Abstract
ABSTRACT Air pollution is a crucial contributor to premature mortality and health problems. The excessive inhalation of fine particulate matter (PM2.5) is strongly associated with adverse health effects due to its capability to penetrate deep into the human respiratory system. This study aimed to analyze the seasonal cycles of 24 h average PM2.5 mass concentrations in a suburban area in the southern region of Peninsular Malaysia. The meteorological variables and PM2.5 data were obtained via a Grimm Environmental Dust Monitor from August 2017 until January 2018. The maximum 24 h mass concentration was 44.6 µg m–3, with a mean value of 21.85 µg m–3, which was observed during the southwest monsoon . 43.33% and 8.33% of the daily concentrations exceeded the 24 h World Health Organization Guideline and Malaysian Ambient Air Quality Standard, respectively. The variation in the PM2.5 mass ranged between 0.53 and 0.90 times of the PM10 mass, indicating that the PM2.5 consistently contributed 52–92% of the PM10 mass concentration. During the monsoon seasons, the ambient temperature exhibited a significant positive correlation (p < 0.05) with the PM2.5 mass concentration (r = 0.425–0.541), whereas the wind speed (r = –0.23 to –0.0127) and the relative humidity (r = –0.472 to –0.271) displayed strong negative correlations with it. Additionally, the rainfall was weakly correlated with the mass concentration. The presence of northeasterly wind at the study site suggests that the PM2.5 originated from sources to the northeast, which are influenced by anthropogenic activities and high traffic.
Highlights
Atmospheric aerosols are of global importance because they affect the climate via direct and indirect radiative forcing and adversely impact the human health and ecosystems
PM10 mass concentration trends are plotted in the graph as a comparison study. 60 samples were collected to represent the seasonal variations of the PM2.5 and PM10 mass concentration
It is clearly observed that wind speed and relative humidity are essential in influencing the PM2.5 mass level in ambient atmospheres
Summary
Atmospheric aerosols are of global importance because they affect the climate via direct and indirect radiative forcing and adversely impact the human health and ecosystems. Atmospheric particles of different size ranges exhibit wide chemical compositions and characteristics (Rinaldi et al, 2007). Different-sized particles originate from different sources, have different chemical characteristics, impose different health problems and require different removal processes (Akyuz and Cabuk, 2009; Li et al, 2013). One of the main pollutants which contributes to the negative impact of the global climate is airborne particulate matter (PM2.5) (Mallet et al, 2016). PM2.5 is particulate matter that has an aerodynamic diameter of less than 2.5 micrometers and is known to be toxic to mankind. Previous studies showed that PM2.5 has a high
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