Is there a "safe" level of air pollution in British Columbia

A rural, community-based study in Lillooet confirmed the association between poor air quality and adverse health effects, even at low levels of particulate air pollution.


When residents began to notice soot on their window panes and complained of respiratory symptoms associated with air pollution, members of the T’it’q’et community grew concerned about Lillooet’s air quality. They were particularly curious about the pollution effects of a local mill’s wood waste incinerator since they could see and smell its exhaust.

In 2005, Janice Whitney, then the Health Coordinator for the T’it’q’et community, consulted Andrew Jin, epidemiologist and adjunct professor at the University of British Columbia’s School of Population and Public Health, and Joanne Harkness, Environmental Specialist, at Urban Systems Ltd. to analyze the association between particulate air pollution and illness (measured by healthcare utilization) in Lillooet, BC.

Previous studies making the same association have been carried out in large, urban populations, with questionable application to smaller, rural communities - even though the BC Ministry of Environment has recorded worse air pollution in some rural towns dominated by a particular industry than in large urban areas.

With support from the BC Ministry of Environment, the team monitored for airborne PM10 and PM 2.5 (particulate matter with diameter less than 10 and 2.5 micrometers, respectively, that can be inhaled and deposited in our lungs and airways) for 24-hour periods, once every six days, over two years, on the Lillooet No. 1 reserve.

 

Data sources   

  • Medical Services Plan (BC Ministry of Health) 
  • Environment data (BC Ministry of Environment)

The results

Preliminary findings showed that increased PM10 pollution was associated with increased respiratory illness, similar to larger population studies. This was true even though:

  • In Lillooet, 99 per cent of the PM10 measurements were below the BC Air Quality Objective of 50 mg/m3.
  • The mean 24-hour PM2.5 concentration (6.2 mg/m3) was below the BC Ambient Air Quality Objective of 8.0 mg/m3.

Implications and future studies

  • The effects of air pollution on health are dose related, meaning that there is no threshold, or safe level of air pollution. The higher the air pollution level, the greater the health effects.
  • Policy makers need to note that efforts to continuously improve air quality are worthwhile, and can positively impact community health, even when air pollution is below the accepted standards.
  • Shortly after this study, the local mill closed for independent reasons, but is scheduled to reopen. It will be interesting to study whether health care utilization for respiratory illnesses has fluctuated during this time.
  • Future studies in other rural locations may choose to simply monitor air quality and then model the health effects on similar studies to assess risk. Such health effects include: mortality rates, respiratory hospital admissions, cardiac hospital admissions, emergency room visits and incidence of asthma and bronchitis.

Linked data research — informing policy-making for healthier communities

Population Data BC provides researchers with access to the data and training they need to address research questions on human health, well-being and development. Population Data BC does not have its own researchers or research program.


Page last revised: August 13, 2014