Glaring global light pollution: 'Skyglow' erodes star visibility
Electricity lights up the central business district of Cape Town, South Africa, June 18, 2019. (Reuters Photo)


Light pollution caused by the constant nighttime glow of electric lights is increasing and intensifying, reducing the number of stars visible to the naked eye in the night sky by more than half in some places, according to research using observations from tens of thousands of people at various locations around the world.

The study, published on Thursday, found that the number of visible stars reported at the observation sites from 2011 to 2022 decreased by an amount indicating an increase in nocturnal sky brightness of 7% to 10% annually, higher than previously measured using satellite data.

The areas best documented were North America – particularly the United States – and Europe, with minimal data for parts of Asia, Africa and South America. More than 29,000 individual reports were made at more than 19,000 locations worldwide, the researchers said. The "citizen scientists" who provided the data made observations of naked-eye star visibility.

The study focused on "skyglow," the artificial brightening of the night sky due to human-created light scattering in the atmosphere and returning to Earth. The nighttime glow of the sky above a big city is a familiar sight, but even locales with smaller populations experience it.

"The study is important for two reasons. First, it is the first time that sky brightness has ever been studied on the continental scale. Second, it shows that existing norms and legislation are failing to reduce sky brightness or even halt its growth," said physicist Christopher Kyba of the GFZ German Research Center for Geosciences and the Ruhr-Universitat Bochum, lead author of the research published in the journal Science.

"In the last decade, our understanding of the ecological consequences of light has grown dramatically, as has our understanding and modeling of light in the atmosphere," Kyba said.

A 2017 study based on satellite observations found that Earth's artificially-lit outdoor surface at night grew by about 2% annually in brightness and area. However, this data might be underestimated because the current global observing satellite is not sensitive to the type of light emitted by modern LED lights, Kyba said. And satellites have a hard time detecting illuminated signs because these shine primarily sideways, not upward, Kyba added.

Light pollution has raised concerns about its ecological effects on people and animals. For instance, research has shown how light pollution threatens fireflies, which possess specialized light-emitting organs and flashes to communicate as a part of courtship and reproduction.

The researchers said more could be done to mitigate light pollution, including better design of the direction, extent, and type of lighting used.

"It is true that we will never get to a situation where there is no sky brightness over cities. But it is entirely reasonable to imagine that with excellent design, the Milky Way could be visible over cities with even a few hundred thousand inhabitants," Kyba said.

"On the best nights, I have seen faint traces of the Milky Way at my home near the center of Potsdam, Germany, with a population of about 180,000. If all of the poorly directed lights in Potsdam were replaced by more effective ones, the level of skyglow would be drastically reduced, and the Milky Way would be more generally visible," Kyba added.

Bright starlight now seems confined on land surfaces to remote locales where tourists might venture and less developed regions.

"For the entire evolutionary history of life on this planet, the night sky was lit by starlight, moonlight, and natural airglow. Until about 150 years ago, to step outside at night was to be confronted with the cosmos," Kyba said. "Who could say the cultural and religious impact when a formerly universal human experience becomes something that only extremely rich or inferior people experience?"