The nationwide LOCK-DOWN due to the pandemic has led to a drastic decline of NO2 emissions and reduced air pollution levels. It’s important that this is maintained even after the LOCK-DOWN lifts
In the middle of the devastating Covid-19 pandemic, an inimitable positive has been the significant global decrease in air pollution levels. Primarily, experts have measured nitrogen dioxide (NO2), one of the six major air pollutants (in addition to particulate matter, carbon monoxide, sulfur dioxide, ground-level ozone, and lead). NO2 has, like most other gases, natural and human sources.
Natural sources include lightning, oceans, and volcanoes. But, in urban regions, natural sources of NO2 account for a small fraction of the total NO2 levels; as per a 2005 report by Australia’s Department of the Environment and Heritage, natural sources of NO2 only account for 1 per cent of overall NO2 levels in cities. Human activity is almost entirely accountable for NO2 emissions in urban regions, with road transport being the chief cause. Planes, power plants and ships, all of which burn fossil fuels, are also notable human sources of NO2. Given this, it’s unsurprising that during the stringent global lock-downs, NO2 levels have dropped significantly in urban areas, especially in India’s densely populated cities.
Satellite imagery from the European Space Agency’s Copernicus Sentinel 5P satellite measure NO2 levels globally. These measurements correctly reflect emissions sources, because unlike other gases that can travel a considerable distance from where they’re emitted, NO2 has a short lifespan and dies before it can move very far. In other words, if the Sentinel 5P satellite captures a hotspot of NO2 over Delhi, it’s highly likely it was emitted from within Delhi’s vicinity. Satellite imagery is, therefore, a highly authentic tool for measuring NO2 emissions, specially if data with high levels of cloud coverage is precluded.
The global decreases in NO2 levels were first seen in China, where levels plummeted dramatically following the strict quarantine measures enforced in late January. As countries in Europe and North America followed China’s lead in late February and March, akin trends have been observed globally. India’s nationwide lockdown, in particular, has had remarkable effects on air pollution levels. With citizens quarantined at home, road transportation and power plant operations have come to a grinding halt, and pollution levels across the country, especially in typically smoggy cities, have fallen to dramatic lows.
In Delhi’s metropolitan area, pollution levels have dropped most dramatically; NO2 levels from March 25 (the day quarantine began) to May 2 have averaged 90 µmol/m2 compared to 162 µmol/m2 from March 1 to March 24. In 2019, NO2 levels from March 25 to May 2 were also over this year’s levels, averaging 158 µmol/m2.
In Greater Mumbai and Navi Mumbai, akin trend has been observed as NO2 levels from March 25 to May 2 averaged 77 µmol/m2 compared to 117 µmol/m2 from March 1 to March 24.
In almost all other big Indian cities, similar drops in NO2 levels are evident, highlighting the national scale of India’s lockdown.
The country-wide drop in NO2 emissions during this lockdown has significant immediate consequences. Exposure to high levels of NO2 has substantial detrimental effects on human health. Short-term exposure to high levels of NO2 can result in worsened coughing, aggravation of existing respiratory diseases (asthma), and hospitalization, while longer-term exposure can lead to the development of asthma and increase one’s susceptibility to respiratory diseases.
Many researchers have hypothesized that the drop in air pollution levels may presently be saving a notable amount of lives, not only by reducing individuals’ vulnerability to Covid-19, but also by averting some of the world’s seven million annual deaths due to air pollution exposure. Yet, the dangerously high levels of NO2 in many urban areas before Covid-19 has probably resulted in far more virus deaths compared to the lives saved by this current drop in emissions. The pandemic and the subsequent decreases in air pollution levels due to the quarantine have illuminated a severe issue regarding ongoing high levels of air pollution.
The terrifying reality is that despite human activity essentially coming to a complete standstill, current estimates suggest that carbon dioxide (CO2) levels will only decrease by roughly 5.5 per cent in 2020 compared to 2019. To put this in perspective, to meet the goal of limiting the global increase in temperature to 1.5oC, which many experts agree would stave off the worst effects of climate change, global CO2 emissions would need to decrease by 7.6 per cent each year. Similarly, air pollution and NO2 levels are expected to rise to their normal unhealthy levels when quarantines are lifted.
It’s crucial that when India’s lockdown inevitably ends, and people return to their normal routines, they aren’t forced to revert to their old behaviors. To make the current drops in air pollution levels long lasting, serious policy change needs to be passed. The reduction in road transport and the corresponding decrease in air pollution have illuminated that gas-powered cars are key drivers of air pollution. Electrifying transport, expanding public transportation, building more bike lanes, and finding other ways to incentivise people to ditch their cars would dramatically reduce India’s emissions from its primary human source of air pollution. It’s also important that these electric vehicles, and India’s cities more widely, are powered by clean sources of energy rather than fossil fuels.
It’s ironic that this devastating respiratory virus has illuminated another respiratory crisis.