Earthquake

Earthquake is a term used to describe both sudden slip on a fault, and the resulting ground shaking and radiated seismic energy caused by the slip, or by volcanic or magmatic activity, or other sudden stress changes in the Earth (USGS).

Until the arrival of COVID-19, earthquakes were the natural hazard that caused the most deaths per event. EM-DAT figures show that earthquakes claimed more than 720,000 lives between 2000 and 2019. Not included in this future are the over 50,000 deaths in the earthquake that struck Turkey and Syria in February 2023. More than 3 billion people live in regions prone to earthquakes

Most earthquakes are caused by the movement of the earth’s 15 tectonic plates. Geophysicists can identify places where earthquakes are sure to happen, but nobody can predict when an earthquake will happen, or its severity. Seismologists register more than 30,000 tremors every year, but most of these are of low magnitude.

While technology does not yet exist for reducing earthquake hazards, the risk to buildings and infrastructure and human population can be mitigated by seismic retrofitting of existing buildings, improved compliance with seismic safety building guidelines, and avoidance of building on cliff faces, soft soils or next to an active fault (HIP, 2021). Some success has also been achieved in the development of early warning systems, which detect earthquakes close to the source or fault rupture, and trigger warnings to more distant locations, providing seconds to minutes of advance warning (Gasparini et al., 2007).

Risk factors

Many factors aggravate earthquake risks, including:

  • Population density: eight out of the 10 most populated cities in the world are prone to earthquakes.
  • Most of the world’s earthquakes occur around the Pacific Rim, in areas where two-thirds of the world’s population lives.
  • Poorly built and non-engineered buildings.
  • Poverty: constrains more people to live in crowded, substandard housing and unsafe places.

The Scales

One of the ranking systems used to measure earthquake magnitudes is called the Richter Scale. Developed by Charles Richter in 1935, this scale is used to measure earthquake magnitude (ML). It indicates the energy released by an earthquake.

Because of some limitations of all the Richter magnitude scales and its extensions (ML, Mb, and Ms), a new more uniformly applicable extension of the magnitude scale, known as moment magnitude, or Mw, was developed. In particular, for very large earthquakes, moment magnitude gives the most reliable estimate of earthquake size. Moment is a physical quantity proportional to the slip on the fault multiplied by the area of the fault surface that slips; it is related to the total energy released in the earthquake.

Another ranking system, the Modified Mercalli Intensity Scale, measures seismic intensity. The magnitude of an earthquake is a measured value of the earthquake size. The intensity of an earthquake is a measure of the shaking created by the earthquake; this value varies with location.

Richter Scale Categories

Richter scaleEffect
< 3.5Generally not felt, but recorded
3.5 - 5.5Felt, but rarely causing any damage
< 6.0Slight damage to well-constructed buildings, heavy damage to poorly constructed buildings
6.1 - 6.9May damage inhabited areas up to 100 km wide
7.0 - 7.9Major earthquake that may cause serious damage in a very wide area
> 8.0>Serious earthquake that causes damage hundreds of kilometres away from the epicentre
> 9.0>Rare great earthquake, major damage in a large region of over 1,000 km

Source: USGS

Risk reduction measures

  • Integrating seismic risk into land-use planning and urban development strategies in earthquake-prone zones.
  • Ensure that building codes are enforced in critical high-use and high-occupancy infrastructure: hospitals, schools, housing, factories in earthquake zones.
  • Warning systems to cut off gas and electricity supplies to reduce fire risk.
  • Improving education and awareness through training and preparedness programmes in schools and workplaces on the importance of building safety.

Latest Earthquake additions in the Knowledge Base

Research briefs
Seismic observations from over 1000 locations have revealed a link between fault strength and earthquake magnitude, and provide a hint to detecting how close a region is to experiencing a large earthquake.
Kyushu University
Cover
Documents and publications
The aim of this study is to discover how men’s first reflex behaviors during earthquakes and how their coping strategies were shaped after earthquakes in Türkiye.
Big crack in a road following an earthquake.
Research briefs
The public could have days or months of warning about a major earthquake through identification of prior low-level tectonic unrest over large areas, according to research by a University of Alaska Fairbanks scientist.
University of Alaska Fairbanks
earthquake
Research briefs
While earthquakes cannot be deterministically predicted, operational earthquake forecasting systems can provide valuable insights into the likelihood of future quakes.
Eos - AGU
Update
The earthquake that struck offshore eastern Mindanao in the southern Philippines on August 3, 2024 resulted from renewed movement of an extinct fracture zone subducting into Earth’s mantle.
Temblor
Cover
Documents and publications
This paper introduces a community-based participatory research program implemented through cooperation between universities and local communities after the 2011 Great East Japan Earthquake. I
Update
Nearly a year after an earthquake killed around 3,000 people and destroyed entire villages in Morocco’s Atlas Mountains, many who survived are still living in tents or temporary shelters, frustrated at the slow pace of reconstruction.
The New Humanitarian
Update
The Izmit earthquake was pivotal for Turkey, exposing the need for enhanced seismic resilience. For construction, the Turkish government reviewed the enforcement of their building code after the earthquake, which they revised in 2007 and again in 2018.
Moody's Investors Service
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