M. Bernardi scite author profile

Abstract. Cloud-to-ground (CG) lightning data from the European Cooperation for Lightning Detection (EUCLID) network over the period 2006-2014 are explored. Mean CG flash densities vary over the European continent, with the highest density of about 6 km −2 yr −1 found at the intersection of the borders between Austria, Italy and Slovenia. The majority of lightning activity takes place between May and September, accounting for 85 % of the total observed CG activity. Furthermore, the thunderstorm season reaches its highest activity in July, while the diurnal cycle peaks around 15:00 UTC. A difference between CG flashes over land and sea becomes apparent when looking at the peak current estimates. It is found that flashes with higher peak currents occur in greater proportion over sea than over land.

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Lightning-caused fires in the Alps: Identifying the igniting strokes

Moris

Conedera

Nisi

et al. 2020

Agricultural and Forest Meteorology

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High-Resolution Lightning Detection and Possible Relationship with Rainfall Events over the Central Mediterranean Area

et al. 2019

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Lightning activity is usually associated with precipitations events and represents a possible indicator of climate change, even contributing to its increase with the production of NOx gases. The study of lightning activity on long temporal periods is crucial for fields related to atmospheric phenomena from intense rain-related hazard processes to long-term climate changes. This study focuses on 19 years of lightning-activity data, recorded from Italian Lightning Detection Network SIRF, part of the European network EUCLID (European Cooperation for Lightning Detection). Preliminary analysis was dedicated to the spatial and temporal assessment of lightning through detection in the Central Mediterranean area, focusing on yearly and monthly data. Temporal and spatial features have been analyzed, measuring clustering through the application of global Moran’s I statistics and spatial local autocorrelation; a Mann–Kendall trend test was performed on monthly series aggregating the original data on a 5 × 5 km cell. A local statistically significant trend emerged from the analysis, suggesting possible linkage between surface warming and lightning activity.

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A 10-year study on the lightning activity in Italy using data from the SIRF network

Nicora

Mestriner

Brignone

et al. 2021

Atmospheric Research

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M. Bernardi

The European lightning location system EUCLID – Part 2: Observations

Lightning-caused fires in the Alps: Identifying the igniting strokes

High-Resolution Lightning Detection and Possible Relationship with Rainfall Events over the Central Mediterranean Area

A 10-year study on the lightning activity in Italy using data from the SIRF network

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