2004. Evoluzione tardo-olocenica del delta del Tevere. Il Quaternario, 17, 477-492.

Giraudi, C., 2011. The sediments of the “Stagno di Maccarese” marsh (Tiber River delta, central Italy): A late-Holocene record of natural and human-induced environmental changes. The Holocene, 21(8), 1233-1243.

Hilley, G.E., Burgmann, R., Ferretti, A., Novali, F., Rocca, F., 2004. Dynamics of slow-moving landslides from permanent scatterer analysis. Science, 304 (5679), 1952-1955.

Kampes, B.M., 2006. Radar Interferometry Persistent Scatterer Technique. Dordrecht, The Netherlands, Springer, 227pp.

Massironi, M., Zampieri, D., Bianchi, M., Schiavo, A., Franceschini, A., 2009. Use of PSInSAR™ data to infer active tectonics: Clues on the differential uplift across the Giudicarie belt (Central-Eastern Alps, Italy). Tectonophysics, 476, 297-303.

Massonnet, D., Feigl, K.L., 1998. Radar interferometry and its application to changes in the earth’s surface. Reviews of Geophysics, 36 (4), 441-500.

Milli, S., D’Ambrogi, C., Bellotti, P., Calderoni, G., Carboni, M.G., Celant, A., Di Bella, L., Di Rita, F., Frezza, V., Magri, D., Pichezzi, R.M., Ricci, V., 2013. The transition from wave-dominated estuary to wave-dominated delta: The Late Quaternary stratigraphic architecture of Tiber River deltaic succession (Italy). Sedimentary Geology, 284-285, 159-180.

Osmanoglu, B., Dixon, T.H., Wdowinski, S., Cabral-Cano, E., Jiang, Y., 2011. Mexico City subsidence observed with Persistent Scatterer InSAR. International Journal of Applied Earth Observation and Geoinformation, 13(1), 1-12.

Perrone, G., Morelli, M., Piana, F., Fioraso, G., Nicolò, G., Mallen, L., Cadoppi, P., Balestro, G., Tallone, S., 2013. Current tectonic activity and differential uplift along the Cottian Alps/Po Plain boundary (NW Italy) as derived by PS-InSAR data. Journal of Geodynamics, 66, 65-78.

Raspa, G., Moscatelli, M., Stigliano, F.P., Patera, A., Folle, D., Vallone, R., Mancini, M., Cavinato, G.P., Milli, S., Costa, J.F.C.L., 2008. Geotechnical characterization of the upper Pleistocene–Holocene alluvial deposits of Roma (Italy) by means of multivariate geostatistics: crossvalidation results. Engineering Geology, 101, 251-268.

Salvi, S., Atzori, S., Tolomei, C., Allievi, J., Ferretti, A., Rocca, F., Prati, C., Stramondo, S., Feuillet, N., 2004. Inflation rate of the Colli Albani volcanic complex retrieved by the permanent scatterers SAR interferometry technique. Geophysical Research Letters, 31(21), L12606.

Stramondo, S., Bozzano, F., Marra, F., Wegmuller, U., Cinti, F.R., Moro, M., Saroli, M. 2008. Subsidence induced by urbanization in the city of Rome detected by advanced InSAR technique and geotechnical investigations. Remote Sensing Environment, 112, 3160-3172.

Tizzani, P., Berardino, P., Casu, F., Euillades, P., Manzo, M., Ricciardi, G.P., Zeni, G., Lanari, R., 2007. Surface deformation of Long Valley caldera and Mono Basin, California, investigated with the SBASInSAR approach. Remote Sensing Environment, 108, 277-289.

Tofani, V., Del Ventisette, C., Moretti, S., Casagli, N., 2014. Integration of remote sensing techniques for intensity zonation within a landslide area: a case study in the Northern Apennines, Italy. Remote Sensing, 6(2), 907-924.

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Published

2015-11-16

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