New Delhi: India’s emissions of the air pollutant sulphur dioxide increased by 50 per cent since 2007, while China’s fell by 75 per cent, claims a study which found that India is yet to implement emission controls like its neighbour.
The study led by researchers at University of Maryland in the US suggests that India is becoming, if it is not already, the world’s top sulphur dioxide emitter.
Sulphur dioxide is an air pollutant that causes acid rain, haze and many health-related problems. It is produced predominantly when coal is burned to generate electricity.
“The rapid decrease of sulphur dioxide emissions in China far exceeds expectations and projections,” said Can Li, an associate research scientist at University of Maryland.
“This suggests that China is implementing sulphur dioxide controls beyond what climate modellers have taken into account,” said Li, first author of the study published in the journal Scientific Reports.
China and India are the world’s top consumers of coal, which typically contains up to three per cent sulphur, researchers said.
Most of the two countries’ sulphur dioxide emissions come from coal-fired power plants and coal-burning factories.
In particular, Beijing suffers from severe haze problems because of the many coal-burning factories and power plants located nearby and upwind.
Starting in the early 2000s, China began implementing policies such as fining polluters, setting emission reduction goals and lowering emissions limits.
According to the results of the current study, these efforts are paying off. “Sulphur dioxide levels in China declined dramatically even though coal usage increased by approximately 50 per cent and electricity generation grew by over 100 per cent,” said Li, who is also a research associate at NASA’s Goddard Space Flight Centre.
“This suggests that much of the reduction is coming from controlling emissions,” said Li. Despite China’s 75 per cent drop in sulphur dioxide emissions, recent work by other scientists has shown that the country’s air quality remains poor and continues to cause significant health problems.
This may be because sulphur dioxide contributes to only about 10 to 20 per cent of the air particles that cause haze, according to Li.
By contrast, India’s sulphur dioxide emissions increased by 50 per cent over the past decade. The country opened its largest coal-fired power plant in 2012 and has yet to implement emission controls like China, researchers said.
“Right now, India’s increased sulphur dioxide emissions are not causing as many health or haze problems as they do in China because the largest emission sources are not in the most densely populated areas of India,” Li said.
“However, as demand for electricity grows in India, the impact may worsen,” said Li. To generate an accurate profile of emissions over India and China, the researchers combined emissions data generated by two different methods.
First, they collected estimated emission amounts from inventories of the number of factories, power plants, automobiles and other contributors to sulphur dioxide emissions.
The researchers’ second data source was the Ozone Monitoring Instrument (OMI) on NASA’s Aura satellite, which detects a variety of atmospheric pollutants including sulphur dioxide.