Series of localized seismic events within a short time period
In
seismology
, an
earthquake swarm
is a sequence of seismic events occurring in a local area within a relatively short period. The time span used to define a swarm varies, but may be days, months, or years. Such an energy release is different from the situation when a major
earthquake
(main shock) is followed by a series of
aftershocks
: in earthquake swarms, no single earthquake in the sequence is obviously the main shock. In particular, a cluster of aftershocks occurring after a mainshock
is not
a swarm.
[2]
History and generalities
[
edit
]
The
Ore Mountains
(Erzgebirge), which form the border between the
Czech Republic
and
Germany
, western
Bohemia
and the
Vogtland
region, have been known since the 16th century as being prone to frequent earthquake swarms, which typically last a few weeks to a few months. In 1899, Austrian geologist Josef Knett, while studying a swarm of about a hundred events felt in western Bohemia/Vogtland between January and February 1824, coined the noun
Schwarmbeben
, i.e. "swarm [earth]quake".
[3]
The term "swarm" comes from the fact that
hypocentres
give the impression of agglutinating like a
bee swarm
when plotted onto a map, a cross-section or a 3D model.
[
citation needed
]
One of the best-documented swarms occurred near
Matsushiro
, a suburb of
Nagano
, to the north-west of
Tokyo
. The
Matsushiro swarm
lasted from 1965 to 1967 and generated about 1 million earthquakes. This swarm had the peculiarity of being sited just under a seismological observatory installed in 1947 in a decommissioned military tunnel. It began in August 1965 with three earthquakes too weak to be felt, but three months later, a hundred earthquakes could be felt daily. On 17 April 1966, the observatory counted 6,780 earthquakes, with 585 of them having a magnitude great enough to be felt, which means that an earthquake could be felt, on average, every two and a half minutes.
[4]
The phenomenon was clearly identified as linked to a
magma
uplift, perhaps initiated by the
1964 Niigata earthquake
, which occurred the previous year.
[5]
Earthquake swarms are common in
volcanic regions
such as
Japan
,
Central Italy
, the
Afar depression
or
Iceland
, where they occur before and during eruptions, but they are also observed in zones of
Quaternary
volcanism or of
hydrothermal circulation
, such as
Vogtland
/western
Bohemia
and the
Vosges
massif, and less frequently far from
tectonic plate
boundaries in locations such as
Nevada
,
Oklahoma
or
Scotland
. In all cases, high-pressure fluid migration in the Earth's
crust
seems to be the trigger mechanism and the driving process that govern the evolution of the swarm in space and time.
[6]
[7]
The
Hochstaufen
earthquake swarm in
Bavaria
, with 2-km-deep
foci
, is one of the rare examples where an indisputable relationship between seismic activity and
precipitation
could be established.
[8]
Earthquake swarms raise public-safety issues: first, because the end of seismic activity cannot be predicted; second, because it is uncertain whether another earthquake with a
magnitude
larger than those of previous shocks in the sequence will occur (the
2009 L'Aquila earthquake
in Italy illustrates this, with an
M
W
6.3 shock following a swarm activity with magnitudes between 1 and 3). Even though swarms usually generate moderate shocks, the persistence of felt earthquakes can be disruptive and cause distress to the population.
Examples
[
edit
]
The following examples were chosen for peculiarities of certain swarms (for instance: large number of events, complex interaction with larger shocks, long period of time, ultra-shallow focal depth), or because of their geographical region, some swarms occurring in otherwise aseismic regions. It is not intended to be a list of all the swarms happening worldwide.
Asia
[
edit
]
India
[
edit
]
- Since 11 November 2018, an earthquake swarm has been observed in the region of
Dahanu
,
Maharashtra
, an otherwise aseismic area. Ten to twenty quakes are felt daily, with magnitudes usually smaller than 3.5 (maximum magnitude 4.1 in February 2019). Even with this low-level of magnitude, two shocks proved destructive and even lethal, probably because their foci were very shallow.
[9]
- Bamhori village in Seoni district is also experiencing regular earthquakes since February 2000.
Philippines
[
edit
]
- An earthquake swarm occurred from early April 2017 to mid August 2017 in the province of
Batangas
. Four shocks in the 5.5?6.3 magnitude range (
2017 Batangas earthquakes
) caused damage in southern
Luzon
; they occurred at the beginning of the swarm:
M
s
5.5 (4 April),
M
s
5.6 and
M
s
6.0 (8 April), and
M
s
6.3 (11 April).
[10]
The origin of the 3 first major quakes seems established since they had practically the same epicentre; they occurred within the crust (7?28-km depth range). However, the strongest and latest quake does not seem related to the swarm: its epicentre is 50 km away, and its
focal depth
is moreover very different (177 km, according to
Phivolcs
, the local seismic monitoring agency, a value which classifies this quake as an "intermediate-depth event"). This example shows how complex can be the interaction between a swarm and an independent earthquake, even though this last one is very likely to have been triggered by the swarm activity.
- October 15, 2020, an earthquake swarm occurred on the island of
Panay
ranging from magnitudes 2.5-4.5. Most of these quakes felt in Iloilo City.
[11]
A previous swarm also hit Panay on November 5, 2018 (Including
Antique
,
Iloilo
and
Guimaras
) ranging from magnitudes 4.0-4.8. The first earthquake (magnitude 4.7) at 7:45 A.M, occurred at
San Jose, Antique
. Just a few minutes after, the second quake (magnitude 4.0) occurred at
Sibunag, Guimaras
. At 10:54 A.M, The third quake (magnitude 4.8) occurred at
Guimbal, Iloilo
. Intensity 4 was felt in
Iloilo City
[12]
- A
series of earthquakes that hit Mindanao
in 2019 were classified as an earthquake swarm.
[13]
On October 16, a magnitude 6.3 (
M
wp
) Struck Tulunan cotabato (Epicenter of earthquake).
Intensity VII
was felt in
Tulunan
,
M'lang
,
Makilala
and
Kidapawan
City,
Cotabato
. Intensity VI was felt in
Digos
City,
Davao del Sur
;
Santo Nino, South Cotabato
and
Tacurong
City,
Sultan Kudarat
.
[14]
On October 29, a magnitude 6.6 (
M
ww
) struck Tulunan again. At least ten deaths were reported and four hundred individuals were injured.
[15]
Intensity VII was recorded in Tulunan and Makilala; Kidapawan City; Digos City,
Bansalan
and
Magsaysay, Davao del Sur
and
Malungon, Sarangani
. Intensity VI was recorded in
Koronadal
City and
Davao City
.
[16]
Just 2 days after on October 31, an earthquake struck Tulunan again (Magnitude 6.5
M
ww
) The death toll of two quakes was raised into 24 and 563 were injured.
[17]
Eva's Hotel in Kidapawan City collapsed during the quake
[18]
- On October 14-18 2021 an earthquake swarm occurred on
Camarines Sur
ranging from magnitudes 1.7-4.3 with the depth of 1?40 km. Some of these events were felt on
Camarines Norte
and
Albay
. PHIVOLCS recorded at least 27 earthquakes (10 were felt) in Camarines Sur.
[19]
Europe
[
edit
]
Iceland
[
edit
]
- A swarm of intense earthquakes in the
Reykjanes Peninsula
,
Iceland
began on 24 October 2023, due to a
magmatic intrusion
underneath the area. The frequency and intensity of the earthquakes dramatically increased 10 November, with 20,000 tremors recorded by that time, the largest of which exceeded magnitude 5.2. An evacuation was ordered in the town of
Grindavik
, which is located near the area of the seismic activity. Large-scale subsidence in and around the town is reported to have caused significant damage.
[20]
An earthquake swarm began on the evening of 24 October due to the magmatic intrusion, with the intensity of the earthquakes decreasing by 30 October. Approximately 8,000 earthquakes were detected; most of these tremors occurred at a depth of 2?4 km. The
Icelandic Meteorological Office
(IMO) reported that the swarm was focused around
Svartsengi
, north of Grindavik. About 700 earthquakes were recorded earlier in the month, the largest reaching magnitude 3.3.The largest of the earthquakes to date reached magnitude 5.1 on 10 November. By this time, over 22,000 earthquakes had been recorded since the beginning of the swarm in October. The IMO predicted that an eruption was likely, stating that "it will take several days (rather than hours) for magma to reach the surface." The greatest extent of the magma intrusion was inferred to be around the Sundhnukur crater chain, approximately 3.5 km north of Grindavik. Instruments detected the presence of
sulphur dioxide
in the atmosphere on 14 November, indicating that magma was now only a few hundred metres under the surface. Although the number of earthquakes decreased somewhat since 10 November, the IMO was still recording between 700?1,000 earthquakes daily by 14 November. Ground deformation sensors at Festarfjall
[?f?star?fjatl?]
and Svartsengi recorded that the ground had moved apart by 120 centimetres. Satellite measurements recorded the subsidence by about one metre of a swathe of land measuring approximately five kilometers long and two kilometers wide, running from the Sundhnukur craters to the western side of Grindavik. The creation of this
graben
-like formation has enabled scientists to estimate the volume of the magmatic intrusion as approximately 70 million cubic metres. It is estimated that the subsidence has been continuing at a rate of about four centimeters (1.6 inches) a day. A large crack opened up through the town, which old maps indicate is a reactivation of an existing fault. Scientists at the
University of Iceland
believe that the fault was created by the last Sundhnukur eruption over 2,000 years ago. Sensors emplaced in a borehole in Svartsengi detected the presence of
sulphur dioxide
on 16 November, a classic signature of magma close to the surface. This has led the IMO to conclude that the area around the volcanic edifice of Hagafell, approximately 2 km north of Grindavik, is at the highest level of risk. A rapid 30 mm uplift of the ground in the Svartsengi area was recorded from 18-21 November, likely indicating an upwelling of magma from a source five or more kilometers below the ground. An eruption was still regarded as likely as of 21 November.
[20]
Czech Republic / Germany
[
edit
]
- The western
Bohemia
/
Vogtland
region is the border area between the Czech Republic and Germany where earthquake swarms were first studied at the end of the 19th century. Swarm activity is recurrent there, sometimes with large maximum magnitudes, as for instance in 1908 (maximum magnitude 5.0), 1985?1986 (4.6), 2000 (3.2), or 2008 (3.8). This latter swarm occurred near
Novy Kostel
in October 2008 and lasted only 4 weeks, but up to 25,000 events were detected by WEBNET, the local monitoring network. The swarm is located on a steeply-dipping fault plane where an overall upward migration of activity was observed (first events at the bottom and last events at the top of the activated fault patch).
[21]
France
[
edit
]
- In
Alpes-de-Haute-Provence
, the
Ubaye Valley
is the most active seismic zone in the
French Alps
. Earthquakes can follow there the classical scheme "mainshock + aftershocks" (for instance the 1959
M
5.5 earthquake, which caused heavy damage and two casualties). But seismic energy is principally released by swarms. This is particularly the case in the upper valley, between
Barcelonnette
and the French-Italian border. At the beginning of the 21st century,
La Condamine-Chatelard
experienced an
exceptional swarm activity
in an area where usually only a few low-magnitude events occur every year. A first swarm developed in 2003?2004 when more than 16,000 events were detected by the local monitoring network, but with magnitudes keeping to low values (2.7). On a map, the 2003?2004 swarm is 8-km long. After a period of almost complete inactivity, it was followed by a second swarm (2012?2014), slightly offset by a few kilometres, and with a length of 11 km. This second swarm was initiated by an
M
4.3 earthquake in February 2012. Another
M
4.8 earthquake in April 2014 reactivated the swarm in 2014?2015. These two major shocks, which caused damage in the nearby localities, were of course followed by their own short sequence of aftershocks, but such a 4-year activity for moderate magnitude shocks clearly characterizes a swarm. Most
foci
were located in the 4?11-km depth range, within the crystalline basement.
Focal mechanisms
involve
normal faulting
, but also
strike-slip faulting
.
[1]
[6]
- In the lower
Rhone Valley
, the
Tricastin
has been known from the 18th century as the seat of earthquake swarms which sometimes caused damage, as in 1772?1773 and 1933?1936, and which were characterized by barrage-like detonations?at least so reported by the inhabitants. No seismic activity had been documented in the region since 1936, when a very weak swarm appeared for a few months in 2002?2003 (maximal magnitude 1.7).
[22]
Had their foci not been sited just under a hamlet in the vicinity of
Clansayes
, and very close to the surface (200 m deep), these shocks would have gone unnoticed. In such a scenario of "ultra-shallow" seismicity, even earthquakes of very low magnitude (1, or 0, or even negative magnitude) can be felt as explosions or water-hammer noises, more than as vibrations.
[23]
Most foci were located in an
Upper-Cretaceous
reef-
limestone
slab which bursts out periodically in the course of centuries for still unknown reasons for a few months or a few years. A 200-m focal depth is believed to be a worldwide record value for tectonic events.
- In the
French Alps
, the
Maurienne Valley
is from time to time prone to earthquake swarms. During the 19th century, a protracted swarm lasted 5 years and a half, from December 1838 to June 1844.
[24]
Some earthquakes of the sequence caused damage in the region close to
Saint-Jean-de-Maurienne
, but this long swarm with many felt events made things particularly difficult for the population. More recently, a swarm appeared in October 2015 near
Montgellafrey
, in the lower part of the valley.
[25]
Its activity kept low until 17 October 2017, when more than 300 earthquakes occurred within a fortnight, with a maximal magnitude of 3.7 being reached twice in late October 2017. The seismic activity lasted another full year, thus yielding a duration of more than 3 years for the full swarm.
Central America
[
edit
]
El Salvador
[
edit
]
- In April 2017, the Salvadoran municipality of
Antiguo Cuscatlan
, a suburb of
San Salvador
, experienced a sequence of close to 500 earthquakes within 2 days, with magnitudes in the 1.5?5.1 range. There was one casualty and minor damage due to the strongest quake. Local experts did not identify any anomalous activity at nearby volcanoes.
[26]
North America
[
edit
]
United States
[
edit
]
- Between February and November 2008,
Nevada
experienced a swarm of 1,000 low-magnitude quakes generally referred to as the
2008 Reno earthquakes
.
[27]
The peak activity was in April 2008, when 3 quakes with magnitudes larger than 4 occurred within 2 days. The largest one registered a moment magnitude of 4.9 and caused damage in the immediate area around the epicenter.
- The
Yellowstone Caldera
, a
supervolcano
in NW
Wyoming
, has experienced several strong earthquake swarms since the end of the 20th century. In 1985, more than 3,000 earthquakes were observed over a period of several months. More than 70 smaller swarms have been detected since. The
United States Geological Survey
states these swarms are likely caused by slips on pre-existing faults rather than by movements of magma or hydrothermal fluids. At the turn of the year 2008, more than 500 quakes were detected under the NW end of
Yellowstone Lake
over a seven-day span, with the largest registering a magnitude of 3.9. Another swarm started in January 2010, after the Haiti earthquake. With 1,620 small events in late January 2010, this swarm is the second-largest ever recorded in the Yellowstone Caldera. Interestingly, most of these swarms have "rapid-fire" characteristics: they seemingly appear out of nowhere and can churn out tens or hundreds of small to moderate quakes within a very short time frame. Such swarms usually occur within the caldera boundary, as was especially the case in 2018.
[28]
- The
Guy-Greenbrier earthquake swarm
occurred in
central Arkansas
beginning in August 2010.
Epicentres
show a linear distribution, with a clear overall shift in activity towards the southwest with time, and a magnitude of 4.7 was computed for the largest event. Analysis of the swarm has suggested a link with deep waste
disposal drilling
. It has led to a moratorium on such drilling.
[30]
- On 2 September 2017, an earthquake swarm appeared around
Soda Springs, Idaho
. Five quakes with magnitudes between 4.6 and 5.3 occurred within 9 days. Keeping the
2009 L'Aquila case
in mind, and because
Idaho
had experienced an
M
6.9 earthquake in 1983, experts warned residents that a stronger quake could follow (an unlikely but still possible scenario for them).
[31]
- From early 2016 to late 2019, a swarm of earthquakes occurred near
Cahuilla
in
Riverside County, California
. More than 22,000 individual seismic events were recorded?ranging in magnitude from 0.7 to 4.4 -- the strongest one occurred in August 2018, south of Lake Riverside, just off Cahuilla Road (
SR 371
). By using computer algorithms and machine learning, researchers were able to infer the following detailed picture of the Cahuilla fault zone responsible for the earthquake swarm. The fault zone is no more than 50 m (160 ft) wide, 4 km (2.5 mi) long, with the earliest seismic swarm events localized down near its base at 9 km (5.6 mi) below the surface and the latest events migrating upwards to 5 km (3.1 mi) below the surface and spreading throughout the fault zone's length. Containing complex subterranean horizontal channels and prominent bents in its depth profile, the fault zone sits on top of a deeper natural underground reservoir of fluid under pressure with a connector at 8 km (5.0 mi) below the surface that was initially sealed off from the fault zone. When that seal broke open in early 2016, fluids were injected up into the fault zone's base and diffused slowly through the complex channels up to 5 km (3.1 mi) below the surface, which triggered the prolonged earthquake swarm that lasted until late 2019. This analysis provides detailed evidence that fault zone valving is a mechanism for seismogenesis in swarms.
[32]
[33]
Atlantic Ocean
[
edit
]
- In
El Hierro
, the smallest and farthest south and west of the
Canary Islands
, hundreds of small earthquakes were recorded from July 2011 until October 2011 during the
2011?12 El Hierro eruption
. The accumulated energy released by the swarm increased dramatically on 28 September. The swarm was due to the movement of
magma
beneath the island, and on 9 October a submarine
volcanic eruption
was detected.
[34]
Indian Ocean
[
edit
]
- An earthquake swarm began east of
Mayotte
on 10 May 2018.
[35]
The strongest quake (
M
5.9), the largest-magnitude event ever recorded in the
Comoro
zone, struck on 15 May 2018. The swarm includes thousands of quakes, many of them felt by Maorais residents. Temporarily-installed ocean-bottom
seismometers
showed that the swarm active zone was sited 10 km east of Mayotte, deep into the oceanic
lithosphere
(in the 20?50-km depth range),
[36]
a rather surprising result because the swarm was believed to be caused by the deflation of a
magma
reservoir located 45 km east of Mayotte, at a depth of 28 km.
[37]
[38]
(Accordingly, an oceanographic campaign discovered in May 2019 a new submarine volcano, 800-m high and located 50 km east of Mayotte.)
[36]
The swarm had been tapering off between August and November 2018 when the
11-November-2018 event
occurred. This event had no detectable
P
nor
S
waves, but generated
surface waves
which could be observed worldwide by seismological observatories. Its origin is thought to be east of Mayotte.
[39]
The swarm has continued to be active all through 2019.
Pacific Ocean
[
edit
]
- In January and February 2013, the
Santa Cruz Islands
experienced a large earthquake swarm with many magnitude 5 and 6 earthquakes: more than 40 quakes with magnitude 4.5 or larger took place during the previous 7 days, including 7 events with magnitude larger than 6. The swarm degenerated into the M8.0
2013 Solomon Islands earthquake
(6 February 2013).
[40]
See also
[
edit
]
References
[
edit
]
- ^
a
b
Jenatton, Liliane; Guiguet, Robert; Thouvenot, Francois; Daix, Nicolas (2007).
"The 16,000-event 2003-2004 earthquake swarm in Ubaye (French Alps)"
.
J. Geophys. Res
.
112
(B11): 304.
Bibcode
:
2007JGRB..11211304J
.
doi
:
10.1029/2006JB004878
.
S2CID
129318590
.
- ^
- ^
Knett, Josef (1899). "Das Erzgebirgische Schwarmbeben zu Hartenberg vom 1. Janner bis Feber 1824".
Sitzungsber. Deutsch. Naturwiss.-Med. Ver. Bohmen
(in German).
19
: 167?191.
- ^
"Matsushiro earthquake swarm"
.
www.data.jma.go.jp
. Retrieved
2017-10-31
.
- ^
Mogi, Kiyoo (1989). "The mechanics of the occurrence of the Matsushiro earthquake swarm in central Japan and its relation to the 1964 Niigata earthquake".
Tectonophysics
.
159
(1?2): 109?119.
Bibcode
:
1989Tectp.159..109M
.
doi
:
10.1016/0040-1951(89)90173-X
.
- ^
a
b
c
Thouvenot, Francois; Jenatton, Liliane; Scafidi, Davide; Turino, Chiara; Potin, Bertrand; Ferretti, Gabriele (2016). "Encore Ubaye: Earthquake swarms, foreshocks, and aftershocks in the southern French Alps".
Bull. Seismol. Soc. Am
.
106
(5): 2244?2257.
Bibcode
:
2016BuSSA.106.2244T
.
doi
:
10.1785/0120150249
.
- ^
?pi?ak, Ale? (2000). "Earthquake swarms and accompanying phenomena in intraplate regions: a review".
Studia Geophysica et Geodaetica
.
44
(2): 89?106.
doi
:
10.1023/A:1022146422444
.
S2CID
126768561
.
- ^
Kraft, Toni; Wassermann, Joachim; Schmedes, Eberhard; Igel, Heiner (2006). "Meteorological triggering of earthquake swarms at Mt. Hochstaufen, SE-Germany".
Tectonophysics
.
424
(3): 245?258.
Bibcode
:
2006Tectp.424..245K
.
doi
:
10.1016/j.tecto.2006.03.044
.
- ^
Nair, Sandhya (2019-07-26).
"Earthquake leads to roof crash, man killed in Dahanu"
.
timesofindia.indiatimes.com
. Retrieved
2019-09-04
.
- ^
Gamil, Jaymee (2017-04-08).
"Batangas tremors part of 'earthquake swarm,' says Phivolcs"
.
newsinfo.inquirer.net
. Retrieved
2019-09-04
.
- ^
Quake ‘swarm’ hits Iloilo, Antique
panaynews.net October 17, 2020
- ^
Series of earthquakes hit parts of Panay island Monday
Archived
2022-09-16 at the
Wayback Machine
cnnphilippines.com
Published Nov 6, 2018 1:05:01 AM
- ^
Cruz, Divina Nova Joy Dela (2019-11-01).
"Quake 'swarm' hits Mindanao"
.
The Manila Times
. Retrieved
2022-09-27
.
- ^
"Earthquake Information ? 16 Oct 2019 ? 07:37:04 PM"
.
PHIVOLCS
. Archived from the original on December 2, 2019. Retrieved October 16, 2019.
- ^
National Disaster Risk Reduction and Management Council
(2 November 2019).
"NDRRMC Update: SitRep No. 08 regarding Magnitude 6.6 and 6.5 Earthquakes in Tulunan, Nurth Cotabato"
(PDF)
. Retrieved
2 November
2019
.
- ^
1.
"Earthquake Information ? 29 Oct 2019 ? 09:04:43 AM".
PHIVOLCS
. Archived from the original on October 31, 2019. Retrieved October 29, 2019.
- ^
National Disaster Risk Reduction and Management Council
(November 20, 2019).
"NDRRMC Update: SitRep No. 30 regarding Magnitude 6.6 and 6.5 Earthquakes in Tulunan, North Cotabato"
(PDF)
. Retrieved
November 20,
2019
.
- ^
"Kidapawan hotel nearly collapses after magnitude 6.5 quake, several injured"
.
ABS-CBN News
. October 31, 2019
. Retrieved
November 4,
2019
.
- ^
"Series of tremors in CamSur considered as 'earthquake swarm' -- Phivolcs"
.
Manila Bulletin
. 2021-10-18
. Retrieved
2022-09-16
.
- ^
a
b
"2023 Iceland earthquakes"
,
Wikipedia
, 2023-11-24
, retrieved
2023-11-24
- ^
Fischer, Toma?; Horalek, Josef; Michalek, Jan; Bou?kova, Alena (2010).
"The 2008 West Bohemia earthquake swarm in the light of the WEBNET network"
(PDF)
.
J. Seismol
.
14
(4): 662?682.
Bibcode
:
2010JSeis..14..665F
.
doi
:
10.1007/s10950-010-9189-4
.
S2CID
140621431
.
- ^
Thouvenot, Francois; Jenatton, Liliane; Gratier, Jean-Pierre (2009).
"200-m-deep earthquake swarm in Tricastin (lower Rhone Valley, France) accounts for noisy seismicity over past centuries"
.
Terra Nova
.
21
(3): 203?210.
Bibcode
:
2009TeNov..21..203T
.
doi
:
10.1111/j.1365-3121.2009.00875.x
.
S2CID
129836213
.
- ^
Thouvenot, Francois; Bouchon, Michel (2008). "What is the Lowest Magnitude Threshold at Which an Earthquake can be Felt or Heard, or Objects Thrown into the Air?". In Frechet, Julien; Meghraoui, Mustapha; Stucchi, Massimiliano (eds.).
Historical Seismology: Interdisciplinary Studies of Past and Recent Earthquakes
. Modern Approaches in Solid Earth Sciences. Vol. 2. Dordrecht: Springer. pp. 313?326.
doi
:
10.1007/978-1-4020-8222-1_15
.
ISBN
978-1-4020-8221-4
.
- ^
Rothe, Jean-Pierre (1941). "La seismicite des Alpes occidentales".
Ann. Inst. Phys. Globe
(in French).
III
: 26?105.
- ^
"Un seisme de faible magnitude enregistre en Maurienne"
. www.ledauphine.com
. Retrieved
2017-11-15
.
- ^
Bla?kovi?, Teo (2017-04-11).
"Powerful earthquake swarm under Metropolitan Area of San Salvador, El Salvador"
.
watchers.news
. Retrieved
2019-09-04
.
- ^
"Complex Behavior of a Nevada Earthquake Swarm"
.
earthquakes.berkeley.edu
. Retrieved
2019-09-03
.
- ^
"Rapid Energetic Swarms near West Thumb Lake, Yellowstone"
.
www.monitorseis.net
. Archived from
the original
on 2019-06-17
. Retrieved
2019-09-03
.
- ^
Peterson, Mark D.; Mueller, Charles S.; Moschetti, Morgan P.; Hoover, Susan M.; Rubinstein, Justin L.; Llenos, Andrea L.; Michael, Andrew J.; Ellsworth, William L.; McGarr, Arthur F.; Holland, Austin A.; Anderson, John G. (2015).
Incorporating Induced Seismicity in the 2014 United States National Seismic Hazard Model?Results of 2014 Workshop and Sensitivity Studies (USGS Open-File Report 2015?1070)
(PDF)
(Report). United States Geological Survey. p. 69.
doi
:
10.3133/ofr20151070
.
ISSN
2331-1258
.
OCLC
38116130
. Retrieved
2019-09-04
.
- ^
Short, Louis (2011-06-24).
"Permanent injection well moratorium proposed"
.
The Sun Times
. Archived from
the original
on 2011-06-30
. Retrieved
2011-07-03
.
- ^
"M5.3 2017 Soda Springs, Idaho Sequence"
.
earthquake.usgs.gov
. Retrieved
2019-09-03
.
- ^
"Natural Fluid Injections Triggered Cahuilla Earthquake Swarm"
.
caltech.edu
. June 18, 2020
. Retrieved
20 June
2020
.
- ^
Ross, Zachary E.; Cochran, Elizabeth S.; Trugman, Daniel T.; Smith, Jonathan D. (19 Jun 2020).
"3D fault architecture controls the dynamism of earthquake swarms"
.
Science
.
368
(6497): 1357?1361.
Bibcode
:
2020Sci...368.1357R
.
doi
:
10.1126/science.abb0779
.
OSTI
1739984
.
PMID
32554593
.
S2CID
219843436
.
- ^
Bernardo Marin; R. Mendez (2011-10-11).
"La erupcion volcanica submarina de El Hierro libera magma y gases en el oceano"
.
El Pais
(in Spanish)
. Retrieved
2012-05-07
.
- ^
"Essaim de seismes a Mayotte : points de situation"
.
www.brgm.fr
(in French)
. Retrieved
2019-09-05
.
- ^
a
b
"Volcan sous-marin au large de Mayotte, retour sur une decouverte exceptionnelle"
.
www.ipgp.fr
(in French)
. Retrieved
2019-09-05
.
- ^
Lemoine, Anne; Briole, Pierre; Bertil, Didier; Roulle, Agathe; Foumelis, Michael; Thinon, Isabelle; Raucoules, Daniel; de Michele, Marcello; Valty, Pierre; Hoste Colomer, Roser (2020).
"The 2018?2019 seismo-volcanic crisis east of Mayotte, Comoros islands: seismicity and ground deformation markers of an exceptional submarine eruption"
.
Geophysical Journal International
.
223
(1): 22?44.
doi
:
10.1093/gji/ggaa273
.
- ^
Cesca, Simone; Letort, Jean; Razafindrakoto, Hoby N. T.; Heimann, Sebastian; Rivalta, Eleonora; Isken, Marius P.; Nikkhoo, Mehdi; Passarelli, Luigi; Petersen, Gesa M.; Cotton, Fabrice; Dahm, Torsten (2020).
"Drainage of a deep magma reservoir near Mayotte inferred from seismicity and deformation"
.
Nature Geoscience
.
13
(1): 87?93.
Bibcode
:
2020NatGe..13...87C
.
doi
:
10.1038/s41561-019-0505-5
.
hdl
:
10754/661261
.
S2CID
209897160
.
- ^
Maya Wei-Haas (2018-11-28).
"Strange waves rippled around the world, and nobody knows why"
.
National Geographic
. Archived from
the original
on November 28, 2018
. Retrieved
2018-11-30
.
- ^
"Earthquake of magnitude 7.9 in the Santa Cruz Islands on 6 February 2013"
. CEA/DAM
. Retrieved
2019-09-05
.