Effects of the annular eclipse on the surface O3 in yunnan province, China

Tian, Yingying; Li, Jingyuan; Yang, Chaolei; Cui, Jingqi; Shen, Fuzhen; Lu, J. Y.; Xiong, Shiping; Wei, Guanchun; Li, Zheng; Zhang, Hua; Yang, Guanglin; Wu, Yewen; Ma, Zongwei; Jiang, Shuwen; Yao, Jingrui; Wang, Jingye; Zhu, Zhaojie

doi:10.3389/fenvs.2022.968507

Cited by 5 publications

(2 citation statements)

References 40 publications

(53 reference statements)

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“…Even after more ozone formation due to the availability of more solar radiation on post-solar eclipse days, it is not visible in Figure 9 due to the non-availability of data. A similar trend in ozone concentration at Gadanki (Jain et al, 2020) and Yunnan province (Tian et al, 2022) during a solar eclipse. O 3 has shown a reduction in its concentration by up to 48% during solar eclipse days at Gadanki (Jain et al, 2020) and about 40% at Yunnan province (Tian et al, 2022).…”

Section: Figurementioning

confidence: 52%

“…A similar trend in ozone concentration at Gadanki (Jain et al, 2020) and Yunnan province (Tian et al, 2022) during a solar eclipse. O 3 has shown a reduction in its concentration by up to 48% during solar eclipse days at Gadanki (Jain et al, 2020) and about 40% at Yunnan province (Tian et al, 2022). Similarly, the concentration of NO, NO X , and NH 3 also decreased by 4.08%, 8.16%, and 7.19%, respectively during the solar eclipse day than the previous day.…”

Section: Figurementioning

confidence: 52%

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Impact of an annular solar eclipse on trace gases and meteorological parameters over Jaipur, Northwestern India

Prakash

Verma²,

Payra³

et al. 2022

Front. Environ. Sci.

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This study aimed to identify the impact of an annular solar eclipse i.e., 21 June 2020 on the variation of meteorological parameters along with trace gases using statistical analyses. The study site is located at Poornima University, Jaipur (26.7796°N, 75.8771°E), Rajasthan, India. The observational analysis indicates a rapid decrease in solar direct radiation (SDR) which varied between 706 and 79 W/m2 during the eclipse. SDR was reduced to 79 W/m2 at the maximum peak of the solar eclipse at 11:55 a.m. at the study location. The comparative analysis shows the variation of SDR during the solar eclipse day, the previous day, and the day after the event. A strong dip was observed in SDR during the annular eclipse day concerning before (734.31 W/m2) and after (734.375 W/m2) eclipse event. Furthermore, the impact of the solar eclipse on temperature (Ts) and Relative Humidity (RH) was analyzed over Jaipur. The statistical analyses demonstrate an apparent decrease in temperature of about 2°C while RH shows a slight increment (3.45%) during the solar eclipse event. The results show an inverse correlation between the solar eclipse and trace gases variations during the eclipse due to the changes in solar radiation, surface temperature, and variation in winds that might affect the photochemical processes.

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