Atmospheric rivers impacting western North America in a world with climate intervention

Atmospheric rivers (ARs) impacting western North America are analyzed under climate intervention applying stratospheric aerosol injections (SAI) using simulations produced by the Whole Atmosphere Community Climate Model. Sulfur dioxide injections are strategically placed to maintain present-day global, interhemispheric, and equator-to-pole surface temperatures between 2020 and 2100 using a high forcing climate scenario. Three science questions are addressed: (1) How will western North American ARs change by the end of the century with SAI applied, (2) How is this different from 2020 conditions, and (3) How will the results differ with no future climate intervention. Under SAI, ARs are projected to increase by the end of the 21st century for southern California and decrease in the Pacific Northwest and coastal British Columbia, following changes to the low-level wind. Compared to 2020 conditions, the increase in ARs is not significant. The character of AR precipitation changes under geoengineering results in fewer extreme rainfall events and more moderate ones.

Automated summary

This study analyzes the impact of stratospheric aerosol injections on atmospheric rivers in western North America using simulations. The results show that without climate intervention, the atmospheric rivers will increase in southern California and decrease in the Pacific Northwest and coastal British Columbia by the end of the century. Moreover, the character of precipitation in the atmospheric rivers changes under climate engineering.