Skip to Content

COVID-19 lockdown leads to largest ever drop in seismic noise

A new study by an international team of scientists has found lockdown measures to stop the spread of COVID-19 led to a 50 per cent reduction in seismic noise observed around the world.

It is the largest reduction in human-generated noise ever observed globally.

The researchers, including Associate Professor Meghan Miller and Professor Louis Moresi from The Australian National University (ANU), analysed datasets from over 300 seismic stations around the world.

These stations use seismometers to record vibrations travelling through the ground – known as seismic waves.

The study showed a reduction in seismic noise in many countries, making it possible to visualise the resulting change in human mobility – first in China, then to Italy and the rest of the world as different countries and regions implemented lockdown measures.

“The drop in the ‘buzz’ caused by human activity is unprecedented,” Associate Professor Miller said.

“This is the longest and most prominent global seismic noise reduction of this kind on record.

“We can see the total effect of social distancing measures, reduced economic and industrial activity and drops in tourism and travel.”

Dr Miller says traditionally seismometers focus on measuring seismic waves generated by earthquakes, however seismic records also contain high-frequency vibrations, or ‘buzz’, from human movement.

“Walking around, driving cars, getting the train, construction work – all these things create unique seismic signatures,” Associate Professor Miller said.

“Perhaps unsurprisingly, the strongest seismic noise reductions were found in urban areas. But, we also saw signatures of the lockdown on sensors buried hundreds of metres below the ground and in more remote areas such as Sub-Saharan Africa.

“There has been much discussion about the environmental effects of the pandemic lockdown, but this is the first global study of the impact it’s had on the solid Earth beneath our feet.”

The researchers also found evidence that previously concealed earthquakes signals, especially during the daytime, appeared much clearer in urban areas during the lockdown – paving the way for the discovery of previously hidden signals from earthquakes and volcanoes.

The study was the result of a unique collaboration involving 76 authors from 66 institutions in 27 countries.

The findings have been published in the journal Science.

Associate Professor Meghan Miller  

Research School of Earth Sciences 
ANU College of Science 
T: +61 2 6125 3073

For media assistance, contact Jess Fagan on +61 436 694 750 or the ANU Media Team on +61 2 6125 7979 or at


About The Australian National University

ANU is a world-leading university in Australia’s capital city, Canberra. Our location points to our unique history, ties to the Australian Government and special standing as a resource for the Australian people.

Our focus on research as an asset, and an approach to education, ensures our graduates are in demand the world-over for their abilities to understand, and apply vision and creativity to addressing complex contemporary challenges.

The Australian National University
East Road, Acton
2601 Canberra