麻豆淫院

Lightning has a greater impact on forests than previously thought. Researchers at the Technical University of Munich (TUM) have developed new model calculations that, for the first time, estimate the global influence of lightning on forest ecosystems.

According to their findings, in Global Change Biology, an estimated 320 million trees die each year due to lightning strikes. Tree losses caused by direct lightning-ignited wildfires are not included in these figures. In the future, lightning-induced tree mortality could rise due to an increase in flash frequency.

Lightning damage in forests is often hard to detect and has only been systematically studied in a few locations. Until now, it remained unclear how many trees worldwide die each year due to direct lightning-related damage.

The TUM research team has developed the to estimate how many trees are so severely affected by lightning that they eventually die. Their conclusion: the ecological impact of lightning has been underestimated.

While earlier studies focused on field observations in individual forests, the TUM researchers took a mathematical approach. They extended a widely used global vegetation model by integrating observational data and global lightning patterns.

"We're now able not only to estimate how many trees die from lightning strikes annually, but also to identify the regions most affected and assess the implications for global carbon storage and forest structure," explains Andreas Krause, lead author of the study and researcher at the Chair of Land Surface鈥揂tmosphere Interactions.

The number of trees killed could increase in the future

According to their estimates, lightning kills about 320 million trees annually, accounting for 2.1% to 2.9% of all plant biomass loss annually. This biomass decay is estimated to emit between 0.77 and 1.09 billion tons of CO₂ annually.

The researchers emphasize that these emissions are surprisingly high: they are comparable in magnitude to the approximately 1.26 billion tons of CO₂ released annually by the combustion of living plants in wildfires. However, the total CO₂ emissions from wildfires are substantially higher鈥攁bout 5.85 billion tons per year鈥攕ince they also include burning deadwood and organic soil material.

"Most climate models project an increase in lightning frequency in the coming decades, so it's worth paying closer attention to this largely overlooked disturbance," says Krause.

"Currently, lightning-induced tree mortality is highest in tropical regions. However, models suggest that lightning frequency will increase primarily in middle- and high-latitude regions, meaning that lightning mortality could also become more relevant in temperate and boreal forests."