1692 Northwestern Europe earthquake

Last updated
1692 Ardennes earthquake
Belgium relief location map.jpg
Bullseye1.png
Local date18 September 1692
Local time14:00-15:00 WET
Magnitude6.0–6.5 Ms [1] [2]
Epicenter 50°36′36″N5°49′30″E / 50.61°N 5.825°E / 50.61; 5.825
Areas affectedModern-day Belgium, France, Netherlands, Germany, England
Max. intensity MMI VII (Very strong) - MMI VIII (Severe) [3]

The 1692 Verviers earthquake, also known as the 1692 Ardennes earthquake, occurred in the east of Belgium on 18 September 1692 measuring around 6.2 [1] on the Richter scale. Parish records and historical accounts strongly indicate the earthquake's epicenter was northwest of Verviers, and the event was widely felt across Western Europe in modern-day Belgium, England, Germany, the Netherlands, Luxembourg, and France. The largest amount of damage occurred in the northwestern environs of Verviers, then part of the Prince-Bishopric of Liège. Researchers at the Royal Observatory of Belgium have considered this the strongest known earthquake in Western Europe north of the Alps, [2] which occurred as part of a sequence of quakes from the Lower Rhine Graben in September 1692.

Contents

Earthquake

"Aardbeeving" by Simon Fokke. Aardbeving te Amsterdam, 1692 Aardbeeving (titel op object), RP-P-OB-82.820.jpg
"Aardbeeving" by Simon Fokke.

Contemporaneous accounts of the earthquake and its destruction across Belgium and other countries enable scientists to approximate its epicenter, magnitude, and intensity as it spread outwards. [3] During a Thursday afternoon between 14:00 and 15:00, [4] the hills just northwest of Verviers were suddenly struck by destructive-level shaking. [3] The villages of Soiron, Herve, Ensival, and Walhorn were closest to the epicenter [5] and accounts of "extensive" to "complete" destruction of houses in Soiron [6] demonstrate an earthquake intensity of VIII (Severe) on the Modified Mercalli intensity scale for the area. [3] [5] [6]

Kasteel Hofwijck.jpg Christiaan Huygens-painting.jpeg
Dutch mathematician Christiaan Huygens felt the earthquake in his mansion at Hofwijck.

Populations would have experienced "considerable damage or partial collapses" in buildings like homes and churches in addition to falling walls, columns, and monuments along with overturned furniture like barrels and bookshelves. [7] In Liège, level VII-VIII shaking [5] toppled chimneys, towers, and rooftops. [8] Shockwaves quickly radiated across Belgium and damaged numerous large buildings far from the epicenter in Flanders and Hainaut Province. [9] One person is recorded to have died in Mons, which experienced VII-intensity shaking. [5]

Netherlands

The quake was felt more in regions around the Ardennes like the Duchy of Brabant than in places like Brussels or Antwerp. [10] In Roermond, the vaults of the Minderbroederklooster collapsed. The Dutch mathematician Christiaan Huygens felt the earthquake in Hofwijck and recounted: "At half past two in the afternoon, while I was reading a book, I had suddenly and not without alarm felt an earthquake. The house clearly shook, moved back and forth, so that in the dining room paintings were beaten against the gilded leather on the walls.The stone floor where I stood lifted slightly and fell again, several times for 10 to 12 seconds." [11] Huygens presumed the quake must have been caused by an exploding gunpowder reserve in Dunkirk. [12] A tower in Amsterdam left tilted by the earthquake inspired a woodcut by Simon Fokke, titled "Aardbeeving" or "Earthquake."

England

English author Thomas Doolittle viewed earthquakes as divine messages. Thomas Doolittle.jpg
English author Thomas Doolittle viewed earthquakes as divine messages.

Shaking was felt throughout southern England. Dover was closest to the epicenter and felt the first shockwaves, and to the west a portion of Castle Saltwood collapsed. [13] Robert Dickman, the minister at St. Pete's Church in Colchester, recounted: "...on Thursday 8 September 1692 [sic] there happened about two of ye Clock in the afternoon for ye space of a minute of more there was a universall earthquake all over England, France, Holland, and some parts of Germany and particularly it was attested to me by the Masons that were then plaistering the Steeple of St Peter in this towne and uppon the upper most scaffold of the steeple parted so wide in ye midst that they could have put their hand in the crack or cleft and immediately shut up close again, without any damage to the workmen (who expected all would have fallen down) or to the steeple itself. Most of the houses here and elsewhere shook and part of a chimney fell down on North Hill, and very many who were sensible of it were taken at ye same time with a giddynes in their head, for some short time, in witness of what is here related I have here set my hand." [14]

The earthquakes left a strong impression on London author Thomas Doolittle, who felt inspired by his and others' experiences to write Earthquakes Explained and Practically Improved. Due to differences in the Old Style and New Style of dates, Doolittle (and many other sources) record the event as occurring on 8 September 1692 (with Doolittle noting its similar date to an earthquake described by Josephus that struck Jerusalem during the reign of Vespasian). [15] Such seismic theophany reoccurs in English literature and recollections about the earthquake, but all sources on continental Europe date the main event as occurring on Thursday, 18 September 1692 at around 2 o'clock in the afternoon. [16]

France

During the quake, the church at Linselles moved "like a swing" and the bell tower run 10 times. Eglise de Linselles vers 1910.gif
During the quake, the church at Linselles moved "like a swing" and the bell tower run 10 times.

Lille, 198 kilometers from Verviers in the French Bishopric of Cambrai, [17] experienced Level VI-VII shaking. [5] Félix Vincre, the parish clerk at Linselles, was in the attic of the clergy house near a cemetery when it shook so much he believed it would collapse. Two others in a barn across the cemetery saw the parish church move "like a swing" and the bell tower rung ten times. [16] Mineral springs in northeastern France behaved differently during the earthquake. [13] Paris experienced level IV-intensity shaking but little damage. [5]

Germany

German-speaking sources felt the main quake and the aftershocks. [10]

Aftershocks

Researchers from Royal Observatory of Belgium have determined there were seven significant aftershocks of the earthquake from 1692 to 1694, many of them occurring in the area of modern North Rhine-Westphalia. Two large aftershocks followed the main event on the same day, each one large enough to be felt over 135 kilometers from Liege to Essen. The third aftershock occurred on the 20 September, and was felt widely in Frankfurt. [18] [10]

The first occurred in the Another aftershock was felt in Maastricht on 18 December, and violent shaking was observed at a church tower in Den Bosch. [19]

Cultural effects

Architectural heritages in Verviers and surrounding regions were significantly affected by the earthquakes. [20] Sermons and piety were inspired in the more religious populations.

Regional tectonics

The earthquake and its aftershocks became a sequence of earthquakes that struck the Lower Rhine Graben in late 1692. Eastern Belgium is part of the Lower Rhine Graben, a system of faults which also run through the English Channel, The Netherlands, Luxembourg, and Germany. [1] Most of these are NW-SE dipping normal faults that are capable of producing damaging earthquakes a few times a century. One of these faults near Verviers, known as the Graben de la Minerie but also the Verviers or Ostend fault, shows signs of recent geological activity. A fault scarp also exists near Verviers. [21] It is unknown if the epicenter was north or south of the Vesdre River.

Related Research Articles

<span class="mw-page-title-main">1811–1812 New Madrid earthquakes</span> Series of earthquakes during 1811-1812 impacting on Missouri USA

The 1811–1812 New Madrid earthquakes were a series of intense intraplate earthquakes beginning with an initial earthquake of moment magnitude 7.2–8.2 on December 16, 1811, followed by a moment magnitude 7.4 aftershock on the same day. Two additional earthquakes of similar magnitude followed in January and February 1812. They remain the most powerful earthquakes to hit the contiguous United States east of the Rocky Mountains in recorded history. The earthquakes, as well as the seismic zone of their occurrence, were named for the Mississippi River town of New Madrid, then part of the Louisiana Territory and now within the U.S. state of Missouri.

<span class="mw-page-title-main">New Madrid Seismic Zone</span> Major seismic zone in the southern and midwestern United States

The New Madrid Seismic Zone (NMSZ), sometimes called the New Madrid Fault Line, is a major seismic zone and a prolific source of intraplate earthquakes in the Southern and Midwestern United States, stretching to the southwest from New Madrid, Missouri.

<span class="mw-page-title-main">2005 Fukuoka earthquake</span> Earthquake in Japan

The Fukuoka earthquake, also known as the Fukuoka Prefecture West Sea Earthquake, struck Fukuoka Prefecture, Japan at 10:53 am JST on March 20, 2005, off the northwest coast of Fukuoka Prefecture, and lasted for approximately 1 minute. The Japan Meteorological Agency (JMA) measured it as peaking at a magnitude of 7.0 and a maximum seismic intensity of less than six, whereas the United States Geological Survey (USGS) reported a magnitude of 6.6. The quake occurred along a previously unknown fault in the Genkai Sea, North of Fukuoka city, and the residents of Genkai Island were forced to evacuate as houses collapsed and multiple landslides occurred in various places. Investigations subsequent to the earthquake determined that the new fault was most likely an extension of the known Kego fault that runs through the centre of the city.

<span class="mw-page-title-main">1950 Assam–Tibet earthquake</span> 1950 earthquake centered on border between Tibet, China and Assam, India

The 1950 Assam–Tibet earthquake, also known as the Assam earthquake, occurred on 15 August and had a moment magnitude of 8.7. The epicentre was located in the Mishmi Hills. It is the strongest earthquake ever recorded on land.

<span class="mw-page-title-main">1983 Borah Peak earthquake</span> Earthquake in Idaho, United States

The 1983 Borah Peak earthquake occurred on October 28, at 8:06:09 a.m. MDT in the western United States, in the Lost River Range at Borah Peak in central Idaho.

<span class="mw-page-title-main">1931 Valentine earthquake</span> Most powerful earthquake in Texas history

In the early morning hours of August 16, 1931, a powerful earthquake occurred in West Texas with a maximum Mercalli intensity of VIII (Severe). Estimates of its magnitude range between 5.8 and 6.4 mb, making it the most powerful earthquake ever recorded in Texas history. Its epicenter was near the town of Valentine, Texas; there, the earthquake caused damage to many homes and buildings. The earthquake may have been caused by movement along oblique-slip faulting in West Texas, the most seismically active region in the state. Shaking from the earthquake was perceptible within a 400 mi (640 km) radius of the epicenter, affecting four U.S. states and northern Mexico. Several foreshocks and aftershocks accompanied the primary temblor, with the aftershocks continuing until at least November 3, 1931. The main earthquake caused no fatalities, though several people sustained minor injuries; the damage in Valentine amounted to $50,000–$75,000.

<span class="mw-page-title-main">2010 Baja California earthquake</span> Earthquake in Mexico

The 2010 Baja California earthquake occurred on April 4 with a moment magnitude of 7.2 and a maximum Mercalli intensity of VII. The shock originated at 15:40:41 local time south of Guadalupe Victoria, Baja California, Mexico.

The 1887 Sonora earthquake occurred at 22:13 UTC on 3 May in the Teras mountain range of northwestern Mexico. It was widely felt, with some damage being recorded up to 200 kilometers (120 mi) from the epicenter in both Mexico and the United States. The earthquake had an estimated magnitude of 7.6 and caused 42 casualties in the town of Bavispe and 51 overall. It was the only historical earthquake to cause considerable damage in Arizona. The 1887 Tombstone Arizona newspapers mentioned lesser quakes (aftershocks) on August 27, 1887, and November 11, 1887.

The 1872 North Cascades earthquake occurred at 9:40 p.m. local time on December 14 in central Washington Territory. A maximum Mercalli intensity of VIII (Severe) was assessed for several locations, though less intense shaking was observed at many other locations in Washington, Oregon, and British Columbia. Some of these intermediate outlying areas reported V (Moderate) to VII shaking, but intensities as high as IV (Light) were reported as far distant as Idaho and Montana. Due to the remote location of the mainshock and a series of strong aftershocks, damage to structures was limited to a few cabins close to the areas of the highest intensity.

The 2011 Kütahya earthquake struck near a populous region of western Turkey at 23:15 EEST (20:15 UTC) on 19 May with a moment magnitude of 5.8 and a maximum Mercalli intensity of VII. With an epicenter just to the east of Simav, it occurred at an estimated depth of 9.1 kilometers (5.7 mi), resulting in strong shaking in much of Kütahya.

<span class="mw-page-title-main">2011 Virginia earthquake</span> Earthquake in Virginia, U.S.

On August 23, 2011, a magnitude 5.8 earthquake hit the Piedmont region of the U.S. state of Virginia at 1:51:04 p.m. EDT. The epicenter, in Louisa County, was 38 mi (61 km) northwest of Richmond and 5 mi (8 km) south-southwest of the town of Mineral. It was an intraplate earthquake with a maximum perceived intensity of VIII (Severe) on the Mercalli intensity scale. Several aftershocks, ranging up to 4.5 Mw in magnitude, occurred after the main tremor.

<span class="mw-page-title-main">2011 Oklahoma earthquake</span> 2011 earthquake near Prague, Oklahoma

The 2011 Oklahoma earthquake was a 5.7 magnitude intraplate earthquake which occurred near Prague, Oklahoma on November 5 at 10:53 p.m. CDT in the U.S. state of Oklahoma. The epicenter of the earthquake was in the vicinity of several active wastewater injection wells. According to the United States Geological Survey (USGS), it was the most powerful earthquake ever recorded in Oklahoma until the 2016 Oklahoma earthquake. The previous record was a 5.5 magnitude earthquake that struck near the town of El Reno in 1952. The quake's epicenter was approximately 44 miles (71 km) east-northeast of Oklahoma City, near the town of Sparks and was felt in the neighboring states of Texas, Arkansas, Kansas and Missouri and even as far away as Tennessee and Wisconsin. The quake followed several minor quakes earlier in the day, including a 4.7 magnitude foreshock. The quake had a maximum perceived intensity of VIII (Severe) on the Mercalli intensity scale in the area closest to the epicenter. Numerous aftershocks were detected after the main quake, with a few registering at 4.0 magnitude.

The 1992 Roermond earthquake occurred on 13 April, around 3:20 AM with a moment magnitude of 5.3 and a maximum Mercalli intensity of VIII (Severe). Striking on the Peel Boundary Fault, a normal fault near Roermond, it was the strongest recorded earthquake in the Netherlands and in Northwestern Europe, and caused substantial damage to older buildings in the Netherlands and adjacent countries of Belgium and Germany. A series of aftershocks followed.

<span class="mw-page-title-main">2017 Batangas earthquakes</span> Earthquakes in the Philippines

The 2017 Batangas earthquakes were an earthquake swarm that occurred from early April to mid-August 2017, affecting the province of Batangas in the Philippines and other nearby areas.

The 1382 Dover Straits earthquake occurred at 15:00 on 21 May. It had an estimated magnitude of 6.0 Ms and a maximum felt intensity of VII–VIII on the Mercalli intensity scale. Based on contemporary reports of damage, the epicentre is thought to have been in the Strait of Dover. The earthquake caused widespread damage in south-eastern England and in the Low Countries. The earthquake interrupted a synod in London that convened in part to examine the religious writings of John Wycliffe, which became known as the Earthquake Synod.

The 2019 Ridgecrest earthquakes of July 4 and 5 occurred north and northeast of the town of Ridgecrest, California located in Kern County and west of Searles Valley. They included three initial main shocks of Mw magnitudes 6.4, 5.4, and 7.1, and many perceptible aftershocks, mainly within the area of the Naval Air Weapons Station China Lake. Eleven months later, a Mw  5.5 aftershock took place to the east of Ridgecrest. The first main shock occurred on Thursday, July 4 at 10:33 a.m. PDT, approximately 18 km (11.2 mi) ENE of Ridgecrest, and 13 km (8.1 mi) WSW of Trona, on a previously unnoticed NE-SW trending fault where it intersects the NW-SE trending Little Lake Fault Zone. This quake was preceded by several smaller earthquakes, and was followed by more than 1,400 detected aftershocks. The M 5.4 and M 7.1 quakes struck on Friday, July 5 at 4:08 a.m. and 8:19 p.m. PDT approximately 10 km (6 miles) to the northwest. The latter, now considered the mainshock, was the most powerful earthquake to occur in the state in 20 years. Subsequent aftershocks extended approximately 50 km (~30 miles) along the Little Lake Fault Zone.

An earthquake struck approximately 53 kilometres SSE of the town of Mansfield, in the Victorian Alps of Australia on 22 September 2021, at 09:15 local time. The earthquake measured 5.9 on the moment magnitude scale. The earthquake caused minor structural damage in parts of Melbourne and left one person injured. The earthquake was also felt in New South Wales, Australian Capital Territory, South Australia and Tasmania. The earthquake was substantially stronger than the 1989 Newcastle earthquake that measured 5.6 and killed 13 people.

<span class="mw-page-title-main">2014 La Habra earthquake</span> Earthquake in California, U.S.

The 2014 La Habra earthquake was a magnitude 5.1 earthquake that occurred on March 28, 2014, at 9:09:42 p.m. PDT. Although given the name "La Habra" it was centered in Brea, a city in northern Orange County. Despite its moderate magnitude, it had a maximum Mercalli intensity of VII, and caused a total of $10.8 million in damage. Thirteen water mains broke in Fullerton, forcing roughly 70 families to be displaced from their homes after they were declared temporarily uninhabitable.

The 1992 Joshua Tree earthquake occurred at 9:50:25 p.m. PDT on April 22 in Southern California. The magnitude 6.2 earthquake struck under the Little San Bernardino Mountains, near the town of Joshua Tree, California. Though no deaths were reported, the earthquake caused 32 injuries. A maximum Mercalli intensity of VII was observed in Joshua Tree and caused light to moderate damage. The event preceded the Landers and Big Bear earthquakes by two months but is now recognized as the beginning of a series of major earthquakes that culminated in two events on June 28, 1992.

The 1983 Liège earthquake occurred on 8 November 1983 at 01:49 Central European Time, with an epicenter near Remicourt in Liège Province, Belgium. It had a body wave magnitude of 4.7, with a depth of around 14 km. A Modified Mercalli Intensity of VIII (severe) was observed. The event was followed by more than 10 aftershocks. 2 people died, 30 were injured and over 16,000 buildings were damaged. The cost of damages have been estimated at between 42 million and 75 million euros. It is the biggest earthquake to have ever occurred in Belgium since the 1938 Zulzeke earthquake.

References

  1. 1 2 3 Yeates, Robert (2012). "6.10 European Rift System and the 1356 Basel Earthquake". Active Faults of the World. Cambridge, UK: Cambridge University Press. ISBN   9781107375604.
  2. 1 2 Petermans, Toon; Devleeschouwer, Xavier; Pouriel, Frank; Rosset, Philippe (6–10 September 2006). "Mapping the local seismic hazard in the urban area of Brussels, Belgium". International Association for Engineering Geology and the Environment paper 424 (PDF). Nottingham, UK: The Geological Society of London. pp. 1–2.
  3. 1 2 3 4 Alexandre, Pierre; Kushman, David; Camelbeek, Thierry (2002). "Le trembelment de terre du 18 september 1692 dans le nord de l'Ardennes. Impact sur le patrimoine architectural" (PDF). Actes de Vlèmes Rencontres du Groupe APS "Archéosismicité & Vulnérabilité, Environnement, bâti ancien et société". Perpignan, France: Groupe APS: 1–2.
  4. Camelbeek, Thierry (2011), "Tremblements de terre et enregistrement géologique dans l'ouest de l'Europe" (PDF), Association de géologues du bassin de Paris, Royal Observatory of Belgium, p. 10
  5. 1 2 3 4 5 6 Alexandre, Pierre; Kushman, David; Petermans, Toon; Camelbeek, Thierry (December 2008). "The 18 September 1692 Earthquake in the Belgian Ardenne and Its Aftershocks". Historical Seismology. Modern Approaches in Solid Earth Sciences. 2: 213–215. doi:10.1007/978-1-4020-8222-1_10. ISBN   978-1-4020-8221-4 via ResearchGate.
  6. 1 2 Talwani, Pradeep (2014-04-24). Intraplate Earthquakes. Cambridge University Press. pp. 223–226. ISBN   978-1-139-91668-4.
  7. "The Modified Mercalli Intensity Scale | U.S. Geological Survey". United States Geological Survey. Retrieved 2022-02-18.
  8. Lambert, J. (1989). "Siésme de 18 / 09 / 1692 (Boirs, Dalhem, Belgique)" (PDF). Macrosismicité de la France - Fiches signalétique des siésmes de forte intensité. 1: 37 via Infoterre.brgm.fr.
  9. Alexandre, Pierre; Kushman, David; Camelbeek, Thierry (2002). "Le trembelment de terre du 18 september 1692 dans le nord de l'Ardennes. Impact sur le patrimoine architectural" (PDF). Actes de Vlèmes Rencontres du Groupe APS "Archéosismicité & Vulnérabilité, Environnement, bâti ancien et société". Perpignan, France: Groupe APS: 6.
  10. 1 2 3 Bögner, Josef (1847). Das Erdbeben und seine Erscheinungen: nebst einer chronologischen Uebersicht der Erderschütterungen im mittleren Deutschland vom 8. Jahrhundert bis auf die neueste Zeit und ihres Zusammenhanges mit vulkanischen Erscheinungen in entfernten Ländern (in German). Brönner. pp. 107–108.
  11. "Christiaan Huygens, Aardbeving (1692)". adcs.home.xs4all.nl. Retrieved 2022-02-23.
  12. Vermij, Rienk (2020). Thinking on Earthquakes in Early Modern Europe. Abingdon-on-Thames: Taylor & Francis. p. 12. ISBN   9781000258738.
  13. 1 2 Ernst Adolf von Hoff, Karl (1840). Chronik der Erdbeben und Vulcan-Ausbrüche (in German). p. 344.
  14. "HISTORY: How the earth moved for Colchester...SIX times". Daily Gazette Standard Essex County. 15 February 2017.
  15. Doolittle, Thomas (1693). Earthquakes Explained and Practically Improved: Occasioned by the Late Earthquake on Sept. 8. 1692. in London, Many Other Parts in England, and Beyond Sea. John Salusbury at the Rising Sun over against the Royal Exchange in Cornhill.
  16. 1 2 Bulletin de la Commission Historique du Département du Nord (in French). 1883. p. 323.
  17. "How far is Lille from Verviers | Around the World 360". aroundtheworld360.com. Retrieved 2022-04-05.
  18. Alexandre, Pierre; Kushman, David; Petermans, Toons; Camelbeek, Thierry (December 2008). "The 18 September 1692 Earthquake in the Belgian Ardenne and Its Aftershocks". Historical Seismology: 226.
  19. "Historie.Roermond.net". historieroermond.nl. Retrieved 2022-02-19.
  20. Talwani, Pradeep (2014-04-24). Intraplate Earthquakes. Cambridge University Press. p. 207. ISBN   978-1-107-04038-0.
  21. Alexandre, Pierre; Kushman, David; Petermans, Toon; Thierry, Camelbeek (5–6 April 2004). "The 1692 Earthquake in the Belgian Ardennes and its Geological Context". Final Meeting of the SAFE European Project. Paris. pp. 3–4.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.