Analysis of synoptic conditions for tornadic days over western Greece

Nastos, Panagiotis T.

doi:10.5194/nhess-14-2409-2014

Cited by 15 publications

(7 citation statements)

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“…Sioutas () found that the short‐wave trough pattern is the most common synoptic pattern on waterspout days, followed by the closed low pattern. However, research by Nastos and Matsangouras (, ) and Matsangouras et al () over different geographical areas of Greece showed that waterspouts and tornadoes in Greece are reported for a variety of different synoptic conditions. Thus, an objective synoptic classification based on regional clustering of the waterspout and tornado events is necessary in order to interpret synoptic conditions that favour waterspout and tornado development over a specific geographical area.…”

Section: Discussionmentioning

confidence: 97%

“…Our findings of prevailing northwesterly winds at 500 hPa are in agreement with Matsangouras et al (), who showed that a very broad trough at 500 hPa was located over the Aegean Sea, resulting in W–NW upper air flow over Crete on autumn waterspout days during the period covering 1 September 1948–31 December 2012. However, the occurrence of northwesterly winds that favoured waterspout activity during the autumn season, at middle and lower levels of the troposphere over the southern Aegean Sea, differs from the SW upper and lower air flow that favours waterspout activity over western Greece (Nastos and Matsangouras, ). Northwesterly winds in autumn at 850 and 925 hPa are consistent with a shallow, cyclonic circulation over the SE Aegean Sea.…”

Section: Discussionmentioning

confidence: 99%

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Analysis of waterspout environmental conditions and of parent‐storm behaviour based on satellite data over the southern Aegean Sea of Greece

Matsangouras

Nastos

Bluestein

et al. 2016

Intl Journal of Climatology

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ABSTRACT:A frequent area of waterspout formation is identified over the southern Aegean Sea. The objectives of this study are threefold: (1) to investigate the temporal evolution of Cloud Top Temperature (CTT) of cloud lines (waterspouts' parent clouds) that triggered the formation of single or multiple waterspout events, by using Meteorological Satellite Second Generation infrared satellite data, cloud base height data and weather observations from the closest Hellenic National Meteorological Service meteorological station; (2) to synthesize a detailed climatology of the thermodynamic environment during waterspout activity and (3) to explore the sea-surface temperature (SST) seasonal distribution and its possible relationships with the temperature of the middle and lower troposphere during waterspout days over the southern Aegean Sea.It was found that the CTT of waterspout parent clouds decreases close to waterspout formation time, which is consistent with growing clouds. The Severe Weather Threat Index (SWEAT), the Bulk Richardson Number (BRN) and the Convective Potential Available Energy during the autumn season were consistent with a shallow-convection environment. The instability parameter ΔT 1000 (difference in the air temperature between 1000 hPa and that at other pressure levels) exhibited a symmetric distribution about the median during both seasons and at all levels. More than 75% of autumn waterspout activity over the southern Aegean Sea developed with SST values varying from 22 to 24.5 ∘ C, while the instability parameter ΔT SST (the temperature difference between the SST and the temperature at various pressure levels) exhibited a symmetrical distribution about the median for both seasons and for all pressure levels, consistent with the ΔT 1000 seasonal distribution. A statistical analysis showed that the means of SWEAT, BRN, convective inhibition, SST, ΔT SST and ΔT 1000 from air temperature at 700 hPa differ statistically significant (p < 0.001) between waterspout and non-waterspout days in autumn, over the southern Aegean Sea, during 2005-2012.

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Section: Discussionmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

Analysis of waterspout environmental conditions and of parent‐storm behaviour based on satellite data over the southern Aegean Sea of Greece

Matsangouras

Nastos

Bluestein

et al. 2016

Intl Journal of Climatology

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“…Na literatura, diversos estudos têm sido realizados a fim de compreender e identificar o ambiente em que tempestades geradoras de tornados se desenvolvem. Alguns estudos mostram que tornados podem se formar no setor quente de sistemas frontais (Nastos;Matsangouras, 2014;Wrona;Avotniece, 2015;Tochimoto;Niino, 2016). Nestes estudos, os autores observaram características semelhantes nas condições atmosféricas de grande escala nas quais as formações tornádicas analisadas ocorreram.…”

Section: Introductionunclassified

Condições atmosféricas de grande escala associadas a três eventos de tornados ocorridos no Estado do Rio Grande do Sul, Brasil (Large scale atmospheric conditions associated with three tornado events occurred in Rio Grande do Sul State, Brazil)

Lara

Nunes

Calvetti

et al. 2019

Rev. Bras. Geog. Fis.

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Os tornados são fenômenos atmosféricos extremos de rápida atuação e desenvolvimento podendo ocasionar prejuízos em diversos setores econômicos e sociais. Com o objetivo de compreender o ambiente favorável para o desenvolvimento de tempestades tornádicas, foram realizadas análises das condições atmosféricas para os episódios de tornados ocorridos nos municípios de Canela, Tapejara e São Miguel das Missões, no Estado do Rio Grande do Sul. Desta forma, foram utilizadas imagens de satélite da Geostationary Operational Environmental Satellite (GOES-13) e dados de reanálise do modelo Modern-Era Retrospective Analysis for Research and Applications (MERRA-2). A partir destes dados foram gerados campos atmosféricos e diagramas Skew-T/Log-P para avaliar a estrutura tridimensional da atmosfera e a eficiência dos índices convectivos na identificação do fenômeno. Entre os resultados obtidos, foi possível identificar que todos os casos estiveram associados a um sistema pré-frontal, a atuação do Jato de Baixos Níveis (JBN), com magnitude de vento superior a 16 m s-1 (850 hPa) e a atuação da corrente de jato (250 hPa) sobre as localidades atingidas. Ressaltando que no caso de Canela foi verificado o acoplamento entre o JBN e a corrente de jato e no caso de Tapejara foi observada a difluência do escoamento em 250 hPa. Outra característica encontrada foi a posição do eixo do cavado no nível de 500 hPa gerando advecção de vorticidade ciclônica e movimento ascendente sobre a região. Isso induziu a convergência de umidade na baixa troposfera (850 hPa), tornando-se uma das principais forçantes que propiciaram a intensificação da atividade convectiva na região. A B S T R A C TTornadoes are extreme atmospheric phenomena of rapid actuation and development and can cause damages in several economic and social sectors. In order to understand the favorable environment for the development of tornadic storms, atmospheric conditions were analyzed for the episodes of tornadoes occurring in the municipalities of Canela, Tapejara and São Miguel das Missões, in Rio Grande do Sul State. Thus, satellite images from the Geostationary Operational Environmental Satellite (GOES-13) and the Modern-Era Retrospective Analysis for Research and Applications – Version 2 reanalysis data were used. From these data atmospheric fields and Skew-T/Log-P diagrams were generated to evaluate the three-dimensional structure of the atmosphere and the efficiency of the convective indexes in the identification of the phenomenon. Among the results, it was possible to identify that all the cases were associated to a pre-frontal system, the performance of the Low Level Jet (LLJ), with a 850 hPa wind magnitude greater than 16 m s-1 and the actuation of the 250 hPa jet stream on the affected localities. Note that in the Canela case the coupling between the LLJ and the jet stream was verified and in the case of Tapejara the flow diffluence was observed at 250 hPa. Another characteristic found was the position of 500 hPa trough axis generating advection of cyclonic vorticity and ascending motion on the region. This induced the convergence of humidity in the lower troposphere (850 hPa), becoming one of the main forcing that led to the intensification of the convective activity in the region.Keywords: Low Level Jet, difluence, frontal system, convective index, severe storm.

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“…Keul et al (2009), Sioutas and Keul (2007), and Matsangouras et al (2014b) presented a spatial and temporal analysis of waterspout thermodynamic characteristics over the Ionian, and the Aegean Sea. Moreover, specific synoptic types favouring waterspout formation over the northern Ionian Sea were classified by Matsangouras et al (2013), and an analysis of composite synoptic conditions relating to tornado and waterspout formation over western Greece was carried out by Matsangouras (2012, 2014). Based on the abovementioned tornado database, a systematic scientific research project is in progress at LACAE, analyzing significant tornado case studies, numerical simulations, and investigating the contribution of Greek complex topography in tornadogenesis (e.g.…”

Section: Introductionmentioning

confidence: 99%

Waterspout cloud top detection using MSG SEVIRI infrared brightness temperature over the northern Ionian Sea, Greece

Papachristopoulou

Matsangouras

2015

Adv. Sci. Res.

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Abstract. Waterspouts pose a significant threat for coastal areas, maritime activities and structures and thus their study is essential. They are frequently occurring in the Mediterranean Sea and particularly in the northern coasts. A vulnerable area of waterspout formation is the Ionian Sea according to recent research and especially the water body around Corfu Island, Greece. The Laboratory of Climatology and Atmospheric Environment of the University of Athens has assembled a detailed database of waterspout events, providing additional information such as location and time of these events; valuable information for the methodology followed.In this study, the waterspout data base concerns events from 20 March 2007 to 31 December 2013. Thus, a total of 74 events were recorded and catalogued on 47 days, as there were days with multiple waterspout events. The aim of this study is to investigate the temporal evolution of brightness temperature on tops of waterspout parent clouds that triggered the formation of single or multiple waterspout events, based on the aforementioned database. The cloud top temperature was assessed by using channel at 10.8 µm MSG SEVIRI Level 1.5 Image Data product. The minimum brightness temperature of the cloud top around the waterspout location for four different examined radiuses was estimated during 60 min prior to and after waterspout formation. Results are illustrated in terms of seasonal analysis. During autumn season a decrease of brightness temperature (colder values) was detected at waterspout parent cloud close to waterspout formation.

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Analysis of synoptic conditions for tornadic days over western Greece

Cited by 15 publications

References 54 publications

Analysis of waterspout environmental conditions and of parent‐storm behaviour based on satellite data over the southern Aegean Sea of Greece

Analysis of waterspout environmental conditions and of parent‐storm behaviour based on satellite data over the southern Aegean Sea of Greece

Condições atmosféricas de grande escala associadas a três eventos de tornados ocorridos no Estado do Rio Grande do Sul, Brasil (Large scale atmospheric conditions associated with three tornado events occurred in Rio Grande do Sul State, Brazil)

Waterspout cloud top detection using MSG SEVIRI infrared brightness temperature over the northern Ionian Sea, Greece

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