Variability of CONUS Lightning in 2003–12 and Associated Impacts

Author:

Koshak William J.1,Cummins Kenneth L.2,Buechler Dennis E.3,Vant-Hull Brian4,Blakeslee Richard J.1,Williams Earle R.5,Peterson Harold S.6

Affiliation:

1. * NASA Marshall Space Flight Center, Huntsville, Alabama

2. + The University of Arizona, Tucson, Arizona

3. # University of Alabama, Huntsville, Alabama

4. @ City College of New York, New York City, New York

5. & Massachusetts Institute of Technology, Cambridge, Massachusetts

6. ** Universities Space Research Association, Huntsville, Alabama

Abstract

AbstractChanges in lightning characteristics over the conterminous United States (CONUS) are examined to support the National Climate Assessment (NCA) program. Details of the variability of cloud-to-ground (CG) lightning characteristics over the decade 2003–12 are provided using data from the National Lightning Detection Network (NLDN). Changes in total (CG + cloud flash) lightning across part of the CONUS during the decade are provided using satellite Lightning Imaging Sensor (LIS) data. The variations in NLDN-derived CG lightning are compared with available statistics on lightning-caused impacts to various U.S. economic sectors. Overall, a downward trend in total CG lightning count is found for the decadal period; the 5-yr mean NLDN CG count decreased by 12.8% from 25 204 345.8 (2003–07) to 21 986 578.8 (2008–12). There is a slow upward trend in the fraction and number of positive-polarity CG lightning, however. Associated lightning-caused fatalities and injuries, and the number of lightning-caused wildland fires and burn acreage also trended downward, but crop and personal-property damage costs increased. The 5-yr mean LIS total lightning changed little over the decadal period. Whereas the CONUS-averaged dry-bulb temperature trended upward during the analysis period, the CONUS-averaged wet-bulb temperature (a variable that is better correlated with lightning activity) trended downward. A simple linear model shows that climate-induced changes in CG lightning frequency would likely have a substantial and direct impact on humankind (e.g., a long-term upward trend of 1°C in wet-bulb temperature corresponds to approximately 14 fatalities and over $367 million in personal-property damage resulting from lightning).

Publisher

American Meteorological Society

Subject

Atmospheric Science

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