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East Asian summer monsoon delivers large abundances of very-short-lived organic chlorine substances to the lower stratosphere.

Laura L PanElliot L AtlasShawn B HonomichlWarren P SmithDouglas E KinnisonSusan SolomonMichelle L SanteeAlfonso Saiz-LopezJohannes C LaubeBin WangRei UeyamaJames F BreschRebecca S HornbrookEric C ApelAlan J HillsVictoria TreadawayKatie SmithSue SchaufflerStephen DonnellyRoger HendershotRichard LuebTeresa L CamposSilvia VicianiFrancesco D'AmatoGiovanni BianchiniMarco BarucciJames R PodolskeLaura T IraciColin GurganusThao Paul V BuiJonathan M Dean-DayLuis MillánJu-Mee RyooBarbara BarlettaJa-Ho KooJoowan KimQing LiangWilliam J RandelTroy D ThornberryPaul A Newman
Published in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Deep convection in the Asian summer monsoon is a significant transport process for lifting pollutants from the planetary boundary layer to the tropopause level. This process enables efficient injection into the stratosphere of reactive species such as chlorinated very-short-lived substances (Cl-VSLSs) that deplete ozone. Past studies of convective transport associated with the Asian summer monsoon have focused mostly on the south Asian summer monsoon. Airborne observations reported in this work identify the East Asian summer monsoon convection as an effective transport pathway that carried record-breaking levels of ozone-depleting Cl-VSLSs (mean organic chlorine from these VSLSs ~500 ppt) to the base of the stratosphere. These unique observations show total organic chlorine from VSLSs in the lower stratosphere over the Asian monsoon tropopause to be more than twice that previously reported over the tropical tropopause. Considering the recently observed increase in Cl-VSLS emissions and the ongoing strengthening of the East Asian summer monsoon under global warming, our results highlight that a reevaluation of the contribution of Cl-VSLS injection via the Asian monsoon to the total stratospheric chlorine budget is warranted.
Keyphrases
  • drinking water
  • heat stress
  • particulate matter
  • climate change
  • hydrogen peroxide
  • nitric oxide
  • ultrasound guided
  • water soluble
  • high resolution