Description: Dopo un breve richiamo all’abbassamento del suolo di Venezia, il lavoro illustra gli studi più recenti sulla subsidenza del comprensorio lagunare dove agiscono diversi fattori valutabili su scala regionale. E’noto che alla perdita altimetrica totale avvenuta a Venezia nel secolo scorso (ca 23 cm) hanno contribuito, con diversa incidenza, la subsidenza geologica, la subsidenza indotta dai pompaggi di acque artesiane e l’innalzamento del livello del mare. Nell’ultimo decennio si sono approfonditi ed ampliati gli studi del processo subsidenziale riguardo alle sue cause quali: a) le componenti naturali a breve ed a lungo termine, ovvero la consolidazione dei depositi recenti e la neotettonica; b) l’eustatismo; c) l’influenza di potenziali sfruttamenti dei giacimenti gassiferi offshore; e d) la subsidenza geochimica dovuta all’ossidazione dei suoli organici ed alla salinizzazione dei terreni argillosi che interessa in modo particolare il bacino scolante meridionale, incidendo sull’abbassamento del suolo con tassi che raggiungono anche 2 cm/anno. Per l’analisi delle cause della subsidenza, per le conseguenze sull’ambiente e per gli sviluppi metodologici, la ricerca si è ampliata a livello regionale, dapprima verso il comprensorio meridionale Veneziano-Padovano, dove, per le caratteristiche geomorfologiche del territorio largamente bonificato ed in buona parte oggi sotto il livello del mare, la subsidenza in atto induce un serio impatto ambientale e socio-economico. In seguito gli studi hanno interessato le aree nord-orientali della Provincia di Venezia, dove il confronto spazio-temporale dei rilievi altimetrici 2000/1993 aveva evidenziato, tra l’altro, un aumento dei tassi di subsidenza nei settori litorali a vocazione turistica di Cavallino-Jesolo-Caorle (ca 4 mm/anno). Si presentano infine i risultati di un metodo originale di monitoraggio integrato, elaborato per ottimizzare le informazioni derivanti dalle livellazioni, GPS, Interferometria SAR convenzionale e su riflettori permanerti, in grado di fornire mappe sinottiche dei movimenti del suolo su scala regionale ad alta risoluzione spaziale (pixel 20 × 20m) e precisione verticale millimetrica.

Description: Published

Description: Piacenza, Italy

Description: 6A. Monitoraggio ambientale, sicurezza e territorio

Description: open

Description: The scope of the project “VENEZIA - Subsidence monitoring service in the Lagoon of Venice for regional administrative and water authorities” was to define and implement a land subsidence monitoring service in the Lagoon of Venice for regional and administrative authorities. In order to provide the best knowledge of the land subsidence process around the Lagoon of Venice, SAR-based monitoring techniques (differential SAR interferometry and interferometric point target analysis) were integrated with levelling and GPS surveys into an overall information system. Land subsidence due to natural and anthropogenic causes has represented one of the most serious environmental problems for the Lagoon of Venice and its catchment (Tosi et al., 2002, Carbognin and Tosi, 2003, Carbognin et al., in press). Land subsidence has increased the vulnerability and the geological hazard (i.e. river flooding, riverbank stability, intrusion of seawater in the aquifer system, deteriorating of the littoral sectors with a general coastline regression and an increment of the sea bottom slope close to the shoreline) of these areas, a large portion of which lies below the mean sea level. After the regulation of groundwater exploitation from the Venetian aquifer-aquitard system, a remarkable slowing down of the induced subsidence in Marghera (industrial zone), in the historical center of Venice and along the littorals was ascertained in the 1970’s. Recent studies (Carbognin and Tosi, 2003) have shown that land subsidence is still in progress in the southern and northern coastal areas and in the nearby mainland, where groundwater is extracted from artesian wells, thicker and more compressible Holocene sediments are present, and organic soil oxidation takes place in reclaimed areas. Until 1999, levelling of the Venice region was carried out only along the coast and the lagoon edges and the monitoring network was composed by benchmarks along single levelling lines; a fine grid network was established only in the city of Venice. In recent years, the levelling network has been updated to cover all the southern part of the Lagoon, and plans exist to cover also the northern sector. The same network used for the levelling surveys is also considered for differential GPS measurements. In addition to these ground-based methods, differential SAR interferometry using long series of SAR data (Wegmüller and Strozzi, 1998; Strozzi et al, 2001) and interferometric point target analysis (IPTA) (Wegmüller et al., 2003, Werner et al., 2003) have emerged as very promising tools for the monitoring of land subsidence at high spatial resolution. The VENEZIA project was organized along a service definition phase, a service implementation phase and a service quality assessment phase. Important elements of the project were the definition, implementation and validation of the service for interferometric point target analysis and the integration of the SAR-based monitoring techniques with levelling and GPS surveys into an overall information system capable to provide the best knowledge of the subsidence process to the authorities that manage the Po Plain area around the Lagoon of Venice.

Description: Gamma Remote Sensing; Istituto di Scienze Marine - Consiglio Nazionale delle Ricerche; ESA-ESRIN

Description: Published

Description: 6A. Monitoraggio ambientale, sicurezza e territorio

Description: open

Description: Land subsidence is a severe geologic hazard threading the lowlying coastal areas worldwide. Monitoring land subsidence has been significantly improved over the last few years by space borne earth observation techniques based on SAR (Synthetic Aperture Radar) Interferometry. Within the INLET Project, funded by Magistrato alle Acque di Venezia – Venice Water Authority (VWA) and Consorzio Venezia Nuova (CVN), we have used the Interferometric Point Target Analysis (IPTA) to characterize the ground displacements within the Venice Lagoon. IPTA measures the movement of backscattering objects (point targets, PT) at the ground surface which persistently reflect radar signal emitted by the SAR antenna. For this study 80 ERS-1/2 and 44 ENVISAT scenes recorded from 1992 to 2005 and from 2003 to 2007, respectively, have been processed by IPTA. High reliable land subsidence data have been detected for thousands of PT located on the lagoon margins, along the littorals, in major and small islands, and on single anthropogenic structures scattered within the lagoon. On the average, land subsidence ranges from less than 1 mm/year to 5 mm/year, with some PT that exhibit values also larger than 10 mm/year depending on both the local geologic conditions and anthropogenic activities. A network of few tens of artificial square trihedral corner reflectors (TCR) has been established before summer 2007 to monitor land subsidence in the inner lagoon areas where natural reflectors completely lack (e.g., on the salt marshes). The first interferometric results on the TCR appear very promising.

Description: Published

Description: Venice, Italy

Description: 6A. Monitoraggio ambientale, sicurezza e territorio

Description: open

Description: We present the result of a test aimed at evaluating the capability of RADARSAT-2 and COSMO-SkyMed to map the natural subsidence and ground movements induced by anthropogenic activities in the historical center of Venice. Firstly, ground movements have been retrieved at quite long- and short-term by the Persistent Scattered Interferometry (PSI) on 2008-2015 RADARSAT-2 and 2013-2015 COSMO-SkyMed image stacks, respectively. Secondly, PSI has been calibrated at regional scale using the records of permanent GPS stations. Thirdly, considering that over the last two decades “in the historical center of Venice” natural land movements are primarily ascribed to long-term processes, and those induced by human activities act at short-term, we have properly resampled 83-month RADARSAT-2 C-band and 27-month COSMO-SkyMed X-band interferometric products by a common grid and processed the outcome to estimate the two components of the displacements. Results show that the average natural subsidence is generally in the range of 0.9 – 1.1 mm/yr and the anthropogenic ground movements are up to 2 mm/yr.

Description: Published

Description: Prague, Czech Republic,

Description: 6A. Monitoraggio ambientale, sicurezza e territorio

Description: open