npj Climate and Atmospheric Science (Sep 2023)

Changes in hail hazard across Australia: 1979–2021

  • Timothy H. Raupach,
  • Joshua S. Soderholm,
  • Robert A. Warren,
  • Steven C. Sherwood

DOI
https://doi.org/10.1038/s41612-023-00454-8
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 8

Abstract

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Abstract Hail damage is a leading cause of insured losses in Australia, but changes in this hazard have not been robustly quantified. Here, we provide a continental-scale analysis of changes in hail hazard in Australia. A hail proxy applied to reanalysis data shows that from 1979–2021 annual hail-prone days decreased over much of Australia but increased in some heavily populated areas. For example, the annual number of hail-prone days increased by ~40% around Sydney and Perth, the largest cities on Australia’s east and west coasts, respectively. Changes in atmospheric instability have driven the trends. Radar observations, while covering shorter time spans and a more limited area than the reanalysis, corroborate the broad pattern of results. This study shows consistent hail-frequency trends in radar indicators and atmospheric environments and demonstrates substantial increases in hail frequency in major Australian cities where hail impacts are most significant.