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- Title
The relationship between shallow thermal circulation regimes and cumulonimbus clouds along the northeastern Adriatic coast.
- Authors
Babić, Karmen; Mikuš, Petra; Prtenjak, Maja Telišman
- Abstract
The aim of this study is to determine the relationship between the occurrence of a sea breeze (SB) and cumulonimbus (Cb) clouds over the Istrian Peninsula. For this purpose, available standard surface measurements, i.e., the near-surface wind, the air and sea surface temperatures and cloudiness at two stations (Pula-Airport and Pazin), and satellite images were analyzed. The study was performed during the summer months (from June to September) for the years 1997-2006. The analysis showed that the Cb development was typically associated with certain meteorological conditions. These conditions were as follows: (i) SB speed at Pula-Airport in the range of 3-5 ms-1, (ii) maximum temperature difference between sea and land near Pula-Airport around 4 °C, and (iii) maximum air temperature in Pazin in the range of 25 to 31 °C. On average, during the days with simultaneous development of SB and Cb clouds, the land breeze was weaker and the air temperature was higher than on other analyzed days. Diurnal cloud evolution showed that Cb clouds usually develop (above Pazin) between 13 and 14 h of Central European Time (CET). Cumulus clouds, as indicators of the SB inland penetration, preceded the Cb development. Satellite images for 2000-2006 obtained by the geostationary satellites Meteosat 7 and 8 were investigated, and a spatial distribution and a temporal development of 30 chosen Cb events were detected. Two characteristic regions of the Cb origin were noted: the northern and southeastern parts of the Istrian Peninsula. The Cb clouds usually formed between 11 and 13 CET, lasting in general from 3 to 5 hours and disintegrating between 15 and 17 CET.
- Subjects
ISTRIA (Croatia &; Slovenia); ADRIATIC Coast (Croatia); CROATIA; SLOVENIA; ATMOSPHERIC circulation; CUMULONIMBUS; SEA breeze; INTERTROPICAL convergence zone; LAND breeze; OCEAN temperature
- Publication
Geofizika, 2012, Vol 29, Issue 1, p103
- ISSN
0352-3659
- Publication type
Article