Quantitative Detection of Iodine in the Stratosphere

RAINER VOLKAMER; ALFONSO SAIZ-LOPEZ; DOUGLAS E. KINNISON; KOENIG, THEODORE K.; JIMENEZ, JOSE L.; CARLOS A CUEVAS; CAMPUZANO-JOST, PEDRO; FERNÁNDEZ, RAFAEL PEDRO

Viena

Conferencia; EGU General Assembly 2020, Online; 2020

Ozone in the extrapolar lower stratosphere is currently declining for reasons that are not well understood. Iodine is emitted mostly from marine sources, and changing iodine emissions provide a possible chemical reason for why ozone in the lower stratosphere continues to decline (Koenig et al., 2020). Previous stratospheric measurements had detected iodine qualitatively in particles. More recently, IO observations in the daytime tropical tropopause layer (TTL) have suggested that between 0.25 to 0.70 pptv Iy are injected into the stratosphere, which is 1.6 to 3.5 times the WMO2014 upper limit. These indirect observations have led to revised estimates of 0 - 0.8 pptv Iy stratospheric injection in the WMO2018 report. This presentation discusses first quantitative measurements of IO radicals and of submicron particulate iodine from aircraft in the stratospherethat support 0.77 pptv Iy stratospheric injection. Our observations support the WMO2018 upper limit estimate, and clearly are incompatible with zero iodine injection. The implications of theobseved iodine concentrations for ozone loss in the lower stratosphere are discussed, also in light of climate records that find increasing iodine in recent decades, observed ozone trends, andongoing and future research needs to better quantify iodine´s contribution to explain these trends.