RETRACTED ARTICLE: New land-use-change emissions indicate a declining CO2 airborne fraction
Margreet J. E. Marle,
Dave Wees,
Richard A. Houghton,
Robert D. Field,
Jan Verbesselt and
Guido. R. Werf ()
Additional contact information
Margreet J. E. Marle: Vrije Universiteit Amsterdam
Dave Wees: Vrije Universiteit Amsterdam
Richard A. Houghton: Woodwell Climate Research Center
Robert D. Field: Columbia University
Jan Verbesselt: Laboratory of Geo-information Science and Remote Sensing, Wageningen University
Guido. R. Werf: Vrije Universiteit Amsterdam
Nature, 2022, vol. 603, issue 7901, 450-454
Abstract:
Abstract About half of the anthropogenic CO2 emissions remain in the atmosphere and half are taken up by the land and ocean1. If the carbon uptake by land and ocean sinks becomes less efficient, for example, owing to warming oceans2 or thawing permafrost3, a larger fraction of anthropogenic emissions will remain in the atmosphere, accelerating climate change. Changes in the efficiency of the carbon sinks can be estimated indirectly by analysing trends in the airborne fraction, that is, the ratio between the atmospheric growth rate and anthropogenic emissions of CO2 (refs. 4–10). However, current studies yield conflicting results about trends in the airborne fraction, with emissions related to land use and land cover change (LULCC) contributing the largest source of uncertainty7,11,12. Here we construct a LULCC emissions dataset using visibility data in key deforestation zones. These visibility observations are a proxy for fire emissions13,14, which are — in turn — related to LULCC15,16. Although indirect, this provides a long-term consistent dataset of LULCC emissions, showing that tropical deforestation emissions increased substantially (0.16 Pg C decade−1) since the start of CO2 concentration measurements in 1958. So far, these emissions were thought to be relatively stable, leading to an increasing airborne fraction4,5. Our results, however, indicate that the CO2 airborne fraction has decreased by 0.014 ± 0.010 decade−1 since 1959. This suggests that the combined land–ocean sink has been able to grow at least as fast as anthropogenic emissions.
Date: 2022
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DOI: 10.1038/s41586-021-04376-4
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