1985 Algarrobo earthquake
A megathrust earthquake measuring 8.0 struck just offshore the Greater Valparaíso area of Central Chile on 3 March 1985. The event followed a ten-day period of moderate and non-destructive foreshocks and left at least 177 people dead and about 2,500 injured. According to several reports, a small sector of damage in Llolleo corresponded to a maximum Mercalli intensity of IX, though the vast majority of damage was considered to align with intensity VIII effects or less. The damage was significant and widespread, and was similar to numerous previous events that had severely impacted the Valparaíso and Santiago metropolitan areas. Great earthquakes related to the subduction zone have occurred directly under populated areas or very close offshore since records began beginning with the arrival of Europeans in the sixteenth-century.
Because of its heavy impact in the Valparaíso, Santiago, O'Higgins, and Maule Regions, the event has been thoroughly studied across various disciplines. Numerous scientific and academic papers published beginning in the late 20th-century and continuing into the 21st-century have explored its features, including the geological, seismological, and epidemiological aspects of the event, and have improved the understanding of the complex plate boundary and how this specific event relates to the many that came before it. Most have been primarily of the megathrust type, but Central Chile is also subject to other types of earthquakes that are related to the relatively deep subduction zone as well as shallow and onshore crustal faults.
A significant aftershock sequence followed that included many large and very large shocks. Only a small portion of these had destructive characteristics, including the twin 6.7 shocks on 17 and 19 March and the 7.2 Rapel Lake earthquake on 9 April. Multiple international scientific groups convened in the area to assist local universities with seismological, engineering, and geological surveys, including the study of a moderately-destructive and basin-wide tsunami that caused several million dollars' worth of damage along the Central Chilean coast.
History
Central Chile has been repeatedly affected by great earthquakes. Since the arrival of Europeans in the sixteenth-century, onshore and offshore events have been documented in this region from the coastal cities of Valparaíso in the north and Concepción in the south. The majority of these events have been of the megathrust/interplate type; a limited number of them have been identified as normal/intraplate. It was one of these normal events that was Chile's deadliest; the 1939 Chillán event resulted in 28,000–30,000 deaths. The inland city of Santiago was heavily damaged in the 1730, 1822, and 1906 megathrust events. With a recurrence interval of a little more than 80 years, the 1985 event was not unexpected.Tectonic setting
The Peru–Chile Trench, also known as the Atacama Trench, is the primary tectonic feature off the west coast of South America and has contributed to Chile being one of the most seismically active countries in the world. The Nazca plate is subducting to the east under the South American plate, with high-speed convergence and sustained stick-slip action resulting in two types of earthquakes along the trench. There are the typical interplate events that occur at the subduction interface and the less common intraplate events that occur within the downgoing Nazca slab. An additional earthquake hazard comes in the form of shallow crustal faults. The San Ramón Fault, for example, is a thrust fault that is positioned along the easternmost districts of Santiago. Despite estimated slip rates of per year, paleoseismologists have uncovered evidence of several very large events. They acknowledged that a more typical event on this fault may only produce a large shock in the range of 6.2–6.7 as the fault is segmented.Foreshocks
Foreshock activity occurred for eleven days prior to the mainshock, beginning on 21 February with a 5.7 event. This magnitude was supplied by the National Earthquake Hazards Reduction Program /National Earthquake Information Center and a 2017 United States Geological Survey study and data release. The NHRP/NEIC placed the intensity of this initial foreshock at VI. Over the course of the eleven days, 360 events over 3.0 occurred, but none with a higher intensity than the initial event. This included more than 50 events on 21 February and more than 100 the following day. The frequency of the activity caused great alarm in Valparaíso, to the extent that funds were immediately sought by Mexican and Chilean scientists for travel expenses and to bring additional equipment to set up portable seismograph stations. Prior to their arrival on 5 March, the final foreshock in the sequence arrived just seconds prior to the mainshock.Earthquake
Characteristics
The Centro Sismológico Nacional de la Universidad de Chile, the USGS, and the International Seismological Centre all place the magnitude at 8.0. Other figures exist, like the initial 1985 observation from the Preliminary Determination of Epicenters, which placed it at 7.8 and the Harvard–Adam Dziewonski Observatory, which places it at 7.9. Harvard's slip parameters for the strike, dip, and rake are 11°, 26°, and 110°. A 1986 study, with only a one-degree change in the dip angle, placed the figures at 11°, 25°, and 110°. A 1994 study compared their own figures regarding rupture length, depth, and duration, with those of nine previous studies. Of the six studies that contributed duration information that was gathered using different seismic networks, a range was given from 40 to 80 seconds, with a mode of 69 seconds. The focal depth was equally diverse, with five kilometers on the low end to 60 km on the high end. The fault's rupture length had a range of 75 to 250 kilometers, with the highest figure derived from geodetic information alone.The authors of the same 1994 study presented more details from earlier workers, as well as their own analysis of the mainshock characteristics, which included data from both the Global Digital Seismograph Network and the GEOSCOPE Observatory. Their results showed a bi-lateral rupture on the Nazca–South American plate boundary, though only three of the ten previous studies shared similar information regarding rupture directivity. They revealed that it primarily ruptured to the south of the epicenter, with just of the rupture to the north, over a total duration of 70 seconds.
Intensity
Compared with on-the-ground observations of damage and ground effects, isoseismal maps provide a rudimentary overview of the intensity that was experienced. Professor Rodolfo Saragoni from the University of Chile provided one of these maps that shows zones of mixed intensities within roughly of the epicenter, where mixed groups include V–VI, VI–VII, or VII–VIII. These areas are relatively small and isolated areas of higher intensities embedded in much larger areas of lower intensity. For example, Rengo is in a very small intensity VIII zone, but is itself surround by a slightly larger zone of VII intensity that includes Curicó, San Fernando, and Rancagua. Both of these areas are embedded within a VI–VII zone that stretches roughly from Talca to La Ligua. Another example is that the city of Algarrobo is in an area of VI–VII shaking, while embedded in a zone of VII–VIII shaking that includes nearby communities of Valparaíso, San Antonio, Llolleo, and Viña del Mar. Santiago was marked as intensity VII. Cities designated as having experienced intensity VI shaking included Linares and Illapel. The map shows a more linear pattern of attenuation farther from the epicentral area.On the ground, the shock's area of perceptibility was from Copiapó in the north to Valdivia in the south, a distance of more than. Some people in high rises felt their buildings sway on the east coast of South America, both at Buenos Aires, Argentina and São Paulo in Brazil. Several other reconnaissance and damage surveys provided more specific details when describing the observed intensity than the isoseismal maps. The Earthquake Engineering Research Institute's report agreed with the University of Illinois study that the intensity was generally VII in Santiago. An intensity of VII is stated as the most appropriate intensity of shaking for Valparaíso and Viña del Mar, but an accommodation for intensity VIII effects was made, based on several instances of considerable damage or partial collapse of buildings. With areas of liquefaction, considerable damage and rock slides, San Antonio was placed at intensity VIII. The same could be said for Llolleo, but an exception was made for small areas of intensity IX effects. A separate strong ground motion study also published a figure of IX for a heavily damaged school at Llolleo.