Daytime Ionospheric TEC Weather Study Over Latin America

Daytime Ionospheric TEC Weather Study Over Latin America

The present work is the first of a two‐part weather study of the ionospheric Total Electron Content (TEC), based on data collected by four ground‐based Global Navigation Satellite System networks that cover the whole Latin America from the Patagonia to the north of Mexico. From the best of our knowl...

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Veröffentlicht in:Journal of geophysical research. Space physics 2018-12, Vol.123 (12), p.10,345-10,357
Hauptverfasser: Romero‐Hernandez, E., Denardini, C. M., Takahashi, H., Gonzalez‐Esparza, J. A., Nogueira, P. A. B., Pádua, M. B., Lotte, R. G., Negreti, P. M. S., Jonah, O. F., Resende, L. C. A., Rodriguez‐Martinez, M., Sergeeva, M. A., Barbosa Neto, P. F., Luz, V., Galera Monico, J. F., Aguilar‐Rodriguez, E.
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Sprache:eng
Schlagworte:
Daytime
Fluctuations
Global Navigation Satellite System
hemispheric asymmetries of TEC
Ionosphere
Ionospheric electron content
Ionospheric models
Meridional wind
Navigation satellites
Navigation systems
Northern Hemisphere
Qualitative analysis
seasonal TEC trend
Seasonal variations
Solar activity
solar activity influence
Solar flux
Space weather
Total Electron Content
variability of vertical TEC
Weather forecasting
Wind
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container_end_page 10,357
container_issue 12
container_start_page 10,345
container_title Journal of geophysical research. Space physics
container_volume 123
creator Romero‐Hernandez, E.
Denardini, C. M.
Takahashi, H.
Gonzalez‐Esparza, J. A.
Nogueira, P. A. B.
Pádua, M. B.
Lotte, R. G.
Negreti, P. M. S.
Jonah, O. F.
Resende, L. C. A.
Rodriguez‐Martinez, M.
Sergeeva, M. A.
Barbosa Neto, P. F.
Luz, V.
Galera Monico, J. F.
Aguilar‐Rodriguez, E.
description The present work is the first of a two‐part weather study of the ionospheric Total Electron Content (TEC), based on data collected by four ground‐based Global Navigation Satellite System networks that cover the whole Latin America from the Patagonia to the north of Mexico. From the best of our knowledge, the maps presented here are the first TEC maps obtained using ground‐based data that covers the entire Latin America region, which represent an advance to the space weather monitoring and forecasting of the ionosphere. This work provides a qualitative and quantitative daytime analysis of the ionospheric TEC variation, which encompasses: (a) the response of TEC to the solar flux at midday; (b) the seasonal variation of TEC in different latitudinal ranges; and (c) the North‐South asymmetry of TEC over Latin America. The response to the solar flux is based on day‐to‐day TEC variations during two periods of different solar activity conditions: 2011 (ascending phase) and 2014 (maximum). The approximations of meridional wind component derived from Horizontal Wind Model‐14 model and hmF2 obtained from International Reference Ionosphere model were used. Equinoctial asymmetries with an opposite configuration in high and moderate solar activity were identified in the TEC variation. For 2011, it was related to the solar flux change. However, in 2014, according to the hmF2 variation, the influence of neutral wind becomes dominant. Among the results, we highlight an absence of winter anomaly in the Northern Hemisphere in 2014 and a stronger annual anomaly for latitudes under −20∘. Key Points The response of TEC to solar flux over Latin America is investigated The seasonal variation of TEC over Latin America during daytime is analyzed North‐South asymmetries of TEC over Latin America during daytime are identified
doi_str_mv 10.1029/2018JA025943
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M. ; Takahashi, H. ; Gonzalez‐Esparza, J. A. ; Nogueira, P. A. B. ; Pádua, M. B. ; Lotte, R. G. ; Negreti, P. M. S. ; Jonah, O. F. ; Resende, L. C. A. ; Rodriguez‐Martinez, M. ; Sergeeva, M. A. ; Barbosa Neto, P. F. ; Luz, V. ; Galera Monico, J. F. ; Aguilar‐Rodriguez, E.</creator><creatorcontrib>Romero‐Hernandez, E. ; Denardini, C. M. ; Takahashi, H. ; Gonzalez‐Esparza, J. A. ; Nogueira, P. A. B. ; Pádua, M. B. ; Lotte, R. G. ; Negreti, P. M. S. ; Jonah, O. F. ; Resende, L. C. A. ; Rodriguez‐Martinez, M. ; Sergeeva, M. A. ; Barbosa Neto, P. F. ; Luz, V. ; Galera Monico, J. F. ; Aguilar‐Rodriguez, E.</creatorcontrib><description>The present work is the first of a two‐part weather study of the ionospheric Total Electron Content (TEC), based on data collected by four ground‐based Global Navigation Satellite System networks that cover the whole Latin America from the Patagonia to the north of Mexico. From the best of our knowledge, the maps presented here are the first TEC maps obtained using ground‐based data that covers the entire Latin America region, which represent an advance to the space weather monitoring and forecasting of the ionosphere. This work provides a qualitative and quantitative daytime analysis of the ionospheric TEC variation, which encompasses: (a) the response of TEC to the solar flux at midday; (b) the seasonal variation of TEC in different latitudinal ranges; and (c) the North‐South asymmetry of TEC over Latin America. The response to the solar flux is based on day‐to‐day TEC variations during two periods of different solar activity conditions: 2011 (ascending phase) and 2014 (maximum). The approximations of meridional wind component derived from Horizontal Wind Model‐14 model and hmF2 obtained from International Reference Ionosphere model were used. Equinoctial asymmetries with an opposite configuration in high and moderate solar activity were identified in the TEC variation. For 2011, it was related to the solar flux change. However, in 2014, according to the hmF2 variation, the influence of neutral wind becomes dominant. Among the results, we highlight an absence of winter anomaly in the Northern Hemisphere in 2014 and a stronger annual anomaly for latitudes under −20∘. 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M.</creatorcontrib><creatorcontrib>Takahashi, H.</creatorcontrib><creatorcontrib>Gonzalez‐Esparza, J. A.</creatorcontrib><creatorcontrib>Nogueira, P. A. B.</creatorcontrib><creatorcontrib>Pádua, M. B.</creatorcontrib><creatorcontrib>Lotte, R. G.</creatorcontrib><creatorcontrib>Negreti, P. M. S.</creatorcontrib><creatorcontrib>Jonah, O. F.</creatorcontrib><creatorcontrib>Resende, L. C. A.</creatorcontrib><creatorcontrib>Rodriguez‐Martinez, M.</creatorcontrib><creatorcontrib>Sergeeva, M. A.</creatorcontrib><creatorcontrib>Barbosa Neto, P. F.</creatorcontrib><creatorcontrib>Luz, V.</creatorcontrib><creatorcontrib>Galera Monico, J. F.</creatorcontrib><creatorcontrib>Aguilar‐Rodriguez, E.</creatorcontrib><title>Daytime Ionospheric TEC Weather Study Over Latin America</title><title>Journal of geophysical research. Space physics</title><description>The present work is the first of a two‐part weather study of the ionospheric Total Electron Content (TEC), based on data collected by four ground‐based Global Navigation Satellite System networks that cover the whole Latin America from the Patagonia to the north of Mexico. From the best of our knowledge, the maps presented here are the first TEC maps obtained using ground‐based data that covers the entire Latin America region, which represent an advance to the space weather monitoring and forecasting of the ionosphere. This work provides a qualitative and quantitative daytime analysis of the ionospheric TEC variation, which encompasses: (a) the response of TEC to the solar flux at midday; (b) the seasonal variation of TEC in different latitudinal ranges; and (c) the North‐South asymmetry of TEC over Latin America. The response to the solar flux is based on day‐to‐day TEC variations during two periods of different solar activity conditions: 2011 (ascending phase) and 2014 (maximum). The approximations of meridional wind component derived from Horizontal Wind Model‐14 model and hmF2 obtained from International Reference Ionosphere model were used. Equinoctial asymmetries with an opposite configuration in high and moderate solar activity were identified in the TEC variation. For 2011, it was related to the solar flux change. However, in 2014, according to the hmF2 variation, the influence of neutral wind becomes dominant. Among the results, we highlight an absence of winter anomaly in the Northern Hemisphere in 2014 and a stronger annual anomaly for latitudes under −20∘. 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F.</au><au>Aguilar‐Rodriguez, E.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Daytime Ionospheric TEC Weather Study Over Latin America</atitle><jtitle>Journal of geophysical research. Space physics</jtitle><date>2018-12</date><risdate>2018</risdate><volume>123</volume><issue>12</issue><spage>10,345</spage><epage>10,357</epage><pages>10,345-10,357</pages><issn>2169-9380</issn><eissn>2169-9402</eissn><abstract>The present work is the first of a two‐part weather study of the ionospheric Total Electron Content (TEC), based on data collected by four ground‐based Global Navigation Satellite System networks that cover the whole Latin America from the Patagonia to the north of Mexico. From the best of our knowledge, the maps presented here are the first TEC maps obtained using ground‐based data that covers the entire Latin America region, which represent an advance to the space weather monitoring and forecasting of the ionosphere. This work provides a qualitative and quantitative daytime analysis of the ionospheric TEC variation, which encompasses: (a) the response of TEC to the solar flux at midday; (b) the seasonal variation of TEC in different latitudinal ranges; and (c) the North‐South asymmetry of TEC over Latin America. The response to the solar flux is based on day‐to‐day TEC variations during two periods of different solar activity conditions: 2011 (ascending phase) and 2014 (maximum). The approximations of meridional wind component derived from Horizontal Wind Model‐14 model and hmF2 obtained from International Reference Ionosphere model were used. Equinoctial asymmetries with an opposite configuration in high and moderate solar activity were identified in the TEC variation. For 2011, it was related to the solar flux change. However, in 2014, according to the hmF2 variation, the influence of neutral wind becomes dominant. 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subjects Daytime
Fluctuations
Global Navigation Satellite System
hemispheric asymmetries of TEC
Ionosphere
Ionospheric electron content
Ionospheric models
Meridional wind
Navigation satellites
Navigation systems
Northern Hemisphere
Qualitative analysis
seasonal TEC trend
Seasonal variations
Solar activity
solar activity influence
Solar flux
Space weather
Total Electron Content
variability of vertical TEC
Weather forecasting
Wind
title Daytime Ionospheric TEC Weather Study Over Latin America
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