Light pollution is impacting astronomy around the globe

editorEarthSky19 hours ago5 Views

The Milky Way arching through a dark sky with observatory buildings and a man on a structure reaching upward.
The European Southern Observatory’s (ESO) Paranal Observatory lies under some of the darkest and clearest skies in the world, in Chile’s Atacama Desert. But now, light pollution from a new construction project is threatening to cause irreparable damage. In this image, Jupiter is the bright object near ESO Photo Ambassador Petr Horálek (standing at center). The telescopes in this view are the 4 Unit Telescopes that comprise ESO’s Very Large Telescope (VLT). Also in this shot are 2 of the 4 smaller Auxiliary Telescopes. Read more about the impact of light pollution on major observatories around the world. Image via ESO/ P. Horálek.
  • Light pollution is impacting astronomy observatories around the globe. And light pollution is increasing at a rate of about 10% a year.
  • Space-based telescopes are above light pollution, but they are much more expensive. And there are many new ground-based observatories in the works.
  • Many of the well-known observatories were built before large urban sprawl. But today, cities such as Los Angeles and Phoenix are much larger with light pollution spilling into once-remote areas.

By Richard Green, University of Arizona

How light pollution is harming astronomy around the globe

Outdoor lighting for buildings, roads and advertising can help people see in the dark of night, but many astronomers are growing increasingly concerned that these lights could be blinding us to the rest of the universe.

An estimate from 2023 showed that the rate of human-produced light is increasing in the night sky by as much as 10% per year.

I’m an astronomer who has chaired a standing commission on astronomical site protection for the International Astronomical Union-sponsored working groups studying ground-based light pollution.

My work with these groups has centered around the idea that lights from human activities are now affecting astronomical observatories on what used to be distant mountaintops.

A map of North America showing light pollution, with almost all the eastern part of the U.S. covered, and hot spots on the West Coast.
Map of North America’s artificial sky brightness, as a ratio to the natural sky brightness. Image via Falchi et al./ Science Advances (2016) (CC BY-NC).

Hot science in the cold, dark night

While orbiting telescopes like the Hubble Space Telescope or the James Webb Space Telescope give researchers a unique view of the cosmos – particularly because they can see light blocked by the Earth’s atmosphere – ground-based telescopes also continue to drive cutting-edge discovery.

Telescopes on the ground capture light with gigantic and precise focusing mirrors. These mirrors can be 20 to 35 feet (6 to 10 meters) wide. Moving all astronomical observations to space to escape light pollution would not be possible. Space missions have a much greater cost, and so many large ground-based telescopes are already in operation or under construction.

Around the world, there are 17 ground-based telescopes with primary mirrors as big or bigger than Webb’s 20-foot (6-meter) mirror. And there are three more under construction with mirrors planned to span 80 to 130 feet (24 to 40 meters).

Light pollution and the Vera Rubin Observatory

The newest telescope starting its scientific mission right now, the Vera Rubin Observatory in Chile, has a mirror with a 28-foot diameter and a 3-gigapixel camera. One of its missions is to map the distribution of dark matter in the universe.

To do that, it will collect a sample of 2.6 billion galaxies. The typical galaxy in that sample is 100 times fainter than the natural glow in the nighttime air in Earth’s atmosphere. So this Rubin Observatory program depends on near-total natural darkness.

Any light scattered at night – road lighting, building illumination, billboards – would add glare and noise to the scene. This would greatly reduce the number of galaxies Rubin can reliably measure in the same time, or greatly increase the total exposure time required to get the same result.

Two pictures of the constellation Orion, with one showing many times more stars.
The more light pollution there is, the fewer stars a person can see when looking at the same part of the night sky. Here, the image on the left depicts the constellation Orion in a dark sky. Meanwhile, the image on the right is from near the city of Orem, Utah, a city of about 100,000 people. Image via jpstanley/ Flickr ()CC BY 2.0.

The LED revolution

Astronomers care specifically about artificial light in the blue-green range of the electromagnetic spectrum. That’s because it used to be the darkest part of the night sky. A decade ago, the most common outdoor lighting was from sodium vapor discharge lamps. They produced an orange-pink glow, which meant they put out very little blue and green light.

Even observatories relatively close to growing urban areas had skies that were naturally dark in the blue and green part of the spectrum. And that enabled all kinds of new observations.

Then came the solid-state LED lighting revolution. Those lights put out a broad rainbow of color with very high efficiency. As in, they produce lots of light per watt of electricity. The earliest versions of LEDs put out a large fraction of their energy in the blue and green. But advancing technology now gets the same efficiency with “warmer” lights that have much less blue and green.

Nevertheless, the formerly pristine darkness of the night sky now has much more light, particularly in the blue and green. This comes from LEDs in cities and towns, lighting roads, public spaces and advertising.

The broad output of color from LEDs affects the whole spectrum, from ultraviolet through deep red.

The U.S. Department of Energy commissioned a study in 2019 that predicted the higher energy efficiency of LEDs would mean the amount of power used for lights at night would go down. It also said the amount of light emitted would stay roughly the same.

But satellites looking down at the Earth reveal that just isn’t the case. The amount of light is going steadily up. So cities and businesses were willing to keep their electricity bills about the same as energy efficiency improved, and just get more light.

Natural darkness in retreat

As human activity spreads out over time, many of the remote areas that host observatories are becoming less remote. Light domes from large urban areas slightly brighten the dark sky at mountaintop observatories up to 200 miles (320 kilometers) away. When these urban areas are adjacent to an observatory, the addition to the skyglow is much stronger, making detection of the faintest galaxies and stars that much harder.

When the Mt. Wilson Observatory was constructed in the Angeles National Forest near Pasadena, California, in the early 1900s, it was a very dark site, considerably far from the 500,000 people living in Greater Los Angeles. Today, 18.6 million people live in the LA area, and urban sprawl has brought civilization much closer to Mt. Wilson.

A white-domed building on a hilltop among trees.
The Mt. Wilson Observatory in the Angeles National Forest may look remote, but urban sprawl from Los Angeles means that it is much closer to dense human activity today than it was when it was established in 1904. Image via USDA/ USFS (CC BY 4.0).

When Kitt Peak National Observatory was first under construction in the late 1950s, it was far from metro Tucson, Arizona, with its population of 230,000. Today, that area houses 1 million people, and Kitt Peak faces much more light pollution.

Even telescopes in darker, more secluded regions – like northern Chile or western Texas – experience light pollution from industrial activities like open-pit mining or oil and gas facilities.

A set of buildings atop a mountain in the desert.
European Southern Observatory’s Very Large Telescope at the Paranal site in the sparsely populated Atacama Desert in northern Chile. Image via J.L. Dauvergne and G. Hüdepohl/ ESO (CC BY-ND 4.0).

The case of the European Southern Observatory

An interesting modern challenge is facing the European Southern Observatory, which operates four of the world’s largest optical telescopes. Their site in northern Chile is very remote, and it is nominally covered by strict national regulations protecting the dark sky.

AES Chile, an energy provider with strong U.S. investor backing, announced a plan in December 2024 for the development of a large industrial plant and transport hub close to the observatory. The plant would produce liquid hydrogen and ammonia for green energy.

Even though formally compliant with the national lighting norm, the fully built operation could scatter enough artificial light into the night sky to turn the current observatory’s pristine darkness into a state similar to some of the legacy observatories now near large urban areas.

A map showing two industrial sites, one large, marked on a map of Chile. Just a few miles to the north are three telescope sites.
The location of AES Chile’s planned project in relation to the European Southern Observatory’s telescope sites. Image via European Southern Observatory, CC BY-ND.

This light pollution could mean the facility won’t have the same ability to detect and measure the faintest galaxies and stars.

Light pollution and humans

Light pollution doesn’t only affect observatories. Today, around 80% of the world’s population cannot see the Milky Way at night. Some Asian cities are so bright that the eyes of people walking outdoors cannot become visually dark-adapted.

In 2009, the International Astronomical Union declared that there is a universal right to starlight. The dark night sky belongs to all people … its awe-inspiring beauty is something that you don’t have to be an astronomer to appreciate.The Conversation

Richard Green, Astronomer Emeritus, Steward Observatory, University of Arizona

This article is republished from The Conversation under a Creative Commons license. Read the original article.

Bottom line: Light pollution is affecting astronomical observatories around the world. Some of these observatories were built before large urban sprawl. And putting all telescopes into space would be extraordinarily expensive.

The post Light pollution is impacting astronomy around the globe first appeared on EarthSky.

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