Additional simulation to determine the radiation impact of strongly
increased atmospheric methane concentrations with doubled and fivefold
lower boundary condition for methane with respect to condition of 2010
(1.8 ppm).
Information:
- Timeslice representing 2010 conditions (years in dataset: 2011)
- All data in monthly means
- Simulated with MESSy version d2.53.0.26, http://www.messy-interface.org list of multi-radiation calls:
(REF*)
rad01 : Reference (equal to R1EME-01)
(S2*)
rad02 : CH4, H2O, O3 from S1EME-02
rad03 : CH4 from S1EME-02
rad04 : stratospheric H2O from S1EME-02
rad05 : tropospheric H2O from S1EME-02
rad06 : stratospheric O3 from S1EME-02
rad07 : tropospheric O3 from S1EME-02
(S5*)
rad08 : CH4, H2O, O3 from S2EME-02
rad09 : CH4 from S2EME-02
rad10 : stratospheric H2O from S2EME-02
rad11 : tropospheric H2O from S2EME-02
rad12 : stratospheric O3 from S2EME-02
rad13 : tropospheric O3 from S2EME-02
Corresponding publication:
Winterstein, F., Tanalski, F., Jöckel, P., Dameris, M., and Ponater,
M.: Implication of strongly increased atmospheric methane
concentrations for chemistryclimate connections, Atmos. Chem. Phys.,
19, 71517163, https://doi.org/10.5194/acp-19-7151-2019, 2019.
R1EME-ri02 is called REF*/S2*/S5* in the publication.