Lightning may strike less often in future across the globe as the planet warms, a scientific study suggests.
The research forecasts a 15% drop in the average number of lightning flashes worldwide by the turn of this century, if global temperatures are in the top range of forecasts.
A drop in the incidence of lightning strikes could impact on the frequency of wildfires, especially in tropical regions.
It could also lower the incidence of lightning strikes to infrastructure and affect how greenhouse gases in the atmosphere contribute to climate change
Unlike traditional calculations of lightning flashes at the global scale, which are based on the height of clouds, their approach takes into account the movement of tiny ice particles that form and move within clouds. Electrical charges build up in these ice particles, and in cold water droplets and soft hail formed inside clouds. These are discharged during storms, giving rise to lightning flashes and thunder. Scientists estimate there are 1.4 billion lightning flashes each year around the world.
The latest results, accounting for a 5 oC rise in global average temperatures by the year 2100, show that on average lightning flashes are less likely in future, in contrast to previous studies.
Dr Declan Finney of the University of Leeds, formerly of the University of Edinburgh, who carried out the study, said: “This research questions the reliability of previous projections of lightning, and encourages further study into the effects of climate change on cloud ice and lightning.”
Professor Ruth Doherty, of the University of Edinburgh’s School of Geosciences, said: “This research expands our current knowledge of climate change impacts on lightning and suggests that in a warmer world, the incidence of lightning is likely to decrease.”
Professor Oliver Wild, of Lancaster University, said: “The results provide new insight into the likely impacts of lightning on future atmospheric composition and climate.”
Read the paper in Nature Climate Change: A projected decrease in lightning under climate change (£).
Article source/image credit: Lancaster University