London
may be known for its drizzly weather, but in 1952 the city's
quintessential fog cover turned deadly, and no one knew why — until now.
For five days in December 1952, a fog that contained pollutants enveloped all of London. By the time the dense fog cover
lifted, more than 150,000 people had been hospitalized and at least
4,000 people had died. Researchers now estimate that the total death
count was likely more than 12,000 people, as well as thousands of
animals. Despite its lethal nature, the exact cause and nature of the
killer fog has largely remained a mystery. Recently, a team of
researchers has determined the likely reasons for its formation.
Researchers
have for a long time connected emissions from burning coal with the
killer fog, but the specific chemical processes that led to the deadly mix of pollution
and fog were not fully understood. To determine what turned the fog
into a killer, an international team of scientists from China, the U.S.
and the U.K. recreated the fog in a lab using results from laboratory
experiments and atmospheric measurements from Beijing and Xi’an, two
heavily polluted cities in China. [In Photos: World's Most Polluted Places]
Study
lead author Renyi Zhang, an atmospheric scientist at Texas A&M
University, said that sulfate was a big contributor to the deadly London
fog. Sulfuric acid particles, which formed from the sulfur dioxide that
was released from the burning of coal, were also a component of the
fog. The question was, How did sulfur dioxide get turned into sulfuric acid?
"Our
results showed that this process was facilitated by nitrogen dioxide,
another co-product of coal burning, and occurred initially on natural
fog," Zhang said in a statement.
"Another key aspect in the conversion of sulfur dioxide to sulfate is
that it produces acidic particles, which subsequently inhibits this
process."
The
natural fog contained larger particles, Zhang explained, with the
smaller acidic particles evenly distributed throughout. When those fog
particles evaporated, an acidic-haze was left covering the city.
The
1952 killer fog led to the creation of the Clean Air Act, which the
British Parliament passed in 1956. Researchers still consider it the
worst air pollution event in European history.
The
air of cities in China, which is often heavily polluted, has a
chemistry that's similar to the killer fog in London, Zhang and his
colleagues found. China has battled air pollution
for decades, and it is home to 16 of the world's 20 most polluted
cities, according to the researchers. For instance, air pollution in
Beijing often far exceeds the U.S. Environmental Protection Agency's
acceptable air standards.
The researchers said that the main difference between China's smog
and the killer London fog is that China's haze is made up of much
smaller nano particles. Also, the formation of sulfate is only possible
with ammonia, the scientists added.
"In
China, sulfur dioxide is mainly emitted by power plants. Nitrogen
dioxide is from power plants and automobiles, and ammonia comes from
fertilizer use and automobiles," Zhang said. "Again, the right chemical
processes have to interplay for the deadly haze to occur in China.
Interestingly, while the London fog was highly acidic, contemporary
Chinese haze is basically neutral."
A better understanding of air chemistry is key to developing effective regulatory actions in China, Zhang said.
"We
think we have helped solve the 1952 London fog mystery and also have
given China some ideas of how to improve its air quality," Zhang said.
"Reduction in emissions for nitrogen oxides and ammonia is likely
effective in disrupting this sulfate-formation process."
The research was published online Nov. 9 in the journal Proceedings of the National Academy of Sciences.
Source: yahoo.com
Original article on Live Science.
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