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Time Series Analysis of Climate and Air Pollution Factors Associated with Atmospheric Nitrogen Dioxide Concentration in Japan.


ABSTRACT: Nitrogen dioxide (NO2) is an air pollutant discharged from combustion of human activities. Nitrous acid (HONO), measured as NO2, is thought to impact respiratory function more than NO2. HONO and NO2 have an equilibrium relationship, and their reaction is affected by climate conditions. This study was conducted to discuss the extent of HONO contained in NO2, depending on the level of urbanization. Whether climate conditions that promote HONO production enhanced the level of NO2 measured was investigated using time series analysis. Climate and outdoor air pollution data measured in April 2009-March 2017 in urban (Tokyo, Osaka, and Aichi) and rural (Yamanashi) areas in Japan were used for the analysis. Air temperature had a trend of negative associations with NO2, which might indicate the decomposition of HONO in the equilibrium between HONO and NO2. The associations of relative humidity with NO2 did not have consistent trends by prefecture: humidity only in Yamanashi was positively associated with NO2. In high relative humidity conditions, the equilibrium goes towards HONO production, which was observed in Yamanashi, suggesting the proportion of HONO in NO2 might be low/high in urban/rural areas.

SUBMITTER: Miyama T 

PROVIDER: S-EPMC7767269 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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Time Series Analysis of Climate and Air Pollution Factors Associated with Atmospheric Nitrogen Dioxide Concentration in Japan.

Miyama Takeshi T   Matsui Hiroshi H   Azuma Kenichi K   Minejima Chika C   Itano Yasuyuki Y   Takenaka Norimichi N   Ohyama Masayuki M  

International journal of environmental research and public health 20201218 24


Nitrogen dioxide (NO<sub>2</sub>) is an air pollutant discharged from combustion of human activities. Nitrous acid (HONO), measured as NO<sub>2</sub>, is thought to impact respiratory function more than NO<sub>2</sub>. HONO and NO<sub>2</sub> have an equilibrium relationship, and their reaction is affected by climate conditions. This study was conducted to discuss the extent of HONO contained in NO<sub>2</sub>, depending on the level of urbanization. Whether climate conditions that promote HONO  ...[more]

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