Weather tracker: France reels from deadly thunderstorms and lightning

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"Severe Thunderstorms Cause Fatalities and Damage Across France"

Weather tracker: France reels from deadly thunderstorms and lightning analysis cover image The Guardian 8.4
Image Source: https://i.guim.co.uk/img/media/d886baa88ce8eba3d4080f0d3029cf3322fbd47f/53_0_4340_3472/master/4340.jpg?width=140&quality=85&auto=format&fit=max&s=055c12a09944a087368d57bb76b31d36
Original Article Source: https://www.theguardian.com/environment/2025/jun/16/weather-tracker-deadly-thunderstorms-lightning-france
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Last Friday, severe thunderstorms wreaked havoc across France, resulting in one fatality and injuries to another individual. The storms were driven by two distinct weather systems that prompted orange weather warnings throughout the country. The first system originated from Brittany in the west and impacted the northern regions, while the second system swept in from Spain, affecting the southwestern parts of France. The intensity of the storms was underscored by the staggering number of lightning strikes recorded; over 30,000 strikes were logged between midnight Friday and early Saturday. The Eure region, located north of Paris, experienced the greatest impact, with 4,326 strikes noted. In addition to the lightning, strong winds battered Normandy, where Rouen recorded a gust of 76 mph, surpassing a previous record of 64 mph set in 2019. Hail also presented significant challenges, damaging infrastructure and crops in several areas as the storms moved across the country.

The tumultuous weather continued into Saturday night, particularly affecting central and north-west France, where additional storms produced large hailstones. One of the largest hailstones, measuring 85 mm, was reported in Orly, Auvergne-Rhône-Alpes. The severe weather conditions were attributed to a phenomenon known as goutte froide, which involves an isolated cold pool in the upper atmosphere causing instability. An upper-air trough, or athalweg d’altitude, facilitated the upward movement of warm, moist air, leading to the formation of clouds and ultimately severe thunderstorms. The atmospheric dynamics were further complicated by a recent heat dome over France, which intensified the storms by enhancing the temperature gradient between the surface and the upper atmosphere and providing a greater moisture source. This combination of factors contributed to the development of supercells, organized storms capable of sustaining themselves for hours and traveling extensive distances, one of which was responsible for the severe weather experienced in northern France on Friday.

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Source URL: https://www.theguardian.com/environment/2025/jun/16/weather-tracker-deadly-thunderstorms-lightning-france

Severe thunderstorms swept acrossFrancelast Friday, killing one person and injuring another. Two systems were involved, prompting orange weather warnings: the first came from the west via Brittany and hit the north of the country, and the second arrived via Spain and affected south-west France.

More than 30,000 lightning strikes were recorded between midnight on Friday and early Saturday. Eure, north of Paris, was worst hit with 4,326 strikes. Strong winds lashed Normandy – Rouen recorded a 76mph (123km)/h) gust that broke the 64mph record set in 2019. Hail affected several areas, leading to infrastructure and crop damage.

There were further storms over central and north-west France on Saturday night, many with very large hailstones. The largest, found in Orly, Auvergne-Rhône-Alpes, measured 85mm.

Several factors led to the severe weather. A key component was a phenomenon known asgoutte froide, in which an isolated, upper-air cold pool detached from the overall circulation, creating significant atmospheric instability.

Athalweg d’altitude(upper-air trough) provided the lift necessary by favouring air ascent. Warm, moist air flowed into the trough and was forced upwards. As the air rose, it started to cool and water vapour began to condense, forming clouds. As this clouds swelled, they created severe thunderstorms.

As air flowed into the trough from every direction, it enabled supercells to develop by introducing the element of spin. Supercells are large-scale, highly organised storms with a rotating updraft that can sustain themselves for several hours and travel hundreds of miles – one of which swept through northern France on Friday.

A recent heat dome over the country helped intensify the storms by providing a greater gradient between the surface and the upper air, and by bringing a greater source of moisture. A heat dome occurs when high pressure persists over a region, trapping warm air and allowing temperatures to rise several degrees above the seasonal average.

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Source: The Guardian