Editorial Type:
Article
Article Type:
Research Article

Surface Ozone Pattern in Hong Kong

L. Y. Chan Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Kowloon, Hong Kong, China

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C. Y. Chan Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Kowloon, Hong Kong, China

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Y. Qin Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Kowloon, Hong Kong, China

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Print Publication:
01 Oct 1998
DOI:
https://doi.org/10.1175/1520-0450(1998)037<1153:SOPIHK>2.0.CO;2
Page(s):
1153–1165
Restricted access

Abstract

Surface ozone (O3) and its precursors in rural and urban areas of Hong Kong are analyzed through the seasonal, temporal, and spatial variation patterns. The seasonal O3 shows a unique pattern with a major peak in autumn and a trough in summer. The spring and winter seasons are the transition periods with a relatively small peak in spring. The seasonal alternation of the prevailing oceanic and continental air masses, plus the climate system associated with the Asian monsoon system, are the governing factors for the temporal O3 pattern in Hong Kong. The O3 imported by these air masses is found to be the dominating factor for the fluctuation of ambient O3 in Hong Kong. The aged air masses associated with the continental outflow from China carry with them anthropogenic air pollutants emitted from the blooming industrial and urban neighborhoods north of Hong Kong in Guangdong Province, China. Under favorable meteorological conditions for photochemical O3 formation in southeast China, the O3 level reaches a maximum in autumn. The absence of a local urban or a summer O3 peak suggests that the local O3 formation is not the dominant source of O3 in summer. The absence of an elevated ground-level O3 peak in the spring season is an indication that the stratospheric intrusion process of O3 is not a significant source of surface O3 in Hong Kong. The authors’ analysis also shows that the emission of O3 precursors from motor vehicles and the complex topography within the territories has a local effect on the spatial O3 distribution and diurnal O3 pattern in Hong Kong.

Corresponding author address: Dr. L. Y. Chan, Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong, China.

Abstract

Surface ozone (O3) and its precursors in rural and urban areas of Hong Kong are analyzed through the seasonal, temporal, and spatial variation patterns. The seasonal O3 shows a unique pattern with a major peak in autumn and a trough in summer. The spring and winter seasons are the transition periods with a relatively small peak in spring. The seasonal alternation of the prevailing oceanic and continental air masses, plus the climate system associated with the Asian monsoon system, are the governing factors for the temporal O3 pattern in Hong Kong. The O3 imported by these air masses is found to be the dominating factor for the fluctuation of ambient O3 in Hong Kong. The aged air masses associated with the continental outflow from China carry with them anthropogenic air pollutants emitted from the blooming industrial and urban neighborhoods north of Hong Kong in Guangdong Province, China. Under favorable meteorological conditions for photochemical O3 formation in southeast China, the O3 level reaches a maximum in autumn. The absence of a local urban or a summer O3 peak suggests that the local O3 formation is not the dominant source of O3 in summer. The absence of an elevated ground-level O3 peak in the spring season is an indication that the stratospheric intrusion process of O3 is not a significant source of surface O3 in Hong Kong. The authors’ analysis also shows that the emission of O3 precursors from motor vehicles and the complex topography within the territories has a local effect on the spatial O3 distribution and diurnal O3 pattern in Hong Kong.

Corresponding author address: Dr. L. Y. Chan, Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong, China.

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