M. Mendillo scite author profile

[1] The ionosphere's total electron content (TEC) is a parameter widely used in studies of the near-Earth plasma environment. The scientific use of TEC appeared early in the artificial satellite era, and among its many contributions were fundamental insights into how the ionosphere responds to geomagnetic storms. While many excellent reviews of solar-terrestrial disturbances exist in the literature, none have concentrated on the TEC parameter per se. With new TEC data sets increasingly available from the Global Positioning System (GPS), a comprehensive summary of pre-GPS storm studies is needed to set the base for progress in the GPS era. This review summarizes past case studies, describes statistical occurrence pattern, and identifies responsible mechanisms validated via modeling. It presents a new set of results of TEC disturbance patterns during 180 geomagnetic storms to describe seasonal and solar cycle effects. It concludes with a set of open questions that require additional study.Citation: Mendillo, M. (2006), Storms in the ionosphere: Patterns and processes for total electron content, Rev. Geophys., 44, RG4001,

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Patterns of F2-layer variability

Rishbeth

Mendillo

2001

Journal of Atmospheric and Solar-Terrestrial Physics

502

394

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Loss of the Martian atmosphere to space: Present-day loss rates determined from MAVEN observations and integrated loss through time

Jakosky

Brain

Chaffin

et al. 2018

Icarus

269

223

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A multidiagnostic investigation of the mesospheric bore phenomenon

et al. 2003

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[1] Imaging measurements of a bright wave event in the nighttime mesosphere were made on 14 November 1999 at two sites separated by over 500 km in the southwestern United States. The event was characterized by a sharp onset of a series of extensive wavefronts that propagated across the entire sky. The waves were easily visible to the naked eye, and the entire event was observed for at least 5 1 2 hours. The event was observed using three wide-angle imaging systems located at the Boston University field station at McDonald Observatory (MDO), Fort Davis, Texas, and the Starfire Optical Range (SOR), Albuquerque, New Mexico. The spaced imaging measurements provided a unique opportunity to estimate the physical extent and time history of the disturbance. Simultaneous radar neutral wind measurements in the 82 to 98 km altitude region were also made at the SOR which indicated that a strong vertical wind shear of 19.5 ms À1 km À1 occurred between 80 and 95 km just prior to the appearance of the disturbance. Simultaneous lidar temperature and density measurements made at Fort Collins, Colorado, $1100 km north of MDO, show the presence of a large ($50 K) temperature inversion layer at the time of the wave event. The observations indicated that the event was most probably due to an undular mesospheric bore, a relatively uncommon disturbance which has only recently been reported [Taylor et al., 1995a]. Evidence is also shown to suggest that a large east-west tropospheric frontal system lying over the northern United States was the origin of the disturbance.

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Modeling of global variations and ring shadowing in Saturn's ionosphere

Moore¹,

Mendillo²,

Müller‐Wodarg³

et al. 2004

Icarus

167

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M. Mendillo

Storms in the ionosphere: Patterns and processes for total electron content

Patterns of F2-layer variability

Loss of the Martian atmosphere to space: Present-day loss rates determined from MAVEN observations and integrated loss through time

A multidiagnostic investigation of the mesospheric bore phenomenon

Modeling of global variations and ring shadowing in Saturn's ionosphere

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