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Magnitude, trends, and variability of the global ocean carbon sink from 1985‐2018
DeVries, T.; Yamamoto, K.; Wanninkhof, R.; Gruber, N.; Hauck, J.; Müller, J.D.; Bopp, L.; Carroll, D.; Carter, B.; Chau, T.-T.-T.; Doney, S.C.; Gehlen, M.; Gloege, L.; Gregor, L.; Henson, S.; Kim, J.H.; Iida, Y.; Ilyina, T.; Landschützer, P.; Le Quéré, C.; Munro, D.; Nissen, C.; Patara, L.; Pérez, F.F.; Resplandy, L.; Rodgers, K.B.; Schwinger, J.; Séférian, R.; Sicardi, V.; Terhaar, J.; Trinanes, J.; Tsujino, H.; Watson, A.; Yasunaka, S.; Zeng, J. (2023). Magnitude, trends, and variability of the global ocean carbon sink from 1985‐2018. Global Biogeochem. Cycles 37(10): e2023GB007780. https://dx.doi.org/10.1029/2023gb007780
In: Global Biogeochemical Cycles. American Geophysical Union: Washington, DC. ISSN 0886-6236; e-ISSN 1944-9224
Peer reviewed article  

Available in  Authors 

Keyword
    Marine/Coastal
Author keywords
    ocean; carbon cycle; RECCAP2; climate change; anthropogenic carbon

Authors  Top 
  • DeVries, T.
  • Yamamoto, K.
  • Wanninkhof, R.
  • Gruber, N.
  • Hauck, J.
  • Müller, J.D.
  • Bopp, L.
  • Carroll, D.
  • Carter, B.
  • Chau, T.-T.-T.
  • Doney, S.C.
  • Gehlen, M.
  • Gloege, L.
  • Gregor, L.
  • Henson, S.
  • Kim, J.H.
  • Iida, Y.
  • Ilyina, T.
  • Landschützer, P.
  • Le Quéré, C.
  • Munro, D.
  • Nissen, C.
  • Patara, L.
  • Pérez, F.F.
  • Resplandy, L.
  • Rodgers, K.B.
  • Schwinger, J.
  • Séférian, R.
  • Sicardi, V.
  • Terhaar, J.
  • Trinanes, J.
  • Tsujino, H.
  • Watson, A.
  • Yasunaka, S.
  • Zeng, J.

Abstract
    This contribution to the RECCAP2 (REgional Carbon Cycle Assessment and Processes) assessment analyzes the processes that determine the global ocean carbon sink, and its trends and variability over the period 1985-2018, using a combination of models and observation-based products. The mean sea-air CO2 flux from 1985-2018 is -1.6±0.2 PgC yr-1 based on an ensemble of reconstructions of the history of sea surface pCO2 (pCO2 products). Models indicate that the dominant component of this flux is the net oceanic uptake of anthropogenic CO2, which is estimated at -2.1±0.3 PgC yr-1 by an ensemble of ocean biogeochemical models, and -2.4±0.1 PgC yr-1 by two ocean circulation inverse models. The ocean also degasses about 0.65±0.3 PgC yr-1 of terrestrially-derived CO2, but this process is not fully resolved by any of the models used here. From 2001-2018, the pCO2 products reconstruct a trend in the ocean carbon sink of -0.61±0.12 PgC yr-1 decade-1, while biogeochemical models and inverse models diagnose an anthropogenic CO2-driven trend of -0.34±0.06 and -0.41±0.03 PgC yr-1 decade-1, respectively. This implies a climate-forced acceleration of the ocean carbon sink in recent decades, but there are still large uncertainties on the magnitude and cause of this trend. The interannual to decadal variability of the global carbon sink is mainly driven by climate variability, with the climate-driven variability exceeding the CO2-forced variability by 2-3 times. These results suggest that anthropogenic CO2 dominates the ocean CO2 sink, while climate-driven variability is potentially large but highly uncertain and not consistently captured across different methods.

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