Climate engineering (CE)—the intentional, global-scale modification of the environment to help offset the effects of elevated greenhouse gases—appears able to reduce climate-change risks beyond what’s possible with mitigation and adaptation alone. Furthermore, the large-scale use of CE is probably essential for achieving prudent climate-change limits, including the Paris target of limiting the average global temperature rise to 1.5–2.0 °C. This conclusion appears unavoidable based on the current level of global greenhouse-gas emissions and the long time-constants of the climate system and the human energy system (e.g., the long atmospheric lifetime of carbon dioxide and the time required for large-scale deployment of new technologies). CE may also enable integrated climate-response strategies that reduce risks in ways not otherwise achievable. Due to the complex implications of climate engineering, its use demands immediate, serious, critical investigation at the highest levels. Image courtesy of Shutterstock/idiz. At the same time, such strategies cannot replace mitigation or adaptation, which remain essential responses to the severe risks that climate change poses. And the various forms of CE, both carbon removal and sunlight-scattering solar geoengineering, pose novel, significant, and uncertain risks (1⇓⇓⇓–5). In view of CE’s high stakes and complex implications, which offer the prospect of great benefit or harm, its use urgently needs serious, critical investigation. This has not happened. The treatment of CE thus far in climate research, assessment, scenarios, and policy debates has been at best selective and insufficient; at worst, the subject has been misrepresented or ignored. Serious examination of CE would challenge many comforting presumptions of climate policy debates and assessment processes, but this challenge must be met. There are at least three major reasons that policy and assessment bodies must take better account of CE. First, as stated, CE might prove crucial in managing climate risks. Second, … [↵][1]1Email: parson{at}law.ucla.edu. [1]: #xref-corresp-1-1