VENEZIA

Station summary

Showing all stations within 1000 km of the observed station Active station No data for 30 days Decommissioned No observations in SONEL (Survey) Not co-located with observed station
Showing all stations within 1000 km of the observed station Available data / Station OK Available data / Problem(s) detected Does not work No longer exists Foreign partner management Not co-located with observed station
Showing all stations within 1000 km of the observed station Co-located with observed station Not co-located with observed station
  • More informations on each symbol.
  • GPS
    Tide Gauge
    DORIS
Latitude : 45.41666700
Longitude : 12.33333300
Country: ITALY
City: VENEZIA
Station state: Foreign partner

Co-located instrumentsVENSS

BibliographyVENSS

If you have a relevant reference to suggest, please send-us an e-mail : sonel@sonel.org
  • puce , Teatini et al., 2013. Natural versus anthropogenic subsidence of Venice. Scientific Reports. Get this reference
  • puce , Da Lio et al., 2016. Combining L- and X-Band SAR Interferometry to Assess Ground Displacements in Heterogeneous Coastal Environments: The Po River Delta and Venice Lagoon, Italy. Remote Sensing. Get this reference
  • puce , Carbognin et al., 2002. Evidence of the present relative land stability of Venice, Italy, from land, sea, and space observations. Geophysical Research Letters. Get this reference
  • puce , Teatini et al., 2012. Integrating Geotechnical and Interferometric SAR Measurements for Secondary Compressibility Characterization of Coastal Soils. Surveys in Geophysics.
  • puce Carbognin, Teatini et al., 2009. Global change and relative sea level rise at Venice: what impact in term of flooding. Climate Dynamics. Get this reference
  • puce De-Biasio, Baldin et al., 2020. Revisiting Vertical Land Motion and Sea Level Trends in the Northeastern Adriatic Sea Using Satellite Altimetry and Tide Gauge Data. Journal of Marine Science and Engineering. Get this reference BibTeX of the reference
  • puce Pajak, Kowalczyk et al., 2021. Studying the Sensitivity of Satellite Altimetry, Tide Gauge and GNSS Observations to Changes in Vertical Displacements. Geomatics and Environmental Engineering. Get this reference BibTeX of the reference
  • puce Strozzi, Teatini, 2009. TerraSAR-X reveals the impact of the mobile barrier works on Venice coastland stability. Remote Sensing of Environment. Get this reference
  • puce Vignudelli, De-Biasio, 2021. Coastal Sea Level Trends from a Joint Use of Satellite Radar Altimetry, GPS and Tide Gauges: Case Study of the Northern Adriatic Sea. Geodetic Sciences - Theory, Applications and Recent Developments. Get this reference BibTeX of the reference
  • puce Woppelmann, Marcos, 2012. Coastal sea level rise in southern Europe and the nonclimate contribution of vertical land motion. Journal of Geophysical Research. Get this reference
  • puce Zerbini, Raicich et al., 2017. Sea-level change in the Northern Mediterranean Sea from long-period tide gauge time series. Earth-Science Reviews. Get this reference