Mortality Related to Air Pollution with the Moscow Heat Wave and Wildfire of 2010

热浪 环境科学 空气污染 污染 臭氧 空气温度 环境卫生 大气科学 医学 人口学 气象学 地理 气候变化 化学 地质学 生态学 海洋学 有机化学 社会学 生物
作者
Dmitry Shaposhnikov,Boris Revich,Tom Bellander,Getahun Bero Bedada,Matteo Bottai,Tatyana Kharkova,Ekaterina Kvasha,Е. А. Лезина,Tomas Lind,Е. Г. Семутникова,Göran Pershagen
出处
期刊:Epidemiology [Lippincott Williams & Wilkins]
卷期号:25 (3): 359-364 被引量:382
标识
DOI:10.1097/ede.0000000000000090
摘要

Background: Prolonged high temperatures and air pollution from wildfires often occur together, and the two may interact in their effects on mortality. However, there are few data on such possible interactions. Methods: We analyzed day-to-day variations in the number of deaths in Moscow, Russia, in relation to air pollution levels and temperature during the disastrous heat wave and wildfire of 2010. Corresponding data for the period 2006–2009 were used for comparison. Daily average levels of PM10 and ozone were obtained from several continuous measurement stations. The daily number of nonaccidental deaths from specific causes was extracted from official records. Analyses of interactions considered the main effect of temperature as well as the added effect of prolonged high temperatures and the interaction with PM10. Results: The major heat wave lasted for 44 days, with 24-hour average temperatures ranging from 24°C to 31°C and PM10 levels exceeding 300 μg/m3 on several days. There were close to 11,000 excess deaths from nonaccidental causes during this period, mainly among those older than 65 years. Increased risks also occurred in younger age groups. The most pronounced effects were for deaths from cardiovascular, respiratory, genitourinary, and nervous system diseases. Continuously increasing risks following prolonged high temperatures were apparent during the first 2 weeks of the heat wave. Interactions between high temperatures and air pollution from wildfires in excess of an additive effect contributed to more than 2000 deaths. Conclusions: Interactions between high temperatures and wildfire air pollution should be considered in risk assessments regarding health consequences of climate change.

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