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Considering intentional stratospheric dehydration for climate benefits.

Joshua P SchwarzRu-Shan GaoTroy D ThornberryAndrew W RollinsKaren H RosenlofRobert W PortmannThaoPaul BuiEric J JensenEric A Ray
Published in: Science advances (2024)
We introduce a climate intervention strategy focused on decreasing water vapor (WV) concentrations near the tropopause and in the stratosphere to increase outbound longwave radiation. The mechanism is the targeted injection of ice-nucleating particles (INP) in air supersaturated with respect to ice at high altitudes in the tropical entryway to the stratosphere. Ice formation in this region is a critical control of stratospheric WV. Recent airborne in situ data indicate that targeting only a small fraction of air parcels in the region would be sufficient to achieve substantial removal of water. This "intentional stratospheric dehydration" (ISD) strategy would not counteract a large fraction of the forcing from carbon dioxide but may contribute to a portfolio of climate interventions by acting with different time and length scales of impact and risk than other interventions that are already under consideration. We outline the idea, its plausibility, technical hurdles, and side effects to be considered.
Keyphrases
  • climate change
  • carbon dioxide
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  • physical activity
  • randomized controlled trial
  • particulate matter
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