Evidencing Fluid Migration of the Crust during the Seismic Swarm by Using 1D Magnetotelluric Monitoring

Evidencing Fluid Migration of the Crust during the Seismic Swarm by Using 1D Magnetotelluric Monitoring

We applied multi–temporal 1D magnetotelluric (MT) surveys to identify space–time anomalies of apparent resistivity (ρa) in the upper lithosphere in the Antarctic Peninsula (the border between the Antarctic and the Shetland plates). We used time series over several weeks of the natural Earth’s electr...

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Veröffentlicht in:Applied sciences 2023-02, Vol.13 (4), p.2683
Hauptverfasser: Vargas, Carlos A., Caneva, Alexander, Solano, Juan M., Gulisano, Adriana M., Villalobos, Jaime
Format: Artikel
Sprache:eng
Schlagworte:
Anomalies
Antarctic Peninsula
apparent resistivity
Earthquakes
Electric properties
Electrical resistivity
Electrodes
electromagnetic anomalies
Electromagnetism
Fractures
Ionosphere
Lithosphere
Magnetic fields
magnetotellurics
Permeability
Polar environments
Pore pressure
Seismic activity
Seymour–Marambio Island
Submarine volcanoes
Volcanoes
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Zusammenfassung:We applied multi–temporal 1D magnetotelluric (MT) surveys to identify space–time anomalies of apparent resistivity (ρa) in the upper lithosphere in the Antarctic Peninsula (the border between the Antarctic and the Shetland plates). We used time series over several weeks of the natural Earth’s electric and magnetic fields registered at one MT station of the Universidad Nacional de Colombia (RSUNAL) located at Seymour–Marambio Island, Antarctica. We associated resistivity anomalies with contrasting earthquake activity. Anomalies of ρa were detected almost simultaneously with the beginning of a seismic crisis in the Bransfield Strait, south of King George Island (approximately 85.000 events were reported close to the Orca submarine volcano, with focal depths < 20 km and MWW < 6.9). We explained the origin of these anomalies in response to fluid migration near the place of the fractures linked with the seismic swarm, which could promote disturbances of the pore pressure field that reached some hundreds of km away.
ISSN:2076-3417
2076-3417
DOI:10.3390/app13042683