New Insights on the Impact of Ozone-Depleting Substances on the Brewer-Dobson Circulation



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Ábalos Álvarez, Marta and Polvani, Lorenzo and Calvo Fernández, Natalia and Kinnison, Douglas and Ploeger, Felix and Randel, William and Solomon, Susan (2019) New Insights on the Impact of Ozone-Depleting Substances on the Brewer-Dobson Circulation. Journal of geophysical research-atmospheres, 124 (5). pp. 2435-2451. ISSN 2169-897X

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It has recently been recognized that, in addition to greenhouse gases, anthropogenic emissions of ozone-depleting substances (ODS) can induce long-term trends in the Brewer-Dobson circulation (BDC). Several studies have shown that a substantial fraction of the residual circulation acceleration over the last decades of the twentieth century can be attributed to increasing ODS. Here the mechanisms of this influence are examined, comparing model runs to reanalysis data and evaluating separately the residual circulation and mixing contributions to the mean age of air trends. The effects of ozone depletion in the Antarctic lower stratosphere are found to dominate the ODS impact on the BDC, while the direct radiative impact of these substances is negligible over the period of study. We find qualitative agreement in austral summer BDC trends between model and reanalysis data and show that ODS are the main driver of both residual circulation and isentropic mixing trends over the last decades of the twentieth century. Moreover, aging by isentropic mixing is shown to play a key role on ODS-driven age of air trends.

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© 2019 American Geophysical Union. We are thankful to Hella Garny for kindly providing the code to compute the RCTTs. M. A. acknowledges funding from the Program Atracción de Talento de la Comunidad de Madrid (2016-T2/AMB-1405), the Spanish National Projects STEADY (CGL2017-83198-R) and N.C. acknowledges PALEOSTRAT (CGL2015-69699), and the EU 7th framework Program under grant 603557 (StratoClim). This work has been carried out using the high performance computing and storage facilities provided by CISL/NCAR. F. P. was funded by the Helmholtz Association under grant VH-NG-1128 (Helmholtz Young Investigators Group A-SPECi). S. S. is partly supported by grant 133814 from the NSF. The WACCM data used here is available upon request to the authors. JRA-55 data are available at, and ERA-Interim data are available at

Uncontrolled Keywords:Chemistry-climate model; Stratospheric air; Mean age; Past changes; Trends; Variability; Reanalyses; Increase
Subjects:Sciences > Physics > Atmospheric physics
ID Code:55291
Deposited On:28 May 2019 10:53
Last Modified:04 Sep 2019 23:01

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