Study: How Sun influences lightning and thunder activity on Earth

Study: How Sun influences lightning and thunder activity on Earth

Japanese researchers have taken the first steps to understand how the Sun's rotational cycle influences lightning activity on Earth. The answers were found in diaries dating back to the 1700s.
"It is well known that long-term - centennial to millennial-scale - variations of solar activity influences terrestrial climate," said Hiroko Miyahara, first author on the paper published recently in EGU's Annales Geophysicae. "However, it is not well established whether the Sun influences the daily or monthly weather."
Miyahara referred to the 27-day solar rotational period, which is the average time it takes for the Sun to rotate on its axis. Since the Sun consists of plasma, the equator rotates quicker than its poles. When areas of high activity, such as sunspots, face Earth, there's an increase in ultraviolet rays and decrease in energetic particles showering the atmosphere.
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"Thunderstorm and cloud activities sometimes show a 27-day period, and this has long been studied to uncover a possible important link to solar rotation," study authors said.
"Because the 27-day variations in the solar forcing parameters such as solar ultraviolet and galactic cosmic rays become more prominent when the solar activity is high, it is expected that the signal of the 27-day period in meteorological phenomena may wax and wane according to the changes in the solar activity level."
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"In this study, we examine in detail the intensity variations in the signal of the 27-day solar rotational period in thunder and lightning activity from the 18th to the 19th centuries based on 150-year-long records found in old diaries kept in Japan and discuss their relationship with the solar activity levels. Such long records enable us to examine the signals of solar rotation at both high and low solar activity levels."
The researchers examined the records for mentions of thunder and lightning events between May and September when the influence from the cold Siberian air mass is weak in Japan and found peaks of lightning and thunder activity occurs every 24 to 31 days, the same time window it takes the sunspots to rotate completely.
It's a strong signal, especially when the yearly-average number of sunspots is high.
"We found that the signal of the solar rotational period in the thunder and lightning activity increases as the solar activity increases. We also discuss the possibility of the impact of the long-term climatological conditions on the signals of the 27-day period in thunder/lightning activities."
A collaborative research team in Japan has taken the first steps to understand how the sun's rotational cycle influences lightning activity. They found answers in an unusual source—diaries dating back to the 1700s.


The research was published in the Annales Geophysicae, the open access peer-reviewed solar-terrestrial and planetary sciences journal of the European Geosciences Union on April 18th, 2018.
The team includes faculty members from several universities in Japan, as well as Ryuho Kataoka, an associate professor of the National Institute of Polar Research (NIPR). NIPR supports scientific research and observation of the polar regions and is associated with the Research Organization of Information and Systems (ROIS) in Japan.
"It is well known that long-term—centennial to millennial-scale—variations of solar   terrestrial climate," said Hiroko Miyahara, first author on the paper, and an associate professor of Humanities and Sciences/Museum Careers at Musashino Art University in Tokyo, Japan. "However, it is not well established whether the sun influences the daily or monthly weather."
Miyahara points to the 27-day solar rotational period, which is the average time it takes for the sun to rotate on its axis. Since the sun consists of plasma, the equator rotates quicker than its poles. When areas of high activity, such as sunspots, face Earth, there's an increase in ultraviolet rays and decrease in energetic particles showering the atmosphere.
Miyahara and her team set out to clarify if the 27-day cycle was reflected in meteorological phenomena, such as lightning activity on Earth. They turned to a set of diaries kept continuously for more than 150 years. A farm family in Hachioji (currently located in western part of Tokyo) kept the first diary called the "Diary of Ishikawa Family," while the other is the "Diary of Hirosaki Clan Government Office," a detailed log kept by a collective of civil servants from Hirosaki (currently located in the Aomori Prefecture) who were in residence in central Tokyo. The two locations are about 25 miles apart.
The researchers examined the records for mentions of thunder and lightning events between May and September when the influence from the cold Siberian air mass is weak in Japan.

They found peaks of lightning and thunder activity every 24 to 31 days, the same time window it takes the sunspots to rotate completely. It's a strong signal, especially when the yearly-average number of sunspots is high.
"The cyclic behavior of the sun is playing a very important role in the changes of weather in Japan," Miyahara said, noting that the rhythm of lightning activity amplifies as the level of solar activity increases.
Next, the team plans to study the detailed mechanism of the solar influence on meteorological events and analyze how the impact of solar activity might propagate to Japan.
"Our ultimate goal is to include the influence of  in the weather forecast," Miyahara said. "It would improve the accuracy of the forecast, and it may even enable a longer-term weather forecast."

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