Impacts of the 2015 Heat Waves on Mortality in the Czech Republic—A Comparison with Previous Heat Waves

Urban, Aleš; Hanzlíková, Hana; Kyselý, Jan; Plavcová, Eva

doi:10.3390/ijerph14121562

Cited by 61 publications

(55 citation statements)

References 90 publications

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“…Similarly to the results of Oudin Åström et al (2016), the additional mortality caused by heat in the area on the coast is lower than inland. This is also in accordance with previous studies, such as Urban et al (2017) and Medina-Ramon and Schwartz (2007). The largest number of deaths associated to the occurrence of high air temperature was recorded in cities with the highest population density (and, simultaneously, with the largest population).…”

Section: Cardiovascular Diseases and Age As Risk Factorssupporting

confidence: 93%

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Heat-related mortality during hot summers in Polish cities

Graczyk

Kundzewicz

Choryński

et al. 2018

Theor Appl Climatol

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The aim of this study was to estimate a likely number of additional fatalities in ten largest cities in Poland, recorded during heat waves in particularly hot summer seasons. In the period of 1989-2012, for which data on mortality were available, the most intense, long-lasting, summer heat waves occurred in 1992, 1994, 2006, and 2010. The numbers of fatalities in these years were compared to the numbers of fatalities in reference periods. These calculations were undertaken for days during heat waves and also for a longer interval including next 30 days after the end of the last sub-wave. An increase of mortality risk for people over 65 years of age and for those affected with cardiovascular diseases was noted. The total number of additional fatalities in ten largest cities in Poland could have exceeded 1070 in 1994. During the hottest days in the analyzed period, in some cities, the number of fatalities was more than three times higher than the mean value for the reference period. The results indicate that the increase of mortality during heat waves is a serious threat in Poland already in the present climate and will be even more severe in a warming climate.

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Section: Cardiovascular Diseases and Age As Risk Factorssupporting

confidence: 93%

“…Hajat and Kosatsky (2010) and Hondula et al (2015) explain such a difference in mortality rates by the age of population and economic conditions. Urban et al (2017) draws attention to the differences in the physical environment, while Son et al (2016) to the differences in urban vegetation.…”

Section: Cardiovascular Diseases and Age As Risk Factorsmentioning

confidence: 99%

Heat-related mortality during hot summers in Polish cities

Graczyk

Kundzewicz

Choryński

et al. 2018

Theor Appl Climatol

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“…Of the studies that have examined heat wave-to-heat wave variability in human impacts, only in the Nitschke et al (2011) study are heat impacts greater with the later event, though this is framed in the context that the later (2009) event was unprecedented for Adelaide, Australia. For the summer of 2015 in the Czech Republic, heat related mortality was similar to that of 1994, despite a baseline decline in heat vulnerability (Urban et al 2017). For the remaining studies, all show general declines; for instance, Palecki et al (2001) and Weisskopf et al (2002) show mortality in the midwestern USA in a 1999 heat wave was far lower than that of the 1995 'Chicago Heat Wave'; Smoyer (1998) shows in St. Louis, USA the 1995 heat event was less impactful than a 1980 event; and Tan et al (2007) show similar decreases between heat events in 1998 and 2003 in Shanghai, China.…”

Section: The Impact Of the Heat Wavementioning

confidence: 89%

“…Todd and Valleron (2015) In central France, the ratio of mortality attributed to high temperatures declined significantly from 1968-2009. Urban et al (2017) The summer of 2015 was as pronounced as the summer of 1994 in terms of heat related mortality. Wang et al (2016) In the US, heat stroke hospitalizations have decreased substantially between 1999 and 2010.…”

Section: Overview Of the Approaches Usedmentioning

confidence: 99%

Temporal trends in human vulnerability to excessive heat

Sheridan

Allen

2018

Environ. Res. Lett.

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“…The heatwave began in late June in Western Europe and then spread towards Southern and Eastern Central Europe, with several cities reporting record high temperatures (Sippel et al 2016). The exceptionally warm conditions led to extreme drought over most of central Europe (Orth et al 2016) with several heat-related deaths (Muthers et al 2017, Urban et al 2017, Výberči et al 2018. With future climate projections estimating mean summer temperatures over Europe to increase by 0.6°-1.5°C in 2016-2035 (Kirtman et al 2013), heatwaves will become more common (Meehl and Tebaldi 2004, Schär et al 2004, Ballester et al 2010, Lhotka et al 2018.…”

Section: Introductionmentioning

confidence: 99%

Ocean and atmosphere influence on the 2015 European heatwave

Mecking

Drijfhout

Hirschi

et al. 2019

Environ. Res. Lett.

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During the summer of 2015, central Europe experienced a major heatwave that was preceded by anomalously cold sea surface temperatures (SSTs) in the northern North Atlantic. Recent observation-based studies found a correlation between North Atlantic SST in spring and European summer temperatures, suggesting potential for predictability. Here we show, by using a highresolution climate model, that ocean temperature anomalies, in combination with matching atmospheric and sea-ice initial conditions were key to the development of the 2015 European heatwave. In a series of 30-member ensemble simulations we test different combinations of ocean temperature and salinity initial states versus non-initialised climatology, mediated in both ensembles by different atmospheric/sea-ice initial conditions, using a non-standard initialisation method without data-assimilation. With the best combination of the initial ocean, and matching atmosphere/ sea-ice initial conditions, the ensemble mean temperature response over central Europe in this set-up equals 60% of the observed anomaly, with 6 out of 30 ensemble-members showing similar, or even larger surface air temperature anomalies than observed.

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Impacts of the 2015 Heat Waves on Mortality in the Czech Republic—A Comparison with Previous Heat Waves

Cited by 61 publications

References 90 publications

Heat-related mortality during hot summers in Polish cities

Heat-related mortality during hot summers in Polish cities

Temporal trends in human vulnerability to excessive heat

Ocean and atmosphere influence on the 2015 European heatwave

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