Sentinel-1 reveals shifts from the Morocco earthquake
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Following the devastating earthquake that struck Morocco on September 8, satellite data was made available through the International Charter “Space and Major Disasters” to assist emergency response teams on the ground. This is one of the detailed damage assessment maps using data from the French high-resolution Pléiades satellite. The map shows damage to the Al-Adsil area, Chichaoua Province, Marrakesh-Safi region. Source: Thuraya material © CNES (2023), distributed by Airbus DS. The map was produced by the United Nations Institute for Training and Research (UNOSAT).
Following the devastating earthquake that struck Morocco on September 8, satellite data was made available through the International Charter “Space and Major Disasters” to assist emergency response teams on the ground.
In addition, radar measurements from the Copernicus Sentinel-1 satellite mission in Europe are being used to analyze how the ground moved as a result of the earthquake, which will not only help plan eventual reconstruction, but will also enhance scientific research.
A powerful 6.8-magnitude earthquake struck the Atlas Mountains, about 75 kilometers from Marrakesh, late in the evening of Friday, September 8. It happened in an area along the fault lines of the European and African tectonic plates, but it was nonetheless a rare event for western Morocco.
Unfortunately, the earthquake claimed thousands of lives, caused buildings and homes to collapse and closed roads. It even caused buildings to shake as far as the country’s northern coast.
On behalf of the International Federation of Red Cross and Red Crescent Societies, the United Nations Institute for Training and Research issued the International Charter “Space and Major Disasters”.
Through the charter, Earth observation assets from different space agencies are integrated so that satellite images of areas hit by extreme events can be provided as quickly as possible to identify and map the extent of the disaster and thus assist teams in their rescue efforts.
Satellites that routinely monitor the Earth from space and provide data to support rapid damage mapping provide a unique tool to aid disaster management.
Since a single space agency or satellite operator alone cannot meet disaster management requirements, ESA and the French space agency CNES launched the International Charter for Space and Major Disasters in 1999.
The Copernicus Emergency Mapping Service was also activated to assist in the exchange of satellite data in response to the Moroccan earthquake, in line with the existing practical cooperation with the International Charter.
So far, high-resolution images from the French Pléiades satellite have been used to create detailed maps of damage in the affected areas. Pléiades is also part of the European Space Agency’s third-party mission programme.
The first damage mapping products were released on September 11, and more have followed.
Rescuers can use these maps, like the one shown above, to determine the best course of action, by identifying which routes to take and which bridges to avoid in the event of a collapse, for example.
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Following the devastating earthquake that struck Morocco on September 8, 2023, radar measurements from the European Copernicus Sentinel-1 satellite mission are being used to analyze how the Earth shifted as a result of the earthquake. This will not only help in eventual reconstruction planning, but will also enhance scientific research on the effects of earthquakes. Sentinel-1 acquisitions from August 30, 2023 and September 11 were combined to produce this interferogram, and the colored fringe pattern shows surface displacement. Credit: Contains modified Copernicus Sentinel data (2023), processed by the Aristotle University of Thessaloniki and the DIAPASON InSAR service of the French National Center for Space Studies and integrated by TRE Altamira on the Geohazard GEP/ESA exploitation platform
“Time is clearly of the essence when disaster strikes. Through the Charter and the Copernicus Emergency Mapping Service, it is part of our mission to help ensure the right satellite data is delivered to the world,” said Philippe Paley, ESA’s representative for the International Compact. To assist in relief efforts.”
While the response to the Morocco disaster continues, scientists are using measurements from the Copernicus Sentinel-1 mission in a technique known as “interferometry” to compare before and after views of the area.
The Copernicus Sentinel-1 mission carries a radar instrument that can sense the ground and “see” through clouds, both day and night.
Among the mission’s many uses, it routinely tracks subtle changes in Earth’s surface elevation. When an earthquake occurs, changes in the surface are obviously more noticeable than gradual subsidence or uplift.
These radar images allow scientists to observe and analyze the subtle effects that earthquakes have on the Earth’s surface.
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Following the devastating earthquake that struck Morocco on September 8, 2023, radar measurements from the European Copernicus Sentinel-1 satellite mission are being used to analyze how the Earth shifted as a result of the earthquake. This deformation map uses Sentinel-1 acquisitions from September 11 to August 30, 2023, retrieved from the interferogram. Credit: Contains modified Copernicus Sentinel data (2023), processed by the Aristotle University of Thessaloniki and the DIAPASON InSAR service of the French National Center for Space Studies and integrated by TRE Altamira on the Geohazard GEP/ESA exploitation platform.
In the case of the Morocco earthquake, Sentinel-1 data were combined to measure the surface displacement that occurred between the acquisition on August 30 and the one after the earthquake on September 11.
This has led to an interferogram that shows a colorful ‘fringe’ pattern and allows scientists to understand more about the nature of the earthquake and the risk of more hazards in the future.
“Immediately after Sentinel-1 obtained data about the earthquake zone, Earth observation processing chains available in the user community allowed retrieval of information about terrain deformation,” explained Dr. Bali.
“This is the case with the interferogram generated in an automated and rapid way by the UK-based COMET LiCSAR, and with the Geohazard Exploitation Platform using the DIAPASON InSAR service of the French space agency CNES.
“Accurate deformation maps are created for scientific purposes related to geological hazards and can be used to advise disaster response teams regarding the hazard event.”
“The Charter and the Copernicus Emergency Mapping Service are extremely valuable tools to support vital disaster relief efforts,” noted Simonetta Celli, ESA’s Director of Earth Observation Programs.
“Earth-orbiting satellites are unique in their ability to provide not only wide views of affected areas but also highly detailed information as seen here provided by the Pléiades mission.
“Because the Copernicus Sentinel-1 mission carries a radar, it can see through clouds, so it is also often used to map dangerous floods. In the case of the Morocco earthquake, the value of the mission was to measure how the surface is moving, which will affect what will be important once the crisis is over.” Immediately and begin the recovery process.
