Characterization of Lightning Occurrence in Alaska Using Various Weather Indices for Lightning Forecasting

Farukh Murad Ahmed; Hayasaka Hiroshi; Kimura Keiji

Title	en Characterization of Lightning Occurrence in Alaska Using Various Weather Indices for Lightning Forecasting
Creator	en Farukh, Murad Ahmed en Hayasaka, Hiroshi NRID 1000040142195 en Kimura, Keiji
Accessrights	open access
Subject	Other en Lightning severity Other en LIFT Other en Environmental temperatures Other en Ordinary cell thunderstorm Other en Moisture NDC 510
Description	Abstract en Alaska lost 10% of its forest area due to vigorous forest fires in 2004 and 2005. Repeated lightning-caused forest fires annoy residents and influencing earth’s atmosphere in every fire season. The authors have reported on the weather conditions of Alaska’s most severe lightning occurrence in mid June 2005. This paper examines a range of weather indices like soar, instability, ‘dry lightning’ and others to the factors that could clearly explain lightning characteristics in Alaska. First, lightning occurrence days from May to September were classified into ‘non or small lightning’ days and ‘lightning’ days to determine threshold values. Second, ‘lightning’ days were categorized into ‘less severe’, ‘severe’, ‘very severe’, and ‘extremely severe’ to notice controlling factors on the lightning severity. Based on this analysis, the lifted index (LIFT) was selected as sensitive to assess upper air instability, and Te850 (environmental temperature at 850hPa) was selected as sensitive to assess warm and moist air masses. Finally, the possibilities of lightning forecasts in Alaska are discussed using lightning occurrence and LIFT and Te850 in 2005. As there is a time-lag between LIFT measurements (14:00) and the lightning peak (~17:00), and around one day time-lag between Te850 and lightning occurrence, lightning forecasts using LIFT and Te850 could provide a simply applicable forecast index for Alaska.
Publisher	en Fuji Technology Press
Date	Issued2011-06
Language	eng
Resource Type	journal article
Version Type	AM
Identifier	HDL http://hdl.handle.net/2115/57923
Journal	PISSN 1881-2473 EISSN 1883-8030 en Journal of Disaster Research Volume Number6 Issue Number3 Page Start343 Page End355
File	fulltext FINAL Manuscript_JDR format.pdf 677.78 KB (application/pdf) Issued2011-06
Oaidate	2023-07-26