Litcius/Paper detail

Australia’s Black Summer pyrocumulonimbus super outbreak reveals potential for increasingly extreme stratospheric smoke events

David A. Peterson, Michael Fromm, Rick McRae, James R. Campbell, E. J. Hyer, Ghassan Taha, Christopher P. Camacho, G. P. Kablick, C. C. Schmidt, M. T. DeLand

2021npj Climate and Atmospheric Science236 citationsDOIOpen Access PDF

Abstract

Abstract The Black Summer fire season of 2019–2020 in southeastern Australia contributed to an intense ‘super outbreak’ of fire-induced and smoke-infused thunderstorms, known as pyrocumulonimbus (pyroCb). More than half of the 38 observed pyroCbs injected smoke particles directly into the stratosphere, producing two of the three largest smoke plumes observed at such altitudes to date. Over the course of 3 months, these plumes encircled a large swath of the Southern Hemisphere while continuing to rise, in a manner consistent with existing nuclear winter theory. We connect cause and effect of this event by quantifying the fire characteristics, fuel consumption, and meteorology contributing to the pyroCb spatiotemporal evolution. Emphasis is placed on the unusually long duration of sustained pyroCb activity and anomalous persistence during nighttime hours. The ensuing stratospheric smoke plumes are compared with plumes injected by significant volcanic eruptions over the last decade. As the second record-setting stratospheric pyroCb event in the last 4 years, the Australian super outbreak offers new clues on the potential scale and intensity of this increasingly extreme fire-weather phenomenon in a warming climate.

Topics & Concepts

SmokeClimatologyEnvironmental scienceVolcanoThunderstormAtmospheric sciencesNorthern HemisphereStratosphereSouthern HemisphereGeographyMeteorologyGeologySeismologyFire effects on ecosystemsAtmospheric chemistry and aerosolsAtmospheric aerosols and clouds