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7 am: Peak Pollution Levels In 4 Cities

IndiaSpend Team,
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If you think mornings are the best time for outdoor exercise, you’re wrong.


Mornings experience the worst air pollution in four Indian cities, according to an analysis of particulate matter (PM) 2.5 data from IndiaSpend’s #Breathe air-quality sensors, analysed from Bengaluru, Chennai, Delhi and Mumbai between March 15 to April 15 2016.


Note: Figures in micrograms per cubic metre of air (μg/m3)


Bengaluru: Best air quality–midnight


The worst air was at 7 am, as PM 2.5 concentrations peaked at 61.54 micrograms per cubic metre of air (μg/m3). The air quality improved as the day wore on, worsening by evening at about 5 pm, reaching a late-evening high at 7 pm (57.60 μg/m3). The best air quality was registered around midnight, when PM 2.5 levels fell as low to 40.12 μg/m3.


Chennai: Best air quality—3 pm


The worst air was at 7 am, with PM 2.5 levels (61.54 μg/m3) reached their peak. Levels began to peak over the night and slide during the day, after 7 am. The best air quality was recorded in the afternoon, at 3 pm, with PM 2.5 levels reaching as low as 20.76 μg/m3.


Delhi: Best air quality—4 pm


Mornings were the worst time, with PM 2.5 levels reaching as high as 108.16 μg/m3 at 7 am. Air quality gradually improved as the day wore on, registering the cleanest air at 4 pm. (22.84 μg/m3). Pollution levels then picked up through the night.


Delhi topped the list of the world’s most-polluted cities, according to the World Health Organisation (WHO).


Mumbai: Best air quality—5 pm


The worst hour for a Mumbaikar is 8 am, with PM 2.5 levels reaching 48.61 μg/m3; the air started to worsen after 5 am. The best air quality was registered at 5 pm, when PM 2.5 levels were 22.38 μg/m3.


Health Statement for PM 2.5 Levels
Breakpoints AQI Category Health Effects
0-30 Good Minimal impact
31-60 Satisfactory Minor breathing discomfort to sensitive people
61-90 Moderate Breathing discomfort to people with sensitive lungs, asthma and/or heart diseases
91-150 Poor Breathing discomfort to most people on prolonged exposure
151-250 Very Poor Respiratory illness on prolonged exposure
250+ Severe Affects healthy people and seriously impacts those with existing diseases

Source: Central Pollution Control Board; Breakpoint figures in micrograms per cubic meter (µg/m³)


Outdoor air pollution causes 670,000 deaths annually in India, according to this 2014 research paper from the Indian Institute of Management, Ahmedabad.


Air pollution has become a global concern with rising air pollution levels, as outdoor air pollution in cities and rural areas across the world estimated to cause 3.7 million premature deaths in 2012, according to the WHO.


Particulate matter, or PM, is the term for particles found in the air, including dust, dirt, soot, smoke, and liquid droplets. These are classified according to their diameter. Particles less than 2.5 µm (micrometres) are called PM 2.5. They are approximately 1/30th the average width of a human hair. Particles between 2.5 to 10 µm in diameter are called PM 10.


PM 10 and PM 2.5 include inhalable particles that are small enough to penetrate the thoracic region of the respiratory system. The health effects of inhalable PM are well documented, caused by exposure over both the short-term (hours, days) and long-term (months, years). They include: Respiratory and cardiovascular morbidity such as aggravation of asthma, respiratory symptoms, and an increase in hospital admissions; and mortality from cardiovascular and respiratory diseases and from lung cancer.


There is good evidence of the effects of short-term exposure to PM 10 on respiratory health, but for mortality, and especially as a consequence of long-term exposure, PM 2.5 is a stronger risk factor than the coarse part of PM 10.


There is a close relationship between exposure to high concentrations of small particulates (PM 10 and PM 2.5) and increased mortality and morbidity from cardiovascular/respiratory diseases and cancer, both daily and over time, according to the WHO.


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  1. Prasanna Reply

    April 22, 2016 at 3:46 pm

    WOuldn’t there be an obvious relationship of air temperature and there molecular density in general? Hence, during the coldest part of a typical day (around dawn), particles are at highest concentration and during the hottest part (around noon till about 5 pm), this drops.
    This also leads to the question about the impact of PM being lower in hotter places. Hence, post peak traffic hours in the morning the densities actually drop rather than rise. This may suggest that the whole issue is more acute during winter than summer. Or that those closer to the road (where its usually hotter) will actually encounter less then those in greener areas!

    Would invite some expert views on this!

    Placing this data standalone may given the wrong impression about things.

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