Expert Voices

Thousands of satellites are polluting Australian skies, and threatening ancient Indigenous astronomy practices

(Image credit: Shutterstock)

This article was originally published at The Conversation. The publication contributed the article to's Expert Voices: Op-Ed & Insights.

Karlie Noon (opens in new tab), Astronomer, Australian National University

Since time immemorial, Indigenous peoples worldwide have observed, tracked and memorized all the visible objects in the night sky.

This ancient star knowledge was meticulously ingrained with practical knowledge of the land, sky, waters, community and the Dreaming — and passed down through generations.

One of the most well-known and celebrated Aboriginal constellations is the Emu in the Sky, which appears in the southern sky early in the year. It is an example of a dark constellation, which means it's characterized by particularly dark patches in the sky, rather than stars.

Conversely, space technology such as Starlink is increasingly competing to dominate the skies, and potentially change them forever.

The modern-day space race has led to thousands of satellites being scattered through Earth's outer orbits. If left unchallenged, these companies risk overpopulating an already crowded space environment — potentially pushing dark skies to extinction.


Mega-constellations are groupings of satellites that communicate and work together as they orbit Earth.

Since 2018, the Starlink project, run by Elon Musk's SpaceX, has launched about 1,700 satellites into low Earth orbit. The company plans to launch another 30,000 over the next decade (opens in new tab).

British company OneWeb has launched nearly 150 satellites, with plans for another 6,000 (opens in new tab). And Amazon intends to launch an additional 3,000 satellites (opens in new tab) into multiple orbits.

A growing number of Starlink satellites can be found in low orbit around Earth. (Image credit: Shutterstock)

Each of these companies is taking to the skies to increase internet access across the globe. But even if they deliver on this, sky gazers — and especially Indigenous peoples — are left to wonder: at what cost?

Streaks in the night

People across the globe began noticing streaks across our skies not long after the first Starlink launch in May 2019. They were unlike anything anyone had seen before.

Astronomers are very used to viewing the sky and dealing with interference, often originating from aircraft or the occasional satellite. However, the goal of mega-constellations is to engulf the entire planet, leaving no place untouched (opens in new tab). Mega-constellations alter our collective view of the stars. And there is currently no known way to remove them.

One mega-constellation has been observed to produce up to 19 parallel streaks (opens in new tab) across the sky. These streaks disturb astronomical observations, and a significant amount of scientific data can be lost as a result.

Satellites can leave streaks in the night sky. (Image credit: Shutterstock)

As they travel across the entire sky, scattering the sun's light, dark constellations become even fainter — further desecrating Indigenous knowledge and kinship with the environment.

Further research (opens in new tab) on the impacts of mega-constellations have found that as they orbit Earth, the sun's rays are reflected off them and scattered into the atmosphere.

The authors of that study conclude we are collectively experiencing a new type of "skyglow" as a result: a phenomenon in which the brightness of the sky increases due to human-made light pollution.

Initial calculations indicate this new source of light pollution has increased the brightness of night skies globally by about 10%, compared with the natural skyglow measured in the 1960s.

Currently, the upper limit of light pollution tolerable at observatories is 10% above the natural skyglow (opens in new tab), which suggests we have already reached the limit.

In other words, scientific observations of the sky are already at risk of being rendered redundant. If this excess skyglow increases even more, observatories are at serious risk.

Indigenous sky sovereignty

Indigenous knowledge systems and oral traditions teach us about the intricate and complex relationships Indigenous peoples have with the environment, including the sky.

For example, many Aboriginal and Torres Strait Islander cultures have no concept of "outer space." They only have a continuous and connected reality where coexistence with all things is paramount.

As captured by the Bawaka Country (opens in new tab) group, based in northeast Arnhem Land: "…to hurt Sky Country, to try and possess it, is an ongoing colonization of the plural lifeworlds of all those who have ongoing connections with and beyond the sky."

Desecrating the sky impacts Indigenous sovereignty as it limits access to their knowledge system, in the same ways desecrating the land has removed First Peoples from their countries, cultures and ways of life.

For example, the Gamilaraay and Wiradjuri peoples of New South Wales observe the Emu in the Sky to gauge when it is time to hunt for emu eggs — and most importantly, when it is time to stop. How would the Gamilaraay know when to stop collecting eggs, or when to conduct annual ceremonies signalled by the Celestial Emu, if it was no longer visible?

Similarly, important parts of the Jukurrpa, or Dreaming of the Martu people of Western Australia is embedded in the Seven Sisters constellation. How would they keep this knowledge safe if they can't locate any of the Sisters?

Indigenous histories teach us about the devastating consequences of colonialism, and how the impacts of the colonial agenda can be mitigated through prioritizing the health of country and community.

In the words of astronomer Aparna Venkatesan and colleagues (opens in new tab): "…the manner and pace of 'occupying' near-Earth space raise the risk of repeating the mistakes of colonization on a cosmic scale."

Active Indigenous sky sovereignty acknowledges the interconnected nature between land and sky, and that caring for country includes sky country. By doing so, it challenges the otherwise unimpeded authority (opens in new tab) of technology corporations.

Harming fauna, harming ourselves

By understanding that the world (and indeed the universe) is interconnected, we see that no living creature is immune to the consequences of polluting the skies.

Currently, native fauna such as the tammar wallaby, magpie, bogong moth and marine turtles are experiencing a reduction in populations and quality of life due to the impacts of light-pollution.

The tammar wallaby is just one Australian species affected by light pollution. (Image credit: Shutterstock)

Going forward

Several companies have made attempts to reduce the impact of mega-constellations on skyglow.

For example, OneWeb has opted to rollout fewer satellites than initially proposed, and has designed them to be positioned at a higher altitude. This means they will produce less skyglow (opens in new tab), while also covering a larger area.

Starlink, on the other hand, has not shown any public interest in operating at higher and less impactful altitudes, for fears it will impact the Starlink network's speed and latency. (opens in new tab)

That said, they have attempted to reduce their satellites' luminosity by painting them with a novel anti-reflective coating. Coating techniques have demonstrated a reduction in reflected sunlight by up to 50%. Unfortunately, not all wavelengths of light being scattered are reduced using this method (opens in new tab). So multi-wave astronomy, and different species of animals, are still at risk.

We'll need more solutions to navigate our increasingly polluted atmosphere, particularly if communication monopolies continue to rein over near-Earth space.

Just as some companies have started considering tactics to avoid increasing skyglow, all space tech companies must be held responsible for adding to an already polluted space.

Guidelines such as those set by the Inter-Agency Space Debris Coordination Committee offer solutions to this problem. They suggest lowering the height of a satellite’s orbit when it’s no longer needed, allowing it to disintegrate as it falls (opens in new tab) down to Earth.

However, these are international guidelines, so there's no legal framework to enforce such practices.

And given that near-miss collisions have already taken place between some mega-constellations (opens in new tab), and an estimated 20,000 pieces of space debris already floating above, reducing orbital pollution must also now be a priority.

Reducing air pollutants has also been shown to drastically decrease natural sky brightness (opens in new tab), offering a potential solution for improving night sky visibility — not to mention cleaner breathing air for all.

In valuing Indigenous knowledge systems, that value must be extended to the natural environment in which that knowledge is embedded and founded upon. In Australia, preserving dark skies is not just vital for the continuation of Indigenous knowledge and astronomers — it benefits us all.

A major tenet of life for Indigenous peoples is valuing the sustainability of one's actions. By adopting this at a larger scale, we could create a reality in which we’re not a threat to our own survival.

This article is republished from The Conversation (opens in new tab) under a Creative Commons license. Read the original article (opens in new tab).

Follow all of the Expert Voices issues and debates — and become part of the discussion — on Facebook and Twitter. The views expressed are those of the author and do not necessarily reflect the views of the publisher.

Join our Space Forums to keep talking space on the latest missions, night sky and more! And if you have a news tip, correction or comment, let us know at:

Karlie Noon
Astronomer, Australian National University

Karlie Noon is a Gamilaraay astronomer and science communicator working with audiences around the country for the past ten years promoting Indigenous astronomical knowledge. Karlie is the first Indigenous woman to graduate with combined degrees in mathematics and science. She has an advanced Masters of Astrophysics and is currently undertaking a PhD.