Findings in title quoted from the linked summary^1 and its hyperlinked journal paper T. Brown, et al.^2

From the 3 Feb. 2023 summary^1 by the authors of T. Brown, et al.:

>Rockets have exciting potential to enable industrial-level access to near-Earth space and exploration throughout the solar system.

>This makes them “charismatic technology” – and the promise of what the technology can enable drives deep emotional investment.

>The allure of possibility can get in the way of even discussing how to make rockets achieve these aspirational goals without damage. We have to be able to have clear discussions.

>The ozone layer is on track to heal within four decades, according to a recent UN report, but this progress could be undone by an upsurge in rocket launches expected during the same period.

>As we show in our new review, the gases and particulates rockets emit as they punch through the atmosphere could lead to delays in the ozone layer’s recovery.

>Fortunately, the number of launches to date is so small that the impacts on the ozone layer are currently insignificant.

>However, over coming decades the launch industry is set to expand considerably.

> 

>As we outline, rocket emissions in the upper atmosphere can affect the ozone layer but are not regulated. We argue this policy gap must be filled to ensure sustainable growth of the rocket launch industry and protection of the ozone layer.

>The launch industry today relies on four major fuel types for rocket propulsion: liquid kerosene, cryogenic, hypergolic and solid.

>The combustion of these fuels means contemporary rockets create a suite of gaseous and particulate exhaust products, including carbon dioxide, water vapour, black carbon, alumina, reactive chloride and nitrogen oxides. These products are known to destroy ozone.

>A new fuel is methane, which is used in multiple rocket engines under development by major launch companies. The emissions products of methane are as yet poorly understood.

>In the stratosphere, an upper level of the atmosphere where the protective ozone layer resides, emissions linger for much longer than lower down.

>Small amounts of an exhaust byproduct can have greater destructive effects in the upper atmosphere than when close to Earth’s surface.

^1 Rocket industry could undo decades of work to save the ozone layer, 3 Feb. 2023, https://www.canterbury.ac.nz/news/2023/rocket-industry-could-undo-decades-of-work-to-save-the-ozone-layer.html

^2 T. Brown, M. Bannister, and L. Revell. Envisioning a sustainable future for space launches: a review of current research and policy. Journal of the Royal Society of New Zealand 2023. https://doi.org/10.1080/03036758.2022.2152467