Abstract
The coastal areas of the Sea of Japan are a well-known hotspot of winter lightning activity. This study distinguishes between three common types of winter lightning in that region (types A–C), based on their frequency distributions and the meteorological conditions under which they occur. Type A lightning occurs with high frequency in the Tohoku district. It is mainly caused by cold fronts that accompany cyclones passing north of the Japanese islands. Type B, which occurs most frequently in the coastal areas of the Hokuriku district, is mainly caused by topographically induced wind convergence and convective instability, both of which are associated with cyclones having multiple centers. Type C’s lightning frequency distribution pattern is similar to that of type B, but its principal cause is a topographically induced wind convergence generated by cold air advection from the Siberian continent. Type A is most frequently observed from October to November, while types B and C tend to appear from November to January, consistent with seasonal changes in lightning frequency distribution in Japan’s Tohoku and Hokuriku districts.
Highlights
The coastal areas of the Sea of Japan are among the most widely known winter lightning activity hotspots in the world (Rakov and Uman 2007)
Results of the cluster analysis In order to identify the major types of Winter lightning (WL) cases that explain the statistical features of lightning activity in Fig. 4, cluster analysis was applied to 430 WL cases
Detailed case studies were conducted for typical winter lightning cases in order to examine the relationship between lightning activity and meteorological disturbances
Summary
The coastal areas of the Sea of Japan are among the most widely known winter lightning activity hotspots in the world (Rakov and Uman 2007). In Japan, district-wide lightning detection networks have been in place since the 1990s. LLSs have made it possible to examine detailed patterns of winter lightning activity in the coastal areas of the Sea of Japan. Fujisawa and Kawamura (2005) clarified lightning frequency distributions and seasonal changes (Nov.–Feb.) based on 9 years of data obtained by the LLS in the Hokuriku district.
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