대기 (Atmosphere)

  • 제24권2호
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  • Pages.225-234
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  • 2014
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  • 1598-3560(pISSN)
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  • 2288-3266(eISSN)
한국기상학회 (Korean Meteorological Society)
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우리나라 폭염 인명피해 발생특징

Characteristics of Heat wave Mortality in Korea

  • 김도우 (국립재난안전연구원 안전연구실) ;
  • 정재학 (국립재난안전연구원 안전연구실) ;
  • 이종설 (국립재난안전연구원 안전연구실) ;
  • 이지선 (국립기상연구소 응용기상연구과)
  • 투고 : 2014.02.07
  • 심사 : 2014.04.05
  • 발행 : 2014.06.30
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초록

Analysis of the cause of death (Statistics Korea) showed that heat wave caused 442 deaths (21 per a year) from 1991 to 2011 in Korea. The number of summer heat-related deaths (heat disorders) increased exponentially as heat wave prolonged. In 1994 when the extreme heat wave prevailed, there were 92 heat-related deaths. Seasonally, heat-related deaths occurred most frequently in early August when air temperature is highest for a year, but it is frequent as well in late July when air temperature increases rapidly after withdrawal of Changma. The frequency of deaths by age has begun to increase from 40s and more than half of total deaths were occurred in the elderly (${\geq}60$). Except retired elderly, the most vulnerable group (job and age) was the elderly agricultural workers and the next was the jobless people in 40 s~50 s, assumed as homeless people. The most vulnerable regions were Hapcheon-gun, Uiryong-gun, and Sanchen-gun, which are inland rural area in Gyeongsang-do where the heat wave occurs most frequently in Korea. The heat-related death rate increased rapidly when air temperature exceeded $33^{\circ}C$ in both of the urban and rural area. Interestingly, the heat-related death were observed in the relatively lower temperature in the cities ($29^{\circ}C$), as compare to the rural area ($31^{\circ}C$).

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참고문헌

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피인용 문헌

  1. Estimation of abnormal temperature effects on elderly mortality in South Korea using the temperature deviation index vol.61, pp.7, 2017, https://doi.org/10.1007/s00484-017-1307-3
  2. Mapping heatwave vulnerability in Korea vol.89, pp.1, 2017, https://doi.org/10.1007/s11069-017-2951-y
  3. Weekly heat wave death prediction model using zero-inflated regression approach pp.1434-4483, 2018, https://doi.org/10.1007/s00704-018-2636-9
  4. Projected Heat Wave Characteristics over the Korean Peninsula During the Twenty-First Century vol.54, pp.1, 2018, https://doi.org/10.1007/s13143-017-0059-7
  5. Projection of heat wave mortality related to climate change in Korea vol.80, pp.1, 2016, https://doi.org/10.1007/s11069-015-1987-0
  6. Determining the correlation between outdoor heatstroke incidence and climate elements in Daegu metropolitan city vol.36, pp.3, 2019, https://doi.org/10.12701/yujm.2019.00248
  7. Health Risk Estimation for Daily Maximum Temperature in the Summer Season using Healthcare Big Data vol.28, pp.7, 2019, https://doi.org/10.5322/JESI.2019.28.7.617