Vast ecosystem disturbance in a warming climate may jeopardize our climate goal 
of reducing CO2: a case study for megafires in the Australian ‘black summer’

Hong, Xinhua; Liu, Cheng; Zhang, Chengxin; Tian, Yuan; Wu, Hongyu; Yin, Hao; Zhu, Yizhi; Cheng, Yafang

doi:10.1016/j.scitotenv.2023.161387

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Vast ecosystem disturbance in a warming climate may jeopardize our climate goal of reducing CO₂: a case study for megafires in the Australian ‘black summer’

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Cheng, Yafang
Multiphase Chemistry, Max Planck Institute for Chemistry, Max Planck Society;

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Citation

Hong, X., Liu, C., Zhang, C., Tian, Y., Wu, H., Yin, H., et al. (2023). Vast ecosystem disturbance in a warming climate may jeopardize our climate goal of reducing CO₂: a case study for megafires in the Australian ‘black summer’. Science of the Total Environment, 866: 161387. doi:10.1016/j.scitotenv.2023.161387.

Cite as: https://hdl.handle.net/21.11116/0000-000D-465D-D

Abstract

A warming climate is one of the most important driving forces of intensified wildfires globally. The unprecedented wildfires broke out in the Australian ‘Black Summer’ (November 2019–February 2020), which released massive heat, gases, and particles into the atmosphere. The total carbon dioxide (CO2) emissions from wildfires were estimated at ∼963 million tons by using a top-down approach based on direct satellite measurements of CO2 and fire radiative power. The fire emissions have led to an approximately 50–80 folds increase in total CO2 emission in Australia compared with the similar seasons of 2014–2019. The excess CO2 from wildfires has offset almost half of the global anthropogenic CO2 emission reductions due to the Corona Virus Disease 2019 in 2020. When the wildfires were intense in December 2019, they caused a 1.48 watts per square meter additional positive radiative forcing above the monthly average in Australia and the vicinity. Our findings demonstrate that vast ecosystem disturbance in a warming climate can strongly influence the global carbon cycle and hamper our climate goal of reducing CO2.