Increasing Heatwave Hazards in the Southeastern European Union Capitals

Morabito, Marco; Crisci, Alfonso; Messeri, Alessandro; Messeri, Gianni; Betti, Giulio; Orlandini, Simone; Raschi, A.; Maracchi, Giampiero

doi:10.3390/atmos8070115

Cited by 56 publications

(47 citation statements)

References 51 publications

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“…This is in agreement with the fact that the UHI is a typically nighttime phenomenon [53,57] when the radiation stored during the day in the densely built-up areas is released into the atmosphere during the night [29]. These findings are especially useful in a country such as Italy where frequent and often intense heat waves occur during summer, and a general increased earliness in the occurrence of the most critical heat waves was observed at the end of June [58], when day-length is a risk factor with often devastating effects for the general population and especially the most vulnerable subjects [59,60].…”

supporting

confidence: 84%

“…This is a priority because of the rapid and unplanned urban growth as well as the ongoing trends in global warming. In particular, the consequent increase in the frequency and intensity of heat-waves in urban environment [58] necessitate thorough and detailed investigations on the effect of urbanization on the urban thermal environment to provide effective summer UHI mitigation strategies.…”

Section: Discussionmentioning

confidence: 99%

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Urban Imperviousness Effects on Summer Surface Temperatures Nearby Residential Buildings in Different Urban Zones of Parma

et al. 2017

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Rapid and unplanned urban growth is responsible for the continuous conversion of green or generally natural spaces into artificial surfaces. The high degree of imperviousness modifies the urban microclimate and no studies have quantified its influence on the surface temperature (ST) nearby residential building. This topic represents the aim of this study carried out during summer in different urban zones (densely urbanized or park/rural areas) of Parma (Northern Italy). Daytime and nighttime ASTER images, the local urban cartography and the Italian imperviousness databases were used. A reproducible/replicable framework was implemented named "Building Thermal Functional Area" (BTFA) useful to lead building-proxy thermal analyses by using remote sensing data. For each residential building (n = 8898), the BTFA was assessed and the correspondent ASTER-LST value (ST_BTFA) and the imperviousness density were calculated. Both daytime and nighttime ST_BTFA significantly (p < 0.001) increased when high levels of imperviousness density surrounded the residential buildings. These relationships were mostly consistent during daytime and in densely urbanized areas. ST_BTFA differences between urban and park/rural areas were higher during nighttime (above 1 • C) than daytime (about 0.5 • C). These results could help to identify "urban thermal Hot-Spots" that would benefit most from mitigation actions.

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supporting

confidence: 84%

Section: Discussionmentioning

confidence: 99%

Urban Imperviousness Effects on Summer Surface Temperatures Nearby Residential Buildings in Different Urban Zones of Parma

et al. 2017

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“…The median numbers and lengths (Table 1) for stations in or close to London and in Northern Ireland were similar to those calculated for London and Dublin using a different heat wave definition [9]. Positive trends in numbers and lengths of longest heat waves were identified at many stations using data from 1961.…”

Section: Heat Wave Metricssupporting

confidence: 65%

“…The number of heat waves over this period had not changed, but heat waves after about 1990 had higher maximum temperatures and longer durations. Significant positive trends in numbers of heat wave days and heat wave lengths were identified in many south eastern European cities [9], although the period of data used was fairly short . In a study of heat waves in Ukraine using temperatures recorded over 1951-2011, the largest numbers of heat waves were found in the most recent decade (2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010), and the fewest in 1961-1970 and 1971-1980 [10].…”

Section: Introductionmentioning

confidence: 97%

Historical Trends and Variability in Heat Waves in the United Kingdom

et al. 2017

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Increases in numbers and lengths of heat waves have previously been identified in global temperature records, including locations within Europe. However, studies of changes in UK heat wave characteristics are limited. Historic daily maximum temperatures from 29 weather stations with records exceeding 85 years in length across the country were examined. Heat waves were defined as periods with unusually high temperatures for each station, even if the temperatures would not be considered warm in an absolute sense. Positive trends in numbers and lengths of heat waves were identified at some stations. However, for some stations in the south east of England, lengths of very long heat waves (over 10 days) had declined since the 1970s, whereas the lengths of shorter heat waves had increased slightly. Considerable multidecadal variability in heat wave numbers and lengths was apparent at all stations. Logistic regression, using a subset of eight stations with records beginning in the nineteenth century, suggested an association between the Atlantic Multidecadal Oscillation and the variability in heat wave numbers and lengths, with the summertime North Atlantic Oscillation playing a smaller role. The results were robust against different temperature thresholds.

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“…Climate changes are expected to alter the future thermal conditions and for Slovenia it is forecasted that with a moderate greenhouse gas emission scenario (RCP4.5) an increase of annual average air temperature by 1°C in the period 2011-2040 regarding 1981-2010 and by another 1°C in the period 2041-2070 is expected (ARSO, 2016;Morabito et al, 2017). Direct productivity losses associated with occupational heat stress may become substantial Nybo et al, 2017) and if risk factors and costs related to deal with at higher levels of warming are considered, it will have immense impact for workers and employers relying on outdoor or non-air conditioned work.…”

Section: Introductionmentioning

confidence: 99%

Comprehension of climatic and occupational heat stress amongst agricultural advisers and workers in Slovenia

Pogačar

Črepinšek

Bogataj

et al. 2017

AAS

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Climate changes and the associated higher frequency of heat waves in Middle-European countries will aggravate occupational heat stress experienced by Slovenian workers. Appropriate behavioral adaptations are important coping strategies and it is pertinent to establish if knowledge among advisers and workers is sufficient and identify the symptoms experienced by workers. Therefore a survey including 230 farmers and 86 agricultural advisers was completed. Thermal comfort ranged from hot to extremely hot for 85 ± 5 % of farmers working outside and heat stress had a negative impact on well-being (74 ± 6 %), productivity (68 ± 6 %) and concentration (34 ± 6 %). Reported symptoms were excessive sweating (84 ± 5 %), thirst (81 ± 5 %), and tiredness (59 ± 6 %). Women had a higher prevalence of headache (64 ± 10 %) compared to males (47 ± 8 %), higher frequency of fatigue (69 ± 10 vs 56 ± 8 %), and incidents with nausea or vomiting (19 ± 8 vs 9 ± 5 %). 81 ± 4 % of the responders reported that more time is required to complete tasks when the weather is hot. Nevertheless, 61 ± 6 % of farmers have never been informed of the impacts of heat stress and 29 ± 10 % of the agricultural advisers does not include this information in their guidance. This emphasizes the need for increased information and implementation of feasible solutions to mitigate the negative impact of heat stress on workers in the agricultural sector.Key words: heat stress; labor; farmers; agricultural advisers; health; well-being IZVLEČEK POZNAVANJE VROČINSKEGA STRESA NA DELOVNEM MESTU MED KMETIJSKIMI SVETOVALCI IN DELAVCI V SLOVENIJIV Sloveniji temperatura zraka narašča bolj kot v Evropi, zato je pomembno oceniti vplive vročinskega stresa na delovne razmere, sploh pri zunanjih delavcih, kot so kmetje. Raziskava je bila izvedena med 230 kmeti in 86 kmetijskimi svetovalci. Toplotno udobje je že zdaj neprimerno (vroče, prevroče ali zelo prevroče) za 85 ± 5 % kmetov, ko delajo zunaj, pri čemer vročinski stres vpliva na počutje (74 ± 6 %), storilnost (68 ± 6 %) in zbranost (34 ± 6 %) kmetov. Osnovni zaznani simptomi vročinskega stresa so povečano potenje (84 ± 5 %), žeja (81 ± 5 %) in utrujenost (59 ± 6 %). Ženske statistično značilno v večjem deležu poročajo o glavobolih (64 ± 10 % žensk in 47 ± 8 % moških), izčrpanosti (69 ± 10 in 56 ± 8 %) in slabosti oz. bruhanju (19 ± 8 in 9 ± 5 %). Kmetje in svetovalci skupno v več kot 80 % (81 ± 4 %) navajajo, da kmetje v času vročinskih valov za isto delo potrebujejo več časa. Kljub temu 61 ± 6 % kmetov še nikoli ni bilo obveščenih o vplivih vročinskega stresa, 29 ± 10 % svetovalcev pa še nikoli ni svetovalo o tem. Zelo jasno se kaže potreba po pripravi uporabnih, ne preveč splošnih smernic in možnih rešitev za zmanjšanje negativnega vpliva vročinskega stresa na kmete.

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Increasing Heatwave Hazards in the Southeastern European Union Capitals

Cited by 56 publications

References 51 publications

Urban Imperviousness Effects on Summer Surface Temperatures Nearby Residential Buildings in Different Urban Zones of Parma

Urban Imperviousness Effects on Summer Surface Temperatures Nearby Residential Buildings in Different Urban Zones of Parma

Historical Trends and Variability in Heat Waves in the United Kingdom

Comprehension of climatic and occupational heat stress amongst agricultural advisers and workers in Slovenia

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