ABSTRACT
The ionosphere is the ionized portion of the atmosphere that stretches from about 50 km to
1000 km above the ground. It plays a very important role in the solar effects felt on Earth.
Despite various studies having been carried out on occurrence of Equatorial plasma
bubbles (EPBs) in Africa, more research needs to be done within East Africa since the
ionosphere is a highly variable medium resulting from ionizing radiation from the Sun and
changes from region to region. The problem in this study was to investigate the occurrence
of EPBs over Kisumu, Kenya during selected quiet and storm days between 1st January
2013 to 31st December 2014, which was a high solar activity period for solar cycle 24
using TEC and amplitude scintillation (S4) data. This study was carried out by analyzing
Receiver Independent Exchange (RINEX) Total Electron Content (TEC) data retrieved
from the Kisumu high data rate NovAtel GSV4004B SCINDA-GPS receiver situated at
Maseno University (Geographic coordinates: 0.02oS, 34.6oE; geomagnetic coordinates,
9.64oS, 108.59oE). The TEC data was unzipped using WinRAR program and processed
using Gopi software. The resulting output data was used to plot Vertical Total Electron
Content (VTEC) & S4 plots and ROT & ROTI plots all against universal time (UT) for
selected quiet and storm days of the year 2013 and 2014. The results obtained from this
study shows notable TEC depletions followed by TEC enhancement which corresponded
with enhanced S4 after local sunset for most of the selected quiet and storm days of 2013
and 2014. An average TEC value of 59 TECU was attained in the equinoctial period
(March, April, August and September) while an average TEC value of 55 TECU was
attained in the solstice period (June, July, November and December). There was an
increased ROT fluctuation which corresponded with high ROTI values after local sunset
for most selected quiet and storm days. The percentage EPB occurrence was 6.49% in the
year 2013 and 4.32% in the year 2014. The storm days had EPB occurrence of 21.42% in
the year 2013 and 21.88% in the year 2014 while the quiet days which had 18.75% in the
year 2013 and 7.89% in the year 2014. The storm period had a higher percentage EPB
occurrence than the quiet period and was attributed to the effect of prompt penetration
electric field (PPEF) which is enhanced during storms, hence increasing the vertical E x B
drift. Seasonal EPB occurrence pattern during quiet and disturbed geomagnetic period was
also brought out with March equinox having higher percentage EPB occurrence of 33.33%
in the year 2013 and 30.76% in the year 2014 while June solstice had the lowest
percentage of EPB occurrence with 6.67% in the year 2013 and 7.69% in the year 2014. In
conclusion, this study confirms the presence of EPBs over Kisumu, Kenya in both quiet
and storm days of 2013 and 2014. This study was limited to data from a single SCINDAGPS
station in Kenya, hence future work should involve more SCINDA stations in East
Africa and an extension of this study should involve correlation between ROTI daily
variability of E x B vertical plasma drift and F2 layer changes.
Nyongesa, E (2021). A Scinda-Gpsstudy Ofequatorialplasma Bubblesover Kisumu, Kenyaduring2013 -2014 Period. Afribary. Retrieved from https://track.afribary.com/works/a-scinda-gpsstudy-ofequatorialplasma-bubblesover-kisumu-kenyaduring2013-2014-period
Nyongesa, Edward "A Scinda-Gpsstudy Ofequatorialplasma Bubblesover Kisumu, Kenyaduring2013 -2014 Period" Afribary. Afribary, 07 May. 2021, https://track.afribary.com/works/a-scinda-gpsstudy-ofequatorialplasma-bubblesover-kisumu-kenyaduring2013-2014-period. Accessed 25 Dec. 2024.
Nyongesa, Edward . "A Scinda-Gpsstudy Ofequatorialplasma Bubblesover Kisumu, Kenyaduring2013 -2014 Period". Afribary, Afribary, 07 May. 2021. Web. 25 Dec. 2024. < https://track.afribary.com/works/a-scinda-gpsstudy-ofequatorialplasma-bubblesover-kisumu-kenyaduring2013-2014-period >.
Nyongesa, Edward . "A Scinda-Gpsstudy Ofequatorialplasma Bubblesover Kisumu, Kenyaduring2013 -2014 Period" Afribary (2021). Accessed December 25, 2024. https://track.afribary.com/works/a-scinda-gpsstudy-ofequatorialplasma-bubblesover-kisumu-kenyaduring2013-2014-period