Study Reveals Impact of Covid-19 Lockdown on Local Weather

Article By : India Science Wire

Researchers at IITM, Pune conducted a study to gain a better understanding about how Covid-19 lockdown will influence local weather and climate...

As a result of the lockdowns imposed by many nations to control the spread of COVID-19 pandemic, a dramatic decline in air pollution was observed across the globe which in turn is found to be affecting the local weather.  

Seizing this as an opportunity to investigate some of the longstanding mysteries involving aerosol, cloud formation and their vertical distribution, researchers at the Indian Institute of Tropical Meteorology (IITM, Pune) conducted a study to gain a better understanding of the complex role of air pollution on weather and climate. Height of cloud base and the drop in air pollution is what the researchers tried to correlate in this study.

Aerosols are a suspension of fine solid particles or liquid droplets in air or another gas which play an important role in cloud formation. They are also responsible for air pollution. Aerosols may be of natural or anthropogenic origin affecting the weather and climate in different ways through mechanisms associated with scattering and cloud variation. Black carbons are aerosols that absorb radiation from the air and thereby alter the mechanism of instability and convection. Due to the bulk movement of molecules within fluids, the transfer of heat takesplace through convection. Convection invigoration is a process that depends on the type of aerosol particles. For example, soot particle aerosols heat up the aerosol-laden atmosphere causing the surface to cool down resulting in an increase in the static stability which in turn reduce the evaporation from surface inhibiting cloud formation due to less moisture content.

The microphysical properties of clouds are affected by the type of aerosols that act as Cloud Condensation Nuclei (CCN) modifying cloud albedo, lifetime, warming up for rain initiation,and precipitation. CCN is a critical parameter determining the cloud drop number concentration as cloud formation depends on the availability of CCN. Under a low CCN environment, higher supersaturation is required to generate sufficient cloud base drop concentration. Cloud droplet number concentration is an important factor in understanding aerosol-cloud interactions. As aerosol concentration increases, it is expected that droplet number concentration (Nd) will increase and droplet size will decrease, for a given liquid water path.

In this study, researchers studied the height of the cumulus cloud in relation to the drop in air pollution due to the lockdown. Cumulus clouds are mostly the clouds that are formed at an altitude of 1 to 3.3 km during pre-monsoon season with a puffy and cotton-like appearance. These are made up of tiny water droplets that reflect sunlight into space from their white tops. In contrast, clouds at higher altitudes formed from condensed water (contrails) have an overall warming effect as they trap more heat escaping from the Earth’s surface than the heat they reflect into space.

As a result of the complete lockdown imposed by the Government of India to stop the spread SARS-CoV-2 virus fromMarch 25 to April 14, 2020, the highways and streets of cities became almost empty, devoid of any public transport, and workplaces were closed. People were confined to their homes. This has led to an unprecedented reduction of air pollutants which rejuvenated the atmosphere. The air became so clean that the Himalayan mountain range became visible through naked eyes from many parts of northern India including Delhi for the first time in 30 years. IITM Scientists observed a massive drop in anthropogenic aerosols over the Delhi region during this first Lockdown and as a result, the concentration of cloud-condensation nuclei (CCN) at lower level decreased. At a higher level, due to lower temperature, super-saturation was achieved with lower number of CCN to produce enough droplets to form a cloud base. (as shown in the diagram above). Thus it appeared that effectively the clouds propagated upwards during the first lockdown period.

The research published in Science of the Total Environment, December 2020 says that ‘lockdown-spiked simulation’ produced a good match with the actual condition that was seen on the ground. “This did feature a reduction in the low-level cloud,” said the main author.  

Results of the study revealed that the percentage of low clouds with bases located below 3 km above the ground was 63% of the total clouds in the pre-lockdown period while it reduced to 12% during the lockdown. The clouds with a base above 6 km increased from 10% to 48% from pre-lockdown to lockdown.  Though little effect on othermeteorological parameters like air temperature (AT), relative humidity (RH), radiation (UV), wind speed (WS) etc. were observed, the significant change in cloud base height has occurred due to reduction in CCN with cut off in pollution due to the lockdown.  The team used Ceilometer to measure cloud base height profiles. Atmospheric chemistry and meteorology simulations were done using air-pollution data from Delhi between March 25 and April 15, 2020, which was the most stringent lockdown period in India.  

The study was led by Murthy B.S. and the research team comprised of Latha R., Sandeepan B.S., Rathod A., and Beig G. of Indian Institute of Tropical Meteorology (IITM), Ministry of Earth Sciences (MoES), Pune, Tiwari A., and Singh S. of India Meteorological Department, MoES and Bhanage V. Indian Institute of Technology, Mumbai, India.  (India Science Wire)

VS/MoES/ENG/MFA/29/01/2021

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