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Lightning crackles over North Pole in very rare storm

Sunday, August 11th 2019, 1:15 pm - Hopefully Santa's reindeer aren't afraid of thunder.

It's been an unusual summer for the Arctic. Unprecedented tracts of land have burned as wildfires spread beyond any capacity to control them. Temperature records have been smashed. And now lightning has sparked next to the North Pole.

Weather-savvy Canadians might already know lightning strikes north of the Arctic Circle aren't unheard of, but the frequency of strikes drops off dramatically as you move north. Saturday evening's bolts were within 550 km of the North Pole -- that's about 2050 km north of the Arctic Circle. A look at the global lightning frequency maps, below, represents this fact well.

global lightning The seasonal distribution of lightning activity (annualized in units of fl km−2 yr−1). The contour levels are identical to those of Figure 5. (a) December, January, and February. (b) March, April, and May. (c) June, July, and August. (d) September, October, and November. Image courtesy Journal of Geophysical Research/Christian et.al 2003.

The darker reds and yellows on the maps (which are separated into three-month spans) show where lightning strikes are most frequent, the cooler colours where strikes are less frequent. Near both poles, the grey colour represents regions that average fewer than 0.01 strikes per square km per year. Saturday's strikes were even further north than that.

It's probably not surprising that the highest frequency of lightning strike on Earth runs along either side of the Equator -- the point of the planet that receives the most direct sunlight and strongest warming, and, in turn, harbours conditions most favourable for the formation of thunderstorms. Strikes over land are more common than those over the ocean because land absorbs the sun's rays more readily and heats up more quickly, helping to destabilize the atmosphere and generate thunderstorms.

tstorm setup

The storms that sparked Saturday's lightning were likely a little different than the ones we see closer to home (or over land at all). While surface heating, as mentioned above, drives storms at lower latitudes, these high-latitude thunderstorms more likely fired up because of instability in the mid-levels of the atmosphere. Even though the surface is still cold, relatively speaking, a warm layer higher up in the atmosphere is enough to fuel storms.

Sources: Journal of Geophysical Research | NASA | Alaska Climate Research Center |

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