Air Quality Health Index (Canada)
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The Air Quality Health Index (AQHI) is a scale designed in Canada to help understand the impact of air quality on health. It is a health protection tool used to make decisions to reduce short-term exposure to air pollution by adjusting activity levels during increased levels of air pollution. The Air Quality Health Index also provides advice on how to improve air quality by proposing behavioral change to reduce the environmental footprint. This index pays particular attention to people who are sensitive to air pollution. It provides them with advice on how to protect their health during air quality levels associated with low, moderate, high and very high health risks.


History

Air quality in Canada has historically been reported by the US Air Quality Index in various provinces. Significantly, AQI values reflect air quality management objectives, which are based on the lowest achievable emissions rate, and not exclusively concern for human health. The AQHI was created with a different goal - to report on the specific health risks posed by air pollution. As such, the AQHI represents a paradigm shift in communicating air quality information to the public. The Air Quality Health Index (AQHI) is a federal program jointly coordinated by
Health Canada Health Canada (HC; french: Santé Canada, SC)Health Canada is the applied title under the Federal Identity Program; the legal title is Department of Health (). is the Structure of the Canadian federal government#Departments, with subsidiary unit ...
and
Environment Canada Environment and Climate Change Canada (ECCC; french: Environnement et Changement climatique Canada),Environment and Climate Change Canada is the applied title under the Federal Identity Program; the legal title is Department of the Environment ( ...
. However, the AQHI program would not be possible without the commitment and support of the provinces, municipalities and NGOs. From air quality monitoring to health
risk communication Risk communication is a complex cross-disciplinary academic field that is part of risk management and related to fields like crisis communication. The goal is to make sure that targeted audiences understand how risks effect to them or their communit ...
and community engagement, local partners are responsible for the vast majority of work related to AQHI implementation. The AQHI has been rolled out across Canada and has replaced the AQI as the public face of air quality information. Originally launched as a pilot project in the
British Columbia Interior , settlement_type = Region of British Columbia , image_skyline = , nickname = "The Interior" , subdivision_type = Country , subdivision_name = , subdivision_type1 = Province , subdivi ...
in 2005 followed by Nova Scotia in 2006 and Toronto in 2007, as of 2016 it was implemented in 122 locations across Canada.


Overview

The ''Air Quality Health Index'' provides a number from 1 to 10+ to indicate the level of health risk associated with local air quality. Occasionally, when the amount of air pollution is abnormally high, the number may exceed 10. The AQHI provides a local air quality current value as well as a local air quality maximums forecast for today, tonight and tomorrow and provides associated health advice. As it is now known that even low levels of air pollution can trigger discomfort for the sensitive population, the index has been developed as a continuum: The higher the number, the greater the health risk and need to take precautions. The index describes the level of health risk associated with this number as 'low', 'moderate', 'high' or 'very high', and suggests steps that can be taken to reduce exposure.


Formula inputs

The formulation of the national AQHI is based on the observed relationship of nitrogen dioxide (NO2), ground-level ozone (O3) and
fine particulate matter Particulates – also known as atmospheric aerosol particles, atmospheric particulate matter, particulate matter (PM) or suspended particulate matter (SPM) – are microscopic particles of solid or liquid matter suspended in the air. The ter ...
(PM2.5) with mortality from an analysis of several Canadian cities. Significantly, all three of these pollutants can pose health risks, even at low levels of exposure, especially among those with pre-existing health problems. When developing the AQHI, Health Canada's original analysis of health effects included five major air pollutants: airborne particulate matter, ozone, and nitrogen dioxide (NO2), as well as
sulphur dioxide Sulfur dioxide (IUPAC-recommended spelling) or sulphur dioxide (traditional Commonwealth English) is the chemical compound with the formula . It is a toxic gas responsible for the odor of burnt matches. It is released naturally by volcanic activ ...
(SO2), and carbon monoxide (CO). The latter two pollutants provided little information in predicting health effects and were removed from the AQHI formulation. The AQHI does not measure the effects of odour,
pollen Pollen is a powdery substance produced by seed plants. It consists of pollen grains (highly reduced microgametophytes), which produce male gametes (sperm cells). Pollen grains have a hard coat made of sporopollenin that protects the gametophyt ...
, dust, heat or humidity.


Calculation

The national AQHI is based on three-hour average concentrations of ground-level ozone (O3), nitrogen dioxide (NO2), and fine particulate matter (PM2.5). O3 and NO2 are measured in parts per billion (ppb) while PM2.5 is measured in micrograms per cubic metre (µg/m3). The AQHI is calculated on a community basis (each community may have one or more monitoring stations). First, the average concentration of the three substances (O3, NO2, PM2.5) is calculated at each station within a community for the 3 preceding hours. This is considered valid only if at least 2 out of 3 hours are available at the station. If more than 1 of the preceding 3 hours is missing the station average is set to "Not Available". This part of the process results in three "station parameter averages" for each station. Second, the 3 hour "community average" for each parameter is calculated from the 3 hour substance averages at the available stations. If no stations are available for a parameter, that parameter is set to "Not Available". This part of the process results in three community parameter averages. Third, if all three community parameter averages are available, a community AQHI is calculated. The formula is: AQHI=(\frac)\times e^-1)+(e^-1)+(e^-1)/math> The result is then rounded to the nearest positive integer; a calculation less than 0.5 is rounded up to 1.


Alberta calculation and reporting differences

Alberta has modified AQHI reporting to better suit the needs of the Province. Because of Alberta's energy based economy other pollutants are also considered when reporting the AQHI. Alberta also has rapidly changing air quality conditions quite often (for example during wildfire season) so, Alberta's AQHI needs to be more responsive than the national AQHI, which is based on a three-hour average. In order to meet these needs, the individual pollutant concentrations are compared to Alberta's Ambient Air Quality Objectives (AAQOs). The national AQHI is used most of the time; however, if hourly air pollutant concentrations are higher than Alberta's AAQOs, the AQHI value is replaced (overridden) with the appropriate "High" or "Very High" risk value. This can occur for the following pollutants (when they exceed the noted concentrations): * 80 micrograms per cubic metre for fine particulate matter * 82 parts per billion for ozone * 159 parts per billion for nitrogen dioxide * 172 parts per billion for sulphur dioxide * 13 parts per million for carbon monoxide * 1 part per million for hydrogen sulphide and total reduced sulphur In Alberta, special community messaging is used when the level of specific pollutants is higher than specified odour or visibility thresholds but the AQHI is rated as "Low" or "Moderate" risk. This messaging is used for the following pollutants (when they exceed the noted concentrations): * 25 micrograms per cubic metre for fine particulate matter (based on visibility) * 100 parts per billion for sulphur dioxide (based on odour) * 10 parts per billion for hydrogen sulphide or total reduced sulphur (based on odour) This odour/visibility messaging appears as below:


Persons at risk

The ''AQHI'' is aimed towards two populations: 1. The "general" population; and 2. The "at-risk" populations. The latter consists of children, the elderly and people with existing respiratory or cardiovascular conditions, such as those with asthma, and people suffering from diabetes,
heart disease Cardiovascular disease (CVD) is a class of diseases that involve the heart or blood vessels. CVD includes coronary artery diseases (CAD) such as angina and myocardial infarction (commonly known as a heart attack). Other CVDs include stroke, hea ...
or lung disease. Children are more vulnerable to air pollution: they have less-developed respiratory and defense systems. Because of their size, they inhale more air per kilogram of body weight than adults. Their elevated metabolic rate and young defense systems make them more susceptible to air pollution. Seniors are also at a higher risk because of the weakening of the heart, lungs and immune system and increased likelihood of health problems such as heart and lung disease. Exposure to air pollutants can cause a range of symptoms. People with lung or heart disease may experience increased frequency and/or severity of symptoms, and increased medication requirements. It is recommended that those susceptive should take greater precautions.


Lifestyle

Environment Canada Environment and Climate Change Canada (ECCC; french: Environnement et Changement climatique Canada),Environment and Climate Change Canada is the applied title under the Federal Identity Program; the legal title is Department of the Environment ( ...
recommends looking for outdoor air quality by checking the AQHI before heading off to work or play as well as to use the forecasts to plan activities, whether over the next hour or the next day. Seniors, parents, those with asthma, and people suffering from diabetes, heart or lung disease, can use the AQHI to assess the immediate risk air pollution poses on their health and take steps to lessen that risk. The AQHI is also recommended for healthy, fit and active people to consult to decide when it is best to exercise or work outdoor. The best way for someone to use the AQHI is to regularly check the current index value, to pay attention to personal symptoms and self-calibrate to the reported current AQHI value. For example, if symptoms are experienced when the index is a 6, then precaution should be taken when the index is at a 6 or higher by following the corresponding health messages. Then, when an individual knows what number triggers health symptoms, to get in the habit of checking the maximum forecast to plan activities ahead of time.


See also

*
National Ambient Air Quality Objectives The first Canadian National Ambient Air Quality Objectives were developed in the mid-1970s. These objectives were set for various air pollutants. The NAAQO had three levels indicating severity (maximum desirable, acceptable and tolerable levels) an ...
for Canada


References


External links


Air Quality Health Index
Government of Canada *
AQHI Available in 13 Languages
*
Alberta Air Quality Health Index

Be Air Aware
Twitter * * {{Natural resources Air pollution Air quality index Environment and Climate Change Canada