EGU24-922, updated on 08 Mar 2024
https://doi.org/10.5194/egusphere-egu24-922
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Increased atmospheric CO2 and the transit time of carbon in terrestrial ecosystems

Estefanía Muñoz1,2, Ingrid Chanca2, and Carlos Sierra2
Estefanía Muñoz et al.
  • 1Ecological and Forestry Applications Research Centre, Bellatera, Barcelona, Spain (e.munoz@creaf.uab.cat)
  • 2Max Planck Institute for Biogeochemistry, Biogeochemical Processes, Jena, Germany (ehoyos@bgc-jena.mpg.de, csierra@bgc-jena.mpg.de)

The response of terrestrial ecosystems to increased atmospheric CO2 concentrations is controversial and not fully understood, with previous large-scale forest manipulation experiments exhibiting contrasting responses. Although there is consensus that increased CO2 has a relevant effect on instantaneous processes such as photosynthesis and transpiration, there are large uncertainties regarding the fate of extra assimilated carbon in ecosystems. Filling this research gap is challenging because tracing the movement of new carbon across ecosystem compartments involves studying multiple processes occurring over a wide range of timescales, from hours to millennia. We posit that a comprehensive quantification of the effect of increased CO2 must answer two interconnected questions: How much and for how long is newly assimilated carbon stored in ecosystems? Therefore, we propose that the transit time distribution of carbon is the key concept needed to address these questions effectively. Here, we show how the transit time distribution of carbon can be used to assess the fate of newly assimilated carbon and the timescales at which it is cycled in ecosystems. We use as an example a transit time distribution obtained from a tropical forest and show that most of the 60% of fixed carbon is respired in less than 1 year; therefore, we infer that under increased CO2, most of the new carbon would follow a similar fate unless increased CO2 would cause changes in the rates at which carbon is cycled and transferred among ecosystem compartments. We call for a more frequent adoption of the transit time concept in studies seeking to quantify the ecosystem response to increased CO2.

How to cite: Muñoz, E., Chanca, I., and Sierra, C.: Increased atmospheric CO2 and the transit time of carbon in terrestrial ecosystems, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-922, https://doi.org/10.5194/egusphere-egu24-922, 2024.

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