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ANNALS OF GEOPHYSICS, 57, 1, 2014, S0192; doi:10.4401/ag-6369

S0192

Integration of historical, archaeoseismic and paleoseismological
data for the reconstruction of the early seismic history in Messina
Strait (south Italy): the 1st and 4th centuries AD earthquakes

Maria Serafina Barbano1,*, Viviana Castelli2, Daniela Pantosti3, Claudia Pirrotta1

1 Università di Catania, Dipartimento di Scienze Biologiche, Geologiche e Ambientali, Catania, Italy
2 Istituto Nazionale di Geofisica e Vulcanologia, Torrette di Ancona, Italy
3 Istituto Nazionale di Geofisica e Vulcanologia, Rome, Italy

ABSTRACT

Historical accounts, archaeoseismic and paleoseismological evidence
allowed us to reappraise two earthquakes affecting northeastern Sicily
and southern Calabria in the 1st (probably between 14 and 37) and
4th (likely between 361 and 363) centuries AD, to obtain a better re-
construction of  their effects and to reconsider their sources.The 1st
century event damaged the area from Oppido (Calabria) to Tindari
(Sicily), roughly that of  the February 6, 1783 Calabria earthquake.
The similitude of  these earthquakes is further stressed by the fact that
they generated tsunamis, as recorded by historical data and by the
tsunami deposits found at Capo Peloro, the oldest dated 0-125 AD, the
youngest linked to the 1783 event. These earthquakes could be related
to the same Calabria seismic source: the Scilla fault. Northeastern
Sicily and southern Calabria were also damaged by one or more earth-
quakes in the 4th century AD and several towns were rebuilt/restored
at that time. The hit area roughly coincides with that of  the Messina
1908 earthquake suggesting similar seismic sources for the events.
However, because close in time, historical descriptions of  the 4th cen-
tury Sicilian earthquake were mixed with those of  the 365 Crete
earthquake that generated a basin-wide tsunami most likely reaching
also the Sicilian coasts. Reevaluating location, size, damage area and
tsunamigenic potential of  these two earthquakes of  the 1st and 4th
centuries AD is relevant for reassessing the seismogenic and tsunami-
genic potential of  the faults around the Messina Strait and the seismic
hazard of  the affected areas.

1. Introduction
Historical earthquake records can provide a signifi-

cant contribute to the characterization of the seismic
sources and to the understanding of the seismic hazard
of an area. However, historical records need a thought-

ful and careful analysis to avoid biases and over-inter-
pretations. These problems are compounded by the lim-
itations of the historical data, that are incomplete, often
obscure, and easily susceptible of misinterpretation.
Even though with these uncertainties, historical analysis
represents a unique opportunity to add new tiles to that
complex mosaic that is seismicity, in regions like Calabria
and Sicily, in southern Italy (Figure 1a), where despite the
concurrence of a long history and the presence of active
faults, the main earthquakes often do not have any
known “ancestor” nor a defined seismogenic source. 

Active tectonics in southern Calabria and north-
eastern Sicily is attested by the long-term uplift rate of
the coast, by landscape imprint [Guarnieri and Pirrotta
2008], coastal morphology, structural evidence [e.g.
Valensise and Pantosti 1992, Monaco and Tortorici 2000,
Ferranti et al. 2008], and by the frequent occurrence of
strong and moderate earthquakes in recent and histori-
cal times. These earthquakes, such as the 1783 sequence
and the 1908 event, had a dramatic impact on the region,
however, their association with the causative faults is still
debated and they are often linked with different
faults/seismogenic sources (Figure 1b-e.g. Valensise and
Pantosti [1992], Jacques et al. [2001], Galli and Bosi
[2002], Basili et al. [2008], DISS Working Group [2010]
and references therein, Aloisi et al. [2013]).

Although the Italian earthquake catalogues cover a
long time span (461 BC-2002 AD) [Boschi et al. 2000,
CPTI Working group 2004], descriptive data on earth-
quake effects are generally scarce until the 13th-14th cen-
turies. Therefore the epicenters and magnitudes of the

Article history
Received June 24, 2013; accepted February 25, 2014.
Subject classification:
Earthquakes, Historical seismology, Archaeoseismology, Tsunami deposits, Sicily, Calabria.



earlier events are roughly estimated. Since 91 BC, about
20 M > 6 earthquakes (Figure 1b) occurred along the
180-km-long Calabrian Arc [CPTI Working group
2004]. Nevertheless the temporal distribution of seis-
micity and energy release (Figure 2) show that the
earthquake catalogue is incomplete and that almost all
the recorded events are clustered in less than four cen-
turies between 1600 and 2000 AD. 

Due to the catalogue’s incompleteness it is possible
that some events have been lost or misestimated, as shown
by Galli and Scionti [2006] for northern Calabria, where
they found archaeological and historical evidence of two
unknown earthquakes occurred in the early 7th century

AD and in 1744. Seismological studies around the Messina
Strait mention some evidence of earthquakes in 91 BC,
17 AD, around mid-4th century AD [Guidoboni et al. 1994
2000], and in 853 AD [Guidoboni et al. 1994, Boschi et al.
2000] but no reliable information of damage is available
and the epicentral location of these earthquakes is based
on a few macroseismic data points only. 

Evidence coming from an excavation performed at
the Torre degli Inglesi site, near Capo Peloro (Figure 1),
from the necropolis of Abakainon, from archaeological
studies of the Greco-Roman town of Tyndaris (today Tin-
dari) and other sites in northeastern Sicily and southern
Calabria, together with historical data, suggest that two

BARBANO ET AL.

2

Figure 1. a) Geological sketch map of southern Calabria and north-eastern Sicily Apennine-Maghrebian Orogenic system; and (b) main his-
torical earthquakes: epicentres (filled circles) from the CPTI4 catalogue [CPTI Working group 2004]. The faults associated with the most dis-
astrous earthquakes are also shown: CVF= Crati Valley Fault; MF=Mesima Fault; CF=Cittanova Fault [Jacques et al. 2001, Galli and Bosi
2002], GF=Gioia Fault [DISS Working Group 2010], SF=Scilla Fault [Jacques et al. 2001, Ferranti et al. 2008], MSF1=west dipping Messina Strait
Fault [Monaco and Tortorici 2000], MSF2=east dipping Messina Strait Fault [Pino et al. 2000, Basili et al. 2008, DISS Working Group 2010].

Figure 2. Temporal distribution of earthquakes in southern Calabria and north-eastern Sicily. (a) Magnitude vs. years. Squares show the 17
AD earthquake revaluated in this work and the unknown 7th century AD earthquake found by Galli and Scionti [2006] in northern Cal-
abria; (b) Energy release, evaluated using the magnitude-energy relationship Log E-11.3+1.8 M [Gutenberg and Richter 1956]. Note that most
of the events recorded in the catalogue occurred since 17th century.



3

possible earthquakes in the 1st and 4th centuries occurred.
In this work we reappraise all the information available
on these earthquakes, with the aim of better setting their
dates of occurrence, defining their effects on the human
and natural environment, and improving their character-
ization by defining their seismogenic sources.

2. The 1st and 4th century earthquakes in previous
studies

The most recent earthquake catalogues to cover the
period under study (first half of the first millennium AD)

for Calabria and Sicily are CPTI04 [CPTI Working
Group 2004] and CFTI4Med [Guidoboni et al. 2007-
2013]. The CPTI Working Group [2004] lists three earth-
quakes occurred in the studied area and period (Table 1):
AD 17, AD 361, and AD 374.

The earthquake parameters included in this cata-
logue (Table 1) derive from the Italian catalogue of
strong earthquakes [CFTI, Boschi et al. 2000], that on
their turn derived them from Guidoboni ed. [1989]. A
comparison between these two works shows that there
is a difference: Boschi et al. [2000] assign the exact yearly

THE MESSINA STRAIT EARLY SEISMIC HISTORY 

Catalogue N Year Epicentral area Ref Np Imx Io Lat Lon Maw Me

CPTI04 9 17 Reggio C.-Sicily CFTI 2 8-9 8-9 37.800 15.200 5.14 --
CFTI4Med - 17 Reggio C.-Sicily ---- 2 8-9 8-9 37.8 15.2 --- 5.8
CPTI04 15 361 Sicily CFTI 1 10 10 37.500 14.000 6.60 --
CFTI4Med - 361 Messina Strait --- 2 10 10 38.15 15.6 --- 6.4
CPTI04 16 374 Reggio Calabria CFTI 1 9-10 9-10 38.100 15.650 6.30 --

Table 1. A comparison between 1st-4th century AD earthquakes in the studied area, as depicted by CPTI Working Group [2004] and CFTI4Med
[Guidoboni et al. 2007-2013]. N=reference number; Year=origin time; Epicentral area: maximum effect area; Ref.: source catalogue; Np: num-
ber of macroseismic observations; Imx: maximum observed intensity; Io: Estimate epicentral intensity; Lat and Lon: geographical epicentre
coordinates; Maw and Me: equivalent magnitude.

Figure 3. Recent studies and catalogues that deal with earthquakes in the period considered in this paper.



dates to the three earthquakes whereas Guidoboni ed.
[1989] only proposes approximate time ranges for them
(Figure 3). 

On the other hand, the CFTI4Med catalogue
[Guidoboni et al. 2007-2013], which is based (for Italian
earthquakes) on Boschi et al. [2000] “with subsequent
additions and improvements”, claims the occurrence of
only two earthquakes in the same period. The 17 AD
event maintains the same parameters, whereas the 361
AD earthquake shows very different location: the middle
of Sicily for Boschi et al. [2000], the Messina Strait for
Guidoboni et al. [2007-2013] (Table 1 and Figure 3).

The picture of Calabro-Sicilian seismicity in the 1st-
4th centuries AD proposed by CFTI4Med [Guidoboni et
al. 2007-2013] is more restrictive than the one outlined
by Boschi et al. [2000] and by Guidoboni ed. [1989]. The
latter mentions at least two local earthquakes in the 4th

century, plus the effects on Sicily of the tsunami gener-
ated by the Crete earthquake of July 21, 365 (Figure 3).
CFTI4Med is a “work in progress” open to later addi-
tions and improvements and subject to successive revi-
sions (almost verbatim quote from the CFTI4Med
website, as accessed on February 19, 2013). As the refer-
ences quoted by CFTI4Med include the same original
historical testimonies quoted by the previous studies, this
changed view of the Calabro-Sicilian seismicity in the
1st-4th centuries AD should be presumably based on
new interpretations of available historical data rather
than on newly-acquired historical data.

3. Historical, archaeoseismic and paleoseismological
evidence: a reappraisal

In this chapter we document new findings on the 1st
and 4th centuries earthquakes obtained by a reanalysis of

BARBANO ET AL.

4

Figure 4. Flow chart of studies and sources revaluated in this study for the 1st century earthquake. Note that the Guidoboni ed. [1989] cat-
alogue was based upon Bonito [1691] and a chronicle [Phlegon of Tralles 2nd century], whereas Mongitore [1743] used Sicilian local his-
tories based on Pliny the Elder [1st century], as well.



5

available historical sources integrated with information
gathered from paleoseismic and archeoseismic investiga-
tions in order to highlight how this can contribute to a
better comprehension of the studied earthquakes.

The first step of our study was the critical analysis
of the knowledge collected in the seismological literature
retrieving contemporary identifiable sources. To do so
we analyzed both the historical sources taken into ac-
count by the recent studies that served as a reference for
the parametric earthquake catalogues, and those quoted
by earlier seismological compilations of which Italy has a
centuries-old tradition.

Given the diversity of interpretations proposed
by recent earthquake catalogues, we performed an ex-
amination of the historical data set available for each
of the studied earthquakes, in order to clarify once
and for all which are their respective merits, demerits
and absolute degree of reliability.

The Italian tradition of descriptive earthquake stud-
ies dates back as far as the mid-15th century. Its output
did mostly take the form of earthquake lists of varying
size and geographical scope, from global ones such as
Bonito [1691] to regional and local ones, such as Fiore
[1691] and Mongitore [1743] for Calabria and Sicily, re-
spectively. The last and best product of this tradition is
certainly the great collection I terremoti d’Italia [Baratta
1901] that remains, to this day, the main data base for the
parametric catalogues produced in Italy from the second
half of the 20th century onwards.

The results of an extensive perusal of recent stud-
ies and older repertories allow, after having unraveled a
tangle of multiple dates and spurious connections be-

tween earthquakes occurred in Calabria and Sicily, in
Asia Minor and/or mentioned in the Gospels, to iden-
tify two small collections of “original” historical data
dealing with seismic events located in Sicily and Cal-
abria in the required time-windows. The adjective
“original” is employed here with the meaning of “near-
est in time” to the described events, which is not nec-
essarily the same as “contemporary”.

3.1. Reappraisal of  an earthquake occurred in the first
half  of  1st century AD 

3.1.1. Original information
Figure 4 shows a flow chart of the sources quoted

by seismological tradition and recent studies in con-
nection with earthquakes occurred in Calabria and
Sicily in the 1st century AD, the explicit and conjectured
relationships existing between them and a summary of
the dates and places mentioned by each of them. 

The “original” sources are two, one that does ex-
plicitly mention the earthquake and another that does
possibly mention an earthquake-related phenomenon
(Table 2). The former is Phlegon of Tralles [2nd cen-
tury], a Greek historian who lived at least a century
after the events he recounts. The latter is Pliny the Elder
[1st century], the renowned scholar and officer who
was killed by the Vesuvius eruption of AD 79.

Phlegon briefly mentions an earthquake in Sicily
and the Reggio Calabria area after having described,
more at length, a strong and destructive earthquake in
Asia Minor (now Anatolia, Turkey). The Asian earth-
quake is well attested by several contemporary sources

THE MESSINA STRAIT EARLY SEISMIC HISTORY 

Author EQ date EQ Description

Phlegon of Tralles 
[2nd century]

17 AD (Asian EQ)
14-37 AD 
(Tiberius’ reign)

«Apollonius Grammaticus reports that at the time of Emperor
Tiberius an earthquake almost destroyed several renowned
Asian cities. Tiberius restored them at his own expenses […]
Not a few towns of Sicily and the area surrounding Reggio did
suffer damage from the earthquake too.»

Pliny the Elder 
[1st century]

Before 79 AD
(Pliny’s death date)

« The sea has carried away Pyrrha and Antissa near the Mæot-
ian Marshes (Sea of Azov), also Elice and Bura in the gulf of
Corinth, traces of which places are visible in the ocean. From
the island Cea it has seized on 30,000 paces, which were sud-
denly torn off, with many persons on them. In Sicily also [the
sea carried away] the half of the city of Tyndaris, and all the
part of Italy which is wanting; in like manner it carried off
Eleusina in Bœotia.»

Table 2. Original information on an earthquake occurred in the first half of 1st century AD.



and its date is certain: it took place in AD 17. The exact
date of the Calabro-Sicilian earthquake is unknown; it
could have occurred either in the same year of the Ana-
tolian earthquake [as maintained by Boschi et al. 2000
and followers] or roughly about that time [as claimed
by Guidoboni ed., 1989], or even, which is perhaps the
safest assumption, simply during the period of Tiberius’
imperial rule (AD 14-37).

Pliny the Elder mentions the partial destruction of
the town of Tyndaris by the sea in Book 2 of his Natu-
ral history. This book dedicates 15 chapters (from 81st
to 96th) to earthquakes and related topics (signs of ap-
proaching earthquakes, protection against future earth-
quakes, circumstances attending earthquakes etc).
Several of these chapters describe the interactions be-
tween sea and land which earthquakes can cause
(tsunami waves, formation of islands etc). The Tyndaris
episode is mentioned in Chapter 94, dedicated to the
«Cities which have been absorbed by the sea» (Table 3).

It is uncertain whether the Tyndaris phenomenon
mentioned by Pliny could have been related or not to the
Calabro-Sicilian earthquake mentioned by Phlegon. Pliny
does not say when the Tyndaris episode occurred. Obvi-
ously, it must have been before AD 79 (when Pliny died)
but how long before remains an open question. At the
end of 1st century BC (more precisely in 22-21 BC), Em-
peror Augustus gave Tyndaris the status of Roman
colony (Colonia Augusta Tyndaritanorum). This was a
high distinction in the Roman empire, indicating that
Tyndaris was then an important and prosperous town.
The author of the “Tyndaris” entry of the Enciclopedia
Italiana [G.V.G. 1961] suggests that the partial destruction
of Tyndaris could have taken place sometime after, at the

beginning of 1st century AD, because the Geography of
Strabo (a Greek scholar who died around 24 AD) calls
Tyndaris a polisma, which is a Greek word that can be
translated either as «a small town» or as «a town that used
to be large but now is small» [Mogens, 1995]. If tsunami
traces datable to the 1st century AD were to be found
near the Tyndaris site and/or in other sites in northeast-
ern Sicily, this would certainly help settling the question.

Another point which is worthwhile to concerns
the actual nature of the phenomenon described by

BARBANO ET AL.

6

94: Urbes haustae mari 94: Cities which have been absorbed by the sea

Pyrram et Antissam circa Maeotim pontus abstulit,
Helicen et Buram sinus Corinthius, quarum in alto
vestigia apparent. ex insula Cea amplius triginta
milia passuum abrupta subito cum plurimis mortal-
ium rapuit et in Sicilia dimidiam Tyndarida urbem
ac quicquid ab Italia deest, similiter in Boeotia
Eleusina.

The sea has carried away Pyrrha and Antissa near the
Mæotian Marshes (Sea of Azov), also Elice and Bura in the
gulf of Corinth, traces of which places are visible in the
ocean. From the island Cea it has seized on 30,000 paces,
which were suddenly torn off, with many persons on them.
In Sicily also [the sea carried away] the half of the city of
Tyndaris, and all the part of Italy which is wanting; in like
manner it carried off Eleusina in Bœotia

95: De spiraculis 95: Of vents in the earth.

Motus enim terrae sileantur et quicquid est, ubi
saltem busta urbium exstant, simul ut terrae mirac-
ula potius dicamus quam scelera naturae. et, Her-
cules, non caelestia enarratu difficiliora fuerint.

But let us say no more of earthquakes and of whatever
may be regarded as the sepulchers of cities; let us rather
speak of the wonders of the earth than of the crimes of
nature.

Table 3. Original text and English translation of Pliny’s mention of Tyndaris [Bostock and Riley 1855].

Figure 5. The 17 AD earthquake according to Boschi et al. [2000]:
Reggio and the epicenter shown by the asterisk south of Taormina;
the 1st century (14-37 AD ?) earthquake/s according to this work:
Reggio and the localities shown by unfilled squares. At the Torre
degli Inglesi site a sandy layer interpreted as tsunami deposit dated
AD 0-125 [Pantosti et al. 2008] was found (see discussion).



7

Pliny. The Latin word for earthquake (terrae motus, lit-
erally “a motion of the earth”) could also indicate a
landslide. Tyndaris is built on a hill at 268 m a.s.l., so its
destruction could be credited to a landslide, rather than
to an earthquake-generated sea wave. However, this
does not seem likely, as the specific context in which
Pliny relates the episode is one of earthquake-generated
marine phenomena. Moreover, recent research has
shown that ancient Tyndaris included an harbour quar-
ter placed at the foot of the hill, along a bay on the
Tyrrhenian coast [Bottari et al. 2012]. It seems quite pos-
sible that tsunami affected the ancient Tyndaris harbour.

It is important to note that in later centuries the
above information was subjected to much distortion on
the part of derivative sources (Figure 4), which mixed up
Pliny’s and Phlegon’s original data concerning Tyndaris
and Sicily with data provided by them and other authors
on the earthquake of AD 17 in Asia Minor (mentioned
by Pliny elsewhere in his work) and on another Asian
earthquake of AD 32-33. This latter earthquake was
once believed - mistakenly, as pointed out by Ambraseys
[2005] - to coincide with the earth-shaking felt in

Jerusalem during the crucifixion of Jesus according to
the 27th chapter of the Gospel of St. Matthew [Williams
et al. 2012]. This belief led several Sicilian authors of the
17th-18th centuries to blame the partial destruction of
Tyndaris on the earth-shaking mentioned by St.
Matthew. According to one of these authors, the earth-
quake described in the Gospel was responsible not only
for ruining Tyndaris, but also for “cracking apart the
Mount of Saturn (Mons Saturnius)” [Gaetano 1617] or
“hollowing out a cavity at the foot of the Mount of Nep-
tune” [Gaetano 1708]. Despite the multiplicity of names
and circumstances he mentions, Gaetano makes it clear
that the mountain in question is one and the same, lo-
cated three miles inland from the coast between Messina
and Taormina (Figure 5). This allows to identify it with
present-day Mt. Scuderi (a 1.253 m-high peak in the
Peloritani chains). Gaetano was an ecclesiastic, with ac-
cess to archive records and other historical sources that
are not available anymore, so there is, in principle, at
least a very slender chance that his tale does preserve,
buried under heavy layers of fictionalization, a glimmer
of some otherwise completely forgotten episode that

THE MESSINA STRAIT EARLY SEISMIC HISTORY 

Century BC AD

Site 5 4 3 2 1 1 2 3 4 5 6

Mella (Oppido) * *

Cinquefrondi *

Metauros (Gioia Tauro) *

Hipponion (Vibo Valenzia) R R

Melicucco H

Rhegion (Reggio di Calabria) * + *R

Bianco H

Casignana * *

Bova Marina R R *

Scolacium (Squillace) R *

Lipari *

Tyndaris + *

Patti *

Terme Vigliatore **R

Necropolis of Abakainon ++

Torre degli Inglesi site + +

Mt. Scuderi +

Table 4. History of archaeological sites in southern Calabria and northeastern Sicily. Asterisks indicate the destruction phase; H indicates
the presence of hoards; R are restoration/reconstruction phases;+indicates information gathered in this work. **reconstruction phase ac-
cording to Tigano et al. [2008]; ++evidence of destruction from Bottari et al. [2013]. Note the concentration of destruction/restoration
and hoards in the latter half of the 4th century AD modified from Galli and Bosi [2002].



could have been related to the Sicilian earthquake of
the 1st century AD.

The CPTI04 catalogue [CPTI Working Group
2004], based on the CFTI [Boschi et al. 2000] whose
original source is Phlegon of Tralles’ account (Table
2), locates the 17 AD event on the northern side of
Mt. Etna (Figure 5).

3.1.2. Other evidence 
Recently Bottari et al. [2013] showed that strati-

graphic evidence and ruin features observed in the
Necropolis of Abaikonon (Figure 5) are consistent
with a seismic event and constrained the collapsing
time of the fallen columns through Optically Stimu-
lated Luminescence (OSL). Dating is coherent with a
single event occurred in the 1st century AD.

In southern Calabria and northeastern Sicily
sparse archaeoseismic indications concerning possi-
ble earthquakes in the 4th and the 1st centuries BC
and in the 1st and 4th centuries AD (Table 4) have
been evidenced. According to Galli and Bosi [2002],
archaeoseismic analysis of the Roman farmstead built
over the Hellenistic site of Mella near the old Oppido
village (Figure 5), shows that it was abruptly de-
stroyed in the 1st century AD, and its collapsed walls
lie directly on the pavement of the road. This is con-
sidered as evidence for an earthquake related col-

lapse. Archaeologists also document a major recon-
struction in the 1st century AD of the Roman Villa
of Terme Vigliatore likely damaged by a earthquake
[Tigano et al. 2008].

Furthermore, from the analysis of the archaeo-
logical excavation at the Torre degli Inglesi site, a 16th
century watchtower built along the coast of Torre
Faro (Figure 6) on a pre-existing Roman tower, Pan-
tosti et al. [2008] found evidence for two sandy layers
that, on the basis of their sedimentological and pale-
ontological characteristics, were interpreted as
tsunami deposits. Stratigraphic and archaeological
analyses and radiocarbon dating constrained the old-
est tsunami sandy layer to an age range of 0-125 AD,
that is compatible with an event in the 1st century
AD. After this event, or soon after, the watchtower
was probably modified [Crupi 2011] because the
Roman steps and the water cisterns, were covered by
debris containing organic material and pottery dated
1st-3rd century (Figure 7). The youngest tsunami de-
posit is stratigraphically located between the 16th
century watchtower basement and the 19th century
pavement and enclosure wall, and was thus associated
with the February 6, 1783 tsunami [Pantosti et al.
2008].

BARBANO ET AL.

8

Figure 7. NE wall of the excavation at Torre degli Inglesi (see Fig-
ure 6 for location). The material infilling the cisterns dated with
both archaeological and radiometric analysis shows age between
1st-3th century. Dashed red line and arrows highlight a fracture
related to the 1908 earthquake, since it cuts constructions and de-
posits of all periods.

Figure 6. a) Google Earth image of Capo Peloro peninsula with the
position of Torre degli Inglesi (arrow) just north of Torre Faro vil-
lage that was affected by the February 6, 1783 and 1908 tsunamis. b)
Torre degli Inglesi photo from NE; c) View of the archaeological
excavation on the NW side of Torre degli Inglesi. The main build-
ing phases (I to IV) are evidenced and it is possible to observe the rel-
ative chronology [modified from Pantosti et al. 2008].



9

THE MESSINA STRAIT EARLY SEISMIC HISTORY 

Figure 8. Flow chart of studies and sources revaluated in this study for the 4th century earthquakes.

Author EQ date EQ Description

Libanius [4th century] Shortly before or after June 26, 363 
(date of Julian’s death)

«Earth  truly has been fully sensible of her loss [the death of
emperor Julian], and has honoured the hero by an appropri-
ate shearing off of her tresses, shaking off, as a horse does his
rider, so many and such great cities. In Palestine several; of
the Libyans all and every one. Prostrate lie the largest towns
of Sicily, prostrate all of Greece save one; the fair Nicaea lies
in ruins […] These are the honours paid to him by Earth, or
if you choose, by Neptune himself. »

Inscription [374] Before AD 374 «[Emperor Valentinian with Valens and Gratian] have re-stored the baths, which had collapsed through old age and an
earthquake, to the people of Reggio […]»

St Jerome [4th century] AD 366 «An earthquake having occurred throughout the wholeworld, the shore is invaded by the sea, and falling debris in
innumerable cities of Sicily and of many islands, crushed the
people.»

Table 5. Original information on earthquakes occurred in the third quarter of the 4th century AD.



3.2. Reappraisal of  earthquake(s) occurred in the third
quarter of  the 4th century AD

3.2.1. Original information
Figure 8 shows a flow chart of the sources quoted

by seismological tradition and recent studies in con-
nection with earthquakes occurred in Calabria and
Sicily roughly in the third quarter of 4th century AD, in-
tegrated with the explicit and conjectured relationships
existing between them and a summary of the dates and
places mentioned by each of them.

There are three “original” sources, two of which
contemporary with the described events and one slightly
later: the Speeches by Libanius [4th century], an inscrip-
tion of AD 374 from Reggio Calabria [Putortì 1913] and
a passage in St. Jerome’s Chronicle [St. Jerome 4th cen-
tury], composed around AD 380 (Table 5).

Libanius was a rhetorician (professional public
speaker) and a personal friend and teacher of emperor Ju-
lian the Apostate. Julian had been brought up as a Chris-
tian but later on he reverted to Paganism. During his
short reign (AD 361 to 363) he attempted to outlaw Chris-
tianity - which his predecessor had made legal - and to re-
store the ancient Roman religion. Libanius, an

enthusiastic supporter of this program, was deeply
shocked by Julian’s death and by the consequent collapse
of his dream. These facts are important to evaluate the re-
liability of Libanius references to earthquakes, all of
which were provided in funeral speeches he wrote for Ju-
lian’s death. Libanius was not attempting to give precise
information on these earthquakes for simple chronicling
purposes; what he really wanted to do was to stress the
magnitude of the loss caused by the death of his em-
peror, of which the Earth itself and the pagan god Nep-
tune (aptly nicknamed the Earth-shaker) either foretold
or mourned by causing the ground to shake and towns all
over the empire to fall down. Attempts to date the earth-
quakes mentioned by Libanius have been made:
Guidoboni ed. [1989] proposes an earthquake in
Jerusalem in AD 361 and another in Nicaea (now Iznik,
Turkey) in AD 362; Van Nuffelen [2006] proposes an
earthquake in Palestine in AD 363 and another in Lybia
(Africa) between 364 and 378. The exact date of the Sicil-
ian earthquake remains uncertain: a possible range of oc-
currence could be the 361-363 time-window.

The Reggio Calabria inscription celebrates the inau-
guration, in AD 374, of the town’s public baths, whose
renovation had become necessary after the building had

BARBANO ET AL.

10

Figure 9. a) Google Earth image of the Tindari Gulf; b) the old Greco-Roman site of Tindari c) the central decumanus; d) strong undu-
lating deformations in the road-bed of the central decumanus [Spigo 2005] associated to the 4th century earthquake.



11

«collapsed because of the aging and an earthquake». This
is undoubtedly a very reliable source but it does not allow
to pinpoint the exact date of the earthquake it mentions.
It is unlikely that this earthquake occurred in 374 [as
maintained by Guidoboni ed. 1989; Boschi et al. 2000 and
followers]; but a date some years earlier seems more con-
vincing, CFTI4Med [Guidoboni et al. 2007-2013] pro-
poses AD 361.

St. Jerome’s Chronicle (a 4th century Latin transla-
tion, which update a more ancient Chronicle written in
Greek by Eusebius of Caesarea) is the first historical text
ever to make an attempt to accurately date all the events
occurred before. As such, it had an enormous influence
on later history writers that looked to it as their primary
source of information on dates and events at least until
the end of the Middle Ages. The Chronicle mentions a
global earthquake accompanied by a tidal wave, dated in
366, this does obviously bring to mind the catastrophic
central Mediterranean earthquake of July 21, 365, which
generated a tsunami which can have reached also the Si-
cilian coast. However, the description mentions human
casualties caused by “falling debris in innumerable cities
of Sicily”, which seems hardly likely to have been caused
by an earthquake located near Crete.

In this case too, as in the previous case of the 1st cen-
tury event, the “original” information was subjected with
time to relevant distortion, resulting in an arbitrary mul-
tiplication of earthquake dates on the part of derivative
sources (Figure 8).

3.2.2. Other evidence
Archaeoseismic researches performed throughout

southern Calabria [Galli and Bosi 2002] (Table 4) and in
the cities of Messina and Reggio Calabria [Guidoboni et
al. 2000] have shown the occurrence of destruction/re-

construction/abandonment phases clustered in the 4th
century AD. Since the distribution of these archaeoseis-
mic indications fit with the February 5, 1783 earthquake
damage area, Galli and Bosi [2002] hypothesized the oc-
currence in the 4th century AD of a strong earthquake
that could be the predecessor of this shock of the 1783
earthquake sequence and the ‘‘penultimate’’ event of the
Cittanova fault (Figure 1b). On the contrary, Guidoboni
et al. [2000] think that the 4th century AD event could be
a potential predecessor of the well-known 1908 earth-
quake located in the Messina Strait.

The 4th century event could be associated with a
first modification of the Roman tower at the Torre degli
Inglesi site, inferred both from the radiocarbon dating
and archaeological evaluation of the organic material and
pottery contained in the debris burying the Roman steps
and infilling the water cisterns. This debris did accumu-
late before the 3rd century [Pantosti et al. 2008], and
therefore probably earlier than a destructive event, after
that the cisterns were probably restored [Crupi 2011]. 

The modern Tindari village is located near the site
of the ancient Greek colony of Tyndaris (Figure 9) that
dates back to the 5th-4th centuries BC. During the Greek
period, in 3rd century BC, different structures were built
such as a theatre, fortification walls, and towers. In the
late Roman period (4th century AD) a basilica and some
houses were built [Wilson 1990]. Recent archaeological
excavations in the old Greco-Roman site of Tindari
[Spigo 2005] have revealed earthquake-related damage at-
tributed to the 4th century AD event [e.g. Bernabò Brea
1996], consisting of preferred orientation of the collapsed
structures and strong undulating deformations in the
road-bed (Figure 9d) in the central decumanus [Spigo
2005, De Domenico et al. 2006, Bottari et al. 2008].

As shown in Table 4 and Figure 10 there are also
other archaeseismic data showing that Sicily and south-
ern Calabria were hit by one or more earthquakes in the
4th century, but only for Reggio Calabria there is a direct
evidence of this in the commemorative inscription.

THE MESSINA STRAIT EARLY SEISMIC HISTORY 

Figure 10. Index map of archaeoseismic evidence for the 4th century
AD event in southern Calabria and northeastern Sicily. In brackets the
current place names modified from Galli and Bosi [2002]. The triangle
shows Torre degli Inglesi.

Figure 11. a) Maximum intensity data point distribution (I=7-9 MCS)
for the 6 February, 1783 earthquake [data from Boschi et al. 2000]. Lo-
cations affected by tsunami are also shown [data from Gerardi et al.
2008].



4. Discussion

4.1. Was the 1st century event a twin of  the 6 February
1783 earthquake?

Five earthquakes, followed by tsunamis [Graziani
et al. 2006], occurred between the February 5, 1783 and
March 28, 1783, causing devastation and a lot of victims
in a vast region embracing the whole southern Calabria
and the Messina area (Figure 1b) [Guidoboni et al. 2007-
2013 and references therein]. Morphological and struc-
tural evidence, combined with a re-examination of
observations made at the time of the earthquakes
[Jacques et al. 2001 and references therein] suggest that
the main shock (February 5), the first aftershock (Feb-
ruary 6) and the February 7, third large shock were re-
lated to slip on the west-dipping, NE-striking Cittanova,
Scilla and Mesima normal faults, respectively (Figure
1b) [e.g. Galli and Bosi 2002]. 

The archaeological stratigraphy exposed at the
Torre degli Inglesi site allowed to document a tsunami
sandy layer, dated 0-125 AD, linked to a local earth-
quake occurred in the 1st century [Pantosti et al. 2008].

The hypothesis of a tsunami associated with the 1st
century event is also suggested by Pliny the Elder’s ac-
count “The sea swallowed up half the town of Tyndaris
in Sicily (maybe the ancient Tyndaris harbour) and the
coastal area of northeastern Sicily (Table 2). The Pliny’s
report was not considered by previous catalogues. An-
other event is testified at the Torre degli Inglesi site by
the uppermost sandy layer, possibly deposited by the
February 6, 1783 tsunami (Figure 11) before the 19th
century enclosure wall was built [Pantosti et al. 2008].

Historical data report that Torre Faro (the village
near which the Torre degli Inglesi building is sited) was
repeatedly damaged by earthquakes located both in
northeastern Sicily and in southern Calabria [Boschi et
al. 2000], and inundated by the February 6, 1783 and
1908 tsunamis. The 1783 tsunami at Torre Faro flooded
for about 400 m inland [Sarconi 1783], whereas the 1908
tsunami inundation was just 5 m [Baratta 1910]. Thus,

considering the anomalous sandy layer dated 0-125 AD
at the Torre degli Inglesi site, the 1st century tsunami
seems to have been capable to flood into the watch-
tower in the same way as during the 1783 event. This

BARBANO ET AL.

12

Figure 12. a) Maximum intensity data point distribution (I=8-11 MCS) for the February 5, 1783 (a) and the December 28, 1908 (b) earth-
quakes [data from Boschi et al. 2000].

Scilla Fault geometry and kinematics Length Dip Slip vector

30 km 60° 327°/11°

Holocene parameters Event pre-I Event I Event II 1783

Slip per event (based on footwall throw) 2.0 m 1.5 m

Characteristic moment magnitude (on slip) 7.0 6.9 5.9*

Characteristic moment magnitude (on fault length) 6.8 6.1

Event age BP 5.1 ka 3.5 ka 1.9 ka 0.23 ka

Table 6. Geometric and kinematic parameters for the Scilla Fault based on the displacement record of Late Holocene shorelines and fault
length [modified after Ferranti et al. 2008]. *Macroseismic estimate from CPTI Working Group [2004].



13

suggests the 1st century tsunami to have an analogous
source to the 1783 one (Figure 11). Moreover, the 1st
century earthquake damaged Reggio, and probably the
old site of Oppido (Figure 5), which was totally de-
stroyed during the 1783 sequence [Vivenzio, 1783], and
Tindari, Terme Vigliatore and the Necropolis of
Abakainon which are close to the 1783 damage area, as
well. These facts suggest that the earthquake occurred
in the 1st century AD had a pattern of damage quite
similar to that of the February 6, 1783 (Figure 11). Such
an event is likely to have been located in southern Cal-
abria and to have been energetic enough to generate a
tsunami (even though we do not have enough infor-
mation to estimate its magnitude and intensity). Be-
cause the 1783 tsunami was generated by an
earthquake-triggered landslide [Graziani et al. 2006,
Gerardi et al. 2008], this possibility could be considered
also for the 1st century event. 

Based on archaeoseismic indications from Calabria
and NE Sicily, Galli and Bosi [2002] considered compa-
rable the damage pattern of the 4th century event with
that of the February 5, 1783 event (Figure 12a) rather
than to that of the 1908 event (Figure 12b). They prob-
ably did not take into consideration the possibility of
the 1st century event as a potential ancestor of the 1783
earthquake because the earthquake catalogue presents
it as a minor event located to the south near the Mt.
Etna (Figure 1b and 5-CPTI Working group [2004]). 

Recently according to geological and geomorpho-
logical data, Ferranti et al. [2008] have recognized evi-
dence for the occurrence of co-seismic displacements
on the Scilla fault (Figure 1b). The Authors dated the
most recent event at 0.23 ka BP (likely the 1783) and the
previous one at~1.9 ka BP (Table 6). Based on fault
length and slip estimated from footwall uplift and using
regression relations for normal faults [Wells and Cop-
persmith 1994], they suggest that a M=6.1/6.9 earth-
quake was produced in the 1st century by the same
fault responsible for the February 6, 1783 earthquake. 

In summary, the available data provide evidence
of an earthquake occurred in the 1st century AD (pos-
sibly between 14 and 37 AD) as the most likely re-
sponsible for the following circumstances:
destructions in Tyndaris, in the necropolis of
Abakainon, in other Sicilian towns and in the area sur-
rounding Reggio Calabria; damage in the old Oppido
site (Figure 5); tsunami deposit at the Torre degli In-
glesi site; co-seismic displacements on the Scilla fault.
The analogy between this set of circumstances and
those related to the February 6, 1783 (Figure 11) earth-
quake suggests that in the 1st century one earthquake,
or more, damaged the same area affected by the 1783
seismic sequence.

4.2. Was the 4th century event a ‘ twin’ of  the Decem-
ber 28, 1908 earthquake?

On 28 December 1908, a tsunamigenic catastrophic
earthquake (Figure 12b) struck the region of theMessina
Straits (Figure 1b) [Guidoboni et al. 2007-2013 and ref-
erences therein]. In this paragraph, we intend to high-
light the similarities between the 1908 and 4th century
earthquakes. 

The main historical source for the 4th century
event is Libanius that mentions several undifferentiated
earthquakes occurring during the reign of Emperor Ju-
lian, among which he cites a destructive event in Sicily:
«The greatest cities of Sicily lie in ruins» [Guidoboni et
al. 1994]. According to several written sources and to
archaeological and geological data the 365 AD earth-
quake was located in Crete [e.g. Stiros 2001; 2010] but
its tsunami effects are described also in mainland Greece,
Adriatic sea, Sicily and North Africa [Guidoboni et al.
1994]. Furthermore, the fact that St. Jerome [4th cen-
tury] reports damage and causalities in Sicily, that can-
not be explained with an earthquake generated in
Crete, suggests that in 4th century Sicily was affected
both by a local earthquake (or more than one) and by
a tsunami, likely the 21 July AD 365 tsunami. It must
be stressed, however, that tsunami deposits with an age
compatible to a 4th century event were detected along
the coast of Southeastern Sicily: inland at Augusta [De
Martini et al. 2010] and Morghella [Gerardi et al. 2012],
and offshore in the Augusta bay (southeastern Sicily)
[Smedile et al. 2011], and probably at Reggio Calabria
[Guidoboni et al. 2000]. No tsunami evidence have been
found on the Tyrrhenian northern coast of Sicily. The
above mentioned authors attributed the tsunami de-
posits to the far Crete source but they could also have
been deposited by a tsunami generated by a local event.

Stratigraphic and archaeological relations suggest
that the Roman watchtower at the Torre degli Inglesi site
was probably damaged after the 3rd century AD and suc-
cessively restored between the 4th century and the 16th
century [Pantosti et al. 2008]. During this period the
CPTI04 catalogue [CPTI Working Group 2004] lists only
three significant earthquakes dated at the 4th century, AD
853 and AD 1509 (Figure 1b). As the age of the materials
filling the cisterns can be fixed to sometime between the
2nd and 3rd centuries [Crupi 2011], the watchtower was
probably restored after a damaging event, that likely
could have been the 4th century earthquake very close in
time with the material found inside the cistern.

The Torre degli Inglesi site was also affected by the
1908 earthquake that caused the north-eastern striking
fracture cutting through constructions of all periods
(Figure 7), as reported by Baratta [1910]: «the December
28, 1908 earthquake caused E-W and N-S oriented cracks

THE MESSINA STRAIT EARLY SEISMIC HISTORY 



in the colossal 3 m thick walls of the Torre degli Inglesi,
in which a large E-W- oriented fracture did also cause dis-
junction and lowering in the opened northern wall».

Hence at the Torre degli Inglesi site only evidence
of damage is recognizable, both for the 4th century
event and for the 1908 earthquake (Figure 7), further-
more for both these events no tsunami deposits have
been found. These analogies, together with the archeo-
seismic evidence reported for several sites (Figure 10),
allow us to hypothesize that the event occurred in the
4th century (likely in AD 361-363) could be the “ances-
tor” of the 1908 earthquake. Similarly to this latter one,
also the 4th century event could be located around the
Messina Strait and may have produced a tsunami with
wave heights quickly decreasing north of Messina, not
energetic enough to depose marine sand at the Torre
degli Inglesi site. 

Since the area of effects for the 1783 and 1908
earthquake (Figure 12) are quite similar, the 4th cen-
tury earthquake could be also associated with the same
structure of the 1783, previously referred to the Cit-
tanova fault (Figure 1). 

5. Conclusions
The analysis of available historical, archeoseismic

and paleoseismic data allowed us to improve the knowl-
edge of two earthquakes occurred in the 1st and 4th cen-
turies AD in northeastern Sicily and southern Calabria.

Different historical and archaeoseismic data suggest
a situation of widespread earthquake damage in the
area extending from Oppido in Calabria to Tindari in
Sicily, during the 1st century AD. All this evidence could
be related to a single earthquake or a seismic sequence,
occurred between the years 14 and 37 AD, and that did
also generate a tsunami, as recorded at the Torre degli
Inglesi site and as hinted by contemporary accounts.
This event could have been the predecessor of the Feb-
ruary 6, 1783 earthquake, and generated by the same
seismic source located in southern Calabria: the Scilla
fault. If this hypothesis is correct, the M5 of the AD 17
event indicated in the CPTI04 catalogue [CPTI Work-
ing Group 2004] is underestimated and its location on
the northern slope of Mt. Etna should be revised.

Historical data and archaeoseismic evidence sug-
gests the occurrence of another earthquake almost in
the same area hit by the 1908 earthquake in the 4th cen-
tury (most likely between the years 361 and 363 AD).
This event probably damaged Tindari and the Torre
degli Inglesi site as well. Another similitude between
the 1908 event and the 4th century event is that no
tsunami deposits compatible to their ages were found
to the North of the Messina Strait and particularly at
the Torre degli Inglesi site.

These results could have a strong impact on seismic
hazard assessment of southern Calabria and northeast-
ern Sicily. In fact, on the one side, they provide insights
to establish average recurrence times (~1300-1660 yrs) for
the major seismic sources of the area and, on the other,
suggest that the area is characterized by “seismic periods”
that concentrate most of the relevant seismicity. Likely, a
seismic period occurred between the 1st and 4th cen-
turies AD as that, better known, which occurred between
1638 and 1908 (during which the entire seismogenic
structure of Calabria, from the Crati Valley to the
Messina Strait, 180 km-long, ruptured).

The mutual contributions of archaeology, geology,
and history demonstrate the strength of such interdis-
ciplinary studies to contribute to knowledge of past
earthquakes and to provide estimates of their probable
future occurrence and location.

Survey and documentation of archaeological sites
along or near active faults and paleoseismic analysis can
significantly improve the knowledge of past earthquakes.
New analysis, to be performed in the numerous archae-
ological sites in southern Calabria and northeastern
Sicily, will allow a better definition of the uncertain
events reported in the catalogue and to new information,
for a more complete evaluation of the recurrence time
of the characteristic earthquakes of this area.

Acknowledgements. The research was partially supported by
the Italian Project PRIN 2010-2012, resp. C. Monaco. We wish to
thank the two anonymous referees and the associate editor G. De
Astis for their constructive comments and suggestions which sig-
nificantly helped improve the quality of the manuscript.

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*Corresponding author: Maria Serafina Barbano,
Università di Catania, Dipartimento di Scienze Biologiche, Geo-
logiche e Ambientali, Catania, Italy; email: barbano@unict.it.

© 2014 by the Istituto Nazionale di Geofisica e Vulcanologia. All
rights reserved.

THE MESSINA STRAIT EARLY SEISMIC HISTORY