Now showing items 1-3 of 3

    • Review of the global models used within phase 1 of the Chemistry-Climate Model Initiative (CCMI) 

      Morgenstern O; Hegglin MI; Rozanov E; O'Connor FM; Abraham NL; Akiyoshi H; Archibald AT; Bekki S; Butchart N; Chipperfield MP; Deushi M; Dhomse SS; Garcia RR; Hardiman SC; Horowitz LW; Joeckel P; Josse B; Kinnison D; Lin M; Mancini E; Manyin ME; Marchand M; Marecal V; Michou M; Oman LD; Pitari G; Plummer DA; Revell LE; Saint-Martin D; Schofield R; Stenke A; Stone K; Sudo K; Tanaka TY; Tilmes S; Yamashita Y; Yoshida K; Zeng G (2017)
    • Tropospheric jet response to Antarctic ozone depletion: An update with Chemistry-Climate Model Initiative (CCMI) models 

      Son S-W; Han B-R; Garfinkel CI; Kim S-Y; Park R; Abraham NL; Akiyoshi H; Archibald AT; Butchart N; Chipperfield M; Dameris M; Deushi M; Dhomse S; Hardiman SC; Jockel P; Kinnison D; Michou M; Morgenstern O; O'Connor FM; Oman L; Plummer D; Pozzer A; Revell LE; Rozanov E; Stenke A; Stone K; Tilmes S; Yamashita Y; Zeng G (2018)
      The Southern Hemisphere (SH) zonal-mean circulation change in response to Antarctic ozone depletion is re-visited by examining a set of the latest model simulations archived for the Chemistry-Climate Model Initiative ...
    • Tropospheric ozone in CCMI models and Gaussian process emulation to understand biases in the SOCOLv3 chemistry–climate model 

      Revell LE; Stenke A; Tummon F; Feinberg A; Rozanov E; Peter T; Abraham NL; Akiyoshi H; Archibald AT; Butchart N; Deushi M; Jöckel P; Kinnison D; Michou M; Morgenstern O; O'Connor FM; Oman LD; Pitari G; Plummer DA; Schofield R; Stone K; Tilmes S; Visioni D; Yamashita Y; Zeng G (2018)
      Previous multi-model intercomparisons have shown that chemistry–climate models exhibit significant biases in tropospheric ozone compared with observations. We investigate annual-mean tropospheric column ozone in 15 ...