A first intercomparison of the simulated LGM carbon results within PMIP‐Carbon: role of the ocean boundary conditions - Archive ouverte HAL
Article Dans Une Revue Paleoceanography and Paleoclimatology Année : 2021

A first intercomparison of the simulated LGM carbon results within PMIP‐Carbon: role of the ocean boundary conditions

Fanny Lhardy
N. Bouttes
Z. Chase
K. Crichton
T. Ilyina
R. Ivanovic
Masa Kageyama
L. Menviel
R. Nuterman
G. Vettoretti

Résumé

Model intercomparison studies of coupled carbon-climate simulations have the potential to improve our understanding of the processes explaining the pCO$_2$ drawdown at the Last Glacial Maximum (LGM) and to identify related model biases. Models participating in the Paleoclimate Modeling Intercomparison Project (PMIP) now frequently include the carbon cycle. The ongoing PMIP-carbon project provides the first opportunity to conduct multimodel comparisons of simulated carbon content for the LGM time window. However, such a study remains challenging due to differing implementation of ocean boundary conditions (e.g., bathymetry and coastlines reflecting the low sea level) and to various associated adjustments of biogeochemical variables (i.e., alkalinity, nutrients, dissolved inorganic carbon). After assessing the ocean volume of PMIP models at the pre-industrial and LGM, we investigate the impact of these modeling choices on the simulated carbon at the global scale, using both PMIP-carbon model outputs and sensitivity tests with the iLOVECLIM model. We show that the carbon distribution in reservoirs is significantly affected by the choice of ocean boundary conditions in iLOVECLIM. In particular, our simulations demonstrate a $\sim$250 GtC effect of an alkalinity adjustment on carbon sequestration in the ocean. Finally, we observe that PMIP-carbon models with a freely evolving CO$_2$and no additional glacial mechanisms do not simulate the pCO$_2$ drawdown at the LGM (with concentrations as high as 313, 331, and 315 ppm), especially if they use a low ocean volume. Our findings suggest that great care should be taken on accounting for large bathymetry changes in models including the carbon cycle.

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Dates et versions

hal-03358990 , version 1 (29-09-2021)

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Fanny Lhardy, N. Bouttes, Didier M. Roche, A. Abe‐ouchi, Z. Chase, et al.. A first intercomparison of the simulated LGM carbon results within PMIP‐Carbon: role of the ocean boundary conditions. Paleoceanography and Paleoclimatology, 2021, 36 (10), pp.e2021PA004302. ⟨10.1029/2021PA004302⟩. ⟨hal-03358990⟩
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