Greenhouse gas emissions may threaten our satellites

Embargoed until: Publicly released: 2025-03-11 03:00

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Increasing greenhouse gases in our atmosphere may reduce the total number of satellites that can safely orbit the planet, say UK researchers. The scientists used computer simulations of the atmosphere to work out the number of satellites that could be maintained sustainably in Earth's orbit by the year 2100 under different emissions scenarios. They say that, under the highest-emission scenario, low Earth orbit will be unattainable for up to two-in-three of our current satellites - or around 25 - 40 million satellites - by 2100. This is because Earth's upper atmosphere will cool and shrink in response to greenhouse gas increases, reducing the volume of space available to host orbiting satellites, they say.

News release

From: Springer Nature

Climate change: Greenhouse gas emissions may threaten satellites

Increasing levels of human-caused greenhouse gas emissions in the atmosphere may reduce the total number of satellites that can safely orbit Earth by up to 66% of the current carrying capacity by the end of the century, under a high-emissions scenario. The findings from the modelling study are described in Nature Sustainability.

Previous research has established that an increasing amount of greenhouse gases in the atmosphere can shrink Earth’s upper atmosphere — consisting of the mesosphere (50–85 km) and thermosphere (85–600 km) — as incoming infrared radiation is reflected into space, resulting in a cooling and contracting effect. This contraction reduces the density of Earth’s orbital space, lengthening the amount of time space debris remains in orbit as drag with the atmosphere is reduced. As the number of satellites in Earth’s orbit increases, persistent space debris poses a growing problem for the long-term use of Earth’s orbital space.

William Parker and colleagues used atmospheric modelling to estimate the number of satellites that can be sustainably maintained in Earth’s orbit by 2100 under different emission scenarios. Using the greenhouse gas concentration in the year 2000 as a baseline, Parker and colleagues found that the maximum number of satellites that can be sustainably managed in low Earth orbit will be 50–66% less by 2100, dependent on solar activity, under the highest-emission Shared Socio-economic Pathway (SSP5-8.5) scenario. This is equivalent to approximately 25–40 million satellites. They also estimated the ideal distribution of orbital objects and deviations from this ideal distribution observed under different emission scenarios. The authors show a large decrease in the rate of satellites deorbiting through friction with the atmosphere under the moderate to highest scenario CO₂ emission rates.

Although active deorbiting technologies are being considered to reduce the risk of collisions, the authors suggest that mitigating greenhouse gas emissions is not only important for Earth's climate but also for preserving our access to and use of outer space.

Journal/
conference: Nature Sustainability

Research:Paper

Organisation/s: Massachusetts Institute of Technology, USA

Funder: This work was supported by the US National Science Foundation (under Graduate Research Fellowship grant number 1745302 to W.E.P. and grant number NSF-PHY-2028125 to R.L.) and the United Kingdom Natural Environment Research Council (NERC) Space Weather Instrumentation, Measurement, Modelling and Risk (SWIMMR) Programme (grant NE/V002708/1 to M.K.B.). This research was also sponsored by the Department of the Air Force Artificial Intelligence Accelerator and was accomplished under Cooperative Agreement Number FA8750-19-2-1000 to R.L. and W.E.P.

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