@article{fdi:010079381,
  title = {{I}mplementation of the {CMIP}6 forcing data in the {IPSL}-{CM}6{A}-{LR} model},
  author = {{L}urton, {T}. and {B}alkanski, {Y}. and {B}astrikov, {V}. and {B}ekki, {S}. and {B}opp, {L}. and {B}raconnot, {P}. and {B}rockmann, {P}. and {C}adule, {P}. and {C}ontoux, {C}. and {C}ozic, {A}. and {C}ugnet, {D}. and {D}ufresne, {J}. {L}. and {E}the, {C}. and {F}oujols, {M}. {A}. and {G}hattas, {J}. and {H}auglustaine, {D}. and {H}u, {R}. {M}. and {K}ageyama, {M}. and {K}hodri, {M}yriam and {L}ebas, {N}. and {L}evavasseur, {G}. and {M}archand, {M}. and {O}ttle, {C}. and {P}eylin, {P}. and {S}ima, {A}. and {S}zopa, {S}. and {T}hieblemont, {R}. and {V}uichard, {N}. and {B}oucher, {O}.},
  editor = {},
  language = {{ENG}},
  abstract = {{T}he implementation of boundary conditions is a key aspect of climate simulations. {W}e describe here how the {C}limate {M}odel {I}ntercomparison {P}roject {P}hase 6 ({CMIP}6) forcing data sets have been processed and implemented in {V}ersion 6 of the {I}nstitut {P}ierre-{S}imon {L}aplace ({IPSL}) climate model ({IPSL}-{CM}6{A}-{LR}) as used for {CMIP}6. {D}etails peculiar to some of the {M}odel {I}ntercomparison {P}rojects are also described. {IPSL}-{CM}6{A}-{LR} is run without interactive chemistry; thus, tropospheric and stratospheric aerosols as well as ozone have to be prescribed. {W}e improved the aerosol interpolation procedure and highlight a new methodology to adjust the ozone vertical profile in a way that is consistent with the model dynamical state at the time step level. {T}he corresponding instantaneous and effective radiative forcings have been estimated and are being presented where possible.},
  keywords = {},
  booktitle = {},
  journal = {{J}ournal of {A}dvances in {M}odeling {E}arth {S}ystems},
  volume = {12},
  numero = {4},
  pages = {e2019{MS}001940 [22 ]},
  year = {2020},
  DOI = {10.1029/2019ms001940},
  URL = {https://www.documentation.ird.fr/hor/fdi:010079381},
}