Articles | Volume 15, issue 3
https://doi.org/10.5194/essd-15-1133-2023
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
https://doi.org/10.5194/essd-15-1133-2023
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
Data description paper
| 
16 Mar 2023
Data description paper |
| 16 Mar 2023
| 16 Mar 2023
A geodatabase of historical landslide events occurring in the highly urbanized volcanic area of Campi Flegrei, Italy
Giuseppe Esposito
CORRESPONDING AUTHOR
Research Institute for Geo-hydrological
Protection, National Research Council (CNR-IRPI), Perugia, 06128, Italy
Fabio Matano
Research Institute of Marine Sciences, National Research Council (CNR-ISMAR), Naples, 80133, Italy
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Along the coastline of the Phlegraean Fields, Naples, Italy, severe retreat processes affect the tuff coastal cliffs, causing hazardous slope failures. An integrated monitoring system coupled with a weather station has been active since 2014. The measurements allowed us to assess the magnitude and temporal pattern of rock block deformations before failure and their correlation with meteorological parameters. A close correlation between temperature and deformation trends has been recognized.
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Arctic soils store large amounts of carbon and nutrients. The availability of nutrients, such as silicon, calcium, iron, aluminum, phosphorus, and amorphous silica, is crucial to understand future carbon fluxes in the Arctic. Here, we provide, for the first time, a unique dataset of the availability of the abovementioned nutrients for the different soil layers, including the currently frozen permafrost layer. We relate these data to several geographical and geological parameters.
Francesca Ardizzone, Francesco Bucci, Mauro Cardinali, Federica Fiorucci, Luca Pisano, Michele Santangelo, and Veronica Zumpano
Earth Syst. Sci. Data, 15, 753–767, https://doi.org/10.5194/essd-15-753-2023, https://doi.org/10.5194/essd-15-753-2023, 2023
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This paper presents a new geomorphological landslide inventory map for the Daunia Apennines, southern Italy. It was produced through the interpretation of two sets of stereoscopic aerial photographs, taken in 1954/55 and 2003, and targeted field checks. The inventory contains 17 437 landslides classified according to relative age, type of movement, and estimated depth. The dataset consists of a digital archive publicly available at https://doi.org/10.1594/PANGAEA.942427.
Zhaohui Pan, Zhibin Niu, Zumin Xian, and Min Zhu
Earth Syst. Sci. Data, 15, 41–51, https://doi.org/10.5194/essd-15-41-2023, https://doi.org/10.5194/essd-15-41-2023, 2023
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Antiarch placoderms, the most basal jawed vertebrates, have the potential to enlighten the origin of the last common ancestor of jawed vertebrates during the Paleozoic. This dataset, which was extracted manually from 142 published papers or books from 1939 to 2021, consists of 60 genera of 6025 specimens from the Ludfordian to the Famennian, covering all antiarch lineages. We transferred the unstructured data from the literature to structured data for further detailed research.
Zhiheng Du, Jiao Yang, Lei Wang, Ninglian Wang, Anders Svensson, Zhen Zhang, Xiangyu Ma, Yaping Liu, Shimeng Wang, Jianzhong Xu, and Cunde Xiao
Earth Syst. Sci. Data, 14, 5349–5365, https://doi.org/10.5194/essd-14-5349-2022, https://doi.org/10.5194/essd-14-5349-2022, 2022
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A dataset of the radiogenic strontium and neodymium isotopic compositions from the three poles (the third pole, the Arctic, and Antarctica) were integrated to obtain new findings. The dataset enables us to map the standardized locations in the three poles, while the use of sorting criteria related to the sample type permits us to trace the dust sources and sinks. The purpose of this dataset is to try to determine the variable transport pathways of dust at three poles.
Yutian Ke, Damien Calmels, Julien Bouchez, and Cécile Quantin
Earth Syst. Sci. Data, 14, 4743–4755, https://doi.org/10.5194/essd-14-4743-2022, https://doi.org/10.5194/essd-14-4743-2022, 2022
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In this paper, we introduce the largest and most comprehensive database for riverine particulate organic carbon carried by suspended particulate matter in Earth's fluvial systems: 3546 data entries for suspended particulate matter with detailed geochemical parameters are included, and special attention goes to the elemental and isotopic carbon compositions to better understand riverine particulate organic carbon and its role in the carbon cycle from regional to global scales.
Egor Zelenin, Dmitry Bachmanov, Sofya Garipova, Vladimir Trifonov, and Andrey Kozhurin
Earth Syst. Sci. Data, 14, 4489–4503, https://doi.org/10.5194/essd-14-4489-2022, https://doi.org/10.5194/essd-14-4489-2022, 2022
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Active faults are faults in the Earth's crust that could experience a possible future slip. A slip at the fault would cause an earthquake; thus, this draws particular attention to active faults in tectonic studies and seismic hazard assessment. We present the Active Faults of Eurasia Database (AFEAD): a high-detail continental-scale geodatabase comprising ~48 000 faults. The location, name, slip characteristics, and a reference to source publications are provided for database entries.
Patrice de Caritat, Anthony Dosseto, and Florian Dux
Earth Syst. Sci. Data, 14, 4271–4286, https://doi.org/10.5194/essd-14-4271-2022, https://doi.org/10.5194/essd-14-4271-2022, 2022
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Strontium isotopes are useful in geological, environmental, archaeological, and forensic research to constrain or identify the source of materials such as minerals, artefacts, or foodstuffs. A new dataset, contributing significant new data and knowledge to Australia’s strontium isotope coverage, is presented from an area of over 500 000 km2 of inland southeastern Australia. Various source areas for the sediments are recognized, and both fluvial and aeolian transport processes identified.
Francesco Bucci, Michele Santangelo, Lorenzo Fongo, Massimiliano Alvioli, Mauro Cardinali, Laura Melelli, and Ivan Marchesini
Earth Syst. Sci. Data, 14, 4129–4151, https://doi.org/10.5194/essd-14-4129-2022, https://doi.org/10.5194/essd-14-4129-2022, 2022
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The paper describes a new lithological map of Italy at a scale of 1 : 100 000 obtained from classification of a digital database following compositional and geomechanical criteria. The map represents the national distribution of the lithological classes at high resolution. The outcomes of this study can be relevant for a wide range of applications, including statistical and physically based modelling of slope stability assessment and other geoenvironmental studies.
Zhuoxuan Xia, Lingcao Huang, Chengyan Fan, Shichao Jia, Zhanjun Lin, Lin Liu, Jing Luo, Fujun Niu, and Tingjun Zhang
Earth Syst. Sci. Data, 14, 3875–3887, https://doi.org/10.5194/essd-14-3875-2022, https://doi.org/10.5194/essd-14-3875-2022, 2022
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Retrogressive thaw slumps are slope failures resulting from abrupt permafrost thaw, and are widely distributed along the Qinghai–Tibet Engineering Corridor. The potential damage to infrastructure and carbon emission of thaw slumps motivated us to obtain an inventory of thaw slumps. We used a semi-automatic method to map 875 thaw slumps, filling the knowledge gap of thaw slump locations and providing key benchmarks for analysing the distribution features and quantifying spatio-temporal changes.
Alexandru T. Codilean, Henry Munack, Wanchese M. Saktura, Tim J. Cohen, Zenobia Jacobs, Sean Ulm, Paul P. Hesse, Jakob Heyman, Katharina J. Peters, Alan N. Williams, Rosaria B. K. Saktura, Xue Rui, Kai Chishiro-Dennelly, and Adhish Panta
Earth Syst. Sci. Data, 14, 3695–3713, https://doi.org/10.5194/essd-14-3695-2022, https://doi.org/10.5194/essd-14-3695-2022, 2022
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OCTOPUS v.2 is a web-enabled database that allows users to visualise, query, and download cosmogenic radionuclide, luminescence, and radiocarbon ages and denudation rates associated with erosional landscapes, Quaternary depositional landforms, and archaeological records, along with ancillary geospatial data layers. OCTOPUS v.2 hosts five major data collections. Supporting data are comprehensive and include bibliographic, contextual, and sample-preparation- and measurement-related information.
Gregor Luetzenburg, Kristian Svennevig, Anders A. Bjørk, Marie Keiding, and Aart Kroon
Earth Syst. Sci. Data, 14, 3157–3165, https://doi.org/10.5194/essd-14-3157-2022, https://doi.org/10.5194/essd-14-3157-2022, 2022
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We produced the first landslide inventory for Denmark. Over 3200 landslides were mapped using a high-resolution elevation model and orthophotos. We implemented an independent validation into our mapping and found an overall level of completeness of 87 %. The national inventory represents a range of landslide sizes covering all regions that were covered by glacial ice during the last glacial period. This inventory will be used for investigating landslide causes and for natural hazard mitigation.
Cited articles
Ablay, G. and Hürlimann, M.: Evolution of the north flank of Tenerife by
recurrent giant landslides, J. Volcanol. Geoth. Res.,
103, 135–159, 2000.
Albano, M., Saroli, M., Montuori, A., Bignami, C., Tolomei, C., Polcari, M.,
Pezzo, G., Moro, M., Atzori, S., Stramondo, S., and Salvi, S.: The
Relationship between InSAR Coseismic Deformation and Earthquake-Induced
Landslides Associated with the 2017 Mw 3.9 Ischia (Italy) Earthquake,
Geosciences, 8, 0303, https://doi.org/10.3390/geosciences8080303, 2018.
Ardizzone, F., Bucci, F., Cardinali, M., Fiorucci, F., Pisano, L., Santangelo, M., and Zumpano, V.: Geomorphological landslide inventory map of the Daunia Apennines, southern Italy, Earth Syst. Sci. Data, 15, 753–767, https://doi.org/10.5194/essd-15-753-2023, 2023.
Beneduce, P., D'Elia, G., and Guida, M.: Morfodinamica dei versanti
dell'area flegrea (Campania): erosione in massa ed erosione lineare, Memorie
della Società Geologica Italiana, 41, 949–961, 1988.
Bíl, M., Raška, P., Dolák, L., and Kubeček, J.: CHILDA – Czech Historical Landslide Database, Nat. Hazards Earth Syst. Sci., 21, 2581–2596, https://doi.org/10.5194/nhess-21-2581-2021, 2021.
Caccavale, M., Matano, F., and Sacchi, M.: An integrated approach to
earthquake-induced landslide hazard zoning based on probabilistic seismic
scenario for Phlegrean Islands (Ischia, Procida and Vivara), Italy,
Geomorphology, 295, 235–259, 2017.
Calcaterra, D. and de Luca Tupputi Schinosa, F.: The February 28, 1868 Mt.
Echia rockfall in the framework of the historical and present-day landslide
activity at Naples, Italy, Geophys. Res. Abstr., 8, 04708, 2006.
Calcaterra, D., de Riso, R., Nave, A., and Sgambati, D.: The role of
historical information in landslide hazard assessment of urban areas: the
case of Naples (Italy), Proc. 1st European Conference on Landslides,
129–135, Swets & Zeitlinger, Lisse, the Netherlands, ISBN 905809393X,
2002.
Calcaterra, D., Del Prete, S., and Mele, R.: L'influenza dei fenomeni
franosi sugli insediamenti costieri del Distretto Flegreo, Proc. CITTAM
2003, 26–28 June 2003, Napoli, Arte Tipografica Editrice, Napoli, Italy,
524–534, 2003a.
Calcaterra, D., de Riso, R., Evangelista, A., Nicotera, M. V., Santo, A., and
Scotto Di Santolo, A.: Slope instabilities in the pyroclastic deposits of
the Phlegraean district and the carbonate Apennine (Campania, Italy),
International Workshop on Occurrence and Mechanisms of Flows in Natural
Slopes and Earthfills, Iw-Flows 2003, Sorrento, 14–16 May, 1–9, 2003b.
Calcaterra, D., Coppin, D., de Vita, S., Di Vito, M. A., Orsi, G., Palma,
B., and Parise, M.: Slope processes in weathered volcaniclastic deposits
within the city of Naples: the Camaldoli Hill case, Geomorphology, 87,
132–157, 2007.
Calcaterra, D., de Luca Tupputi Schinosa, F., Evangelista, A., Ruopolo, S.,
and Scotto di Santolo, A.: Modeling of rainfall induced surficial
slide-flows in the pyroclastic deposits of the Astroni crater (Phlegrean
Fields), in: Proc. 1st Italian Workshop on Landslides “Rainfall-induced
landslides: mechanisms, monitoring techniques and nowcasting models for
early warning systems”, 8–10 June 2009, Naples, Italy, 2, 9–19, 2010.
Capra, L., Poblete, M. A., and Alvarado, R.: The 1997 and 2001 lahars of
Popocatépetl volcano (Central Mexico): textural and sedimentological
constraints on their origin and hazards, J. Volcanol. Geoth. Res., 131, 351–369, 2004.
Caputo, T., Marino, E., Matano, F., Somma, R., Troise, C., and De Natale,
G.: Terrestrial Laser Scanning (TLS) data for the analysis of coastal tuff
cliff retreat: application to Coroglio cliff, Naples, Italy, Ann. Geophys.,
61, SE110, https://doi.org/10.4401/ag-7494, 2018.
Carrara, A., Cardinali, M., Guzzetti, F., and Reichenbach, P.: GIS
technology in mapping landslide hazard, in:
Geographical information systems in assessing natural hazards, edited by: Carrara, A. and Guzzetti, F., Kluwer,
Dordrecht, the Netherlands, 135–175, 1995.
Casalbore, D., Passeri, F., Tommasi, P., Verrucci, L., Bosman, A.,
Romagnoli, C., and Chiocci, F. L.: Small-scale slope instability on the
submarine flanks of insular volcanoes: the case-study of the Sciara del
Fuoco slope (Stromboli), Int. J. Earth Sci., 109,
2643–2658, 2020.
Cascini, L., Ferlisi, S., and Vitolo, E.: Individual and societal risk owing
to landslides in the Campania region (southern Italy), Georisk, 2,
125–140, 2008.
Chiocci, F. L., Romagnoli, C., Tommasi, P., and Bosman, A.: The Stromboli
2002 tsunamigenic submarine slide: Characteristics and possible failure
mechanisms, J. Geophys. Res.-Sol. Ea., 113,
B10102, https://doi.org/10.1029/2007JB005172, 2008.
Coombs, M. L., White, S. M., and Scholl, D. W.: Massive edifice failure at
Aleutian arc volcanoes, Earth Planet. Sc. Let., 256, 403–418,
2007.
Cruden, D. M. and Varnes, D. J.: Landslides types and processes, in: Landslides: Investigation and mitigation, edited by:
Turner, A. K. and Schuster, R. L., Transportation Research Board Representative 247, National Research Council, Washington,
D.C., 36–75, 1996.
De Astis, G., Pappalardo, L., and Piochi, M.: Procida volcanic history: New
insights into the evolution of the Phlegraean Volcanic District (Campania
region, Italy), B. Volcanol., 66, 622–641, 2004.
Deino, A. L., Orsi, G., de Vita, S., and Piochi, M.: The age of the
Neapolitan Yellow Tuff caldera-forming eruption (Campi Flegrei
caldera-Italy) assessed by 40Ar/39Ar dating method, J. Volcanol. Geoth. Res., 133, 157–170, 2004.
Del Prete, S. and Mele, R.: L'influenza dei fenomeni di instabilità di
versante nel quadro morfoevolutivo della costa dell'isola d'Ischia,
Bollettino Società Geologica Italiana, 118, 339–360, 1999.
Del Prete, S. and Mele, R.: Il contributo delle informazioni storiche per la
valutazione della propensione al dissesto nell'Isola d'Ischia (Campania),
Rendiconti Società Geologica Italiana, 2, 29–47, 2006.
De Natale, G., Troise, C., Pingue, F., Mastrolorenzo, G., Pappalardo, L.,
Battaglia, M., and Boschi, E.: The Campi Flegrei caldera: Unrest mechanisms
and hazards, Geological Society, London, Special Publications, 269, 25–45,
2006.
De Vita, S., Sansivero, F., Orsi, G., and Marotta, E.: Cyclical slope
instability and volcanism related to volcano-tectonism in resurgent
calderas: the Ischia island (Italy) case study, Eng. Geol., 86,
148–165, 2006.
De Vita, P., Di Clemente, E., Rolandi, M., and Celico, P.: Engineering
geological models of the initial landslides occurred on the April 30th,
2006, at the Mount Di Vezzi (Ischia Island, Italy), Italian Journal of
Engineering Geology and Environment, 2, 119–141, 2007.
Devoli, G., Strauch, W., Chávez, G., and Høeg, K.: A landslide
database for Nicaragua: a tool for landslide-hazard management, Landslides,
4, 163–76, https://doi.org/10.1007/s10346-006-0074-8, 2007.
Di Martire, D., De Rosa, M., Pesce, V., Santangelo, M. A., and Calcaterra, D.: Landslide hazard and land management in high-density urban areas of Campania region, Italy, Nat. Hazards Earth Syst. Sci., 12, 905–926, https://doi.org/10.5194/nhess-12-905-2012, 2012.
Di Nocera, S., Matano, F., Rolandi, G., and Rolandi, R.: Contributo sugli
aspetti geologici e vulcanologici di monte di Vezzi (isola d'Ischia) per lo
studio degli eventi franosi dell'aprile 2006, Italian Journal of Engineering
Geology and Environment, 2, 27–52, 2007.
Di Traglia, F., Roverato, M., Bonforte, A., and Gross, F.: Editorial: Flank
dynamics, sector collapses, lahars, and rockfalls: analysis, monitoring, and
modelling of small to large scale volcanic slope instability, Int.
J. Earth Sci., 109, 2615–2618, 2020.
Di Vito, M. A., Isaia, R., Orsi, G., Southon, J., de Vita, S., D'Antonio, M.,
Pappalardo, L., and Piochi, M.: Volcanism and deformation since 12,000 years
at the Campi Flegrei caldera (Italy), J. Volcanol. Geoth. Res., 91, 221–246, 1999.
Ducci, D. and Napolitano, P.: Le condizioni di stabilità delle coste
dell'Isola di Procida (golfo di Napoli), Atti 1∘ Conv. Naz.
Giovani Ric. in Geol. Appl., Ric. Scient. ed eucaz. perman., suppl. 93,
97–106, Milano, 1991.
Ducci, D. and Napolitano, P.: Franosità e caratterizzazione geomeccanica
delle facies litoidi delle Formazioni di Solchiaro e Terra Murata (Procida),
Geologica Romana, 30, 97–104, 1994.
Ducci, D. and Tranfaglia, G.: L'impatto dei cambiamenti climatici sulle
risorse idriche sotterranee in Campania, Geologi, 1–4, 13–21, 2005.
Dufresne, A., Siebert, L., and Bernard, B.: Distribution and Geometric
Parameters of Volcanic Debris Avalanche Deposits, in: Volcanic Debris Avalanches. Advances in
Volcanology, edited by: Roverato, M.,
Dufresne, A., and Procter, J., Springer, Cham,
https://doi.org/10.1007/978-3-030-57411-6_4, 2021.
Elliott, A. and Kirschbaum, M.: The preliminary landslide history database
of Utah, 1850–1978, Utah Geological Survey, 514, 5, 2007.
Esposito, G. and Matano, F.: CAmpi Flegrei LAndslide Geodatabase (CAFLAG). 4TU.ResearchData [data set], https://doi.org/10.4121/14440757.v2, 2021.
Esposito, G., Fortelli, A., Grimaldi, G.M., Matano, F., and Sacchi, M.: I
fenomeni di flash flood nell'area costiera di Pozzuoli (Napoli, Italia):
risultati preliminari sull'analisi dell'evento del 6 novembre 2011,
Rendiconti Online della Società Geologica Italiana, 34, 74–84, 2015.
Esposito, G., Salvini, R., Matano, F., Sacchi, M., Danzi, M., Somma, R., and
Troise, C.: Multitemporal monitoring of a coastal landslide through
sfm-derived point cloud comparison, The Photogrammetric Record, 32,
459–479, https://doi.org/10.1111/phor.12218, 2017.
Esposito, G., Matano, F., and Scepi, G.: Analysis of increasing flash flood
frequency in the densely urbanized coastline of the Campi Flegrei volcanic
area, Italy, Front. Earth Sci., 6, 63, https://doi.org/10.3389/feart.2018.00063, 2018a.
Esposito, G., Salvini, R., Matano, F., Sacchi, M., and Troise, C.:
Evaluation of geomorphic changes and retreat rates of a coastal pyroclastic
cliff in the Campi Flegrei volcanic district, southern Italy, J.
Coast. Conserv., 22, 957–972,
https://doi.org/10.1007/s11852-018-0621-1, 2018b.
Esposito, G., Parodi, A., Lagasio, M., Masi, R., Nanni, G., Russo, F.,
Alfano, S., and Giannatiempo, G.: Characterizing Consecutive Flooding Events
after the 2017 Mt. Salto Wildfires (Southern Italy): Hazard and Emergency
Management Implications, Water, 11, 2663, https://doi.org/10.3390/w11122663, 2019.
Esposito, G., Matano, F., Sacchi, M., and Salvini, R.: Mechanisms and
frequency-size statistics of failures characterizing a coastal cliff
partially protected from the wave erosive action, Rendiconti Lincei –
Scienze Fisiche e Naturali, 31, 337–351, 2020.
Esposito, G., Salvati, P., and Bianchi, C.: Insights gained into
geo-hydrological disaster management 25 years after the catastrophic
landslides of 1998 in southern Italy, Int. J. Disaster Risk
Reduc., 84, 103440, https://doi.org/10.1016/j.ijdrr.2022.103440, 2023.
Fell, R. and Hartford, D.: Landslide risk management, in: Landslide Risk Assessment, edited by: Cruden, D. M. and
Fell, R., Proc. Int. Workshop Landslide
Risk Assessment, Balkema, 51–109, 1997.
Fortelli, A., Scafetta, N., and Mazzarella, A.: Nowcasting and real-time
monitoring of heavy rainfall events inducing flash-floods: an application to
Phlegraean area (Central-Southern Italy), Nat. Hazards, 97, 861–889,
2019.
Fortelli, A., Fedele, A., De Natale, G., Matano, F., Sacchi, M., Troise, C.,
and Somma, R.: Analysis of Sea Storm Events in the Mediterranean Sea: The
Case Study of 28 December 2020 Sea Storm in the Gulf of Naples, Italy,
Appl. Sci., 11, 11460, https://doi.org/10.3390/app112311460, 2021.
Guadagno, F. M. and Mele, R.: I movimenti franosi indotti da terremoti
nell'isola d'Ischia, in: Cinquant'anni di ricerca e di didattica del Prof. Felice
Ippolito, edited by: Vallario, A., Bonardi, G., De Vivo, B., and Gasparini,
P., Liguori, Naples, 127–137, 1995.
Guzzetti, F. and Tonelli, G.: Information system on hydrological and geomorphological catastrophes in Italy (SICI): a tool for managing landslide and flood hazards, Nat. Hazards Earth Syst. Sci., 4, 213–232, https://doi.org/10.5194/nhess-4-213-2004, 2004.
Guzzetti, F., Cardinali, M., and Reichenbach, P.: The AVI Project: a
bibliographical and archive inventory of landslides and floods in Italy,
Environ. Manage., 18, 623–633, 1994.
Guzzetti, F., Mondini, A.C., Cardinali, M., Fiorucci, F., Santangelo,
M., and Chang, K. T.: Landslide inventory maps: New tools for an old problem,
Earth-Sci. Rev., 112, 42–66, 2012.
Ibsen, M. L. and Brunsden, D.: The nature, use and problems of historical
archives for the temporal occurrence of landslides, with specific reference
to the south coast of Britain, Ventnor, Isle of Wight, Geomorphology,
15, 241–258, 1996.
Insinga, D., Calvert, A., D'Argenio, B., Fedele, L., Lanphere, M., Morra,
V., Perrotta, A., Sacchi, M., and Scarpati, C.: 40Ar/39Ar dating of the
Neapolitan Yellow Tuff eruption (Campi Flegrei, southern Italy), Proceedings
of the European Geophysical Union (EGU) 1st General Assembly, 25–30 April 2004, Nice, 2004.
Insinga, D., Calvert, A. T., Lanphere, M. A., Morra, V., Perrotta, A., Sacchi,
M., Scarpati, C., and Fedele, L.: The Late-Holocene evolution of the Miseno
area (south-western Campi Flegrei) as inferred by stratigraphy,
petrochemistry and 40Ar/39Ar geochronology, Volcanism in the Campania Plain:
Vesuvius, Campi Flegrei and Ignimbrites, edited by: De Vivo, B., chap. 6,
Developments in Volcanology, 9, 97–124, 2006.
Laprade, W. T., Kirkland, T. E., Nashem, W. D., and Robertson, C. A.: Seattle
landslide study, Shannon & Wilson, Inc Internal Report W-7992-01, 164 pp.,
2000.
Lavigne, F. and Thouret, J. C.: Sediment transportation and deposition
by rain-triggered lahars at Merapi Volcano, Central Java, Indonesia,
Geomorphology, 49, 45–69, 2003.
Masson, D. G., Harbitz, C. B., Wynn, R. B., Pedersen, G., and Løvholt, F.:
Submarine landslides: processes, triggers and hazard prediction,
Philos. T. Roy. Soc. A, 364, 2009–2039, 2006.
Matano, F., Iuliano, S., Somma, R., Marino, E., Del Vecchio, U., Esposito,
G., Molisso, F., Scepi, G., Grimaldi, G. M., Pignalosa, A., Caputo, T.,
Troise, C., De Natale, G., and Sacchi, M.: Geostructure of Coroglio tuff
cliff, Naples (Italy) derived from terrestrial laser scanner data, J. Maps, 12, 407–421, 2016.
Mele, R. and Del Prete, S.: Fenomeni di instabilità dei versanti in Tufo
Verde del Monte Epomeo (Isola d'Ischia-Campania), Bollettino della
Soietà Geologica Italiana, 117, 93–112, 1998.
Miele, P., Di Napoli, M., Novellino, A., Calcaterra, D., Mallorqui, J. J.,
and Di Martire, D.: SAR data and field surveys combination to update
rainfall-induced shallow landslide inventory, Remote Sens. Appl.
Society and Environment, 26, 100755, https://doi.org/10.1016/j.rsase.2022.100755, 2022.
Napolitano, E., Marchesini, I., Salvati, P., Donnini, M., Bianchi, C., and
Guzzetti, F.: LAND-deFeND – An innovative database structure for landslides
and floods and their consequences, J. Environ. Manage., 207,
203–218, 2018.
Neris, J., Tejedor, M., Fuentes, J., and Jiménez, C.: Infiltration, runoff
and soil loss in Andisols affected by forest fire (Canary Islands, Spain),
Hydrol. Process., 27, 2814–2824, 2013.
Oehler, J. F., Labazuy, P., and Lénat, J. F.: Recurrence of major flank
landslides during the last 2-Ma-history of Reunion Island, B.
Volcanol., 66, 585–598, 2004.
Orsi, G., de Vita, S., and Di Vito, M.: The restless, resurgent Campi
Flegrei Nested Caldera (Italy): Constraints on its evolution and
configuration, J. Volcanol. Geoth. Res., 74, 179–214,
1996.
Peduto, D., Iervolino, L., Esposito, G., Foresta, V., Matano, F., Masi, R.:
Clues of wildfire-induced geotechnical changes in volcanic soils affected by
post-fire slope instabilities, B. Eng. Geol.
Environ., 81, 454, https://doi.org/10.1007/s10064-022-02947-x, 2022.
Pereira, S., Zêzere, J. L., Quaresma, I. D., and Bateira, C.: Landslide
incidence in the North of Portugal: Analysis of a historical landslide
database based on press releases and technical reports, Geomorphology, 214,
514–525, 2014.
Perrotta, A., Scarpati, C., Luongo, G., and Morra, V.: The Campi Flegrei
caldera boundary in the city of Naples, in: Volcanism in the
campania plain: Vesuvius, Campi Flegrei and ignimbrites, edited by: De Vivo, B., Elsevier,
Amsterdam, 85–96, 2006.
Perrotta, A., Scarpati, C., Luongo, G., and Morra, V.: Stratigraphy and
volcanological evolution of the southwestern sector of Campi Flegrei and
Procida Island, Italy, Geological Society of America Special Paper, 464,
171–191, 2011.
Piacentini, D., Troiani, F., Daniele, G., and Pizziolo, M.: Historical
geospatial database for landslide analysis: the Catalogue of Landslide
OCcurrences in the Emilia-Romagna Region (CLOCkER), Landslides, 15,
811–822, 2018.
Pierson, T. C., Wood, N. J., and Driedger, C. L.: Reducing risk from lahar
hazards: concepts, case studies, and roles for scientists, J.
Appl. Volcanol., 3, 16, https://doi.org/10.1186/s13617-014-0016-4, 2014.
Poli, S., Chiesa, S., Gillot, P. Y., Gregnanin, A., and Guichard, F.:
Chemistry versus time in the volcanic complex of Ischia (Gulf of Naples,
Italy): evidence of successive magmatic cycles, Contrib. Mineral.
Petr., 95, 322–335, 1987.
Rapolla, A., Di Nocera, S., Matano, F., Paoletti, V., and Tarallo, D.:
Susceptibility regional zonation of earthquake-induced landslides in
Campania, Southern Italy, Nat. Hazards, 61, 115–126, 2012.
Reichenbach, P., Rossi, M., Malamud, B. D., Mihir, M., and Guzzetti, F.: A
review of statistically-based landslide susceptibility models, Earth-Sci. Rev., 180, 60–91, 2018.
Rosi, M. and Sbrana, A: The Phlegrean fields, Consiglio Nazionale delle
Ricerche, Quaderni de “La Ricerca Scientifica, Rome, 1987.
Rossi, M., Witt, A., Guzzetti, F., Malamud, B. D., and Peruccacci, S.: Analysis
of historical landslide time series in the Emilia-Romagna region, northern
Italy, Earth Surf. Processes Landf., 35, 1123–1137,
https://doi.org/10.1002/esp.1858, 2010.
Rossi, M., Guzzetti, F., Salvati, P., Donnini, M., Napolitano, E., and Cinzia, B.:
A predictive model of societal landslide risk in Italy, Earth-Sci. Rev., 196, 102849, https://doi.org/10.1016/j.earscirev.2019.04.021, 2019.
Rowley, P., Benson, P. M., and Bean, C. J.: Deformation-controlled long-period
seismicity in low-cohesion volcanic sediments, Nat. Geosci., 14,
942–948, https://doi.org/10.1038/s41561-021-00844-8, 2021.
Sacchi, M., Alessio, G., Aquino, I., Esposito, E., Molisso, F., Nappi, R.,
Porfido, S., and Violante, C.: Risultati preliminari della campagna
oceanografica CAFE_07 e leg 3 nei Golfi di Napoli e Pozzuoli,
Mar Tirreno Orientale, Quaderni di Geofisica, 64, 3–26, 2009.
Sacchi, M., Di Fiore, V., Esposito, E., Fekete, N., Metzen, J., Molisso, F.,
Porfido, S., Spiess, V., and Violante, C.: New High-Resolution Seismic Data
off the Campi Flegrei: Insights into the Evolution of the Neapolitan Yellow
Tuff (NYT) Caldera, Eastern Tyrrhenian Margin, Marine Research at CNR –
Marine Geology, DTA/06-2011, 691–703, 2011.
Sacchi, M., Caputo, T., Esposito, G., Somma, R., Matano, F., Caccavale, M.,
Del Vecchio, U., Fortelli, A., Grimaldi, G. M., Iuliano, S., Latte Bovio, G.,
Marino, E., Di Meglio, C., Minardo, A., Pignalosa, A., Terracciano, R.,
Troise, C., Zeni, L., and De Natale, G.: Sistema integrato di monitoraggio
(TCM – Tuff Cliff Monitoring) dei fenomeni di dissesto lungo il costone
tufaceo di Coroglio (Napoli), Rapporti Tecnici INGV, 309, 72 pp., 2015.
Sacchi, M., Passaro, S., Molisso, F., Matano, F., Steinmann, L., Spiess, V.,
Pepe, F., Corradino, M., Caccavale, M., Tamburrino, S., Esposito, G.,
Vallefuoco, M., and Ventura, G.: The holocene marine record of unrest,
volcanism, and hydrothermal activity of Campi Flegrei and Somma–Vesuvius,
in: Vesuvius, Campi Flegrei, and Campanian Volcanism, edited by: De Vivo,
B., Belkin, H. E., and Rolandi, G., Elsevier, 435–469,
https://doi.org/10.1016/B978-0-12-816454-9.00016-X, 2020.
Salvati, P., Balducci, V., Bianchi, C., Guzzetti, F., and Tonelli, G.: A
WebGIS for the dissemination of information on historical landslides and
floods in Umbria, Italy, Geoinformatica, 13, 305–322, 2009.
Santo, A., Di Crescenzo, G., Del Prete, S., and Di Iorio, L.: The Ischia
island flash flood of November 2009 (Italy): phenomenon analysis and flood
hazard, Phys. Chem. Earth, 49, 3–17, 2012.
Saviano, S., Kalampokis, A., Zambianchi, E., and Uttieri, M.: A year-long
assessment of wave measurements retrieved from an HF radar network in the
Gulf of Naples (Tyrrhenian Sea, Western Mediterranean Sea), J.
Operational Oceanogr., 12, 1–15,
https://doi.org/10.1080/1755876X.2019.1565853, 2019.
Scarpati, C., Cole, P., and Perrotta, A.: The Neapolitan yellow Tuff – a
large volume multiphase eruption from Campi Flegrei, Southern Italy,
B. Volcanol., 55, 343–356, 1993.
Siebert, L. and Roverato, M.: A Historical Perspective on Lateral Collapse
and Volcanic Debris Avalanches, in: Volcanic Debris Avalanches, Advances in Volcanology, edited by: Roverato, M., Dufresne, A., and Procter, J., Springer, Cham,
2021.
Soeters, R. and van Westen, C. J.: Slope Instability Recognition Analysis and
Zonation, in: Landslides:
Investigation and Mitigation, edited by: Turner, K. T. and Schuster, R. L., Special Report No. 247, Transportation
Research Board National Research Council, Washington D.C., 129–177, 1996.
Thouret, J. C., Antoine, S., Magill, C., and Ollier, C.: Lahars and debris
flows: Characteristics and impacts, Earth-Sci. Rev., 201, 103003, https://doi.org/10.1016/j.earscirev.2019.103003,
2020.
Trigila, A., Iadanza, C., and Spizzichino, D.: Quality assessment of the
Italian Landslide Inventory using GIS processing, Landslides, 7, 455–470,
2010.
Troise, C., De Natale, G., Schiavone, R., Somma, R., and Moretti, R.: The Campi
Flegrei caldera unrest: Discriminating magma intrusions from hydrothermal
effects and implications for possible evolution, Earth-Sci. Rev., 188,
108–122, https://doi.org/10.1016/j.earscirev.2018.11.007, 2019.
Vezzoli, L.: Island of Ischia, in: C.N.R., Quad. “La Ricerca Scientifica”.
Consiglio Nazionale delle Ricerche, Roma, 114, 126 pp., 1988.
Vitale, S. and Isaia, R.: Fractures and faults in volcanic rocks (Campi
Flegrei, southern Italy): Insight into volcano-tectonic processes,
Int. J. Earth Sci., 103, 801–819,
2014.
Walter, T. R., Haghshenas Haghighi, M., Schneider, F. M., Coppola, D., Motagh,
M., Saul, J., Babeyko, A., Dahm, T., Troll, V. R., Tilmann, F., Heimann, S.,
Valade, S., Triyono, R., Khomarudin, R., Kartadinata, N., Laiolo, M.,
Massimetti, F., and Gaebler, P.: Complex hazard cascade culminating in the
Anak Krakatau sector collapse, Nat. Commun., 10, 4339,
https://doi.org/10.1038/s41467-019-12284-5, 2019.
Watts, A., Peirce, C., Grevemeyer, I., Paulatto, M., Stratford, W., Bassett,
D., Hunter, J., Kalnins, L., and Ronde, C. D.: Rapid rates of growth and
collapse of Monowai submarine volcano in the Kermadec Arc, Nat.
Geosci., 5, 510–515, https://doi.org/10.1038/ngeo1473, 2012.
Williams, R., Rowley, P., and Garthwaite, M. C.: Reconstructing the Anak
Krakatau flank collapse that caused the December 2018 Indonesian tsunami,
Geology, 47, 973–976, 2019.
Yano, A., Shinohara, Y., Tsunetaka, H., Mizuno, H., and Kubota, T.:
Distribution of landslides caused by heavy rainfall events and an earthquake
in northern Aso Volcano, Japan from 1955 to 2016, Geomorphology, 327,
533–541, 2019.
Short summary
In the highly urbanized volcanic area of Campi Flegrei (southern Italy), more than 500 000 people are exposed to multi-hazard conditions, including landslides. In the 1828–2017 time span, more than 2000 mass movements affected the volcanic slopes, concentrated mostly along the coastal sector. Rapid rock failures and flow-like landslides are frequent in the whole area. Besides their relevant role in modeling the landscape of Campi Flegrei, these processes also pose a societal risk.
In the highly urbanized volcanic area of Campi Flegrei (southern Italy), more than 500 000...
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