Citations Non-affiliated (118) | Affiliated (0)

Non-affiliated authors

• Paniagua-Arroyave, Juan F., Spada, Giorgio, Melini, Daniele, Duque-Trujillo, José F., (2024), "Holocene relative sea-level changes along the Caribbean and Pacific coasts of northwestern South America", Quaternary Research, : pg: 1–16, (DOI: 10.1017/qua.2023.73). Cited by:

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• Antwerpen, Raf, Austermann, Jacqueline, Young, Nicolás, Porter, David, Lewright, Lauren, Latychev, Konstantin, (2024), "Holocene southwest Greenland ice sheet behavior constrained by sea-level modeling", Quaternary Science Reviews, 328: pg: 108553, (DOI: 10.1016/j.quascirev.2024.108553). Cited by:

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• Alexandre, Boughanemi, Mémin, Anthony, (2024), "Effects of Andrade and Burgers rheologies on glacial isostatic adjustment modeling in Antarctica", Geodesy and Geodynamics, : (DOI: 10.1016/j.geog.2023.12.008). Cited by:

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• Palombini, Augusto, Lucarini, Giulio, Rosati, Paolo, Violante, Crescenzo, (2024), "Opening Up the Sea: A Novel Methodological Approach to Display Mediterranean Shoreline Evolution", Proceedings, 96, 1: (DOI: 10.3390/proceedings2024096014). Cited by:

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• Mattei, Gaia, Amato, Lucio, Caporizzo, Claudia, Cinque, Aldo, Pappone, Gerardo, Sorrentino, Alessia, Stocchi, Paolo, Troisi, Salvatore, Aucelli, Pietro P.C., (2023), "Reconstructing anthropic coastal landscape of Campi Flegrei volcanic area (Southern Italy) during the Roman period from multi-technique surveys", Journal of Maps, Taylor & Francis: pg: 1-14, (DOI: 10.1080/17445647.2023.2187320). Cited by:

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• Meyssignac, (2023), "How accurate is accurate enough for measuring sea-level rise and variability}", Nature Climate Change, 13, 8: pg: 796-803, 1758-6798, (DOI: 10.1038/s41558-023-01735-z). Cited by:

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• Gowan, Evan J, (2023), "Paleo sea-level indicators and proxies from Greenland in the GAPSLIP database and comparison with modelled sea level from the PaleoMIST ice-sheet reconstruction", GEUS Bulletin, 53: Nov., (DOI: 10.34194/geusb.v53.8355). Cited by:

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• Oikonomou, Paris, Karkani, Anna, Evelpidou, Niki, Kampolis, Isidoros, Spada, Giorgio, (2023), "The Fish Tanks of the Mediterranean Sea", Quaternary, 6, 2: (DOI: 10.3390/quat6020024). Cited by:

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• Tursi, Maria Francesca, Amodio, Antonio Minervino, Caporizzo, Claudia, Del Pizzo, Silvio, Figliomeni, Francesco Giuseppe, Mattei, Gaia, Parente, Claudio, Rosskopf, Carmen M., Aucelli, Pietro P. C., (2023), "The Response of Sandstone Sea Cliffs to Holocene Sea-Level Rise by Means of Remote Sensing and Direct Surveys: The Case Study of Punta Licosa Promontory (Southern Italy)", Geosciences, 13, 4: (DOI: 10.3390/geosciences13040120). Cited by:

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• Liberatore, Marco, Gliozzi, Elsa, Cipollari, Paola, Cosentino, Domenico, (2023), "Holocene vertical velocity fields in the calabrian arc (southern Italy): New insights from uplifted sea-level markers in the Crotone Peninsula", Quaternary Science Reviews, 321: pg: 108368, (DOI: 10.1016/j.quascirev.2023.108368). Cited by:

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• Mattei, Gaia, Caporizzo, Claudia, Cinque, Aldo, Pappone, Gerardo, Sorrentino, Alessia, Troisi, Salvatore, Aucelli, Pietro Patrizio Ciro, (2023), "Historical vertical ground movements in the Campi Flegrei volcano: A new transect across the caldera rim", Geomorphology, : pg: 108997, (DOI: 10.1016/j.geomorph.2023.108997). Cited by:

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• Bulgakov, R. F., (2022), "Process of Postglacial Transgression on the Coasts of the East Siberian and Laptev Seas", Oceanology, 62, 1: pg: 98-104, Feb, (DOI: 10.1134/S0001437022010039). Cited by:

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• Mattei, Gaia, Caporizzo, Claudia, Corrado, Giuseppe, Vacchi, Matteo, Stocchi, Paolo, Pappone, Gerardo, Schiattarella, Marcello, Aucelli, Pietro P.C., (2022), "On the influence of vertical ground movements on Late-Quaternary sea-level records. A comprehensive assessment along the mid-Tyrrhenian coast of Italy (Mediterranean Sea)", Quaternary Science Reviews, 279: pg: 107384, (DOI: 10.1016/j.quascirev.2022.107384). Cited by:

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• Lodolo, Emanuele, Loreto, Maria Filomena, Melini, Daniele, Spada, Giorgio, Civile, Dario, (2022), "Palaeo-Shoreline Configuration of the Adventure Plateau (Sicilian Channel) at the Last Glacial Maximum", Geosciences, 12, 3: (DOI: 10.3390/geosciences12030125). Cited by:

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• Dean, Silas, Bursten, Simon, Spada, Giorgio, Pappalardo, Marta, (2022), "SeeLevelViz: A simple data science tool for dynamic visualization of shoreline displacement caused by sea-level change", Quaternary International, 638-639: pg: 205-211, (DOI: 10.1016/j.quaint.2022.03.001). Cited by:

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• Sejrup, Hans Petter, Hjelstuen, Berit Oline, Patton, Henry, Esteves, Mariana, Winsborrow, Monica, Rasmussen, Tine Lander, Andreassen, Karin, Hubbard, Alun, (2022), "The role of ocean and atmospheric dynamics in the marine-based collapse of the last Eurasian Ice Sheet", Communications Earth \& Environment, 3, 1: pg: 119, May, (DOI: 10.1038/s43247-022-00447-0). Cited by:

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• Groh, Andreas, Harff, Jan, (2022), "Relative sea-level changes induced by glacial isostatic adjustment and sediment loads in the Beibu Gulf, South China Sea", Oceanologia, 65, 1: pg: 249-259, (DOI: 10.1016/j.oceano.2022.09.001). Cited by:

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• De Groeve, Johannes, Kusumoto, Buntarou, Koene, Erik, Kissling, W. Daniel, Seijmonsbergen, Arie C., Hoeksema, Bert W., Yasuhara, Moriaki, Norder, Sietze J., Cahyarini, Sri Yudawati, Geer, Alexandra, Meijer, Hanneke J. M., Kubota, Yasuhiro, Rijsdijk, Kenneth F., (2022), "Global raster dataset on historical coastline positions and shelf sea extents since the Last Glacial Maximum", Global Ecology and Biogeography, 31, 11: pg: 2162-2171, (DOI: 10.1111/geb.13573). Cited by:

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• Willen, Matthias O., Horwath, Martin, Groh, Andreas, Helm, Veit, Uebbing, Bernd, Kusche, J\"urgen, (2022), "Feasibility of a global inversion for spatially resolved glacial isostatic adjustment and ice sheet mass changes proven in simulation experiments", Journal of Geodesy, 96, 10: pg: 75, Oct, (DOI: 10.1007/s00190-022-01651-8). Cited by:

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• Yasur-Landau, Assaf, Shtienberg, Gilad, Gambash, Gil, Spada, Giorgio, Melini, Daniele, Arkin-Shalev, Ehud, Tamberino, Anthony, Reese, Jack, Levy, Thomas E., Sivan, Dorit, (2021), "New relative sea-level (RSL) indications from the Eastern Mediterranean: Middle Bronze Age to the Roman period (\^A~3800-1800 y BP) archaeological constructions at Dor, the Carmel coast, Israel", Plos One, Public Library of Science, 16, 6: pg: 1--25, (DOI: 10.1371/journal.pone.0251870). Cited by:

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• Seeliger, M., Pint, A., Frenzel, P., Marriner, N., Spada, G., Vacchi, M., Basaran, S., Dan, A., Seeger, F., Seeger, K., Schmidts, T., Brckner, H., (2021), "Mid- to late-Holocene sea-level evolution of the northeastern Aegean sea", The Holocene, : pg: 09596836211025967, (DOI: 10.1177/09596836211025967). Cited by:

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• Prandi, P., Meyssignac, B., Ablain, M., Spada, G., Ribes, A., Benveniste, J., (2021), "Local sea level trends, accelerations and uncertainties over 1993-2019", Scientific Data, 8, 1: pg: 1, (DOI: 10.1038/s41597-020-00786-7). Cited by:

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• Harrison, B. J., Daron, J. D., Palmer, M. D., Weeks, J. H., (2021), "Future sea-level rise projections for tide gauge locations in South Asia", Environmental Research Communications, : . Cited by:

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• Gowan, E. J., Zhang, X., Khosravi, S., Rovere, A., Stocchi, P., Hughes, A. L. C., Gyllencreutz, R., Mangerud, J., Svendsen, J-I, Lohmann, G., (2021), "A new global ice sheet reconstruction for the past 80 000 years", Nature Communications, 12, 1: pg: 1199, (DOI: 10.1038/s41467-021-21469-w). Cited by:

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• Antonioli, F., Furlani, S., Montagna, P., Stocchi, P., (2021), "The Use of Submerged Speleothems for Sea Level Studies in the Mediterranean Sea: A New Perspective Using Glacial Isostatic Adjustment (GIA)", Geosciences, 11, 2: pg: 77, (DOI: 10.3390/geosciences11020077). Cited by:

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• Antonioli, F., Furlani, S., Montagna, P., Stocchi, P., Calcagnile, L., Quarta, G., Cecchinel, J., Lo Presti, V., Morticelli, M. G., Foresta Martin, F., Pons-Branchu, E., Vaccher, V., (2021), "Submerged Speleothems and Sea Level Reconstructions: A Global Overview and New Results from the Mediterranean Sea", Water, 13, 12: (DOI: 10.3390/w13121663). Cited by:

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• Spada, Giorgio, Melini, Daniele, (2021), "New estimates of ongoing sea level change and land movements caused by Glacial Isostatic Adjustment in the Mediterranean region", Geophysical Journal International, : 12, (DOI: 10.1093/gji/ggab508). Cited by:

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• Richter, K., Meyssignac, B., Slangen, Aimee B. A., Melet, Angelique, Church, J. A., Fettweis, X., Marzeion, B., Agosta, C., Ligtenberg, S. R. M., Spada, G., Palmer, M. D., Roberts, C. D., Champollion, N., (2020), "Detecting a forced signal in satellite-era sea-level change", Environmental Research Letters, 15, 9: (DOI: 10.1088/1748-9326/ab986e). Cited by:

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• Lodolo, E., Galassi, G., Spada, G., Zecchin, M., Civile, D., Bressoux, M., Dias, J. M., (2020), "Post-LGM coastline evolution of the NW Sicilian Channel: Comparing high-resolution geophysical data with Glacial Isostatic Adjustment modeling", Plos One, 15, 2: pg: e0228087, (DOI: 10.1371/journal.pone.0228087). Cited by:

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• MacDougall, M. D. J., Braun, A., Fotopoulos, G., (2020), "Implications of glacial isostatic adjustment on petroleum reservoirs in the Grand banks of Newfoundland", Journal of Geodynamics, 140: pg: 101781, . Cited by:

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• Hartmann, R., Ebbing, J., Conrad, C. P., (2020), "A Multiple 1D Earth Approach (M1DEA) to account for lateral viscosity variations in solutions of the sea level equation: An application for glacial isostatic adjustment by Antarctic deglaciation", Journal of Geodynamics, : pg: 101695, (DOI: 10.1016/j.jog.2020.101695). Cited by:

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• Caporizzo, C., Aucelli, P. P. C., Galan-Ruffoni, I., Gracia, F. J., Martin-Puertas, C., Mattei, G., Stocchi, P., (2020), "Estimating RSL changes in the Northern Bay of Cadiz (Spain) during the late Holocene", 2020 IMEKO TC-19 International Workshop on Metrology for the Sea, Naples, Italy: . Cited by:

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• Bulgakov R.F., Afanas ev V. V., (2020), "Effect of hydroisostasy on postglacial transgression on the shelf and coast of Primorye as revealed by computer modelling", Geosystems of Transition Zones, 4, 2: pg: 220--229, (DOI: 10.30730/gtrz.2020.4.2.210-219.220-229). Cited by:

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• Bulgakov R.F., Afanas ev V. V., (2020), "Effect of hydroisostatic compensation depending on the shelf width on the example of the Laptev and the East Siberian seas", Geosystems of Transition Zones, 4, 3: pg: 305--320, (DOI: 10.30730/gtrz.2020.4.3.305-312.313-320). Cited by:

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• Bender, M., Mann, T., Stocchi, P., Kneer, D., Schone, T., Illigner, J., Jompa, J., Rovere, A., (2020), "Late Holocene (0-6 ka) sea-level changes in the Makassar Strait, Indonesia", Climate of the Past, 16, 4: pg: 1187--1205, (DOI: 10.5194/cp-16-1187-2020). Cited by:

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• Bechor, B., Sivan, D., Miko, S., Hasan, O., Grisonic, M., Rossi, I. R., Lorentzen, B., Artioli, G., Ricci, G., Ivelja, T., Spada, G., Brook, A., (2020), "Salt pans as a new archaeological sea-level proxy: A test case from Dalmatia, Croatia", Quaternary Science Reviews, 250: pg: 106680, . Cited by:

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• Vacchi, M., Russo Ermolli, E., Morhange, C., Ruello, M. R., Di Donato, V., Di Vito, M. A., Giampaola, D., Carsana, V., Liuzza, V., Cinque, A., Boetto, G., Poveda, P., Boenzi, G., Marriner, N., (2020), "Millennial variability of rates of sea-level rise in the ancient harbour of Naples (Italy, western Mediterranean Sea)", 2019/11/08, Cambridge University Press: pg: 1--15, (DOI: 10.1017/qua.2019.60). Cited by:

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• Spada, G., Melini, D., (2019), "SELEN 4.0-beta.2 (Version 4.0-beta.2)", : (DOI: 10.5281/zenodo.3377404). Cited by:

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• Spada, G., Melini, D., (2019), "SELEN^4 (SELEN version 4.0): a Fortran program for solving the gravitationally and topographically self-consistent sea-level equation in glacial isostatic adjustment modeling", Geoscientific Model Development, 12, 12: pg: 5055--5075, (DOI: 10.5194/gmd-12-5055-2019). Cited by:

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• Melini, D., Spada, G., (2019), "Some remarks on Glacial Isostatic Adjustment modelling uncertainties", Geophysical Journal International, 218, 1: pg: 401--413, (DOI: 10.1093/gji/ggz158). Cited by:

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• Mann, T., Bender, M., Lorscheid, T., Stocchi, P., Vacchi, M., Switzer, A., Rovere, A., (2019), "Relative sea-level data from the SEAMIS database compared to ICE-5G model predictions of glacial isostatic adjustment", Data in Brief, 27: pg: 104600, (DOI: 10.1016/j.dib.2019.104600). Cited by:

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• Karkani, A., Evelpidou, N., Giaime, M., Marriner, N., Morhange, C., Spada, G., (2019), "Late Holocene sea-level evolution of Paros Island (Cyclades, Greece)", Quaternary International, 500: pg: 139--146, (DOI: 10.1016/j.quaint.2019.02.027). Cited by:

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• Grant, G. R., Naish, T. R., Dunbar, G. B., Stocchi, P., Kominz, M. A., Kamp, P. J. J., Tapia, C. A., McKay, R. M., Levy, R. H., Patterson, M. O., (2019), "The amplitude and origin of sea-level variability during the Pliocene epoch", Nature, 574: pg: 237--241, (DOI: 10.1038/s41586-019-1619-z). Cited by:

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• Bechor, B., Theodoulou, T., Spada, G., Dean, S., Sivan, D., (2019), "Medieval relative low sea-level indications from the Peloponnese and the Aegean Sea", Quaternary International, : (DOI: 10.1016/j.quaint.2019.11.026). Cited by:

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• Stocchi, P., Vacchi, M., Lorscheid, T., Boer, B., Simms, A. R., Wal, R. S. W., Vermeersen, B. L. A., Pappalardo, M., Rovere, A., (2018), "MIS 5e relative sea-level changes in the Mediterranean Sea: Contribution of isostatic disequilibrium", Quaternary Science Reviews, 185: pg: 122--134, (DOI: 10.1016/j.quascirev.2018.01.004). Cited by:

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• Husson, L., Bodin, T., Spada, G., Choblet, G., Kreemer, C., (2018), "Bayesian surface reconstruction of geodetic uplift rates: mapping the global fingerprint of Glacial Isostatic Adjustment", Journal of Geodynamics, 122: pg: 25--40, (DOI: 10.1016/j.jog.2018.10.002). Cited by:

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• Antonioli, F., Ferranti, L., Stocchi, P., Deiana, G., Lo Presti, V., Furlani, S., Marino, C., Orru, P., Scicchitano, G., Trainito, E., Anzidei, M., Bonamini, M., Sanso, P., Mastronuzzi, G., (2018), "Morphometry and elevation of the last interglacial tidal notches in tectonically stable coasts of the Mediterranean Sea", Earth-Science Reviews, 185: pg: 600--623, (DOI: 10.1016/j.earscirev.2018.06.017). Cited by:

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• Vilibic, I., Sepic, J., Pasaric, M., Orlic, M., (2017), "The Adriatic Sea: A Long-Standing Laboratory for Sea Level Studies", Pure and Applied Geophysics, 174: pg: 3765--3811, (DOI: 10.1007/s00024-017-1625-8). Cited by:

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• Stocchi, P., Antonioli, F., Montagna, P., Pepe, F., Lo Presti, V., Caruso, A., Corradino, M., Dardanelli, G., Renda, P., Frank, N., Douville, E., Thil, F., Boer, B., Ruggieri, R., Sciortino, R., Pierre, C., (2017), "A stalactite record of four relative sea-level highstands during the Middle Pleistocene Transition", Quaternary Science Reviews, 173: pg: 92--100, (DOI: 10.1016/j.quascirev.2017.08.008). Cited by:

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• Spada, G., Galassi, G., (2017), "Extent and dynamic evolution of the lost land aquaterra since the Last Glacial Maximum", Comptes Rendus Geoscience, 349, 4: pg: 151--158, (DOI: 10.1016/j.crte.2017.06.004). Cited by:

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• Simaiakis, Stylianos M., Rijsdijk, (2017), "Geographic changes in the Aegean Sea since the Last Glacial Maximum: Postulating biogeographic effects of sea-level rise on islands", Palaeogeography, Palaeoclimatology, Palaeoecology, Elsevier, 471: pg: 108--119, (DOI: 10.1016/j.palaeo.2017.02.002). Cited by:

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• Santamara-Gomez, A., Gravelle, M., Dangendorf, S., Marcos, M., Spada, G., Woppelmann, G., (2017), "Uncertainty of the 20th century sea-level rise due to vertical land motion errors", Earth and Planetary Science Letters, 473: pg: 24--32, (DOI: 10.1016/j.epsl.2017.05.038). Cited by:

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• Palombo, M. R., Antonioli, F., Lo Presti, V., Mannino, M. A., Melis, R. T., Orru, P., Stocchi, P., Talamo, S., Quarta, G., Calcagnile, L., Deiana, G., Altamura, S., (2017), "The late Pleistocene to Holocene palaeogeographic evolution of the Porto Conte area: Clues for a better understanding of human colonization of Sardinia and faunal dynamics during the last 30~ka", Quaternary International, 439: pg: 117--140, (DOI: 10.1016/j.quaint.2016.06.014). Cited by:

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• Meyssignac, B., Slangen, A. B. A., Melet, A., Church, J. A., Fettweis, X., Marzeion, B., Agosta, C., Ligtenberg, S. R. M., Spada, G., Richter, K., Palmer, M. D., Roberts, C. D., Champollion, N., (2017), "Evaluating Model Simulations of Twentieth-Century Sea-Level Rise. Part II: Regional Sea-Level Changes", Journal of Climate, : (DOI: 10.1175/JCLI-D-17-0112.1). Cited by:

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• Meyssignac, B., Fettweis, X., Chevrier, R., Spada, G., (2017), "Regional Sea Level Changes for the Twentieth and the Twenty-First Centuries Induced by the Regional Variability in Greenland Ice Sheet Surface Mass Loss", Journal of Climate, 30, 6: pg: 2011--2028, . Cited by:

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• Lorscheid, T., Stocchi, P., Casella, E., Gomez-Pujol, L., Vacchi, M., Mann, T., Rovere, A., (2017), "Paleo sea-level changes and relative sea-level indicators: Precise measurements, indicative meaning and glacial isostatic adjustment perspectives from Mallorca (Western Mediterranean)", Palaeogeography, Palaeoclimatology, Palaeoecology, 473: pg: 94--107, (DOI: 10.1016/j.palaeo.2017.02.028). Cited by:

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• Harff, J., Flemming, N. C., Groh, A., Hunicke, B., Lericolais, G., Meschede, M., Rosentau, A., Sakellariou, D., Uscinowicz, S., Zhang, W., others, (2017), "Sea Level and Climate", Submerged Landscapes of the European Continental Shelf: Quaternary Paleoenvironments, John Wiley & Sons: pg: 11--49, . Cited by:

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• Giaime, M., Morhange, C., Cau Ontiveros, M. \'A, Fornos, J. J., Vacchi, M., Marriner, N., (2017), "In search of Pollentia's southern harbour: Geoarchaeological evidence from the Bay of Alcudia (Mallorca, Spain)", Palaeogeography, Palaeoclimatology, Palaeoecology, 466: pg: 184--201, (DOI: 10.1016/j.palaeo.2016.11.023). Cited by:

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• Galassi, G., Spada, (2017), "Tide gauge observations in Antarctica (1958--2014) and recent ice loss", Antarctic Science, Cambridge University Press, 29, 4: pg: 369--381, (DOI: 10.1017/S0954102016000729). Cited by:

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• Boer, B., Stocchi, P., Whitehouse, P. L., Wal, R. S. W., (2017), "Current state and future perspectives on coupled ice-sheet -- sea-level modelling", Quaternary Science Reviews, 169: pg: 13--28, (DOI: 10.1016/j.quascirev.2017.05.013). Cited by:

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• Chelli, A., Pappalardo, M., Bini, M., Bruckner, H., Neri, G., Neri, M., Spada, G., (2017), "Assessing tectonic subsidence from estimates of Holocene relative sea-level change: An example from the NW Mediterranean (Magra Plain, Italy)", The Holocene, : (DOI: 10.1177/0959683617715688). Cited by:

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• Pfeffer, J., Spada, G., Memin, A., Boy, J-P, Allemand, P., (2017), "Decoding the origins of vertical land motions observed today at coasts", Geophysical Journal International, 210, 1: pg: 148--165, (DOI: 10.1093/gji/ggx142). Cited by:

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• Vacchi, M., Marriner, N., Morhange, C., Spada, G., Fontana, A., Rovere, A., (2016), "Multiproxy assessment of Holocene relative sea-level changes in the western Mediterranean: Sea-level variability and improvements in the definition of the isostatic signal", Earth-Science Reviews, 155: pg: 172--197, (DOI: 10.1016/j.earscirev.2016.02.002). Cited by:

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• Vacchi, M., Ghilardi, M., Spada, G., Curras, A., Robresco, S., (2016), "New insights into the sea-level evolution in Corsica (NW Mediterranean) since the late Neolithic", Journal of Archaeological Science: Reports, 12: pg: 782--793, (DOI: 10.1016/j.jasrep.2016.07.006). Cited by:

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• Spada, G., (2016), "Glacial Isostatic Adjustment and Contemporary Sea Level Rise: An Overview", Surveys in Geophysics, 58: pg: 155--187, (DOI: 10.1007/s10712-016-9379-x). Cited by:

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• Rovere, A., Raymo, M. E., Vacchi, M., Lorscheid, T., Stocchi, P., Gomez-Pujol, L., Harris, D. L., Casella, E., O'Leary, M. J., Hearty, P. J., (2016), "The analysis of Last Interglacial (MIS 5e) relative sea-level indicators: Reconstructing sea-level in a warmer world", Earth-Science Reviews, 159: pg: 404--427, (DOI: 10.1016/j.earscirev.2016.06.006). Cited by:

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• Meyssignac, B., Fettweis, X., Chevrier, R., Spada, G., (2016), "Regional sea level changes for the 20th and the 21st century induced by the regional variability in Greenland ice sheet surface mass loss", American Geophysical Union, : (DOI: 10.1175/JCLI-D-16-0337.1). Cited by:

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• Mann, T., Rovere, A., Schone, T., Klicpera, A., Stocchi, P., Lukman, M., Westphal, H., (2016), "The magnitude of a mid-Holocene sea-level highstand in the Strait of Makassar", Geomorphology, 257: pg: 155--163, (DOI: 10.1016/j.geomorph.2015.12.023). Cited by:

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• Bonaduce, A., Pinardi, N., Oddo, P., Spada, G., Larnicol, G., (2016), "Sea-level variability in the Mediterranean Sea from altimetry and tide gauges", Climate Dynamics, 47, 9-10: pg: 2851--2866, (DOI: 10.1007/s00382-016-3001-2). Cited by:

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• Spada, G., Melini, D., Colleoni, F., (2015), "SELEN v2.9.12 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Ohneiser, C., Florindo, F., Stocchi, P., Roberts, A. P., DeConto, R. M., Pollard, D., (2015), "Antarctic glacio-eustatic contributions to late Miocene Mediterranean desiccation and reflooding", Nature Communications, 6: pg: 8765, (DOI: 10.1038/ncomms9765). Cited by:

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• Mauz, B., Ruggieri, G., Spada, G., (2015), "Terminal Antarctic melting inferred from a far-field coastal site", Quaternary Science Reviews, 116: pg: 122--132, (DOI: 10.1016/j.quascirev.2015.03.008). Cited by:

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• Goslin, J., Van Vliet Lanoe, B., Spada, G., Bradley, S., Tarasov, L., Neill, S., Suanez, S., (2015), "A new Holocene relative sea-level curve for western Brittany (France): Insights on isostatic dynamics along the Atlantic coasts of north-western Europe", Quaternary Science Reviews, 129: pg: 341--365, (DOI: 10.1016/j.quascirev.2015.10.029). Cited by:

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• Evelpidou, N., Pirazzoli, P. A., Spada, G., (2015), "Origin and Holocene Evolution of a Slightly Submerged Tidal Notch in the NE Adriatic", Journal of Coastal Research, 300: pg: 255--264, (DOI: 10.2112/JCOASTRES-D-14-00016.1). Cited by:

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• Spada, Giorgio, Olivieri, Marco, Galassi, Gaia, (2014), "Anomalous secular sea-level acceleration in the Baltic Sea caused by isostatic adjustment", Annals of Geophysics, 57, 4: (DOI: 10.4401/ag-6548). Cited by:

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• Spada, G., Galassi, G., Olivieri, M., (2014), "A study of the longest tide gauge sea-level record in Greenland (Nuuk/Godthab, 1958-2002)", Global and Planetary Change, 118: pg: 42--51, (DOI: 10.1016/j.gloplacha.2014.04.001). Cited by:

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• Rugenstein, M., Stocchi, P., Heydt, A., Dijkstra, H., Brinkhuis, H., (2014), "Emplacement of Antarctic ice sheet mass affects circumpolar ocean flow", Global and Planetary Change, 118: pg: 16--24, (DOI: 10.1016/j.gloplacha.2014.03.011). Cited by:

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• Rashid, R., Eisenhauer, A., Stocchi, P., Liebetrau, V., Fietzke, J., Ruggeberg, A., Dullo, W-C, (2014), "Constraining mid to late Holocene relative sea level change in the southern equatorial Pacific Ocean relative to the Society Islands, French Polynesia", Geochemistry, Geophysics, Geosystems, 15, 6: pg: 2601--2615, (DOI: 10.1002/2014GC005272). Cited by:

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• Nielsen, K., Sorensen, L. S., Khan, S. A., Spada, G., Simonsen, S. B., Forsberg, R., Rizos, C.and Willis, P. (2014), "Earth on the Edge: Science for a Sustainable Planet: Proceedings of the IAG General Assembly, Melbourne, Australia, June 28 -- July 2, 2011", Towards Constraining Glacial Isostatic Adjustment in Greenland Using ICESat and GPS Observations, Springer Berlin Heidelberg, Berlin, Heidelberg: pg: 325--331, 978-3-642-37222-3, (DOI: 10.1007/978-3-642-37222-3_43). Cited by:

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• Nielsen, J. E., Forsberg, R., Strykowski, G., (2014), "Measured and modelled absolute gravity changes in Greenland", Journal of Geodynamics, 73: pg: 53--59, (DOI: 10.1016/j.jog.2013.09.003). Cited by:

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• Nielsen, E., Strykowski, G., Forsberg, R., Madsen, F. B., Rizos, C.and Willis, P. (2014), "Earth on the Edge: Science for a Sustainable Planet: Proceedings of the IAG General Assembly, Melbourne, Australia, June 28 -- July 2, 2011", Estimation of PGR Induced Absolute Gravity Changes at Greenland GNET Stations, Springer Berlin Heidelberg, Berlin, Heidelberg: pg: 97--102, 978-3-642-37222-3, (DOI: 10.1007/978-3-642-37222-3_12). Cited by:

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• Jevrejeva, S., Moore, J. C., Grinsted, A., Matthews, A. P., Spada, G., (2014), "Trends and acceleration in global and regional sea levels since 1807", Global and Planetary Change, 113: pg: 11--22, (DOI: 10.1016/j.gloplacha.2013.12.004). Cited by:

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• Howard, T., Pardaens, A. K., Bamber, J. L., Ridley, J., Spada, G., Hurkmans, R. T. W. L., Lowe, J. A., Vaughan, D., (2014), "Sources of 21st century regional sea-level rise along the coast of northwest Europe", Ocean Science, 10, 3: pg: 473--483, (DOI: 10.5194/os-10-473-2014). Cited by:

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• Galassi, G., Spada, G., (2014), "Sea-level rise in the Mediterranean Sea by 2050: Roles of terrestrial ice melt, steric effects and glacial isostatic adjustment", Global and Planetary Change, 123: pg: 55--66, (DOI: 10.1016/j.gloplacha.2014.10.007). Cited by:

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• Boer, B., Stocchi, P., Wal, R. S. W., (2014), "A fully coupled 3-D ice-sheet-sea-level model: algorithm and applications", Geoscientific Model Development, 7, 5: pg: 2141--2156, (DOI: 10.5194/gmd-7-2141-2014). Cited by:

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• Carbias, aD, Cartajena, I., Simonetti, R., Lopez, P., Morales, C., Ortega, C., Evans, M. A.and Flatman, C. J.and Flemming, C. N. (2014), "Prehistoric Archaeology on the Continental Shelf: A Global Review", Submerged Paleolandscapes: Site GNL Quintero 1 (GNLQ1) and the First Evidences from the Pacific Coast of South America, Springer New York, New York, NY: pg: 131--149, 978-1-4614-9635-9, (DOI: 10.1007/978-1-4614-9635-9_8). Cited by:

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• Spada, G., Melini, D., Colleoni, F., (2013), "SELEN v2.9.11 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Spada, G., Melini, D., Colleoni, F., (2013), "SELEN v2.9.10.4 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Serpelloni, E., Faccenna, C., Spada, G., Dong, D., Williams, S. D. P., (2013), "Vertical GPS ground motion rates in the Euro-Mediterranean region: New evidence of velocity gradients at different spatial scales along the Nubia-Eurasia plate boundary", Journal of Geophysical Research: Solid Earth, 118, 11: pg: 6003--6024, (DOI: 10.1002/2013JB010102). Cited by:

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• Olivieri, M., Spada, G., (2013), "Intermittent sea-level acceleration", Global and Planetary Change, 109: pg: 64--72, (DOI: 10.1016/j.gloplacha.2013.08.004). Cited by:

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• Nielsen, K., Khan, S. A., Spada, G., Wahr, J., Bevis, M., Liu, L., Dam, T., (2013), "Vertical and horizontal surface displacements near Jakobshavn Isbrae driven by melt-induced and dynamic ice loss", Journal of Geophysical Research: Solid Earth, 118, 4: pg: 1837--1844, (DOI: 10.1002/jgrb.50145). Cited by:

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• Howard, T., Pardaens, A. K., Lowe, J. A., Ridley, J., Hurkmans, R. T. W. L., Bamber, J. L., Spada, G., Vaughan, D., (2013), "Sources of 21st century regional sea level rise along the coast of North-West Europe", Ocean Science Discussions, 10, 6: pg: 2433--2459, (DOI: 10.5194/osd-10-2433-2013). Cited by:

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• Woppelmann, G., Marcos, M., (2012), "Coastal sea level rise in southern Europe and the nonclimate contribution of vertical land motion", Journal of Geophysical Research: Oceans, 117, C1: pg: C01007, (DOI: 10.1029/2011JC007469). Cited by:

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• Tuccimei, P., Onac, B. P., Dorale, J. A., Gines, J., Fornos, J. J., Gines, A., Spada, G., Ruggieri, G., Mucedda, M., (2012), "Decoding last interglacial sea-level variations in the western Mediterranean using speleothem encrustations from coastal caves in Mallorca and Sardinia: A field data -- model comparison", Quaternary International, 262: pg: 56--64, (DOI: 10.1016/j.quaint.2011.10.032). Cited by:

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• Toker, E., Sivan, D., Stern, E., Shirman, B., Tsimplis, M., Spada, G., (2012), "Evidence for centennial scale sea level variability during the Medieval Climate Optimum (Crusader Period) in Israel, eastern Mediterranean", Earth and Planetary Science Letters, 315-316: pg: 51--61, (DOI: 10.1016/j.epsl.2011.07.019). Cited by:

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• Spada, G., Ruggieri, G., Sorensen, L. S., Nielsen, K., Melini, D., Colleoni, F., (2012), "Greenland uplift and regional sea level changes from ICESat observations and GIA modelling", Geophysical Journal International, 189, 3: pg: 1457--1474, (DOI: 10.1111/j.1365-246X.2012.05443.x). Cited by:

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• Spada, G., Galassi, G., (2012), "New estimates of secular sea level rise from tide gauge data and GIA modelling", Geophysical Journal International, 191, 3: pg: 1067--1094, (DOI: 10.1111/j.1365-246X.2012.05663.x). Cited by:

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• Richter, A., Groh, A., Dietrich, R., (2012), "Geodetic observation of sea-level change and crustal deformation in the Baltic Sea region", Physics and Chemistry of the Earth, Parts A/B/C, 53-54: pg: 43--53, (DOI: 10.1016/j.pce.2011.04.011). Cited by:

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• Nielsen, K., Khan, S. A., Korsgaard, N. J., Kjaer, K. H., Wahr, J., Bevis, M., Stearns, L. A., Timm, L. H., (2012), "Crustal uplift due to ice mass variability on Upernavik Isstrom, west Greenland", Earth and Planetary Science Letters, 353-354: pg: 182--189, (DOI: 10.1016/j.epsl.2012.08.024). Cited by:

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• Groh, A., Ewert, H., Scheinert, M., Fritsche, M., Rulke, A., Richter, A., Rosenau, R., Dietrich, R., (2012), "An investigation of Glacial Isostatic Adjustment over the Amundsen Sea sector, West Antarctica", Global and Planetary Change, 98-99: pg: 45--53, (DOI: 10.1016/j.gloplacha.2012.08.001). Cited by:

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• Forno, G. D., Gasperini, P., Spada, G., Sneeuw, N.and Novk, P.and Crespi, M.and Sans?ˆ, F. (2012), "VII Hotine-Marussi Symposium on Mathematical Geodesy: Proceedings of the Symposium in Rome, 6-10 June, 2009", Implementation of the Complete Sea Level Equation in a 3D Finite Elements Scheme: A Validation Study, Springer Berlin Heidelberg, Berlin, Heidelberg: pg: 393--397, 978-3-642-22078-4, (DOI: 10.1007/978-3-642-22078-4_59). Cited by:

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• Fenoglio-Marc, L., Rietbroek, R., Grayek, S., Becker, M., Kusche, J., Stanev, E., (2012), "Water mass variation in the Mediterranean and Black Seas", Journal of Geodynamics, 59-60: pg: 168--182, (DOI: 10.1016/j.jog.2012.04.001). Cited by:

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• Ewert, H., Groh, A., Dietrich, R., (2012), "Volume and mass changes of the Greenland ice sheet inferred from ICESat and GRACE", Journal of Geodynamics, 59-60: pg: 111--123, (DOI: 10.1016/j.jog.2011.06.003). Cited by:

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• Evelpidou, N., Pirazzoli, P., Vassilopoulos, A., Spada, G., Ruggieri, G., Tomasin, A., (2012), "Late Holocene Sea Level Reconstructions Based on Observations of Roman Fish Tanks, Tyrrhenian Coast of Italy", Geoarchaeology, 27, 3: pg: 259--277, (DOI: 10.1002/gea.21387). Cited by:

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• Tsimplis, M., Spada, G., Marcos, M., Flemming, N., (2011), "Multi-decadal sea level trends and land movements in the Mediterranean Sea with estimates of factors perturbing tide gauge data and cumulative uncertainties", Global and Planetary Change, 76, 1-2: pg: 63--76, (DOI: 10.1016/j.gloplacha.2010.12.002). Cited by:

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• Sorensen, L. S., Simonsen, S. B., Nielsen, K., Lucas-Picher, P., Spada, G., Adalgeirsdottir, G., Forsberg, R., Hvidberg, C. S., (2011), "Mass balance of the Greenland ice sheet (2003-2008) from ICESat data -- the impact of interpolation, sampling and firn density", The Cryosphere, 5, 1: pg: 173--186, (DOI: 10.5194/tc-5-173-2011). Cited by:

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• Spada, G., Barletta, V. R., Klemann, V., Riva, R. E. M., Martinec, Z., Gasperini, P., Lund, B., Wolf, D., Vermeersen, L. L. A., King, M. A., (2011), "A benchmark study for glacial isostatic adjustment codes: A GIA benchmark study", Geophysical Journal International, 185, 1: pg: 106--132, (DOI: 10.1111/j.1365-246X.2011.04952.x). Cited by:

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• Memin, A., Rogister, Y., Hinderer, J., Omang, O. C., Luck, B., (2011), "Secular gravity variation at Svalbard (Norway) from ground observations and GRACE satellite data: Secular gravity variation at Svalbard", Geophysical Journal International, 184, 3: pg: 1119--1130, (DOI: 10.1111/j.1365-246X.2010.04922.x). Cited by:

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• Florido, E., Auriemma, R., Faivre, S., Radic Rossi, I., Antonioli, F., Furlani, S., Spada, G., (2011), "Istrian and Dalmatian fishtanks as sea-level markers", Quaternary International, 232, 1-2: pg: 105--113, (DOI: 10.1016/j.quaint.2010.09.004). Cited by:

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• Fenoglio-Marc, L., Tel, E., (2010), "Coastal and global sea level change", Journal of Geodynamics, 49, 3-4: pg: 151--160, (DOI: 10.1016/j.jog.2009.12.003). Cited by:

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• Melini, D., Spada, G., Piersanti, A., (2010), "A sea level equation for seismic perturbations", Geophysical Journal International, 180, 1: pg: 88--100, (DOI: 10.1111/j.1365-246X.2009.04412.x). Cited by:

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• Stocchi, P., Spada, G., (2009), "Influence of glacial isostatic adjustment upon current sea level variations in the Mediterranean", Tectonophysics, 474, 1-2: pg: 56--68, (DOI: 10.1016/j.tecto.2009.01.003). Cited by:

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• Stocchi, P., Colleoni, F., Spada, G., (2009), "Bounds on the Time-history and Holocene Mass Budget of Antarctica from Sea-level Records in SE Tunisia", Pure and Applied Geophysics, 166, 8-9: pg: 1319--1341, (DOI: 10.1007/s00024-009-0488-z). Cited by:

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• Spada, G., Stocchi, P., Colleoni, F., (2009), "Glacio-isostatic Adjustment in the Po Plain and in the Northern Adriatic Region", Pure and Applied Geophysics, 166, 8-9: pg: 1303--1318, (DOI: 10.1007/s00024-004-0498-9). Cited by:

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• Kopp, R. E., Simons, F. J., Mitrovica, J. X., Maloof, A. C., Oppenheimer, M., (2009), "Probabilistic assessment of sea level during the last interglacial stage", Nature, 462, 7275: pg: 863--867, (DOI: 10.1038/nature08686). Cited by:

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• Antonioli, F., Ferranti, L., Fontana, A., Amorosi, A., Bondesan, A., Braitenberg, C., Dutton, A., Fontolan, G., Furlani, S., Lambeck, K., Mastronuzzi, G., Monaco, C., Spada, G., Stocchi, P., (2009), "Holocene relative sea-level changes and vertical movements along the Italian and Istrian coastlines", Quaternary International, 206, 1-2: pg: 102--133, (DOI: 10.1016/j.quaint.2008.11.008). Cited by:

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• Spada, G., Stocchi, P., (2007), "SELEN: A Fortran 90 program for solving the sea-level equation", Computers & Geosciences, 33, 4: pg: 538--562, (DOI: 10.1016/j.cageo.2006.08.006). Cited by:

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• Stocchi, P., Spada, G., (2007), "Glacio and hydro-isostasy in the Mediterranean Sea: Clarks zones and role of remote ice sheets", Annals of Geophysics, 50, 6: (DOI: 10.4401/ag-3054). Cited by:

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