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Persistence of soil organic carbon caused by functional complexity


Key-words : soil, persistence of carbon, molecular diversity, organic carbon


Soil organic carbon management has the potential to aid climate change mitigation through drawdown of atmospheric carbon dioxide.


To be effective, such management must account for processes influencing carbon storage and re-emission at different space and time scales.


Achieving this requires a conceptual advance in our understanding to link carbon dynamics from the scales at which processes occur to the scales at which decisions are made.


Here, we propose that soil carbon persistence can be understood through the lens of decomposers as a result of functional complexity derived from the interplay between spatial and temporal variation of molecular diversity and composition. For example, co-location alone can determine whether a molecule is decomposed, with rapid changes in moisture leading to transport of organic matter and constraining the fitness of the microbial community, while greater molecular diversity may increase the metabolic demand of, and thus potentially limit, decomposition.


spatial heterogeneity
Spatial heterogeneity


This conceptual shift accounts for emergent behaviour of the microbial community and would enable soil carbon changes to be predicted without invoking recalcitrant carbon forms that have not been observed experimentally.


Functional complexity as a driver of soil carbon persistence suggests soil management should be based on constant care rather than one-time action to lock away carbon in soils.



Publication :


Lehmann, J., Hansel, C.M., Kaiser, C. et al. Persistence of soil organic carbon caused by functional complexity. Nat. Geosci. 13, 529–534 (2020). https://doi.org/10.1038/s41561-020-0612-3


Contact :


Naoise Nunan, CR, CNRS


Communication contact :


iees_paris-com@upmc.fr