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Campi Flegrei, Vesuvius and Ischia Seismicity in the Context of the Neapolitan Volcanic Area
Author(s)
Language
English
Obiettivo Specifico
4V. Processi pre-eruttivi
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Title of the book
Issue/vol(year)
/9 (2021)
Publisher
Frontiers Media S.A.
Pages (printed)
662113
Issued date
2021
Alternative Location
Subjects
Abstract
Studying seismicity in a volcanic environment provides important information on the state
of activity of volcanoes. The seismicity of the Neapolitan volcanoes, Campi Flegrei,
Vesuvius, and Ischia, shows distinctive characteristics for each volcano, coveringwide range of patterns and types. In this study we relocated some significant volcano-
tectonic earthquake swarms that occurred in Campi Flegrei and Vesuvius. Moreover, we
compared the earthquake occurrence evolution, the magnitude and the seismic energy
release of the three volcanoes. Also, we considered the results of seismic analysis in the
light of geochemical and ground deformation data that contribute to defining the state of
activity of volcanoes. In Campi Flegrei, which is experiencing a long term unrest, we
identified a seismogenic structure at shallow depth in Pisciarelli zone that has been
activated repeatedly. The increasing seismicity accompanies an escalation of the
hydrothermal activity and a ground uplift phase. At Vesuvius a very shallow seismicity
is recorded, which in recent years has shown an increase in terms of the number of events
per year. Earthquakes are usually located right beneath the crater axis. They are
concentrated in a volume affected by the hydrothermal system. Finally, Ischia generally
shows a low level of seismicity, however, in Casamicciola area events with a moderate
magnitude can occur and these are potentially capable of causing severe damage to the
town and population, due to their small hypocentral depth (typically < 2.5 km). After the
seismic crisis of August 21, 2017 (mainshock magnitude M 4), the seismicity returned to
a low level in terms of occurrence rate and magnitude of earthquakes. The seismicity of
these three different volcanic areas shows some common aspects that highlight a relevant
role of hydrothermal processes in the seismogenesis of volcanic areas. However, while the
main swarms in Campi Flegrei and most of the Vesuvian earthquakes are distributed along
conduit-like structures, the seismicity of Ischia is mainly located along faults. Furthermore,
the temporal evolution of seismicity in Neapolitan volcanic area suggests a concomitant
increase in the occurrence of earthquakes both in Campi Flegrei and Vesuvius in
recent years.
of activity of volcanoes. The seismicity of the Neapolitan volcanoes, Campi Flegrei,
Vesuvius, and Ischia, shows distinctive characteristics for each volcano, coveringwide range of patterns and types. In this study we relocated some significant volcano-
tectonic earthquake swarms that occurred in Campi Flegrei and Vesuvius. Moreover, we
compared the earthquake occurrence evolution, the magnitude and the seismic energy
release of the three volcanoes. Also, we considered the results of seismic analysis in the
light of geochemical and ground deformation data that contribute to defining the state of
activity of volcanoes. In Campi Flegrei, which is experiencing a long term unrest, we
identified a seismogenic structure at shallow depth in Pisciarelli zone that has been
activated repeatedly. The increasing seismicity accompanies an escalation of the
hydrothermal activity and a ground uplift phase. At Vesuvius a very shallow seismicity
is recorded, which in recent years has shown an increase in terms of the number of events
per year. Earthquakes are usually located right beneath the crater axis. They are
concentrated in a volume affected by the hydrothermal system. Finally, Ischia generally
shows a low level of seismicity, however, in Casamicciola area events with a moderate
magnitude can occur and these are potentially capable of causing severe damage to the
town and population, due to their small hypocentral depth (typically < 2.5 km). After the
seismic crisis of August 21, 2017 (mainshock magnitude M 4), the seismicity returned to
a low level in terms of occurrence rate and magnitude of earthquakes. The seismicity of
these three different volcanic areas shows some common aspects that highlight a relevant
role of hydrothermal processes in the seismogenesis of volcanic areas. However, while the
main swarms in Campi Flegrei and most of the Vesuvian earthquakes are distributed along
conduit-like structures, the seismicity of Ischia is mainly located along faults. Furthermore,
the temporal evolution of seismicity in Neapolitan volcanic area suggests a concomitant
increase in the occurrence of earthquakes both in Campi Flegrei and Vesuvius in
recent years.
References
Acocella, V., and Funiciello, R. (1999). The Interaction between Regional and Local
Tectonics during Resurgent Doming: the Case of the Island of Ischia, Italy.
J. Volcanology Geothermal Res. 88, 109–123. doi:10.1016/S0377-0273(98)
00109-7
Acocella, V., and Funiciello, R. (2006). Transverse Systems along the Extensional
Tyrrhenian Margin of central Italy and Their Influence on Volcanism. Tectonics
25 (2). doi:10.1029/2005tc001845
Aiuppa, A., Avino, R., Brusca, L., Caliro, S., Chiodini, G., D’Alessandro, W., et al.
(2006). Mineral Control of Arsenic Content in thermal Waters from Volcano-
Hosted Hydrothermal Systems: Insights from Island of Ischia and Phlegrean
Fields (Campanian Volcanic Province, Italy). Chem. Geology 229, 313–330.
doi:10.1016/J.CHEMGEO.2005.11.004
Aki, K. (1965). Maximum Likelihood Estimate of B in the Formula Log N a-b M
and its Confidence Limits. Bull. Earthquake Res. Inst. 43, 237–239.
Albert, P. G., Giaccio, B., Isaia, R., Costa, A., Niespolo, E. M., Nomade, S., et al.
(2019). Evidence for a Large-Magnitude Eruption from Campi Flegrei Caldera
(Italy) at 29 Ka. Geology 47, 595–599. doi:10.1130/G45805.1
Alfano, G. B., and Friedlaender, I. (1929). La storia del Vesuvio illustrata dai
documenti coevi. Ulm a.d. Donau, Germany: Karl Hohn, 69.
Amoruso, A., Crescentini, L., and Sabbetta, I. (2014). Paired Deformation Sources
of the Campi Flegrei Caldera (Italy) Required by Recent (1980-2010)
Deformation History. J. Geophys. Res. Solid Earth 119, 858–879.
doi:10.1002/2013JB010392
Arnò, V., Principe, C., Rosi, M., Santacroce, R., Sbrana, A., and Sheridan, M. F.
(1987). “Eruptive History,” in Somma- Vesuvius, Quaderni de La Ricerca
Scientifica. Editor R. Santacroce (Roma: CNR), 53–103.
Auger, E., Gasparini, P., Virieux, J., and Zollo, A. (2001). Seismic Evidence of an
Extended Magmatic Sill under Mt. Vesuvius. Science 294, 1510–1512.
doi:10.1126/science.1064893
Babbage, C. (1847). Observations on the temple of Serapis, at Pozzuoli, Near
Naples, with Remarks on Certain Causes Which May Produce Geological
Cycles of Great Extent. Q. J. Geol. Soc. 3, 186–217. doi:10.1144/
GSL.JGS.1847.003.01-02.22
Baratta, M. (1897). Il Vesuvio e le sue eruzioni. Roma: Società Editrice Dante
Alighieri, 203.
Barbieri, M., Di Girolamo, P., Locardi, E., Lombardi, G., and Stanzione, D. (1979).
Petrology of the Calc-Alkaline Volcanics of the Parete 2 Well (Campania, Italy).
Period. Mineral. 48, 53–74.
Berrino, G., Corrado, G., and Riccardi, U. (1998). Sea Gravity Data in the Gulf of
Naples: a Contribution to Delineating the Structural Pattern of the Vesuvian
Area. J. Volcanology Geothermal Res. 82, 139–150. doi:10.1016/S0377-0273(97)
00061-9
Berrino, G., Corrado, G., and Riccardi, U. (2008). Sea Gravity Data in the Gulf of
Naples. A Contribution to Delineating the Structural Pattern of the Phlegraean
Volcanic District. J. Volcanology Geothermal Res. 175, 241–252. doi:10.1016/
j.jvolgeores.2008.03.007
Bonafede, M. (1991). Hot Fluid Migration: an Efficient Source of Ground
Deformation: Application to the 1982-1985 Crisis at Campi Flegrei-Italy.
J. Volcanology Geothermal Res. 48, 187–198. doi:10.1016/0377-0273(91)
90042-x
Borgia, A., Tizzani, P., Solaro, G., Manzo, M., Casu, F., Luongo, G., et al. (2005).
Volcanic Spreading of Vesuvius, a New Paradigm for Interpreting its Volcanic
Activity. Geophys. Res. Lett. 32, L03303. doi:10.1029/2004GL022155
Braccini, G. C. (1632). Dell’incendio fattosi al Vesuvio XVI Dicembre 1631, e delle
sue cause ed effetti (Napoli: S. Roncagliolo).
Brocchini, D., Principe, C., Castradori, D., Laurenzi, M. A., and Gorla, L. (2001).
Quaternary Evolution of the Southern Sector of the Campanian Plain and Early
Somma-Vesuvius Activity: Insights from the Trecase 1 Well. Mineralogy Pet.
73, 67–91. doi:10.1007/s007100170011
Brown, R. J., Orsi, G., and de Vita, S. (2008). New Insights into Late Pleistocene
Explosive Volcanic Activity and Caldera Formation on Ischia (Southern Italy).
Bull. Volcanol. 70, 583–603. doi:10.1007/s00445-007-0155-0
Bruno, P. P. G., de Alteriis, G., and Florio, G. (2002). The Western Undersea
Section of the Ischia Volcanic Complex (Italy, Tyrrhenian Sea) Inferred by
marine Geophysical Data. Geophys. Res. Lett. 29, 57-1–57-4. doi:10.1029/
2001GL013904
Bruno, P. P. G., Rapolla, A., and Di Fiore, V. (2003). Structural Setting of the Bay
of Naples (Italy) Seismic Reflection Data: Implications for Campanian
Volcanism. Tectonophysics 372 (3-4), 193–213. doi:10.1016/s0040-
1951(03)00327-5
Caliro, S., Chiodini, G., Avino, R., Minopoli, C., and Bocchino, B. (2011). Long
Time-Series of Chemical and Isotopic Compositions of Vesuvius Fumaroles:
Evidence for Deep and Shallow Processes. Ann. Geophys-italy 54, 137–149.
doi:10.4401/ag-5034
Caliro, S., Chiodini, G., Moretti, R., Avino, R., Granieri, D., Russo, M., et al. (2007).
The Origin of the Fumaroles of La Solfatara (Campi Flegrei, South Italy).
Geochimica et Cosmochimica Acta 71 (12), 3040–3055. doi:10.1016/
j.gca.2007.04.007
Cardellini, C., Chiodini, G., Frondini, F., Avino, R., Bagnato, E., Caliro, S., et al.
(2017). Monitoring Diffuse Volcanic Degassing during Volcanic Unrests: the
Case of Campi Flegrei (Italy). Sci. Rep. 7, 6757. doi:10.1038/s41598-017-
06941-2
Carlino, S., Cubellis, E., Luongo, G., and Obrizzo, F. (2006). “On the Mechanics of
Caldera Resurgence of Ischia Island (Southern Italy),” in Mechanisms of Activity
and Unrest at Large Calderas. Editors C. Troise, G. De Natale, and
C. R. J. Kilburn (London: Geological Society), 269, 181–193. doi:10.1144/
GSL.SP.2006.269.01.12
Carlino, S., Pino, N. A., Tramelli, A., De Novellis, V., and Convertito, V. (2021). A
Common Source for the Destructive Earthquakes in the Volcanic Island of
Ischia (Southern Italy): Insights from Historical and Recent Seismicity. Nat.
Hazards 2021, 1–25. doi:10.1007/s11069-021-04675-z
Carlino, S. (2012). The Process of Resurgence for Ischia Island (Southern Italy)
since 55 Ka: the Laccolith Model and Implications for Eruption Forecasting.
Bull. Volcanol. 74, 947–961. doi:10.1007/s00445-012-0578-0
Chiodini, G., Avino, R., Brombach, T., Caliro, S., Cardellini, C., de Vita, S., et al.
(2004). Fumarolic and Diffuse Soil Degassing West of Mount Epomeo, Ischia,
Italy. J. Volcanology Geothermal Res. 133, 291–309. doi:10.1016/S0377-
0273(03)00403-7
Chiodini, G., Caliro, S., Avino, R., Bini, G., Giudicepietro, F., De Cesare, W., et al.
(2021). Hydrothermal Pressure-Temperature Control on CO2 Emissions and
Seismicity at Campi Flegrei (Italy). J. Volcano. Geotherm. Res. 414, 107245.
doi:10.1016/j.jvolgeores.2021.107245
Chiodini, G., Caliro, S., De Martino, P., Avino, R., and Gherardi, F. (2012). Early
Signals of New Volcanic Unrest at Campi Flegrei Caldera? Insights from
Geochemical Data and Physical Simulations. Geology 40, 943–946.
doi:10.1130/G33251.1
Chiodini, G. (2009). CO2/CH4 Ratio in Fumaroles a Powerful Tool to Detect
Magma Degassing Episodes at Quiescent Volcanoes. Geophys. Res. Lett. 36,
L02302. doi:10.1029/2008GL036347-X
Chiodini, G., Frondini, F., Cardellini, C., Granieri, D., Marini, L., and Ventura, G.
(2001a). CO2 degassing and Energy Release at Solfatara Volcano, Campi
Flegrei, Italy. J. Geophys. Res. 106, 16213–16221. doi:10.1029/2001JB000246-X
Chiodini, G., Giudicepietro, F., Vandemeulebrouck, J., Aiuppa, A., Caliro, S., De
Cesare, W., et al. (2017a). Fumarolic Tremor and Geochemical Signals during a
Volcanic Unrest. Geology 45, 1131–1134. doi:10.1130/G39447.1
Chiodini, G., Marini, L., and Russo, M. (2001b). Geochemical Evidence for the
Existence of High-Temperature Hydrothermal Brines at Vesuvio Volcano,
Italy. Geochimica et Cosmochimica Acta 65, 2129–2147. doi:10.1016/S0016-
7037(01)00583-X
Chiodini, G., Paonita, A., Aiuppa, A., Costa, A., Caliro, S., De Martino, P., et al.
(2016). Magmas Near the Critical Degassing Pressure Drive Volcanic Unrest
towards a Critical State. Nat. Commun. 7, 13712. doi:10.1038/ncomms13712
Chiodini, G., Selva, J., Del Pezzo, E., Marsan, D., De Siena, L., D’Auria, L., et al.
(2017b). Clues on the Origin of post-2000 Earthquakes at Campi Flegrei
Caldera (Italy). Sci. Rep. 7, 4472. doi:10.1038/s41598-017-04845-9
Chouet, B. A., and Matoza, R. S. (2013). A Multi-Decadal View of Seismic Methods
for Detecting Precursors of Magma Movement and Eruption. J. Volcanology
Geothermal Res. 252, 108–175. doi:10.1016/j.jvolgeores.2012.11.013
Civetta, L., Gallo, G., and Orsi, G. (1991). Sr- and Nd-Isotope and Trace-Element
Constraints on the Chemical Evolution of the Magmatic System of Ischia (Italy)
in the Last 55 Ka. J. Volcanology Geothermal Res. 46, 213–230. doi:10.1016/
0377-0273(91)90084-D
Conticelli, S., Laurenzi, M. A., Giordano, G., Mattei, M., Avanzinelli, R., Melluso,
L., et al. (2010). “Leucite-bearing (Kamafugitic/leucititic) and -free (Lamproitic)
Ultrapotassic Rocks and Associated Shoshonites from Italy: Constraints on
Petrogenesis and Geodynamics,” in The Geology of Italy: Tectonics and Life
along Plate Margins. Editors M. Beltrando, A. Peccerillo, M. Mattei,
S. Conticelli, and C. Doglioni (Clear Range, NSW, Australia: Journal of the
Virtual Explorer), 1–95. doi:10.3809/jvirtex.2010.00251
Cubellis, E., Carlino, S., Iannuzzi, R., Luongo, G., and Obrizzo, F. (2004).
Management of Historical Seismic Data Using GIS: The Island of Ischia
(Southern Italy). Nat. Hazards 33, 379–393. doi:10.1023/B:NHAZ.0000048465.40413.17
Cubellis, E., Del Gaudio, C., Ferri, M., Grimaldi, M., Obrizzo, F., Ricco, C., et al.
(1991). Gravity Anomalies in the Campanian Plain (Southern Italy) and Their
Volcano-Tectonic Implications. Acta Vulcanol 1, 57–62.
Cubellis, E., Di Donna, G., Luongo, G., and Mazzarella, A. (2002). Simulating the
Mechanism of Magmatic Processes in the Campi Flegrei Area (Southern Italy)
by the Lorenz Equations. J. Volcanology Geothermal Res. 115, 339–349.
doi:10.1016/S0377-0273(01)00330-4
Cubellis, E., Ferri, M., and Luongo, G. (1995). Internal Structures of the Campi
Flegrei Caldera by Gravimetric Data. J. Volcanology Geothermal Res. 65,
147–156. doi:10.1016/0377-0273(94)00047-K
Cubellis, E., and Luongo, G. (2018). History of Ischian Earthquakes. Napoli, Italy:
Bibliopolis, 140.
Cubellis, E., and Luongo, G. (1998). “Il Contesto Fisico,” in AAVV., Il terremoto del
28 luglio 1883 a Casamicciola nell’isola d’Ischia, Presidenza del Consiglio dei
Ministri - Servizio Sismico Nazionale (Roma: Istituto Poligrafico e Zecca dello
Stato), 49–123.
Cubellis, E., Luongo, G., and Marturano, A. (2007). Seismic hazard Assessment at
Mt. Vesuvius: Maximum Expected Magnitude. J. Volcanology Geothermal Res.
162, 139–148. doi:10.1016/j.jvolgeores.2007.03.003
Cubellis, E., Luongo, G., Obrizzo, F., Sepe, V., and Tammaro, U. (2020).
Contribution to Knowledge Regarding the Sources of Earthquakes on the
Island of Ischia (Southern Italy). Nat. Hazards 100, 955–994. doi:10.1007/
s11069-019-03833-8
Cubellis, E., and Marturano, A. (2013). Felt index, Source Parameters and Ground
Motion Evaluation for Earthquakes at Mt. Vesuvius. Volume Speciale "Mt.
Vesuvius Monitoring: the State of the Art and Perspectives. Ann. Geophys. 56
(4), S0439. doi:10.4401/ag-6445
Cubellis, E., and Marturano, A. (2002). Mt. Vesuvius: a Macroseismic Study of the
Earthquake of 9 October 1999. J. Volcanology Geothermal Res. 118, 339–351.
doi:10.1016/S0377-0273(02)00301-3
Cubellis, E., Marturano, A., and Pappalardo, L. (2013). Le ceneri distali
dell’eruzione del Vesuvio del marzo 1944 raccolte a Devoli (Albania). Quad.
Geofis. 113, 1–35.
Cubellis, E., Marturano, A., and Pappalardo, L. (2016). The Last Vesuvius Eruption
in March 1944: Reconstruction of the Eruptive Dynamic and its Impact on the
Environment and People through Witness Reports and Volcanological
Evidence. Nat. Hazards 82 (1), 95–121. doi:10.1007/s11069-016-2182-7
Cusano, P., Petrosino, S., Bianco, F., and Del Pezzo, E. (2013). The First Long Period
Earthquake Detected in the Background Seismicity at Mt. Vesuvius. Ann.
Geophys. 55 (4), S0440. doi:10.4401/ag-6447
D’Auria, L., Giudicepietro, F., Aquino, I., Borriello, G., Del Gaudio, C., Lo Bascio,
D., et al. (2011). Repeated Fluid-Transfer Episodes as a Mechanism for the
Recent Dynamics of Campi Flegrei Caldera (1989-2010). J. Geophys. Res. 116,
B04313. doi:10.1029/2010JB007837
D’Auria, L., Giudicepietro, F., Tramelli, A., Ricciolino, P., Bascio, D. L., Orazi, M.,
et al. (2018). The Seismicity of Ischia Island. Seismol. Res. Lett. 89, 1750–1760.
doi:10.1785/0220180084
D’Auria, L., Massa, B., and Matteo, A. D. (2014). The Stress Field beneath a
Quiescent Stratovolcano: The Case of Mount Vesuvius. J. Geophys. Res. Solid
Earth 119, 1181–1199. doi:10.1002/2013JB010792
D’Auria, L., and Massa, B. (2015). Stress Inversion of Focal Mechanism Data Using
a Bayesian Approach: A Novel Formulation of the Right Trihedra Method.
Seismological Res. Lett. 86, 968–977. doi:10.1785/0220140153
D’Auria, L., Esposito, A. M., Lo Bascio, D., Ricciolino, P., Giudicepietro, F., Martini,
M., et al. (2013). The Recent Seismicity of Mt. Vesuvius: Inference on
Seismogenic Processes. Ann. Geophys-italy 56, S0442. doi:10.4401/ag-6448
De Martino, P., Guardato, S., Donnarumma, G. P., Dolce, M., Trombetti, T.,
Chierici, F., et al. (2020). Four Years of Continuous Seafloor Displacement
Measurements in the Campi Flegrei Caldera. Front. Earth Sci. 8. doi:10.3389/
feart.2020.615178
De Martino, P., Tammaro, U., and Obrizzo, F. (2014). GPS Time Series at Campi
Flegrei Caldera (2000-2013). Ann. Geophys-italy 57, S0213. doi:10.4401/ag-
6431
De Martino, P., Tammaro, U., Obrizzo, F., Sepe, V., Brandi, G., D’Alessandro, A.,
et al. (2011). La rete GPS dell’isola d’Ischia: deformazioni del suolo in un’area
vulcanica attiva (1998-2010). Quad. Geofis. 95, 61..
De Natale, G., Troise, C., Pingue, F., Mastrolorenzo, G., Pappalardo, L., Battaglia,
M., et al. (2006b). “The Campi Flegrei Caldera: Unrest Mechanisms and
Hazards,” in Mechanisms of Activity and Unrest at Large Calderas. Editors
C. Troise, G. De Natale, and C. R. J. Kilburn (London: Geological Society), 269,
25–45. doi:10.1144/gsl.sp.2006.269.01.03Geol. Soc. Lond. Spec. Publications
De Novellis, V., Carlino, S., Castaldo, R., Tramelli, A., De Luca, C., Pino, N. A., et al.
(2018). The 21 August 2017 Ischia (Italy) Earthquake Source Model Inferred
from Seismological, GPS, and DInSAR Measurements. Geophys. Res. Lett. 45,
2193–2202. doi:10.1002/2017GL076336
de Vita, S., Sansivero, F., Orsi, G., Marotta, E., and Piochi, M. (2010).
Volcanological and Structural Evolution of the Ischia Resurgent Caldera
(Italy) over the Past 10 k.Y. Geol. Soc. Am. Spec. Paper 464, 193–241.
doi:10.1130/2010.2464(10
De Vivo, B., Rolandi, G., Gans, P. B., Calvert, A., Bohrson, W. A., Spera, F. J., et al.
(2001). New Constraints on the Pyroclastic Eruptive History of the Campanian
Volcanic Plain (Italy). Mineralogy Pet. 73, 47–65. doi:10.1007/s007100170010
Deino, A. L., Orsi, G., de Vita, S., and Piochi, M. (2004). The Age of the Neapolitan
Yellow Tuff Caldera-Forming Eruption (Campi Flegrei Caldera - Italy)
Assessed by 40Ar/39Ar Dating Method. J. Volcanology Geothermal Res. 133,
157–170. doi:10.1016/S0377-0273(03)00396-2
Del Gaudio, C., Aquino, I., Ricciardi, G. P., Ricco, C., and Scandone, R. (2010).
Unrest Episodes at Campi Flegrei: A Reconstruction of Vertical Ground
Movements during 1905-2009. J. Volcanology Geothermal Res. 195, 48–56.
doi:10.1016/j.jvolgeores.2010.05.014
Del Gaudio, C., Aquino, I., Ricco, C., Sepe, V., and Serio, C. (2011). Monitoraggio
geodetico dell’isola d’Ischia: risultati della livellazione geometrica di precisione
eseguita a giugno 2010. Quad. Geofis. 87, 1–20.
Del Pezzo, E., Chiodini, G., Caliro, S., Bianco, F., and Avino, R. (2013). New
Insights into Mt. Vesuvius Hydrothermal System and its Dynamic Based on a
Critical Review of Seismic Tomography and Geochemical Features. Ann.
Geophys-italy 56, S0444. doi:10.4401/ag-6450
Denatale, G., Troise, C., Pingue, F., Mastrolorenzo, G., and Pappalardo, L. (2006a).
The Somma-Vesuvius Volcano (Southern Italy): Structure, Dynamics and
hazard Evaluation. Earth-Science Rev. 74, 73–111. doi:10.1016/
j.earscirev.2005.08.001
Devoti, R., De Martino, P., Pietrantonio, G., and Dolce, M. (2018). Coseismic
Displacements on Ischia Island, Real-Time GPS Positioning Constraints on
Earthquake Source Location. Ann. Geophys-italy 61, SE337. doi:10.4401/ag-7656
Di Napoli, R., Aiuppa, A., Bellomo, S., Brusca, L., D’Alessandro, W., Candela, E. G.,
et al. (2009). A Model for Ischia Hydrothermal System: Evidences from the
Chemistry of thermal Groundwaters. J. Volcanology Geothermal Res. 186,
133–159. doi:10.1016/j.jvolgeores.2009.06.005
Di Renzo, V., Di Vito, M. A., Arienzo, I., Carandente, A., Civetta, L., D’antonio, M.,
et al. (2007). Magmatic History of Somma-Vesuvius on the Basis of New
Geochemical and Isotopic Data from a Deep Borehole (Camaldoli Della Torre).
J. Pet. 48, 753–784. doi:10.1093/petrology/egl081
Di Vito, M. A., Acocella, V., Aiello, G., Barra, D., Battaglia, M., Carandente, A., et al.
(2016). Magma Transfer at Campi Flegrei Caldera (Italy) before the 1538 AD
Eruption. Sci. Rep. 6, 32245. doi:10.1038/srep32245
Endo, E. T., and Murray, T. (1991). Real-time Seismic Amplitude Measurement
(RSAM): A Volcano Monitoring and Prediction Tool. Bull. Volcanol 53,
533–545. doi:10.1007/BF00298154
Esposito, A. M., Alaia, G., Giudicepietro, F., Pappalardo, L., and D’Antonio, M.
(2020a). “Unsupervised Geochemical Analysis of the Eruptive Products of
Ischia, Vesuvius and Campi Flegrei,” in Progresses in Artificial Intelligence and
Neural Systems. 189. Editors A. Esposito, M. Faundez-Zanuy, F. Morabito, and
E. Pasero (Singapore: Springer), 175–184. doi:10.1007/978-981-15-5093-5_17
Esposito, A. M., De Bernardo, A., Ferrara, S., Giudicepietro, F., and Pappalardo, L.
(2020b). “SOM-based Analysis of Volcanic Rocks: An Application to Somma-
Vesuvius and Campi Flegrei Volcanoes (Italy),” in Neural Approaches to
Dynamics of Signal Exchanges. 151. Editors A. Esposito, M. Faundez-Zanuy,
F. Morabito, and E. Pasero (Singapore: Springer), 55–60. doi:10.1007/978-981-
13-8950-4_6
Frondini, F., Chiodini, G., Caliro, S., Cardellini, C., Granieri, D., and Ventura, G.
(2004). Diffuse CO2 Degassing at Vesuvio, Italy. Bull. Volcanol 66 (7), 642–651.
doi:10.1007/s00445-004-0346-x
Gebauer, S. K., Schmitt, A. K., Pappalardo, L., Stockli, D. F., and Lovera, O. M.
(2014). Crystallization and Eruption Ages of Breccia Museo (Campi Flegrei
Caldera, Italy) Plutonic Clasts and Their Relation to the Campanian Ignimbrite.
Contrib. Mineral. Petrol. 167, 953. doi:10.1007/s00410-013-0953-7
Giudicepietro, F., Chiodini, G., Avino, R., Brandi, G., Caliro, S., De Cesare, W., et al.
(2021). Tracking Episodes of Seismicity and Gas Transport in Campi Flegrei
Caldera through Seismic, Geophysical, and Geochemical Measurements.
Seismol. Res. Lett. 92, 965–975. (in press). doi:10.1785/0220200223
Giudicepietro, F., Chiodini, G., Caliro, S., De Cesare, W., Esposito, A. M., Galluzzo,
D., et al. (2019). Insight into Campi Flegrei Caldera Unrest through Seismic
Tremor Measurements at Pisciarelli Fumarolic Field. Geochem. Geophys.
Geosyst. 20, 5544–5555. doi:10.1029/2019GC008610
Giudicepietro, F., Macedonio, G., D’Auria, L., and Martini, M. (2016). Insight
into Vent Opening Probability in Volcanic Calderas in the Light of a Sill
Intrusion Model. Pure Appl. Geophys. 173, 1703–1720. doi:10.1007/s00024-
015-1190-y
Giudicepietro, F., Macedonio, G., and Martini, M. (2017). A Physical Model of Sill
Expansion to Explain the Dynamics of Unrest at Calderas with Application to
Campi Flegrei. Front. Earth Sci. 5, 1–11. doi:10.3389/feart.2017.00054
Giudicepietro, F., Orazi, M., Scarpato, G., Peluso, R., D’Auria, L., Ricciolino, P.,
et al. (2010). Seismological Monitoring of Mount Vesuvius (Italy): More Than a
century of Observations. Seismological Res. Lett. 81, 625–634. doi:10.1785/gssrl/
81.4.62510.1785/gssrl.81.4.625
Greenfield, T., and White, R. S. (2015). Building Icelandic Igneous Crust by
Repeated Melt Injections. J. Geophys. Res. Solid Earth 120 (11), 7771–7788.
doi:10.1002/2015jb012009
Guidoboni, E., and Ciuccarelli, C. (2011). The Campi Flegrei Caldera: Historical
Revision and New Data on Seismic Crises, Bradyseisms, the Monte Nuovo
Eruption and Ensuing Earthquakes (Twelfth century 1582 AD). Bull. Volcanol.
73, 655–677. doi:10.1007/s00445-010-0430-3
Guidoboni, E. (2008). Vesuvius: A Historical Approach to the 1631 Eruption “Cold
Data” from the Analysis of Three Contemporary Treatises. J. Volcanology
Geothermal Res. 178, 347–358. doi:10.1016/j.jvolgeores.2008.09.020
Hotovec-Ellis, A. J., Shelly, D. R., Hill, D. P., Pitt, A. M., Dawson, P. B., and Chouet,
B. A. (2018). Deep Fluid Pathways beneath Mammoth Mountain, California,
Illuminated by Migrating Earthquake Swarms. Sci. Adv. 4 (8), eaat5258.
doi:10.1126/sciadv.aat5258
Iannaccone, G., Guardato, S., Donnarumma, G. P., De Martino, P., Dolce, M.,
Macedonio, G., et al. (2018). Measurement of Seafloor Deformation in the
marine Sector of the Campi Flegrei Caldera (Italy). J. Geophys. Res. Solid Earth
123, 66–83. doi:10.1002/2017JB014852
Imbò, G., Casertano, L., and Bonasia, V. (1964). Considerazioni
sismogravimetriche sulle manifestazioni vesuviane del Maggio 1964. Annali
Osservatorio Vesuviano 6, 177–188.
Imbò, G. (1964). Recenti Manifestazioni Dell’attività Vesuviana. Atti Accademia
Pontiniana 13, 3–6.
Imbò, G. (1954). Sismicità del parossismo Vesuviano del marzo 1944. Annali
Osservatorio Vesuviano, Napoli, Italy 1, 1–211.
Improta, L., and Corciulo, M. (2006). Controlled Source Nonlinear Tomography: A
Powerful Tool to Constrain Tectonic Models of the Southern Apennines
Orogenic Wedge, Italy. Geol 34, 941–944. doi:10.1130/G22676A.1
Inguaggiato, S., Pecoraino, G., and D’Amore, F. (2000). Chemical and Isotopical
Characterisation of Fluid Manifestations of Ischia Island (Italy). J. Volcanology
Geothermal Res. 99, 151–178. doi:10.1016/S0377-0273(00)00158-X
Johnson, C. E. (2020). Beyond Earthworm: Keeping the Promise. Seismol. Res. Lett.
91, 581–584. doi:10.1785/0220190198
Johnson, C. E., Bittenbinder, A., Bogaert, B., Dietz, L., and Kohler, W. (1995).
Newsletter April, 1995. Anesth. Hist. Assoc. Newsl. 13, 1–16. doi:10.1016/s1089-
9634(95)50110-0
Krischer, L., Megies, T., Barsch, R., Beyreuther, M., Lecocq, T., Caudron, C., et al.
(2015). ObsPy: A Bridge for Seismology into the Scientific Python Ecosystem.
Comput. Sci. Disc. 8 (1), 014003. doi:10.1088/1749-4699/8/1/014003
Lee, W. H. K., and Lahr, J. C. (1975). HYPO71 (Revised): A Computer Program for
Determining Hypocenter, Magnitude and First Motion Pattern of Local
Earthquakes. U.S. Geol. Surv. Open-File Rep. 75-311, 116. doi:10.3133/ofr75311
Luongo, G., Carlino, S., Cubellis, E., Delizia, I., and Obrizzo, F. (2012).
Casamicciola 1883 - Il sisma tra interpretazione scientifica e scelte politiche.
Naples, Italy: Bibliopolis, 282.
Luongo, G., Cubellis, E., and Obrizzo, F. (1987). Ischia storia di un’isola vulcanica.
Napoli: Liguori Editore, 164.
Macedonio, G., Giudicepietro, F., D’Auria, L., and Martini, M. (2014). Sill Intrusion
as a Source Mechanism of Unrest at Volcanic Calderas. J. Geophys. Res. Solid
Earth 119, 3986–4000. doi:10.1002/2013JB010868
Manzo, M., Ricciardi, G. P., Casu, F., Ventura, G., Zeni, G., Borgström, S., et al.
(2006). Surface Deformation Analysis in the Ischia Island (Italy) Based on
Spaceborne Radar Interferometry. J. Volcanology Geothermal Res. 151,
399–416. doi:10.1016/j.jvolgeores.2005.09.010
Marturano, A. (2006). “Chapter 4 Geophysical Precursors at Vesuvius from
Historical and Archeological Sources,” in Vesuvius, Education, Security and
prosperity. Editor F. Dobran (Elsevier), 249–263. doi:10.1016/s1871-644x(06)
80008-2
Marturano, A., and Scaramella, P. (1998). “The Role of Primary Sources in
Reconstructing the History of Volcanoes: the Eruption of Vesuvius in
1631,” in Volcanoes and History. Editor N. Morello (Genova, Italy: Brigati),
281–299.
Niccolini, A. (1846). Descrizione della gran Terma Puteolana volgarmente detta
Tempio di Serapide. Napoli: Forgotten Books.
Niccolini, A. (1829). Rapporto sulle acque che invadono il pavimento dell’antico
edifizio detto Tempio di Serapide. Napoli: Stamperia Reale.
Niccolini, A. (1839). Tavola metrica cronologica delle varie altezze tracciate dalla
superficie del mare tra la costa di Amalfi ed il promontorio di Gaeta nel corso di
diciannove secoli. Napoli: dalla tipografia Flautina.
Nunziata, C. (2010). Low Shear-Velocity Zone in the Neapolitan-Area Crust
between the Campi Flegrei and Vesuvio Volcanic Areas. Terra Nova 22,
208–217. doi:10.1111/j.1365-3121.2010.00936.x
Orsi, G., Civetta, L., Del Gaudio, C., de Vita, S., Di Vito, M. A., Isaia, R., et al. (1999).
Short-term Ground Deformations and Seismicity in the Resurgent Campi
Flegrei Caldera (Italy): an Example of Active Block-Resurgence in a Densely
Populated Area. J. Volcanology Geothermal Res. 91, 415–451. doi:10.1016/
S0377-0273(99)00050-5
Orsi, G., Gallo, G., and Zanchi, A. (1991). Simple-shearing Block Resurgence in
Caldera Depressions. A Model from Pantelleria and Ischia. J. Volcanology
Geothermal Res. 47, 1–11. doi:10.1016/0377-0273(91)90097-J
Orsi, G., Piochi, M., Campajola, L., D’Onofrio, A., Gialanella, L., and Terrasi, F.
14(1996). C Geochronological Constraints for the Volcanic History of the Island
of Ischia (Italy) over the Last 5000 Years. J. Volcanol. Geotherm. Res. 71,
249–257. doi:10.1016/0377-0273(95)00067-4-X
Paige, C. C., and Saunders, M. A. (1982). LSQR: Sparse Linear Equations and Least
Squares Problems. ACM Trans. Math. Softw. 8/2, 195–209. doi:10.1145/
355993.356000
Panichi, C., Bolognesi, L., Ghiara, M. R., Noto, P., and Stanzione, D. (1992).
Geothermal Assessment of the Island of Ischia (Southern Italy) from Isotopic
and Chemical Composition of the Delivered Fluids. J. Volcanol. Geotherm. Res.
49, 329–348. doi:10.1016/0377-0273(92)90021-5
Pappalardo, L., D’Auria, L., Cavallo, A., and Fiore, S. (2014). Petrological and
Seismic Precursors of the Paroxysmal Phase of the Last Vesuvius Eruption on
March 1944. Sci. Rep. 4, 6297. doi:10.1038/srep06297
Pappalardo, L., and Mastrolorenzo, G. (2012). Rapid Differentiation in a Sill-like
Magma Reservoir: A Case Study from the Campi Flegrei Caldera. Sci. Rep. 2,
712. doi:10.1038/srep00712
Passaro, S., Tamburrino, S., Vallefuoco, M., Gherardi, S., Sacchi, M., and Ventura, G.
(2016). High-resolution Morpho-Bathymetry of the Gulf of Naples, Eastern
Tyrrhenian Sea. J. Maps 12 (Suppl. 1), 203–210. doi:10.1080/17445647.2016.1191385
Peccerillo, A. (2020). “Campania Volcanoes: Petrology, Geochemistry, and
Geodynamic Significance,” in Vesuvius, Campi Flegrei, and Campanian
Volcanism. Editors B. De Vivo, H. E. Belkin, and G. Rolandi (Elsevier),
79–120. doi:10.1016/B978-0-12-816454-9.00005-5
Reasenberg, P. A., and Oppenheimer, D. (1985). FPFIT, FPPLOT, and FPPAGE:
Fortran Computer Programs for Calculating and Displaying Earthquake Fault-
Plane Solutions. U.S. Geol. Surv. Open-file Rept. 109, 85–739.
Ricco, C., Petrosino, S., Aquino, I., Cusano, P., and Madonia, P. (2021). Tracking the
Recent Dynamics of Mt. Vesuvius from Joint Investigations of Ground Deformation,
Seismicity and Geofluid Circulation. Sci. Rep. 11, 965. doi:10.1038/s41598-020-79636-w
Rosi, M., and Sbrana, R. (1987). Phlegraean Fields of Quaderni de La Ricerca
Scientifica. Roma: CNR 114, 175.
Saccorotti, G., Bianco, F., Castellano, M., and Del Pezzo, E. (2001). The July-August
2000 Seismic Swarms at Campi Flegrei Volcanic Complex, Italy. Geophys. Res.
Lett. 28, 2525–2528. doi:10.1029/2001GL013053
Scandone, R., and Giacomelli, L. (2008). Precursors of Eruptions at Vesuvius (Italy).
J. Volcanol. Geotherm. Res. 171, 191–200. doi:10.1016/j.jvolgeores.2007.11.018
Scandone, R. (1987). Somma-Vesuvius, vol. 114 of Quaderni de La Ricerca
Scientifica. Roma: Consiglio Nazionale delle Ricerche, 230.
Scarpati, C., Perrotta, A., Lepore, S., and Calvert, A. (2013). Eruptive History of
Neapolitan Volcanoes: Constraints from 40Ar–39Ar Dating. Geol. Mag. 150
(3), 412–425. doi:10.1017/s0016756812000854
Selva, J., Azzaro, R., Taroni, M., Tramelli, A., Alessio, G., Castellano, M., et al.
(2021). The Seismicity of Ischia Island, Italy: an Integrated Earthquake
Catalogue from 8th century BC to 2019 and its Statistical Properties. Front.
Earth Sci. 9, 203. doi:10.3389/feart.2021.629736
Sigurdsson, H., Carey, S., Cornell, W., and Pescatore, T. (1985). The Eruption of
Vesuvius in A.D. 79. Natl. Geogr. Res. 1, 332–387.
Sulpizio, R., Mele, D., Dellino, P., and La Volpe, L. (2005). A Complex, Subplinian-
type Eruption from Low-Viscosity Tephritic to Tephritic-Phonolitic Magma:
the AD 472 (Pollena) Eruption of Somma-Vesuvius, Italy. Bull. Volcanol. 67,
673–767. doi:10.1007/s00445-005-0414-x
Tamburello, G., Caliro, S., Chiodini, G., De Martino, P., Avino, R., Minopoli, C.,
et al. (2019). Escalating CO2 Degassing at the Pisciarelli Fumarolic System, and
Implications for the Ongoing Campi Flegrei Unrest. J. Volcanol. Geotherm. Res.
384, 151–157. doi:10.1016/j.jvolgeores.2019.07.005-X
Tammaro, U., De Martino, P., Obrizzo, F., Brandi, G., D’Alessandro, A., Dolce, M.,
et al. (2013). Somma Vesuvius Volcano: Ground Deformations from CGPS
Observations. Ann. Geophys-italy 56, S0456. doi:10.4401/ag-6462
Torrente, M. M., and Milia, A. (2013). Volcanism and Faulting of the Campania
Margin (Eastern Tyrrhenian Sea, Italy): a Three-Dimensional Visualization of a
New Volcanic Field off Campi Flegrei. Bull. Volcanology 75 (6), 1–13.
doi:10.1007/s00445-013-0719-0
Tramelli, A., Godano, C., Ricciolino, P., Giudicepietro, F., Caliro, S., Orazi, M., et al.
(2021). Statistics of Seismicity to Investigate the Campi Flegrei Caldera Unrest.
Sci. Rep. 11, 1. doi:10.1038/s41598-021-86506-6
Trasatti, E., Acocella, V., Di Vito, A., Del Gaudio, C., Weber, G., Aquino, I., et al.
(2019). Magma Degassing as a Source of Long-Term Seismicity at Volcanoes:
The Ischia Island (Italy) Case. Geophys. Res. Lett. 46, 14421–14429. doi:10.1029/
2019GL085371
Vezzoli, L. (1988). Island of Ischia, vol. 114 of Quaderni de “La Ricerca Scientifica”.
Roma: Consiglio Nazionale delle Ricerche.
Waldhauser, F., and Ellsworth, W. L. (2000). A Double-Difference Earthquake
Location Algorithm: Method and Application to the Northern Hayward Fault,
California. BSSA 90, 1353–1368. doi:10.1785/0120000006
White, R. S., Drew, J., Martens, H. R., Key, J., Soosalu, H., and Jakobsdóttir, S. S.
(2011). Dynamics of Dyke Intrusion in the Mid-crust of Iceland. Earth Planet.
Sci. Lett. 304 (3-4), 300–312. doi:10.1016/j.epsl.2011.02.038
Wiemer, S., and Benoit, J. P. (1996). Mapping the B-value Anomaly at 100 Km
Depth in the Alaska and New Zealand Subduction Zones. Geophys. Res. Lett. 23
(13), 1557–1560. doi:10.1029/96gl01233
Zollo, A., Maercklin, N., Vassallo, M., Dello Iacono, D., Virieux, J., and Gasparini,
P. (2008). Seismic Reflections Reveal a Massive Melt Layer Feeding Campi
Flegrei Caldera. Geophys. Res. Lett. 35, L12306. doi:10.1029/2008GL034242
Tectonics during Resurgent Doming: the Case of the Island of Ischia, Italy.
J. Volcanology Geothermal Res. 88, 109–123. doi:10.1016/S0377-0273(98)
00109-7
Acocella, V., and Funiciello, R. (2006). Transverse Systems along the Extensional
Tyrrhenian Margin of central Italy and Their Influence on Volcanism. Tectonics
25 (2). doi:10.1029/2005tc001845
Aiuppa, A., Avino, R., Brusca, L., Caliro, S., Chiodini, G., D’Alessandro, W., et al.
(2006). Mineral Control of Arsenic Content in thermal Waters from Volcano-
Hosted Hydrothermal Systems: Insights from Island of Ischia and Phlegrean
Fields (Campanian Volcanic Province, Italy). Chem. Geology 229, 313–330.
doi:10.1016/J.CHEMGEO.2005.11.004
Aki, K. (1965). Maximum Likelihood Estimate of B in the Formula Log N a-b M
and its Confidence Limits. Bull. Earthquake Res. Inst. 43, 237–239.
Albert, P. G., Giaccio, B., Isaia, R., Costa, A., Niespolo, E. M., Nomade, S., et al.
(2019). Evidence for a Large-Magnitude Eruption from Campi Flegrei Caldera
(Italy) at 29 Ka. Geology 47, 595–599. doi:10.1130/G45805.1
Alfano, G. B., and Friedlaender, I. (1929). La storia del Vesuvio illustrata dai
documenti coevi. Ulm a.d. Donau, Germany: Karl Hohn, 69.
Amoruso, A., Crescentini, L., and Sabbetta, I. (2014). Paired Deformation Sources
of the Campi Flegrei Caldera (Italy) Required by Recent (1980-2010)
Deformation History. J. Geophys. Res. Solid Earth 119, 858–879.
doi:10.1002/2013JB010392
Arnò, V., Principe, C., Rosi, M., Santacroce, R., Sbrana, A., and Sheridan, M. F.
(1987). “Eruptive History,” in Somma- Vesuvius, Quaderni de La Ricerca
Scientifica. Editor R. Santacroce (Roma: CNR), 53–103.
Auger, E., Gasparini, P., Virieux, J., and Zollo, A. (2001). Seismic Evidence of an
Extended Magmatic Sill under Mt. Vesuvius. Science 294, 1510–1512.
doi:10.1126/science.1064893
Babbage, C. (1847). Observations on the temple of Serapis, at Pozzuoli, Near
Naples, with Remarks on Certain Causes Which May Produce Geological
Cycles of Great Extent. Q. J. Geol. Soc. 3, 186–217. doi:10.1144/
GSL.JGS.1847.003.01-02.22
Baratta, M. (1897). Il Vesuvio e le sue eruzioni. Roma: Società Editrice Dante
Alighieri, 203.
Barbieri, M., Di Girolamo, P., Locardi, E., Lombardi, G., and Stanzione, D. (1979).
Petrology of the Calc-Alkaline Volcanics of the Parete 2 Well (Campania, Italy).
Period. Mineral. 48, 53–74.
Berrino, G., Corrado, G., and Riccardi, U. (1998). Sea Gravity Data in the Gulf of
Naples: a Contribution to Delineating the Structural Pattern of the Vesuvian
Area. J. Volcanology Geothermal Res. 82, 139–150. doi:10.1016/S0377-0273(97)
00061-9
Berrino, G., Corrado, G., and Riccardi, U. (2008). Sea Gravity Data in the Gulf of
Naples. A Contribution to Delineating the Structural Pattern of the Phlegraean
Volcanic District. J. Volcanology Geothermal Res. 175, 241–252. doi:10.1016/
j.jvolgeores.2008.03.007
Bonafede, M. (1991). Hot Fluid Migration: an Efficient Source of Ground
Deformation: Application to the 1982-1985 Crisis at Campi Flegrei-Italy.
J. Volcanology Geothermal Res. 48, 187–198. doi:10.1016/0377-0273(91)
90042-x
Borgia, A., Tizzani, P., Solaro, G., Manzo, M., Casu, F., Luongo, G., et al. (2005).
Volcanic Spreading of Vesuvius, a New Paradigm for Interpreting its Volcanic
Activity. Geophys. Res. Lett. 32, L03303. doi:10.1029/2004GL022155
Braccini, G. C. (1632). Dell’incendio fattosi al Vesuvio XVI Dicembre 1631, e delle
sue cause ed effetti (Napoli: S. Roncagliolo).
Brocchini, D., Principe, C., Castradori, D., Laurenzi, M. A., and Gorla, L. (2001).
Quaternary Evolution of the Southern Sector of the Campanian Plain and Early
Somma-Vesuvius Activity: Insights from the Trecase 1 Well. Mineralogy Pet.
73, 67–91. doi:10.1007/s007100170011
Brown, R. J., Orsi, G., and de Vita, S. (2008). New Insights into Late Pleistocene
Explosive Volcanic Activity and Caldera Formation on Ischia (Southern Italy).
Bull. Volcanol. 70, 583–603. doi:10.1007/s00445-007-0155-0
Bruno, P. P. G., de Alteriis, G., and Florio, G. (2002). The Western Undersea
Section of the Ischia Volcanic Complex (Italy, Tyrrhenian Sea) Inferred by
marine Geophysical Data. Geophys. Res. Lett. 29, 57-1–57-4. doi:10.1029/
2001GL013904
Bruno, P. P. G., Rapolla, A., and Di Fiore, V. (2003). Structural Setting of the Bay
of Naples (Italy) Seismic Reflection Data: Implications for Campanian
Volcanism. Tectonophysics 372 (3-4), 193–213. doi:10.1016/s0040-
1951(03)00327-5
Caliro, S., Chiodini, G., Avino, R., Minopoli, C., and Bocchino, B. (2011). Long
Time-Series of Chemical and Isotopic Compositions of Vesuvius Fumaroles:
Evidence for Deep and Shallow Processes. Ann. Geophys-italy 54, 137–149.
doi:10.4401/ag-5034
Caliro, S., Chiodini, G., Moretti, R., Avino, R., Granieri, D., Russo, M., et al. (2007).
The Origin of the Fumaroles of La Solfatara (Campi Flegrei, South Italy).
Geochimica et Cosmochimica Acta 71 (12), 3040–3055. doi:10.1016/
j.gca.2007.04.007
Cardellini, C., Chiodini, G., Frondini, F., Avino, R., Bagnato, E., Caliro, S., et al.
(2017). Monitoring Diffuse Volcanic Degassing during Volcanic Unrests: the
Case of Campi Flegrei (Italy). Sci. Rep. 7, 6757. doi:10.1038/s41598-017-
06941-2
Carlino, S., Cubellis, E., Luongo, G., and Obrizzo, F. (2006). “On the Mechanics of
Caldera Resurgence of Ischia Island (Southern Italy),” in Mechanisms of Activity
and Unrest at Large Calderas. Editors C. Troise, G. De Natale, and
C. R. J. Kilburn (London: Geological Society), 269, 181–193. doi:10.1144/
GSL.SP.2006.269.01.12
Carlino, S., Pino, N. A., Tramelli, A., De Novellis, V., and Convertito, V. (2021). A
Common Source for the Destructive Earthquakes in the Volcanic Island of
Ischia (Southern Italy): Insights from Historical and Recent Seismicity. Nat.
Hazards 2021, 1–25. doi:10.1007/s11069-021-04675-z
Carlino, S. (2012). The Process of Resurgence for Ischia Island (Southern Italy)
since 55 Ka: the Laccolith Model and Implications for Eruption Forecasting.
Bull. Volcanol. 74, 947–961. doi:10.1007/s00445-012-0578-0
Chiodini, G., Avino, R., Brombach, T., Caliro, S., Cardellini, C., de Vita, S., et al.
(2004). Fumarolic and Diffuse Soil Degassing West of Mount Epomeo, Ischia,
Italy. J. Volcanology Geothermal Res. 133, 291–309. doi:10.1016/S0377-
0273(03)00403-7
Chiodini, G., Caliro, S., Avino, R., Bini, G., Giudicepietro, F., De Cesare, W., et al.
(2021). Hydrothermal Pressure-Temperature Control on CO2 Emissions and
Seismicity at Campi Flegrei (Italy). J. Volcano. Geotherm. Res. 414, 107245.
doi:10.1016/j.jvolgeores.2021.107245
Chiodini, G., Caliro, S., De Martino, P., Avino, R., and Gherardi, F. (2012). Early
Signals of New Volcanic Unrest at Campi Flegrei Caldera? Insights from
Geochemical Data and Physical Simulations. Geology 40, 943–946.
doi:10.1130/G33251.1
Chiodini, G. (2009). CO2/CH4 Ratio in Fumaroles a Powerful Tool to Detect
Magma Degassing Episodes at Quiescent Volcanoes. Geophys. Res. Lett. 36,
L02302. doi:10.1029/2008GL036347-X
Chiodini, G., Frondini, F., Cardellini, C., Granieri, D., Marini, L., and Ventura, G.
(2001a). CO2 degassing and Energy Release at Solfatara Volcano, Campi
Flegrei, Italy. J. Geophys. Res. 106, 16213–16221. doi:10.1029/2001JB000246-X
Chiodini, G., Giudicepietro, F., Vandemeulebrouck, J., Aiuppa, A., Caliro, S., De
Cesare, W., et al. (2017a). Fumarolic Tremor and Geochemical Signals during a
Volcanic Unrest. Geology 45, 1131–1134. doi:10.1130/G39447.1
Chiodini, G., Marini, L., and Russo, M. (2001b). Geochemical Evidence for the
Existence of High-Temperature Hydrothermal Brines at Vesuvio Volcano,
Italy. Geochimica et Cosmochimica Acta 65, 2129–2147. doi:10.1016/S0016-
7037(01)00583-X
Chiodini, G., Paonita, A., Aiuppa, A., Costa, A., Caliro, S., De Martino, P., et al.
(2016). Magmas Near the Critical Degassing Pressure Drive Volcanic Unrest
towards a Critical State. Nat. Commun. 7, 13712. doi:10.1038/ncomms13712
Chiodini, G., Selva, J., Del Pezzo, E., Marsan, D., De Siena, L., D’Auria, L., et al.
(2017b). Clues on the Origin of post-2000 Earthquakes at Campi Flegrei
Caldera (Italy). Sci. Rep. 7, 4472. doi:10.1038/s41598-017-04845-9
Chouet, B. A., and Matoza, R. S. (2013). A Multi-Decadal View of Seismic Methods
for Detecting Precursors of Magma Movement and Eruption. J. Volcanology
Geothermal Res. 252, 108–175. doi:10.1016/j.jvolgeores.2012.11.013
Civetta, L., Gallo, G., and Orsi, G. (1991). Sr- and Nd-Isotope and Trace-Element
Constraints on the Chemical Evolution of the Magmatic System of Ischia (Italy)
in the Last 55 Ka. J. Volcanology Geothermal Res. 46, 213–230. doi:10.1016/
0377-0273(91)90084-D
Conticelli, S., Laurenzi, M. A., Giordano, G., Mattei, M., Avanzinelli, R., Melluso,
L., et al. (2010). “Leucite-bearing (Kamafugitic/leucititic) and -free (Lamproitic)
Ultrapotassic Rocks and Associated Shoshonites from Italy: Constraints on
Petrogenesis and Geodynamics,” in The Geology of Italy: Tectonics and Life
along Plate Margins. Editors M. Beltrando, A. Peccerillo, M. Mattei,
S. Conticelli, and C. Doglioni (Clear Range, NSW, Australia: Journal of the
Virtual Explorer), 1–95. doi:10.3809/jvirtex.2010.00251
Cubellis, E., Carlino, S., Iannuzzi, R., Luongo, G., and Obrizzo, F. (2004).
Management of Historical Seismic Data Using GIS: The Island of Ischia
(Southern Italy). Nat. Hazards 33, 379–393. doi:10.1023/B:NHAZ.0000048465.40413.17
Cubellis, E., Del Gaudio, C., Ferri, M., Grimaldi, M., Obrizzo, F., Ricco, C., et al.
(1991). Gravity Anomalies in the Campanian Plain (Southern Italy) and Their
Volcano-Tectonic Implications. Acta Vulcanol 1, 57–62.
Cubellis, E., Di Donna, G., Luongo, G., and Mazzarella, A. (2002). Simulating the
Mechanism of Magmatic Processes in the Campi Flegrei Area (Southern Italy)
by the Lorenz Equations. J. Volcanology Geothermal Res. 115, 339–349.
doi:10.1016/S0377-0273(01)00330-4
Cubellis, E., Ferri, M., and Luongo, G. (1995). Internal Structures of the Campi
Flegrei Caldera by Gravimetric Data. J. Volcanology Geothermal Res. 65,
147–156. doi:10.1016/0377-0273(94)00047-K
Cubellis, E., and Luongo, G. (2018). History of Ischian Earthquakes. Napoli, Italy:
Bibliopolis, 140.
Cubellis, E., and Luongo, G. (1998). “Il Contesto Fisico,” in AAVV., Il terremoto del
28 luglio 1883 a Casamicciola nell’isola d’Ischia, Presidenza del Consiglio dei
Ministri - Servizio Sismico Nazionale (Roma: Istituto Poligrafico e Zecca dello
Stato), 49–123.
Cubellis, E., Luongo, G., and Marturano, A. (2007). Seismic hazard Assessment at
Mt. Vesuvius: Maximum Expected Magnitude. J. Volcanology Geothermal Res.
162, 139–148. doi:10.1016/j.jvolgeores.2007.03.003
Cubellis, E., Luongo, G., Obrizzo, F., Sepe, V., and Tammaro, U. (2020).
Contribution to Knowledge Regarding the Sources of Earthquakes on the
Island of Ischia (Southern Italy). Nat. Hazards 100, 955–994. doi:10.1007/
s11069-019-03833-8
Cubellis, E., and Marturano, A. (2013). Felt index, Source Parameters and Ground
Motion Evaluation for Earthquakes at Mt. Vesuvius. Volume Speciale "Mt.
Vesuvius Monitoring: the State of the Art and Perspectives. Ann. Geophys. 56
(4), S0439. doi:10.4401/ag-6445
Cubellis, E., and Marturano, A. (2002). Mt. Vesuvius: a Macroseismic Study of the
Earthquake of 9 October 1999. J. Volcanology Geothermal Res. 118, 339–351.
doi:10.1016/S0377-0273(02)00301-3
Cubellis, E., Marturano, A., and Pappalardo, L. (2013). Le ceneri distali
dell’eruzione del Vesuvio del marzo 1944 raccolte a Devoli (Albania). Quad.
Geofis. 113, 1–35.
Cubellis, E., Marturano, A., and Pappalardo, L. (2016). The Last Vesuvius Eruption
in March 1944: Reconstruction of the Eruptive Dynamic and its Impact on the
Environment and People through Witness Reports and Volcanological
Evidence. Nat. Hazards 82 (1), 95–121. doi:10.1007/s11069-016-2182-7
Cusano, P., Petrosino, S., Bianco, F., and Del Pezzo, E. (2013). The First Long Period
Earthquake Detected in the Background Seismicity at Mt. Vesuvius. Ann.
Geophys. 55 (4), S0440. doi:10.4401/ag-6447
D’Auria, L., Giudicepietro, F., Aquino, I., Borriello, G., Del Gaudio, C., Lo Bascio,
D., et al. (2011). Repeated Fluid-Transfer Episodes as a Mechanism for the
Recent Dynamics of Campi Flegrei Caldera (1989-2010). J. Geophys. Res. 116,
B04313. doi:10.1029/2010JB007837
D’Auria, L., Giudicepietro, F., Tramelli, A., Ricciolino, P., Bascio, D. L., Orazi, M.,
et al. (2018). The Seismicity of Ischia Island. Seismol. Res. Lett. 89, 1750–1760.
doi:10.1785/0220180084
D’Auria, L., Massa, B., and Matteo, A. D. (2014). The Stress Field beneath a
Quiescent Stratovolcano: The Case of Mount Vesuvius. J. Geophys. Res. Solid
Earth 119, 1181–1199. doi:10.1002/2013JB010792
D’Auria, L., and Massa, B. (2015). Stress Inversion of Focal Mechanism Data Using
a Bayesian Approach: A Novel Formulation of the Right Trihedra Method.
Seismological Res. Lett. 86, 968–977. doi:10.1785/0220140153
D’Auria, L., Esposito, A. M., Lo Bascio, D., Ricciolino, P., Giudicepietro, F., Martini,
M., et al. (2013). The Recent Seismicity of Mt. Vesuvius: Inference on
Seismogenic Processes. Ann. Geophys-italy 56, S0442. doi:10.4401/ag-6448
De Martino, P., Guardato, S., Donnarumma, G. P., Dolce, M., Trombetti, T.,
Chierici, F., et al. (2020). Four Years of Continuous Seafloor Displacement
Measurements in the Campi Flegrei Caldera. Front. Earth Sci. 8. doi:10.3389/
feart.2020.615178
De Martino, P., Tammaro, U., and Obrizzo, F. (2014). GPS Time Series at Campi
Flegrei Caldera (2000-2013). Ann. Geophys-italy 57, S0213. doi:10.4401/ag-
6431
De Martino, P., Tammaro, U., Obrizzo, F., Sepe, V., Brandi, G., D’Alessandro, A.,
et al. (2011). La rete GPS dell’isola d’Ischia: deformazioni del suolo in un’area
vulcanica attiva (1998-2010). Quad. Geofis. 95, 61..
De Natale, G., Troise, C., Pingue, F., Mastrolorenzo, G., Pappalardo, L., Battaglia,
M., et al. (2006b). “The Campi Flegrei Caldera: Unrest Mechanisms and
Hazards,” in Mechanisms of Activity and Unrest at Large Calderas. Editors
C. Troise, G. De Natale, and C. R. J. Kilburn (London: Geological Society), 269,
25–45. doi:10.1144/gsl.sp.2006.269.01.03Geol. Soc. Lond. Spec. Publications
De Novellis, V., Carlino, S., Castaldo, R., Tramelli, A., De Luca, C., Pino, N. A., et al.
(2018). The 21 August 2017 Ischia (Italy) Earthquake Source Model Inferred
from Seismological, GPS, and DInSAR Measurements. Geophys. Res. Lett. 45,
2193–2202. doi:10.1002/2017GL076336
de Vita, S., Sansivero, F., Orsi, G., Marotta, E., and Piochi, M. (2010).
Volcanological and Structural Evolution of the Ischia Resurgent Caldera
(Italy) over the Past 10 k.Y. Geol. Soc. Am. Spec. Paper 464, 193–241.
doi:10.1130/2010.2464(10
De Vivo, B., Rolandi, G., Gans, P. B., Calvert, A., Bohrson, W. A., Spera, F. J., et al.
(2001). New Constraints on the Pyroclastic Eruptive History of the Campanian
Volcanic Plain (Italy). Mineralogy Pet. 73, 47–65. doi:10.1007/s007100170010
Deino, A. L., Orsi, G., de Vita, S., and Piochi, M. (2004). The Age of the Neapolitan
Yellow Tuff Caldera-Forming Eruption (Campi Flegrei Caldera - Italy)
Assessed by 40Ar/39Ar Dating Method. J. Volcanology Geothermal Res. 133,
157–170. doi:10.1016/S0377-0273(03)00396-2
Del Gaudio, C., Aquino, I., Ricciardi, G. P., Ricco, C., and Scandone, R. (2010).
Unrest Episodes at Campi Flegrei: A Reconstruction of Vertical Ground
Movements during 1905-2009. J. Volcanology Geothermal Res. 195, 48–56.
doi:10.1016/j.jvolgeores.2010.05.014
Del Gaudio, C., Aquino, I., Ricco, C., Sepe, V., and Serio, C. (2011). Monitoraggio
geodetico dell’isola d’Ischia: risultati della livellazione geometrica di precisione
eseguita a giugno 2010. Quad. Geofis. 87, 1–20.
Del Pezzo, E., Chiodini, G., Caliro, S., Bianco, F., and Avino, R. (2013). New
Insights into Mt. Vesuvius Hydrothermal System and its Dynamic Based on a
Critical Review of Seismic Tomography and Geochemical Features. Ann.
Geophys-italy 56, S0444. doi:10.4401/ag-6450
Denatale, G., Troise, C., Pingue, F., Mastrolorenzo, G., and Pappalardo, L. (2006a).
The Somma-Vesuvius Volcano (Southern Italy): Structure, Dynamics and
hazard Evaluation. Earth-Science Rev. 74, 73–111. doi:10.1016/
j.earscirev.2005.08.001
Devoti, R., De Martino, P., Pietrantonio, G., and Dolce, M. (2018). Coseismic
Displacements on Ischia Island, Real-Time GPS Positioning Constraints on
Earthquake Source Location. Ann. Geophys-italy 61, SE337. doi:10.4401/ag-7656
Di Napoli, R., Aiuppa, A., Bellomo, S., Brusca, L., D’Alessandro, W., Candela, E. G.,
et al. (2009). A Model for Ischia Hydrothermal System: Evidences from the
Chemistry of thermal Groundwaters. J. Volcanology Geothermal Res. 186,
133–159. doi:10.1016/j.jvolgeores.2009.06.005
Di Renzo, V., Di Vito, M. A., Arienzo, I., Carandente, A., Civetta, L., D’antonio, M.,
et al. (2007). Magmatic History of Somma-Vesuvius on the Basis of New
Geochemical and Isotopic Data from a Deep Borehole (Camaldoli Della Torre).
J. Pet. 48, 753–784. doi:10.1093/petrology/egl081
Di Vito, M. A., Acocella, V., Aiello, G., Barra, D., Battaglia, M., Carandente, A., et al.
(2016). Magma Transfer at Campi Flegrei Caldera (Italy) before the 1538 AD
Eruption. Sci. Rep. 6, 32245. doi:10.1038/srep32245
Endo, E. T., and Murray, T. (1991). Real-time Seismic Amplitude Measurement
(RSAM): A Volcano Monitoring and Prediction Tool. Bull. Volcanol 53,
533–545. doi:10.1007/BF00298154
Esposito, A. M., Alaia, G., Giudicepietro, F., Pappalardo, L., and D’Antonio, M.
(2020a). “Unsupervised Geochemical Analysis of the Eruptive Products of
Ischia, Vesuvius and Campi Flegrei,” in Progresses in Artificial Intelligence and
Neural Systems. 189. Editors A. Esposito, M. Faundez-Zanuy, F. Morabito, and
E. Pasero (Singapore: Springer), 175–184. doi:10.1007/978-981-15-5093-5_17
Esposito, A. M., De Bernardo, A., Ferrara, S., Giudicepietro, F., and Pappalardo, L.
(2020b). “SOM-based Analysis of Volcanic Rocks: An Application to Somma-
Vesuvius and Campi Flegrei Volcanoes (Italy),” in Neural Approaches to
Dynamics of Signal Exchanges. 151. Editors A. Esposito, M. Faundez-Zanuy,
F. Morabito, and E. Pasero (Singapore: Springer), 55–60. doi:10.1007/978-981-
13-8950-4_6
Frondini, F., Chiodini, G., Caliro, S., Cardellini, C., Granieri, D., and Ventura, G.
(2004). Diffuse CO2 Degassing at Vesuvio, Italy. Bull. Volcanol 66 (7), 642–651.
doi:10.1007/s00445-004-0346-x
Gebauer, S. K., Schmitt, A. K., Pappalardo, L., Stockli, D. F., and Lovera, O. M.
(2014). Crystallization and Eruption Ages of Breccia Museo (Campi Flegrei
Caldera, Italy) Plutonic Clasts and Their Relation to the Campanian Ignimbrite.
Contrib. Mineral. Petrol. 167, 953. doi:10.1007/s00410-013-0953-7
Giudicepietro, F., Chiodini, G., Avino, R., Brandi, G., Caliro, S., De Cesare, W., et al.
(2021). Tracking Episodes of Seismicity and Gas Transport in Campi Flegrei
Caldera through Seismic, Geophysical, and Geochemical Measurements.
Seismol. Res. Lett. 92, 965–975. (in press). doi:10.1785/0220200223
Giudicepietro, F., Chiodini, G., Caliro, S., De Cesare, W., Esposito, A. M., Galluzzo,
D., et al. (2019). Insight into Campi Flegrei Caldera Unrest through Seismic
Tremor Measurements at Pisciarelli Fumarolic Field. Geochem. Geophys.
Geosyst. 20, 5544–5555. doi:10.1029/2019GC008610
Giudicepietro, F., Macedonio, G., D’Auria, L., and Martini, M. (2016). Insight
into Vent Opening Probability in Volcanic Calderas in the Light of a Sill
Intrusion Model. Pure Appl. Geophys. 173, 1703–1720. doi:10.1007/s00024-
015-1190-y
Giudicepietro, F., Macedonio, G., and Martini, M. (2017). A Physical Model of Sill
Expansion to Explain the Dynamics of Unrest at Calderas with Application to
Campi Flegrei. Front. Earth Sci. 5, 1–11. doi:10.3389/feart.2017.00054
Giudicepietro, F., Orazi, M., Scarpato, G., Peluso, R., D’Auria, L., Ricciolino, P.,
et al. (2010). Seismological Monitoring of Mount Vesuvius (Italy): More Than a
century of Observations. Seismological Res. Lett. 81, 625–634. doi:10.1785/gssrl/
81.4.62510.1785/gssrl.81.4.625
Greenfield, T., and White, R. S. (2015). Building Icelandic Igneous Crust by
Repeated Melt Injections. J. Geophys. Res. Solid Earth 120 (11), 7771–7788.
doi:10.1002/2015jb012009
Guidoboni, E., and Ciuccarelli, C. (2011). The Campi Flegrei Caldera: Historical
Revision and New Data on Seismic Crises, Bradyseisms, the Monte Nuovo
Eruption and Ensuing Earthquakes (Twelfth century 1582 AD). Bull. Volcanol.
73, 655–677. doi:10.1007/s00445-010-0430-3
Guidoboni, E. (2008). Vesuvius: A Historical Approach to the 1631 Eruption “Cold
Data” from the Analysis of Three Contemporary Treatises. J. Volcanology
Geothermal Res. 178, 347–358. doi:10.1016/j.jvolgeores.2008.09.020
Hotovec-Ellis, A. J., Shelly, D. R., Hill, D. P., Pitt, A. M., Dawson, P. B., and Chouet,
B. A. (2018). Deep Fluid Pathways beneath Mammoth Mountain, California,
Illuminated by Migrating Earthquake Swarms. Sci. Adv. 4 (8), eaat5258.
doi:10.1126/sciadv.aat5258
Iannaccone, G., Guardato, S., Donnarumma, G. P., De Martino, P., Dolce, M.,
Macedonio, G., et al. (2018). Measurement of Seafloor Deformation in the
marine Sector of the Campi Flegrei Caldera (Italy). J. Geophys. Res. Solid Earth
123, 66–83. doi:10.1002/2017JB014852
Imbò, G., Casertano, L., and Bonasia, V. (1964). Considerazioni
sismogravimetriche sulle manifestazioni vesuviane del Maggio 1964. Annali
Osservatorio Vesuviano 6, 177–188.
Imbò, G. (1964). Recenti Manifestazioni Dell’attività Vesuviana. Atti Accademia
Pontiniana 13, 3–6.
Imbò, G. (1954). Sismicità del parossismo Vesuviano del marzo 1944. Annali
Osservatorio Vesuviano, Napoli, Italy 1, 1–211.
Improta, L., and Corciulo, M. (2006). Controlled Source Nonlinear Tomography: A
Powerful Tool to Constrain Tectonic Models of the Southern Apennines
Orogenic Wedge, Italy. Geol 34, 941–944. doi:10.1130/G22676A.1
Inguaggiato, S., Pecoraino, G., and D’Amore, F. (2000). Chemical and Isotopical
Characterisation of Fluid Manifestations of Ischia Island (Italy). J. Volcanology
Geothermal Res. 99, 151–178. doi:10.1016/S0377-0273(00)00158-X
Johnson, C. E. (2020). Beyond Earthworm: Keeping the Promise. Seismol. Res. Lett.
91, 581–584. doi:10.1785/0220190198
Johnson, C. E., Bittenbinder, A., Bogaert, B., Dietz, L., and Kohler, W. (1995).
Newsletter April, 1995. Anesth. Hist. Assoc. Newsl. 13, 1–16. doi:10.1016/s1089-
9634(95)50110-0
Krischer, L., Megies, T., Barsch, R., Beyreuther, M., Lecocq, T., Caudron, C., et al.
(2015). ObsPy: A Bridge for Seismology into the Scientific Python Ecosystem.
Comput. Sci. Disc. 8 (1), 014003. doi:10.1088/1749-4699/8/1/014003
Lee, W. H. K., and Lahr, J. C. (1975). HYPO71 (Revised): A Computer Program for
Determining Hypocenter, Magnitude and First Motion Pattern of Local
Earthquakes. U.S. Geol. Surv. Open-File Rep. 75-311, 116. doi:10.3133/ofr75311
Luongo, G., Carlino, S., Cubellis, E., Delizia, I., and Obrizzo, F. (2012).
Casamicciola 1883 - Il sisma tra interpretazione scientifica e scelte politiche.
Naples, Italy: Bibliopolis, 282.
Luongo, G., Cubellis, E., and Obrizzo, F. (1987). Ischia storia di un’isola vulcanica.
Napoli: Liguori Editore, 164.
Macedonio, G., Giudicepietro, F., D’Auria, L., and Martini, M. (2014). Sill Intrusion
as a Source Mechanism of Unrest at Volcanic Calderas. J. Geophys. Res. Solid
Earth 119, 3986–4000. doi:10.1002/2013JB010868
Manzo, M., Ricciardi, G. P., Casu, F., Ventura, G., Zeni, G., Borgström, S., et al.
(2006). Surface Deformation Analysis in the Ischia Island (Italy) Based on
Spaceborne Radar Interferometry. J. Volcanology Geothermal Res. 151,
399–416. doi:10.1016/j.jvolgeores.2005.09.010
Marturano, A. (2006). “Chapter 4 Geophysical Precursors at Vesuvius from
Historical and Archeological Sources,” in Vesuvius, Education, Security and
prosperity. Editor F. Dobran (Elsevier), 249–263. doi:10.1016/s1871-644x(06)
80008-2
Marturano, A., and Scaramella, P. (1998). “The Role of Primary Sources in
Reconstructing the History of Volcanoes: the Eruption of Vesuvius in
1631,” in Volcanoes and History. Editor N. Morello (Genova, Italy: Brigati),
281–299.
Niccolini, A. (1846). Descrizione della gran Terma Puteolana volgarmente detta
Tempio di Serapide. Napoli: Forgotten Books.
Niccolini, A. (1829). Rapporto sulle acque che invadono il pavimento dell’antico
edifizio detto Tempio di Serapide. Napoli: Stamperia Reale.
Niccolini, A. (1839). Tavola metrica cronologica delle varie altezze tracciate dalla
superficie del mare tra la costa di Amalfi ed il promontorio di Gaeta nel corso di
diciannove secoli. Napoli: dalla tipografia Flautina.
Nunziata, C. (2010). Low Shear-Velocity Zone in the Neapolitan-Area Crust
between the Campi Flegrei and Vesuvio Volcanic Areas. Terra Nova 22,
208–217. doi:10.1111/j.1365-3121.2010.00936.x
Orsi, G., Civetta, L., Del Gaudio, C., de Vita, S., Di Vito, M. A., Isaia, R., et al. (1999).
Short-term Ground Deformations and Seismicity in the Resurgent Campi
Flegrei Caldera (Italy): an Example of Active Block-Resurgence in a Densely
Populated Area. J. Volcanology Geothermal Res. 91, 415–451. doi:10.1016/
S0377-0273(99)00050-5
Orsi, G., Gallo, G., and Zanchi, A. (1991). Simple-shearing Block Resurgence in
Caldera Depressions. A Model from Pantelleria and Ischia. J. Volcanology
Geothermal Res. 47, 1–11. doi:10.1016/0377-0273(91)90097-J
Orsi, G., Piochi, M., Campajola, L., D’Onofrio, A., Gialanella, L., and Terrasi, F.
14(1996). C Geochronological Constraints for the Volcanic History of the Island
of Ischia (Italy) over the Last 5000 Years. J. Volcanol. Geotherm. Res. 71,
249–257. doi:10.1016/0377-0273(95)00067-4-X
Paige, C. C., and Saunders, M. A. (1982). LSQR: Sparse Linear Equations and Least
Squares Problems. ACM Trans. Math. Softw. 8/2, 195–209. doi:10.1145/
355993.356000
Panichi, C., Bolognesi, L., Ghiara, M. R., Noto, P., and Stanzione, D. (1992).
Geothermal Assessment of the Island of Ischia (Southern Italy) from Isotopic
and Chemical Composition of the Delivered Fluids. J. Volcanol. Geotherm. Res.
49, 329–348. doi:10.1016/0377-0273(92)90021-5
Pappalardo, L., D’Auria, L., Cavallo, A., and Fiore, S. (2014). Petrological and
Seismic Precursors of the Paroxysmal Phase of the Last Vesuvius Eruption on
March 1944. Sci. Rep. 4, 6297. doi:10.1038/srep06297
Pappalardo, L., and Mastrolorenzo, G. (2012). Rapid Differentiation in a Sill-like
Magma Reservoir: A Case Study from the Campi Flegrei Caldera. Sci. Rep. 2,
712. doi:10.1038/srep00712
Passaro, S., Tamburrino, S., Vallefuoco, M., Gherardi, S., Sacchi, M., and Ventura, G.
(2016). High-resolution Morpho-Bathymetry of the Gulf of Naples, Eastern
Tyrrhenian Sea. J. Maps 12 (Suppl. 1), 203–210. doi:10.1080/17445647.2016.1191385
Peccerillo, A. (2020). “Campania Volcanoes: Petrology, Geochemistry, and
Geodynamic Significance,” in Vesuvius, Campi Flegrei, and Campanian
Volcanism. Editors B. De Vivo, H. E. Belkin, and G. Rolandi (Elsevier),
79–120. doi:10.1016/B978-0-12-816454-9.00005-5
Reasenberg, P. A., and Oppenheimer, D. (1985). FPFIT, FPPLOT, and FPPAGE:
Fortran Computer Programs for Calculating and Displaying Earthquake Fault-
Plane Solutions. U.S. Geol. Surv. Open-file Rept. 109, 85–739.
Ricco, C., Petrosino, S., Aquino, I., Cusano, P., and Madonia, P. (2021). Tracking the
Recent Dynamics of Mt. Vesuvius from Joint Investigations of Ground Deformation,
Seismicity and Geofluid Circulation. Sci. Rep. 11, 965. doi:10.1038/s41598-020-79636-w
Rosi, M., and Sbrana, R. (1987). Phlegraean Fields of Quaderni de La Ricerca
Scientifica. Roma: CNR 114, 175.
Saccorotti, G., Bianco, F., Castellano, M., and Del Pezzo, E. (2001). The July-August
2000 Seismic Swarms at Campi Flegrei Volcanic Complex, Italy. Geophys. Res.
Lett. 28, 2525–2528. doi:10.1029/2001GL013053
Scandone, R., and Giacomelli, L. (2008). Precursors of Eruptions at Vesuvius (Italy).
J. Volcanol. Geotherm. Res. 171, 191–200. doi:10.1016/j.jvolgeores.2007.11.018
Scandone, R. (1987). Somma-Vesuvius, vol. 114 of Quaderni de La Ricerca
Scientifica. Roma: Consiglio Nazionale delle Ricerche, 230.
Scarpati, C., Perrotta, A., Lepore, S., and Calvert, A. (2013). Eruptive History of
Neapolitan Volcanoes: Constraints from 40Ar–39Ar Dating. Geol. Mag. 150
(3), 412–425. doi:10.1017/s0016756812000854
Selva, J., Azzaro, R., Taroni, M., Tramelli, A., Alessio, G., Castellano, M., et al.
(2021). The Seismicity of Ischia Island, Italy: an Integrated Earthquake
Catalogue from 8th century BC to 2019 and its Statistical Properties. Front.
Earth Sci. 9, 203. doi:10.3389/feart.2021.629736
Sigurdsson, H., Carey, S., Cornell, W., and Pescatore, T. (1985). The Eruption of
Vesuvius in A.D. 79. Natl. Geogr. Res. 1, 332–387.
Sulpizio, R., Mele, D., Dellino, P., and La Volpe, L. (2005). A Complex, Subplinian-
type Eruption from Low-Viscosity Tephritic to Tephritic-Phonolitic Magma:
the AD 472 (Pollena) Eruption of Somma-Vesuvius, Italy. Bull. Volcanol. 67,
673–767. doi:10.1007/s00445-005-0414-x
Tamburello, G., Caliro, S., Chiodini, G., De Martino, P., Avino, R., Minopoli, C.,
et al. (2019). Escalating CO2 Degassing at the Pisciarelli Fumarolic System, and
Implications for the Ongoing Campi Flegrei Unrest. J. Volcanol. Geotherm. Res.
384, 151–157. doi:10.1016/j.jvolgeores.2019.07.005-X
Tammaro, U., De Martino, P., Obrizzo, F., Brandi, G., D’Alessandro, A., Dolce, M.,
et al. (2013). Somma Vesuvius Volcano: Ground Deformations from CGPS
Observations. Ann. Geophys-italy 56, S0456. doi:10.4401/ag-6462
Torrente, M. M., and Milia, A. (2013). Volcanism and Faulting of the Campania
Margin (Eastern Tyrrhenian Sea, Italy): a Three-Dimensional Visualization of a
New Volcanic Field off Campi Flegrei. Bull. Volcanology 75 (6), 1–13.
doi:10.1007/s00445-013-0719-0
Tramelli, A., Godano, C., Ricciolino, P., Giudicepietro, F., Caliro, S., Orazi, M., et al.
(2021). Statistics of Seismicity to Investigate the Campi Flegrei Caldera Unrest.
Sci. Rep. 11, 1. doi:10.1038/s41598-021-86506-6
Trasatti, E., Acocella, V., Di Vito, A., Del Gaudio, C., Weber, G., Aquino, I., et al.
(2019). Magma Degassing as a Source of Long-Term Seismicity at Volcanoes:
The Ischia Island (Italy) Case. Geophys. Res. Lett. 46, 14421–14429. doi:10.1029/
2019GL085371
Vezzoli, L. (1988). Island of Ischia, vol. 114 of Quaderni de “La Ricerca Scientifica”.
Roma: Consiglio Nazionale delle Ricerche.
Waldhauser, F., and Ellsworth, W. L. (2000). A Double-Difference Earthquake
Location Algorithm: Method and Application to the Northern Hayward Fault,
California. BSSA 90, 1353–1368. doi:10.1785/0120000006
White, R. S., Drew, J., Martens, H. R., Key, J., Soosalu, H., and Jakobsdóttir, S. S.
(2011). Dynamics of Dyke Intrusion in the Mid-crust of Iceland. Earth Planet.
Sci. Lett. 304 (3-4), 300–312. doi:10.1016/j.epsl.2011.02.038
Wiemer, S., and Benoit, J. P. (1996). Mapping the B-value Anomaly at 100 Km
Depth in the Alaska and New Zealand Subduction Zones. Geophys. Res. Lett. 23
(13), 1557–1560. doi:10.1029/96gl01233
Zollo, A., Maercklin, N., Vassallo, M., Dello Iacono, D., Virieux, J., and Gasparini,
P. (2008). Seismic Reflections Reveal a Massive Melt Layer Feeding Campi
Flegrei Caldera. Geophys. Res. Lett. 35, L12306. doi:10.1029/2008GL034242
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