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Alternate histories: synthetic large ensembles of sea-air CO2 flux
Olivarez, H.C.; Lovenduski, N.S.; Brady, R.X.; Fay, A.R.; Gehlen, M.; Gregor, L.; Landschützer, P.; McKinley, G.A.; McKinnon, K.A.; Munro, D.R. (2022). Alternate histories: synthetic large ensembles of sea-air CO2 flux. Global Biogeochem. Cycles 36(6): e2021GB007174. https://dx.doi.org/10.1029/2021gb007174
In: Global Biogeochemical Cycles. American Geophysical Union: Washington, DC. ISSN 0886-6236; e-ISSN 1944-9224, more
Peer reviewed article  
Available in  Authors 
Keyword
    Marine/Coastal
Authors  Top 
  • Olivarez, H.C.
  • Lovenduski, N.S.
  • Brady, R.X.
  • Fay, A.R.
  • Gehlen, M.
  • Gregor, L.
  • Landschützer, P., more
  • McKinley, G.A.
  • McKinnon, K.A.
  • Munro, D.R.
Abstract
    We use a statistical emulation technique to construct synthetic ensembles of global and regional sea-air carbon dioxide (CO2) flux from four observation-based products over 1985–2014. Much like ensembles of Earth system models that are constructed by perturbing their initial conditions, our synthetic ensemble members exhibit different phasing of internal variability and a common externally forced signal. Our synthetic ensembles illustrate an important role for internal variability in the temporal evolution of global and regional CO2 flux and produce a wide range of possible trends over 1990–1999 and 2000–2009. We assume a specific externally forced signal and calculate the rank of the observed trends within the distribution of statistically modeled synthetic trends during these periods. Over the decade 1990–1999, three of four observation-based products exhibit small negative trends in globally integrated sea-air CO2 flux (i.e., enhanced ocean CO2 absorption with time) that are within one standard deviation of the mean in their respective synthetic ensembles. Over the decade 2000–2009, however, three products show large negative trends in globally integrated sea-air CO2 flux that have a low rate of occurrence in their synthetic ensembles. The largest positive trends in global and Southern Ocean flux over 1990–1999 and the largest negative trends over 2000–2009 fall nearly two standard deviations away from the mean in their ensembles. Our approach provides a new perspective on the important role of internal variability in sea-air CO2 flux trends, and furthers understanding of the role of internal and external processes in driving observed sea-air CO2 flux variability.
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