1. Earth-prints
  2. Affiliation
  3. INGV
  4. Article published / in press
Please use this identifier to cite or link to this item: http://hdl.handle.net/2122/10999
DC FieldValueLanguage
dc.date.accessioned2018-03-06T08:43:33Zen
dc.date.available2018-03-06T08:43:33Zen
dc.date.issued2017en
dc.identifier.urihttp://hdl.handle.net/2122/10999en
dc.description.abstractInterdisciplinary studies of the last years highlight that the Italian coasts are significantly subject to retreat and to inundation by sea ingression due to natural and anthropic causes. In this study, the effects of future relative sea level have been evaluated for the Volturno River Plain, one of the widest coastal plain in southern Italy. The plain is characterized by high economical and ecological value, for the presence of farm activities, tourist structures and wetland protected zones. The study area is potentially prone to coastal flooding due to its very low topography and because it is affected by a severe subsidence, which emphasize the local effect of sea level rise due to the ongoing climate changes. In accordance with the guidelines of the MEDFLOOD project, the areas prone to inundation in the years 2065 and 2100 have been evaluated by comparing the future topographical information and expected relative sea level scenarios. The local Vertical Ground Displacements have been derived by PS-InSAR processing data whilst the mean values of the scenarios RCP 2.6 and RCP 8.5 provided by the IPCC (2014) have been used as future sea level projections in 2065 and 2100. The PS-InSar data elaboration shows that the area affected by subsidence corresponds to 35% of the Volturno plain and that the annual rate of the phenomenon ranges between 1 and 25 mm/yr. The inundation analysis, based on the classification of the areas in four hazard classes, indicates that in 2065 the zones located below the sea level will increase approximately of 50% respect to the present conditions, while between 2065 and 2100 the increase can be at least of 60% (IPCC, RCP 8.5 scenarios). Considering the socio-economical and ecological exposure, evaluated following the EUROSION project guidelines, the coastal flooding risk maps have been produced. Almost 8.2 km2 and 14.4 km2 of the investigated area has to be considered subject to very high marine inundation risk in 2065 and 2100,respectively.en
dc.language.isoEnglishen
dc.relation.ispartofEstuarine, Coastal and Shelf Scienceen
dc.relation.ispartofseries/198 (2017)en
dc.subjectCoastal inundation risken
dc.subjectCoastal hazarden
dc.subjectCoastal subsidenceen
dc.subjectPS-InSARen
dc.subjectRelative sea level riseen
dc.subjectVolturno coastal plainen
dc.titleCoastal inundation risk assessment due to subsidence and sea level rise in a Mediterranean alluvial plain (Volturno coastal plain – southern Italy)en
dc.typearticleen
dc.description.statusPublisheden
dc.type.QualityControlPeer-revieweden
dc.description.pagenumber597-609en
dc.subject.INGVCoastal inundation risk assessmenten
dc.identifier.doi10.1016/j.ecss.2016.06.017en
dc.relation.referencesAmorosi, A., Pacifico, A., Rossi, V., Ruberti, D., 2012. Late Quaternary incision and deposition in an active volcanic setting: the Volturno valley fill, southern Italy. Sediment. Geol. 242, 307e320. Amorosi, A., Molisso, F., Pacifico, A., Rossi, V., Ruberti, D., Sacchi, M., Vigliotti, M., 2013. The Holocene evolution of the Volturno River coastal plain (southern Italy). J. Mediterr. Earth Sci. 5 (Special Issue 7e1), 7e11. Antonioli, F., Silenzi, S., 2007. Variazioni relative del livello del mare e vulnerabilit a delle pianure costiere italiane. Quaderno della Societ a Geologica Italiana, p. 2. Aucelli, P.P.C., Filocamo, F., Leone, N., Leone, A.P., 2013. I paesaggi del basso Volturno. In: Leone, A., Buondonno, A., Aucelli, P.P.C. (Eds.), Paesaggi e suoli del Basso Volturno per una frutticoltura innovativa. Progetto DEFREM “Sviluppo di Derivati dalla Frutta ad Elevato Grado di Sicurezza d’Uso”, OR1 “Verifica Territoriale”. Baldi, P., Casula, G., Cenni, N., Loddo, F., Pesci, A., 2009. GPS-based monitoring of land subsidence in the Po Plain (Northern Italy). Earth. Planet. S. C. Lett. 288, 204e212. http://dx.doi.org/10.1016/j.epsl.2009.09.023. Balica, S.F., Wright, N.G., van der Meulen, F., 2012. A flood vulnerability index for coastal cities and its use in assessing climate change impacts. Nat. Hazards 64, 73e105. http://dx.doi.org/10.1007/s11069-012-0234-1. Barra, D., Romano, P., Santo, A., Campaiola, L., Roca, V., Tuniz, C., 1996. The Versilian transgression in the Volturno river plain (Campania, Southern Italy): Palaeoenvironmental history and chronological data. Il Quat. 9 (2), 445e458. Benassai, G., Di Paola, G., Aucelli, P.P.C., 2015. Coastal risk assessment of a microtidal littoral plain in response to sea level rise. Ocean. Coast. Manage 104, 22e35. http://dx.doi.org/10.1016/j.ocecoaman.2014.11.015. Benavente, J., Del Rio, L., Gracia, F.J., Reyes, J.L., 2006. Coastal flooding hazard related to storms and coastal evolution in Valdelagrana spit (Cadiz Bay Natural Park SW spain). Cont. Shelf Res. 26, 1061e1076. Bird, E.C.F., 1993. Submerging Coasts: the Effects of a Rising Sea Level on Coastal Environments. Wiley, Chichester. Brambati, A., Carbognin, L., Quaia, T., Teatini, P., Tosi, L., 2003. The Lagoon of Venice: geological setting, evolution and land subsidence. Episodes 26, 264e268. Carbognin, L., Teatini, P., Tomasin, A., Tosi, L., 2010. Global change and relative sea level rise at Venice: what impact in term of flooding. Clim. Dyn. 35 (6), 1039e1047. Cocco, E., Crimaco, L., de Magistris, M.A., 1992. Dinamica ed evoluzione del litorale campano-laziale: variazioni della linea di riva dall’epoca romana ad oggi nel tratto compreso tra la foce del Volturno e Torre S. Atti 10 Congresso AIOL, Limato (Mondragone), pp. 543e555. Colesanti, C., Ferretti, A., Locatelli, R., Novali, F., Savio, G., 2003. Permanent Scatterers: precision assessment and multi-platform analysis. IEEE IGARSS 2, 1193e1195. Colesanti, C., Locatelli, R., Novali, F., 2002. Ground deformation monitoring exploiting SAR permanent scatterers. IEEE IGARSS 2, 1219e1221. Colesanti, C.,Wasowski, J., 2006. Investigating landslides with spaceborne synthetic aperture radar (SAR) interferometry. Eng. Geol. 88, 173e199. Corine Land Cover, 2012. org (accessed 07.10.15). http://land.copernicus.eu/paneuropean/ corine-land-cover. Corine Land Cover, 2001. org (accessed 07.10.15). http://land.copernicus.eu/paneuropean/ corine-land-cover. Deino, A.L., Southon, I., Terrasi, F., Campajola, L., Orsi, G., 1994. 14C and 40Ar/39Ar dating of the campanian Ignimbrite. Phlegrean Fields, Italy. Abstract, ICOG-8. Berkeley. CA 3, 633. De Vivo, B., Rolandi, G., Gan, P.B., Calvert, A., Bohrson, W.A., Spera, F.J., Belkin, H.E., 2001. New constraints on the pyroclastic eruptive history of the Campanian volcanic Plain (Italy). Mineralogy Petrology 73, 47e65. EUROSION, 2004. Living with Coastal Erosion in Europe: Sediment and Space for Sustainability. www.eurosion.org. Ferretti, A., Prati, C., Rocca, F., 2001. Permanent scatters in SAR interferometry IEEE T. Geosci. Remote 39, 8e20. Ferretti, A., Savio, G., Barzaghi, R., Borghi, A., Musazzi, S., Novali, F., Prati, C., Rocca, F., 2007. Sub-millimeter accuracy of InSAR time series: experimental validation. IEEE Trans. Geoscience Remote Sens. 45 (5), 1142e1153. Franke, R., 1982. Scattered data interpolation: test of some methods. Math. Comput. 33, 181e200. Frihy, O.E.S., Deabes, E.A., Shereet, S.M., Abdalla, F.A., 2010. Alexandria-Nile Delta coast, Egypt: update and future projection of relative sea-level rise. Environ. Earth Sci. 61 (2), 253e273. Grinsted, A., Moore, J.C., Jevrejeva, S., 2010. Reconstructing sea level from paleo and projected temperatures 200 to 2100 AD. Clim. Dynam 34, 461e472. Haber, J., Zeilfelder, F., Davydov, O., Seidel, H.P., 2001. Smooth approximation and rendering of large scattered data sets. In: Proceedings of the Conference on Visualization. IEEE Computer Society, pp. 341e348. Hansen, J.E., Sato, M., 2012. Paleoclimate implications for human-made climate change. In: Berger, A., Mesinger, F., _Sija_cki, D. (Eds.), Climate Change: Inferences from Paleoclimate and Regional Aspects. Springer, pp. 21e48. http:// dx.doi.org/10.1007/978-3-7091-0973-1_2. Hanseen, R.F., 2001. Radar Interferometry, Data Interpretation and Error Analysis.: Kluwer Academic Publishers 1e308. Italian Statistical Society, Sapienza, Universit a di Roma, pp. 1e4. Houghton, L.G., Meira Filho, L.G., Callander, B.A. (Eds.), 1996. Climate Change 1995: the Science of Climate Change. Cambridge University Press, Cambridge. IPCC, 2014. Fifth Assessment Report (AR5). Climate Change 2014: Mitigation of Climate Change. Intergovernmental Panel on Climate Change. IPCC, 2007. Fourth Assessment Report (AR4). Climate Change 2007. Intergovernmental Panel on Climate Change. ISO/EC, 2009. ISO Guide 73-Risk Management e Vocabulary (accessed 07.10.15). http://www.iso.org. ISPRA, 2015. Data Analysis (accessed 07.10.15). http://www.idromare.it/analisi_dati. php. ISTAT, 2011. Basi territoriali e variabili censuarie: censimento 2011. Campania (accessed 07.10.15). http://www.istat.it/it/files/2013/11/R15_11_WGS84.zip. Karim, M.F., Mimura, N., 2008. Impacts of climate change and sea level rise on cyclonic storm surge floods in Bangladesh. Gloab. Environ. Change 18, 490e500. Klein, M., Lichter, M., 2009. Statistical analysis of recent Mediterranean Sea-level data. Geomorphology 107, 3e9. Lambeck, K., Antonioli, F., Anzidei, M., Ferranti, L., Leoni, G., Scicchitano, G., Silenzi, S., 2011. Sea level change along the Italian coast during the Holocene and projections for the future. Quatern. Int. 232, 250e257. Lambeck, K., Purcell, A., Zhao, J., Svennson, N.-O., 2010. The scandinavian ice sheet: from MIS 4 to the end of the last glacial maximum. Boreas 39 (2), 410e435. Lanari, R., Casu, F., Manzo, M.R., Lundgren, P., 2007. Application of the SBAS-DInSAR technique to fault creep: a case study of the Hayward fault, California. Remote Sens. Environ. 109 (1, 12), 20e28. Lundgren, P., Casu, F., Manzo, M., Pepe, A., Berardino, P., Sansosti, E., Lanari, R., 2004. Gravity and magma induced spreading of Mount Etna volcano revealed by satellite radar interferometry. Geophys. Res. Lett. 31, L04602. Manzo, M., Ricciardi, G.P., Casu, F., Ventura, G., Zeni, G., Borgstr€om, S., Berardino, P., Del Gaudio, C., Lanari, R., 2006. Surface deformation analysis in the Ischia island (Italy) based on spaceborne radar interferometry. J. Volcanol. Geotherm. Res. 151, 399e416. Martinelli, L., Zanuttigh, B., Corbau, C., 2010. Assessment of coastal flooding hazard along the Emilia Romagna littoral. Coast. Eng. 57, 1042e1058. http://dx.doi.org/ 10.1016/j.coastaleng.2010.06.007. Mazria, E., Kershner, K., 2007. Nation under Siege: Sea Level Rise at Our Doorstep. The 2030 Research Center, 2030, Inc./Architecture 2030 (Accessed 5 May 2014). http://www.architecture2030.org/pdfs/nation_under_siege.pdf. McGranaham, G., Bolk, D., Anderson, D., 2007. The rising tide: assessing the risk of climate change and human settlements in low elevation coastal zones. Environ. Urban 19, 17e37. http://dx.doi.org/10.1177/0956247807076960. Mendoza, E.T., Jimenez, J.A., 2009. Regional geomorphic vulnerability analysis to storms for Catalan beaches, P. I. Civ. Eng-Mar. En. 162, 127e135. Milliman, J.D., Broadus, J.M., Gable, F., 1989. Environmental and economic implications of rising sea level and subsiding deltas: the nile and Bengal examples. Ambio 18 (6), 340e345. Milliman, J.D., Haq, B.U., 1996. Sea Level Rise and Coastal Subsidence: Causes, Consequences, and Strategies. Kluwer Academic Publishers, Dordrech. Mueller, T.G., Pusuluri, N.B., Mathias, K.K., Cornelius, P.L., Barnhisel, R.I., Shearer, S.A., 2004. Map quality for ordinary kriging and inverse distance weighted interpolation. Soil Sci. Soc. Am. J. 68, 2042e2047. Nicholls, R.J., Hoozemans, F.M.J., Marchand, M., 1999. Increasing flood risk and wetland losses due to global sea-level rise: regional and global analyses. Glob. Environ. Change 9, 69e87. Nicholls, R.J., Wong, P.P., Burkett, V., Woodroffe, C.D., Hay, J., 2008. Climate change and coastal vulnerability assessment: scenarios for integrated assessment. Sustain. Sci. 3, 89e102. Overpeck, J.T., Otto-Bliesner, B.L., Miller, G.H., Muhs, D.R., Alley, R.B., Kiehl, J.T., 2006. Paleoclimatic evidence for future ice-sheet instability and rapid sea-level rise. Science 311, 1747e1750. Pappone, G., Aucelli, P.P.C., Alberico, I., Amato, V., Antonioli, F., Cesarano, M., Di Paola, G., Pelosi, N., 2012. Relative sea-level rise and marine erosion and inundation in the Sele River coastal plain (Southern Italy): scenarios for the next century. Rend. Lincei 23, 121e129. Pappone, G., Alberico, I., Amato, V., Aucelli, P.P.C., Di Paola, G., 2011. Recent evolution and the present-day conditions of the Campanian Coastal plains (South Italy): the case history of the Sele River Coastal plain. WIT Trans. Ecol. Environ. 149, 15e27. http://dx.doi.org/10.2495/CP110021. Pfeffer, W., Harper, J., O’Neel, S., 2008. Kinematic constraints on glacier contributions to 21st-century sea- level rise. Science 321, 1340e1343. http://dx.doi.org/ 10.1126/science.1159099. Poulter, B., Halpin, P.N., 2007. Raster modelling of coastal flooding from sea-level rise. Int. J. Geogr. Inf. Sci. 22, 167e182. Rahmstorf, S., 2007. A semi-empirical approach to projecting future sea-level rise. Science 315, 368e370. Raji, O., Del Rio, L., Gracia, F.J., Benavente, J., 2011. The use of LIDAR data for mapping coastal flooding hazard related to storms in Cadiz Bay (SW Spain). J. Coast. Res. SI 64, 1881e1885. Romano, P., Santo, A., Voltaggio, M., 1994. L’evoluzione morfologica della pianura del fiume Volturno (Campania) durante il tardo Quaternario. Il Quat. 7 (1), 41e56. Rovere, A., Furlani, S., Benjamin, J., Fontana, A., Antonioli, F., 2012. MEDFLOOD project: MEDiterranean sea-level change and projection for future FLOODing. Alp. Mediterr. Quat. 25 (2), 3e6. Rowley, R.J., Kostelnick, J.C., Braaten, D., Li, X., Meisel, J., 2007. Risk of rising sea level to population and land area. EOS, Trans. Am. Geophys Union 88, 105e107. Sacchi, M., Molisso, F., Pacifico, A., Vigliotti, M., Sabbarese, C., Ruberti, D., 2014. Late- Holocene to recent evolution of Lake Patria, South Italy: an example of a coastal lagoon within a Mediterranean delta system. Glob. Planet. Change 117, 9e27. Santangelo, N., Ciampo, G., Di Donato, V., Esposito, P., Petrosino, P., Romano, P., Russo Ermolli, E., Santo, A., Toscano, F., Villa, I., 2010. Late Quaternary buried lagoons in the northern Campania plain (southern Italy): evolution of a coastal system under the influence of volcanotectonics and eustatism. Boll. Soc. Geol. It. 129 (1), 156e175. Scorpio, V., Aucelli, P.P., Giano, S.I., Pisano, L., Robustelli, G., Rosskopf, C.M., Schiattarella, M., 2015. River channel adjustments in Southern Italy over the past 150years and implications for channel recovery. Geomorphology 251, 77e90. Scorpio, V., Loy, A., Di Febbraro, M., Rizzo, A., Aucelli, P., 2016. Hydromorphology meets mammal ecology: river morphological quality, recent channel adjustments and otter resilience. River Res. Appl. 32 (3), 267e279. Snoussi, M., Ouchani, T., Niazi, S., 2008. Vulnerability assessment of the impact of sea-level rise and flooding on the Moroccan coast: the case of the Mediterranean eastern zone. Estuar. Coast. Shelf Sci. 77, 206e213. Strauss, B.H., Kulpa, S., Levermannb, A., 2015. Carbon choices determine US cities committed to futures below sea level. PNAS 112 (44), 13508e13513. Teatini, P., Tosi, L., Strozzi, T., Carbognin, L., Cecconi, G., Rosselli, R., Libardo, S., 2012. Resolving land subsidence within the Venice Lagoon by persistent scatterer SAR interferometry. Phys. Chem. Earth 40e41, 72e79. Terranova, C., Iuliano, S., Matano, F., Nard o, S., Piscitelli, E., Cascone, E., D’Argenio, F., Gelli, L., Alfinito, M., Luongo, G., 2009. The TELLUS Project: a satellite-based slow-moving landslides monitoring system in the urban areas of Campania Region. Rend. online Soc. Geol. Ital. 8, 148e151. Terranova, C., Ventura, G., Vilardo, G., 2015. Multiple causes of ground deformation in the Napoli metropolitan area (Italy) from integrated Persistent Scatterers DinSAR, geological, hydrological, and urban infrastructure data. Earth Sci. Rev. 146, 105e119. The World Wide Bank, 2013 (accessed 07.10.15). http://www.worldbank.org/en/en
dc.description.obiettivoSpecifico7A. Geofisica per il monitoraggio ambientale e geologia medicaen
dc.description.journalTypeJCR Journalen
dc.contributor.authorAucelli, Pietro Patrizio Ciroen
dc.contributor.authorDi Paola, Gianluigien
dc.contributor.authorIncontri, Pietroen
dc.contributor.authorRizzo, Angelaen
dc.contributor.authorVilardo, Giuseppeen
dc.contributor.authorBenassai, Guidoen
dc.contributor.authorBuonocore, Berardinoen
dc.contributor.authorPappone, Gerardoen
dc.contributor.departmentDepartment of Science and Technology, University of Naples “Parthenope”, Naples, Italyen
dc.contributor.departmentDepartment of Biosciences and Territory, University of Molise, Pesche, IS, Italyen
dc.contributor.departmentDepartment of Science and Technology, University of Naples “Parthenope”, Naples, Italyen
dc.contributor.departmentDepartment of Science and Technology, University of Naples “Parthenope”, Naples, Italyen
dc.contributor.departmentIstituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OV, Napoli, Italiaen
dc.contributor.departmentDepartment of Engineering, University of Naples “Parthenope”, Naples, Italyen
dc.contributor.departmentDepartment of Science and Technology, University of Naples “Parthenope”, Naples, Italyen
dc.contributor.departmentDepartment of Science and Technology, University of Naples “Parthenope”, Naples, Italyen
item.openairetypearticle-
item.cerifentitytypePublications-
item.languageiso639-1en-
item.grantfulltextrestricted-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
item.fulltextWith Fulltext-
crisitem.author.deptDepartment of Science and Technology, University of Naples “Parthenope”, Naples, Italy-
crisitem.author.deptDepartment of Science and Technology, University of Naples “Parthenope”, Naples, Italy-
crisitem.author.deptIstituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OV, Napoli, Italia-
crisitem.author.deptDepartment of Engineering, University of Naples “Parthenope”, Naples, Italy-
crisitem.author.deptDepartment of Science and Technology, University of Naples “Parthenope”, Naples, Italy-
crisitem.author.orcid0000-0001-7240-4467-
crisitem.author.orcid0000-0002-0548-0301-
crisitem.author.parentorgIstituto Nazionale di Geofisica e Vulcanologia-
crisitem.department.parentorgIstituto Nazionale di Geofisica e Vulcanologia-
Appears in Collections:Article published / in press
Files in This Item:
File Description SizeFormat Existing users please Login
2017_Aucielli_Coastal inundation risk assessment in the Volturno coastal plain.pdf4.12 MBAdobe PDF
Show simple item record

WEB OF SCIENCETM
Citations 50

40
checked on Feb 10, 2021

Page view(s)

204
checked on Apr 17, 2024

Download(s)

12
checked on Apr 17, 2024

Google ScholarTM

Check

Altmetric