Impact of Hurricane Michael (2018) on local vertical total electron content

Impact of Hurricane Michael (2018) on local vertical total electron content

An analysis of vertical total electron content (TEC) estimates from the MIT Madrigal database is performed for the regions surrounding the eye of Hurricane Michael (2018). Absolute and detrended TEC values show a noticeable increase during the tropical cyclone (TC) relative to fluctuations at the sa...

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Bibliographic Details
Published in:Journal of atmospheric and solar-terrestrial physics Vol. 219; p. 105647
Main Authors: Williams, Joanna E.S., Tournay, Robert C., Tseng, H. Rose, Emmons, Daniel J., Nava, Omar A.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-08-2021
Subjects:
Ionosphere
Lightning
Rainfall rates
Total electron content
Tropical cyclone
Rainfall rates
Total electron content
Tropical cyclone
Lightning
Ionosphere
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Summary:An analysis of vertical total electron content (TEC) estimates from the MIT Madrigal database is performed for the regions surrounding the eye of Hurricane Michael (2018). Absolute and detrended TEC values show a noticeable increase during the tropical cyclone (TC) relative to fluctuations at the same locations prior to the storm. Direct comparisons of TEC perturbation magnitudes to the number of lightning flashes in 1°×1° latitude-longitude boxes surrounding the eye of Hurricane Michael for each 5 min period of 10 October 2018 showed no visible trends. A similar comparison of the vertical TEC fluctuations with respect to the rainfall rates showed a positive correlation as the rainfall rate increased from light to moderate. However, a decrease in TEC perturbations were observed for the most intense rainfall rates. Additionally, ionosonde measurements in the Gulf of Mexico Region reveal an increased production of waves with periods less than 90 min after TC formation. These results indicate that the measured TEC fluctuations are most likely caused by atmospheric gravity waves produced by Hurricane Michael, which supports previous research. •Hurricane Michael (2018) produced measurable perturbations to the local vertical total electron content (TEC).•Absolute TEC magnitudes and detrended TEC variance increased during the tropical cyclone.•Direct vertical relationships between TEC perturbation magnitude and lightning or rainfall rate could not be established.•Observed local TEC perturbations are most likely due to atmospheric gravity waves produced by the hurricane.
ISSN:1364-6826
1879-1824
DOI:10.1016/j.jastp.2021.105647