Abstract
A systematic multiparametric and multiplatform approach to detect and study geo-space perturbations attributed to preparation processes related to natural hazards is fundamental in order to obtain useful insights on a series of complex dynamic phenomena of the Earth system, namely, earthquakes, volcanic and Saharan dust events, as well as geomagnetic disturbances [...]
Highlights
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A systematic multiparametric and multiplatform approach to detect and study geospace perturbations attributed to preparation processes related to natural hazards is fundamental in order to obtain useful insights on a series of complex dynamic phenomena of the Earth system, namely, earthquakes, volcanic and Saharan dust events, as well as geomagnetic disturbances
They utilized observations by the Detection of Electro-Magnetic Emissions Transmitted from Earthquake Regions (DEMETER) satellite, Global Positioning System total electron content (GPS TEC), National Oceanic and Atmospheric Administration (NOAA)-derived outgoing longwave Earth radiation (OLR) and atmospheric chemical potential (ACP) measurements, along with ground- and satellite-based medium infrared/thermal infrared (MIR/TIR) observations
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. A systematic multiparametric and multiplatform approach to detect and study geospace perturbations attributed to preparation processes related to natural hazards is fundamental in order to obtain useful insights on a series of complex dynamic phenomena of the Earth system, namely, earthquakes, volcanic and Saharan dust events, as well as geomagnetic disturbances.
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