Abstract
This paper analyzes the PM10 concentrations and influences of atmospheric condition (AC) and land coverage (LC) on a high-pollution megacity (Bogota, Colombia) from a public health viewpoint. Information of monitoring stations equipped with measuring devices for PM10/temperature/solar-radiation/wind-speed were used. The research period lasted eight years (2007–2014). AC and LC were determined after comparing daily PM10 concentrations (DPM10) to reference limits published by the World Health Organization (WHO). ARIMA models for DPM10 were also developed. The results indicated that urban sectors with lower atmospheric instability (AI) had a 2.85% increase in daily mortality (DM) in relation to sectors with greater AI. In these sectors of lower AI, impervious LC predominated, instead of vegetated LC. An ARIMA analysis revealed that a greater extent of impervious LC around a station led to a greater effect on previous days’ DPM10 concentrations. Extreme PM10 episodes persisted for up to two days. Extreme pollution episodes were probably also preceded by low mixing-layer heights (between 722–1085 m). The findings showed a 13.0% increase in WHO standard excesses (PE) for each 10 µg/m3 increase in DPM10, and a 0.313% increase in DM for each 10% increase in PE. The observed average reduction of 14.8% in DPM10 (−0.79% in DM) was probably due to 40% restriction of the traffic at peak hours.
Highlights
The increase of respiratory and cardiovascular diseases in children and elderly generated by urban air pollution is strongly related to an increase of particulate material (PM) concentrations [1,2]
These maximum events in hourly PM10 concentrations coincided with the maximum traffic intensities, which preceded the start of standard work activities in Bogota
The results showed a similar trend for daily PM10 concentrations (DPM10) in this research
Summary
The increase of respiratory and cardiovascular diseases in children and elderly generated by urban air pollution is strongly related to an increase of particulate material (PM) concentrations [1,2]. Some researchers have reported that diseases such as bronchitis and chronic asthma are directly correlated with PM pollution [5]. In a European study on atmospheric pollution and its effects on public health, it was reported that an increase of 50 μg/m3 in PM10 concentration could cause an increase of 2.10% in the daily mortality (DM) of 15 cities in Western Europe [6]. In Chinese megacities (Guangzhou, Wuhan, and Chongqing) and with support from the U.S Environmental Protection Agency (U.S EPA), research was conducted on the effects of air pollution on respiratory health. After several years of follow-up, it was determined that PM10 concentration was directly related to the rate of infantile pulmonary dysfunction [7]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
