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Simulated Trends in Ionosphere‐Thermosphere Climate Due to Predicted Main Magnetic Field Changes From 2015 to 2065

Ingrid Cnossen, Astrid Maute

2020Journal of Geophysical Research Space Physics40 citationsDOIOpen Access PDF

Abstract

Abstract The strength and structure of the Earth's magnetic field is gradually changing. During the next 50 years the dipole moment is predicted to decrease by 3.5%, with the South Atlantic Anomaly expanding, deepening, and continuing to move westward, while the magnetic dip poles move northwestward. We used simulations with the Thermosphere‐Ionosphere‐Electrodynamics General Circulation Model to study how predicted changes in the magnetic field will affect the climate of the thermosphere‐ionosphere system from 2015 to 2065. The global mean neutral density in the thermosphere is expected to increase slightly, by up to 1% on average or up to 2% during geomagnetically disturbed conditions ( ). This is due to an increase in Joule heating power, mainly in the Southern Hemisphere. Global mean changes in total electron content (TEC) range from 3% to +4%, depending on season and UT. However, regional changes can be much larger, up to about 35% in the region of 45°S to 45°N and 110°W to 0°W during daytime. Changes in the vertical drift are the most important driver of changes in TEC, although other plasma transport processes also play a role. A reduction in the low‐latitude upward drift weakens the equatorial ionization anomaly in the longitude sector of 105–60°W, manifesting itself as a local increase in electron density over Jicamarca (12.0°S, 76.9°W). The predicted increase in neutral density associated with main magnetic field changes is very small compared to observed trends and other trend drivers, but the predicted changes in TEC could make a significant contribution to observationally detectable trends.

Topics & Concepts

ThermosphereIonosphereTECEarth's magnetic fieldLongitudeDaytimeAtmospheric sciencesTotal electron contentDynamoF regionLatitudeGeophysicsPhysicsGeologyMagnetic fieldGeodesyQuantum mechanicsIonosphere and magnetosphere dynamicsGeomagnetism and Paleomagnetism StudiesSolar and Space Plasma Dynamics