The science of smog – Kim Preshoff


On July 26, 1943,
Los Angeles was blanketed by a thick gas that stung people’s eyes
and blocked out the Sun.
Panicked residents believed their city had been attacked using chemical warfare.
But the cloud wasn’t an act of war.
It was smog.
A portmanteau of smoke and fog,
the word “smog” was coined at the beginning of the 20th century
to describe the thick gray haze that covered cities
such as London,
Glasgow,
and Edinburgh.
This industrial smog was known to form
when smoke from coal-burning home stoves and factories
combined with moisture in the air.
But the smog behind the LA panic was different.
It was yellowish with a chemical odor.
Since the city didn’t burn much coal, its cause would remain a mystery
until a chemist named Arie Haagen-Smit identified two culprits:
volatile organic compounds, or VOCs,
and nitrogen oxides.
VOCs are compounds that easily become vapors
and may contain elements, such as carbon,
oxygen,
hydrogen,
chlorine,
and sulfur.
Some are naturally produced by plants and animals,
but others come from manmade sources,
like solvents,
paints,
glues,
and petroleum.
Meanwhile, the incomplete combustion of gas in motor vehicles
releases nitrogen oxide.
That’s what gives this type of smog its yellowish color.
VOCs and nitrogen oxide react with sunlight
to produce secondary pollutants called PANs and tropospheric,
or ground-level, ozone.
PANs and ozone cause eye irritation and damage lung tissue.
Both are key ingredients in photochemical smog,
which is what had been plaguing LA.
So why does smog affect some cities but not others?
Both industrial and photochemical smog combine manmade pollution
with local weather and geography.
London’s high humidity made it a prime location for industrial smog.
Photochemical smog is strongest in urban areas with calm winds
and dry, warm, sunny weather.
The ultraviolet radiation from sunlight provides the energy necessary
to breakdown molecules that contribute to smog formation.
Cities surrounded by mountains, like LA,
or lying in a basin, like Beijing,
are also especially vulnerable to smog since there’s nowhere for it to dissipate.
That’s also partially due to a phenomenon known as temperature inversion,
where instead of warm air continuously rising upward,
a pollution-filled layer of air remains trapped near the Earth’s surface
by a slightly warmer layer above.
Smog isn’t just an aesthetic eyesore.
Both forms of smog irritate the eyes,
nose,
and throat,
exacerbate conditions like asthma and emphysema,
and increase the risk of respiratory infections like bronchitis.
Smog can be especially harmful to young children and older people
and exposure in pregnant women has been linked to low birth weight
and potential birth defects.
Secondary pollutants found in photochemical smog
can damage and weaken crops and decrease yield,
making them more susceptible to insects.
Yet for decades, smog was seen as the inevitable price of civilization.
Londoners had become accustomed to the notorious pea soup fog
swirling over their streets until 1952,
when the Great Smog of London shut down all transportation in the city for days
and caused more than 4,000 respiratory deaths.
As a result, the Clean Air Act of 1956
banned burning coal in certain areas of the city,
leading to a massive reduction in smog.
Similarly, regulations on vehicle emissions and gas content in the US
reduced the volatile compounds in the air and smog levels along with them.
Smog remains a major problem around the world.
Countries like China and Poland that depend on coal for energy
experience high levels of industrial smog.
Photochemical smog and airborne particles from vehicle emissions
affect many rapidly developing cities,
from Mexico City and Santiago
to New Delhi and Tehran.
Governments have tried many methods to tackle it,
such as banning cars from driving for days at a time.
As more than half of the world’s population crowds into cities,
considering a shift to mass transit and away from fossil fuels
may allow us to breathe easier.
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