The Big One? Magnitude 6.4 Earthquake strikes as damage feared in coastal city



A strong and shallow earthquake registered by the IGEPN as M6.4 hit near the coast of Ecuador at 11:19 UTC on December 3, 2017. The agency is reporting a depth of 39.9 km (24.8 miles). USGS is reporting M6.0 at a depth of 24.7 km (15.3 miles). EMSC reports M6.2 at a depth of 30 km (18.6 miles).
According to the USGS, the epicenter was located 20.1 km (12.5 miles) NE of Bahía de Caráquez (population 37 056), 31.6 km (19.6 miles) NW of Chone (population 44 751), 33.8 km (21 miles) N of Tosagua (population 14 680), 42.1 km (26.1 miles) NNW of Calceta (population 17 268), and 65.9 km (40.9 miles) NNE of Portoviejo (population 170 362), Ecuador.
There are 1 550 000 people living within 100 km (62 miles) and 11 000 within 10 km (6.2 miles).
40 000 people are estimated to have felt strong shaking, 230 000 moderate and 2 012 000 weak.
Ecuador earthquake December 3, 2017 - ShakeMapThe USGS issued a green alert for shaking-related fatalities and economic losses. There is a low likelihood of casualties and damage.
Overall, the population in this region resides in structures that are highly vulnerable to earthquake shaking, though some resistant structures exist. The predominant vulnerable building types are mud wall and reinforced/confined masonry construction.
Recent earthquakes in this area have caused secondary hazards such as landslides that might have contributed to losses.

Estimated population exposure to earthquake shaking

Ecuador earthquake December 3, 2017 - Estimated population exposureEcuador earthquake December 3, 2017 - Estimated population exposure - Table

Selected cities exposed

Ecuador earthquake December 3, 2017 - Selected cities exposed

Regional seismicity

Ecuador earthquake December 3, 2017 - Regional seismicity

Seismotectonics of South America (Nazca plate region)

The South American arc extends over 7,000 km, from the Chilean margin triple junction offshore of southern Chile to its intersection with the Panama fracture zone, offshore of the southern coast of Panama in Central America. It marks the plate boundary between the subducting Nazca plate and the South America plate, where the oceanic crust and lithosphere of the Nazca plate begin their descent into the mantle beneath South America. The convergence associated with this subduction process is responsible for the uplift of the Andes Mountains, and for the active volcanic chain present along much of this deformation front. Relative to a fixed South America plate, the Nazca plate moves slightly north of eastwards at a rate varying from approximately 80 mm/yr in the south to approximately 65 mm/yr in the north. Although the rate of subduction varies little along the entire arc, there are complex changes in the geologic processes along the subduction zone that dramatically influence volcanic activity, crustal deformation, earthquake generation and occurrence all along the western edge of South America.
Most of the large earthquakes in South America are constrained to shallow depths of 0 to 70 km resulting from both crustal and interplate deformation. Crustal earthquakes result from deformation and mountain building in the overriding South America plate and generate earthquakes as deep as approximately 50 km. Interplate earthquakes occur due to slip along the dipping interface between the Nazca and the South American plates. Interplate earthquakes in this region are frequent and often large, and occur between the depths of approximately 10 and 60 km. Since 1900, numerous magnitude 8 or larger earthquakes have occurred on this subduction zone interface that were followed by devastating tsunamis, including the 1960 M9.5 earthquake in southern Chile, the largest instrumentally recorded earthquake in the world. Other notable shallow tsunami-generating earthquakes include the 1906 M8.5 earthquake near Esmeraldas, Ecuador, the 1922 M8.5 earthquake near Coquimbo, Chile, the 2001 M8.4 Arequipa, Peru earthquake, the 2007 M8.0 earthquake near Pisco, Peru, and the 2010 M8.8 Maule, Chile earthquake located just north of the 1960 event.
Large intermediate-depth earthquakes (those occurring between depths of approximately 70 and 300 km) are relatively limited in size and spatial extent in South America, and occur within the Nazca plate as a result of internal deformation within the subducting plate. These earthquakes generally cluster beneath northern Chile and southwestern Bolivia, and to a lesser extent beneath northern Peru and southern Ecuador, with depths between 110 and 130 km. Most of these earthquakes occur adjacent to the bend in the coastline between Peru and Chile. The most recent large intermediate-depth earthquake in this region was the 2005 M7.8 Tarapaca, Chile earthquake.
Earthquakes can also be generated to depths greater than 600 km as a result of continued internal deformation of the subducting Nazca plate. Deep-focus earthquakes in South America are not observed from a depth range of approximately 300 to 500 km. Instead, deep earthquakes in this region occur at depths of 500 to 650 km and are concentrated into two zones: one that runs beneath the Peru-Brazil border and another that extends from central Bolivia to central Argentina. These earthquakes generally do not exhibit large magnitudes. An exception to this was the 1994 Bolivian earthquake in northwestern Bolivia. This M8.2 earthquake occurred at a depth of 631 km, which was until recently the largest deep-focus earthquake instrumentally recorded (superseded in May 2013 by a M8.3 earthquake 610 km beneath the Sea of Okhotsk, Russia), and was felt widely throughout South and North America.
Subduction of the Nazca plate is geometrically complex and impacts the geology and seismicity of the western edge of South America. The intermediate-depth regions of the subducting Nazca plate can be segmented into five sections based on their angle of subduction beneath the South America plate. Three segments are characterized by steeply dipping subduction; the other two by near-horizontal subduction. The Nazca plate beneath northern Ecuador, southern Peru to northern Chile, and southern Chile descend into the mantle at angles of 25° to 30°. In contrast, the slab beneath southern Ecuador to central Peru, and under central Chile, is subducting at a shallow angle of approximately 10° or less. In these regions of “flat-slab” subduction, the Nazca plate moves horizontally for several hundred kilometers before continuing its descent into the mantle, and is shadowed by an extended zone of crustal seismicity in the overlying South America plate. Although the South America plate exhibits a chain of active volcanism resulting from the subduction and partial melting of the Nazca oceanic lithosphere along most of the arc, these regions of inferred shallow subduction correlate with an absence of volcanic activity. (USGS)






The quake struck 19km northeast of Bahia de Caraquez on the west coast of Ecuador at 11.19UTC.
Tremors came at a depth of 24.73km, according to the US Geological Survey (USGS).
It is not known yet if there has been any major damage from the quake.
Ex-President Rafael Correa tweeted: Strong quake in San Vicente and the bay. I hope everything is okay.
“Here in Esmeraldas, it was also felt strongly.
“It reminds me of harder times in my presidency.”
The large, bustling city of Bahia de Caraquez is popular with tourists and famed for its beaches.
It is located around 360km west of the country’s capital Quito.
QUITO, Ecuador — A magnitude 6.0 earthquake struck along the coast of Ecuador Sunday in the same area where a much stronger tremor left hundreds dead last year.
President Lenin Moreno said there were no immediate reports of victims or major damage from the quake, which jolted many Ecuadoreans who were still in bed shortly after 6 a.m. (1100 GMT). It was felt in 12 provinces across the country.
The U.S. Geological Survey said the quake, with a depth of 15.5 miles (25 kilometers), was centered around the town of San Vicente.
Authorities said that there wasn’t a risk of a tsunami and appealed for calm.
They also expressed optimism that Ecuadoreans were better prepared for a natural disaster after rebuilding from last year’s magnitude 7.8 quake along the Pacific coast that left more than 600 people dead and thousands more injured and homeless.


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