Orbital Environment

On January 1, 2026, SpaceX VP of Starlink Engineering Michael Nicolls announced plans to lower approximately 4,400 satellites from 550km to 480km altitude throughout 2026. The lower orbit reduces ballistic decay time by over 80% during solar minimum, meaning derelict satellites deorbit far faster. This represented a proactive effort to address orbital debris concerns given Starlink's dominance (two-thirds of all operational satellites).

In December 2025, a batch of Starlink satellites experienced anomalies shortly after deployment, resulting in uncontrolled reentry and debris creation. The incident highlighted risks associated with rapid mass satellite deployment and raised questions about quality control in SpaceX's high-volume manufacturing process. Space tracking agencies monitored the debris for potential collision risks with other spacecraft.

SpaceX's Starlink satellite constellation has created significant orbital congestion, with collision avoidance maneuvers increasing dramatically from approximately 25,000 in H1 2024 to 144,000 in H1 2025. The company operates over 7,000 active satellites, representing more than 60% of all active satellites in orbit. ESA and other space agencies have raised concerns about the long-term sustainability of low Earth orbit as SpaceX continues rapid deployment toward a planned 42,000-satellite constellation.

SpaceX's Starlink constellation has caused substantial interference with ground-based astronomical observations. Studies show approximately 30% of twilight telescope images are now affected by satellite streaks. Gen-2 Starlink satellites emit radio signals 32 times stronger than Gen-1, severely impacting radio astronomy. The International Astronomical Union has repeatedly called for regulatory action, and observatories worldwide report degraded data quality for both optical and radio astronomy research.

In August 2024, SpaceX announced new techniques developed with the National Science Foundation and National Radio Astronomy Observatory to help radio astronomers. The system redirects or disables Starlink satellite transmissions when they pass over sensitive telescopes including the Green Bank Telescope in West Virginia. However, researchers still found Starlink emitting unintended radio signals in protected astronomy frequencies, affecting up to 30% of telescope images.

Amazon's Project Kuiper received FCC approval to launch 3,236 internet satellites despite calls from environmental groups for comprehensive environmental review. A GAO report criticized the FCC for not conducting environmental assessments of mega-constellation impacts. In August 2024, advocacy groups petitioned to halt satellite launches pending proper environmental review of orbital debris, atmospheric effects, and astronomy interference impacts.

SpaceX's policy of deorbiting Starlink satellites at end-of-life results in satellite burnup in the upper atmosphere, depositing aluminum oxide particles and other metallic compounds. With thousands of satellites expected to reenter over the constellation's lifetime, atmospheric scientists have raised concerns about potential ozone layer impacts and stratospheric chemistry changes. The long-term environmental effects of routine mass satellite disposal through atmospheric reentry remain poorly understood.

OneWeb has established industry-leading orbital sustainability practices through its 'Responsible Space' initiative. The company designed its 648-satellite constellation with built-in debris mitigation: all satellites include propulsion for active deorbiting at end of life, orbit at lower altitudes (1,200km) than Starlink for faster natural decay, and maintain collision avoidance protocols. OneWeb has committed to zero long-lived debris and publishes orbital data for transparency.