Abstract
ABSTRACTHailstorms have become a serious meteorological risk in mid‐latitude countries because of their small‐scale development and short time span, and their forecasting remains problematic. Moreover, the lack of reliable hailstorm databases is an important handicap for Numerical Weather Prediction (NWP) model validation, time trend studies and establishment of hailstorm relationships with global warming and climate change. However, this can be overcome by ascertaining physical relationships between favourable synoptic patterns and mesoscale trigger factors for hailstorm development in a local study area.North‐eastern Spain is one of the European regions with largest number of hailstorm days (HD) observed in the summer. Since 2001, from May through September, reliable databases of hailstorm occurrence in the middle Ebro Valley have been constructed, which include intensity, temporal frequency and spatial coordinate data. June and July 2006 had the largest number of HD in 2001–2010. With the objective of analysing meteorological factors responsible for this anomaly, atmospheric patterns at low and mid‐tropospheric levels were studied. We determined a set of special synoptic configurations, with an evident deviation from climatic values generating anomalies of 850 hPa temperature relative to the characteristic values of 2001–2010 and 1950–2010. An analysis of these anomalies detected a positive trend of 850 hPa temperature and geopotential height in the western Mediterranean area. As a consequence, the characteristic synoptic circulation has changed since 1950, towards low‐level patterns favouring adequate thermodynamic environments for hailstorm development in north‐eastern Spain. Finally, after a cluster analysis, we studied periodicities in the monthly 850 hPa temperature field to improve knowledge for seasonal forecasting of hailstorms.
Highlights
Hailstorms are defined as small-scale severe weather phenomena and represent one of the most important meteorological risks in mid-latitude continental areas
Severe convection refers to the transfer of heat and humidity through vertical drafts associated with buoyancy, which can cause adverse phenomena such as hail, tornadoes, intense precipitation and strong winds
In 2006, this trough was well defined with an axis west of Portugal, leading to an embedded low in June to the southwest of the Iberian Peninsula (IP)
Summary
Hailstorms are defined as small-scale severe weather phenomena and represent one of the most important meteorological risks in mid-latitude continental areas. In the Mediterranean and south-western Europe, summer hailstorms have significant economic impacts that are restricted to agriculture and affect industry and property, and occasionally cause loss of life. Severe convection refers to the transfer of heat and humidity through vertical drafts associated with buoyancy, which can cause adverse phenomena such as hail, tornadoes, intense precipitation and strong winds. Doswell (1987) and Houze (1993) established mechanisms forming a pre-convective environment, namely atmospheric instability, low-level moisture and a trigger factor. Thermodynamic conditions favouring the onset of convection are well known. Detection and documentation of hailstorms is very complex because of their
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