Abstract

AbstractAtmospheric blocks strongly influence surface weather, including extremes such as heat waves and cold spells. Recently, diabatic heating and associated upper‐tropospheric potential vorticity (PV) modification have been identified as important modulators of atmospheric blocking dynamics. Also, robust links between atmospheric blocks and proximate heavy precipitation events have been established. This leads to the question of the extent to which diabatic heating associated with heavy precipitation events influences Northern Hemisphere blocking. This study uses 5 years of 3‐day back trajectories started from objectively identified blocks in the ERA‐Interim dataset to investigate this relationship. A substantial fraction of air parcels in blocks pass through heavy precipitation areas. The exact fraction depends on the choice of heavy precipitation threshold. Roughly 19% of all the trajectories in a block pass a heavy precipitation area (>95th percentile) area while being saturated. Of the air parcels in a block that are heated at least 5 K, 60% pass a heavy precipitation area while saturated. This fraction varies with the season and geographical area. The overall fraction is lowest in summer and highest in winter, higher over oceans than over land, and higher over the Pacific than over the Atlantic. In summer, heating is relevant over the continents and heating over North America influences blocks over the eastern Atlantic. For summer blocks in the North Atlantic and over Scandinavia, heating happens partly over the European continent.

Highlights

  • Atmospheric blocks interrupt the prevailing westerlies in the upper troposphere of the mid-latitudes

  • Blocks typically consist of stationary negative potential vorticity (PV) anomalies (Illari, 1984; Schwierz et al, 2004) that can be accompanied by one or more positive PV anomalies at their equatorward flanks

  • A detailed case study of a flood event in Switzerland points to a potential two-way interaction between blocks and heavy precipitation events, where the latent heat release associated with heavy precipitation strengthens the upper-level negative PV anomaly of the block

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Summary

Introduction

Atmospheric blocks interrupt the prevailing westerlies in the upper troposphere of the mid-latitudes. Blocks typically consist of stationary negative potential vorticity (PV) anomalies (Illari, 1984; Schwierz et al, 2004) that can be accompanied by one or more positive PV anomalies at their equatorward flanks. With a typical lifetime of a week or longer, blocks strongly impact regional weather on (sub-)seasonal time scales and are conducive to various weather extremes such as heat waves, droughts, cold spells, and floods. Blocking modulates the occurrence of heavy precipitation events with increased frequencies of heavy precipitation upstream and partly downstream of blocks (Lenggenhager and Martius, 2019) by altering the tracks of extratropical cyclones (Rex, 1950). A detailed case study of a flood event in Switzerland points to a potential two-way interaction between blocks and heavy precipitation events, where the latent heat release associated with heavy precipitation strengthens the upper-level negative PV anomaly of the block

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