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Soil respiration–driven CO <sub>2</sub> pulses dominate Australia’s flux variability

Eva‐Marie Metz, Sanam N. Vardag, Sourish Basu, Martin Jung, Bernhard Ahrens, Tarek S. El‐Madany, Stephen Sitch, Vivek K. Arora, Peter Briggs, Pierre Friedlingstein, Daniel S. Goll, Atul K. Jain, Etsushi Kato, Danica Lombardozzi, Julia E. M. S. Nabel, Benjamin Poulter, Roland Séférian, Hanqin Tian, A. Wiltshire, Wenping Yuan, Xu Yue, Sönke Zaehle, Nicholas M. Deutscher, David Griffith, A. Butz

2023Science55 citationsDOIOpen Access PDF

Abstract

The Australian continent contributes substantially to the year-to-year variability of the global terrestrial carbon dioxide (CO 2 ) sink. However, the scarcity of in situ observations in remote areas prevents the deciphering of processes that force the CO 2 flux variability. In this study, by examining atmospheric CO 2 measurements from satellites in the period 2009–2018, we find recurrent end-of-dry-season CO 2 pulses over the Australian continent. These pulses largely control the year-to-year variability of Australia’s CO 2 balance. They cause two to three times larger seasonal variations compared with previous top-down inversions and bottom-up estimates. The pulses occur shortly after the onset of rainfall and are driven by enhanced soil respiration preceding photosynthetic uptake in Australia’s semiarid regions. The suggested continental-scale relevance of soil-rewetting processes has substantial implications for our understanding and modeling of global climate–carbon cycle feedbacks.

Topics & Concepts

Environmental scienceCarbon cycleSoil respirationSink (geography)Atmospheric sciencesCarbon sinkRespirationCarbon dioxideClimate changeFlux (metallurgy)ClimatologySoil waterOceanographyEcologyEcosystemGeographySoil scienceChemistryBiologyGeologyOrganic chemistryCartographyBotanyAtmospheric and Environmental Gas DynamicsClimate variability and modelsCO2 Sequestration and Geologic Interactions
Soil respiration–driven CO <sub>2</sub> pulses dominate Australia’s flux variability | Litcius