Improved Representation of Clouds in the Atmospheric Component LMDZ6A of the IPSL-CM6A Earth System Model

Jean Baptiste Madeleine; Frédéric Hourdin; Jean Yves Grandpeix; Catherine Rio; Jean Louis Dufresne; Etienne Vignon; Olivier Boucher; Dimitra Konsta; Frédérique Cheruy; Ionela Musat; Abderrahmane Idelkadi; Laurent Fairhead; Ehouarn Millour; Marie Pierre Lefebvre; Lidia Mellul; Nicolas Rochetin; Florentin Lemonnier; Ludovic Touzé-Peiffer; Marine Bonazzola

doi:10.1029/2020MS002046

Improved Representation of Clouds in the Atmospheric Component LMDZ6A of the IPSL-CM6A Earth System Model

Jean Baptiste Madeleine
, Frédéric Hourdin
, Jean Yves Grandpeix
, Catherine Rio
, Jean Louis Dufresne
, Etienne Vignon
, Olivier Boucher
, Dimitra Konsta
, Frédérique Cheruy
, Ionela Musat
, Abderrahmane Idelkadi
, Laurent Fairhead
, Ehouarn Millour
, Marie Pierre Lefebvre
, Lidia Mellul
, Nicolas Rochetin
, Florentin Lemonnier
, Ludovic Touzé-Peiffer
, Marine Bonazzola

Research output: Contribution to journal › Article › peer-review

Abstract

The cloud parameterizations of the LMDZ6A climate model (the atmospheric component of the IPSL-CM6 Earth system model) are entirely described, and the global cloud distribution and cloud radiative effects are evaluated against the CALIPSO-CloudSat and CERES observations. The cloud parameterizations in recent versions of LMDZ favor an object-oriented approach for convection, with two distinct parameterizations for shallow and deep convection and a coupling between convection and cloud description through the specification of the subgrid-scale distribution of water. Compared to the previous version of the model (LMDZ5A), LMDZ6A better represents the low-level cloud distribution in the tropical belt, and low-level cloud reflectance and cover are closer to the PARASOL and CALIPSO-GOCCP observations. Mid-level clouds, which were mostly missing in LMDZ5A, are now better represented globally. The distribution of cloud liquid and ice in mixed-phase clouds is also in better agreement with the observations. Among identified deficiencies, low-level cloud covers are too high in mid-latitude to high-latitude regions, and high-level cloud covers are biased low globally. However, the cloud global distribution is significantly improved, and progress has been made in the tuning of the model, resulting in a radiative balance in close agreement with the CERES observations. Improved tuning also revealed structural biases in LMDZ6A, which are currently being addressed through a series of new physical and radiative parameterizations for the next version of LMDZ.

Original language	English
Article number	e2020MS002046
Journal	Journal of Advances in Modeling Earth Systems
Volume	12
Issue number	10
DOIs	https://doi.org/10.1029/2020MS002046
Publication status	Published - 1 Oct 2020

Keywords

CMIP6
climate model tuning
cloud radiative effect
global climate model
mixed-phase clouds
subgrid-scale parameterization

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1029/2020MS002046

Cite this

Madeleine, J. B., Hourdin, F., Grandpeix, J. Y., Rio, C., Dufresne, J. L., Vignon, E., Boucher, O., Konsta, D., Cheruy, F., Musat, I., Idelkadi, A., Fairhead, L., Millour, E., Lefebvre, M. P., Mellul, L., Rochetin, N., Lemonnier, F., Touzé-Peiffer, L., & Bonazzola, M. (2020). Improved Representation of Clouds in the Atmospheric Component LMDZ6A of the IPSL-CM6A Earth System Model. Journal of Advances in Modeling Earth Systems, 12(10), Article e2020MS002046. https://doi.org/10.1029/2020MS002046

@article{df3ea1f692164e42a208c8b570508423,

title = "Improved Representation of Clouds in the Atmospheric Component LMDZ6A of the IPSL-CM6A Earth System Model",

abstract = "The cloud parameterizations of the LMDZ6A climate model (the atmospheric component of the IPSL-CM6 Earth system model) are entirely described, and the global cloud distribution and cloud radiative effects are evaluated against the CALIPSO-CloudSat and CERES observations. The cloud parameterizations in recent versions of LMDZ favor an object-oriented approach for convection, with two distinct parameterizations for shallow and deep convection and a coupling between convection and cloud description through the specification of the subgrid-scale distribution of water. Compared to the previous version of the model (LMDZ5A), LMDZ6A better represents the low-level cloud distribution in the tropical belt, and low-level cloud reflectance and cover are closer to the PARASOL and CALIPSO-GOCCP observations. Mid-level clouds, which were mostly missing in LMDZ5A, are now better represented globally. The distribution of cloud liquid and ice in mixed-phase clouds is also in better agreement with the observations. Among identified deficiencies, low-level cloud covers are too high in mid-latitude to high-latitude regions, and high-level cloud covers are biased low globally. However, the cloud global distribution is significantly improved, and progress has been made in the tuning of the model, resulting in a radiative balance in close agreement with the CERES observations. Improved tuning also revealed structural biases in LMDZ6A, which are currently being addressed through a series of new physical and radiative parameterizations for the next version of LMDZ.",

keywords = "CMIP6, climate model tuning, cloud radiative effect, global climate model, mixed-phase clouds, subgrid-scale parameterization",

author = "Madeleine, \{Jean Baptiste\} and Fr{\'e}d{\'e}ric Hourdin and Grandpeix, \{Jean Yves\} and Catherine Rio and Dufresne, \{Jean Louis\} and Etienne Vignon and Olivier Boucher and Dimitra Konsta and Fr{\'e}d{\'e}rique Cheruy and Ionela Musat and Abderrahmane Idelkadi and Laurent Fairhead and Ehouarn Millour and Lefebvre, \{Marie Pierre\} and Lidia Mellul and Nicolas Rochetin and Florentin Lemonnier and Ludovic Touz{\'e}-Peiffer and Marine Bonazzola",

note = "Publisher Copyright: {\textcopyright}2020. The Authors.",

year = "2020",

month = oct,

day = "1",

doi = "10.1029/2020MS002046",

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Madeleine, JB, Hourdin, F, Grandpeix, JY, Rio, C, Dufresne, JL, Vignon, E, Boucher, O, Konsta, D, Cheruy, F, Musat, I, Idelkadi, A, Fairhead, L, Millour, E, Lefebvre, MP, Mellul, L, Rochetin, N, Lemonnier, F, Touzé-Peiffer, L & Bonazzola, M 2020, 'Improved Representation of Clouds in the Atmospheric Component LMDZ6A of the IPSL-CM6A Earth System Model', Journal of Advances in Modeling Earth Systems, vol. 12, no. 10, e2020MS002046. https://doi.org/10.1029/2020MS002046

TY - JOUR

T1 - Improved Representation of Clouds in the Atmospheric Component LMDZ6A of the IPSL-CM6A Earth System Model

AU - Madeleine, Jean Baptiste

AU - Hourdin, Frédéric

AU - Grandpeix, Jean Yves

AU - Rio, Catherine

AU - Dufresne, Jean Louis

AU - Vignon, Etienne

AU - Boucher, Olivier

AU - Konsta, Dimitra

AU - Cheruy, Frédérique

AU - Musat, Ionela

AU - Idelkadi, Abderrahmane

AU - Fairhead, Laurent

AU - Millour, Ehouarn

AU - Lefebvre, Marie Pierre

AU - Mellul, Lidia

AU - Rochetin, Nicolas

AU - Lemonnier, Florentin

AU - Touzé-Peiffer, Ludovic

AU - Bonazzola, Marine

PY - 2020/10/1

Y1 - 2020/10/1

N2 - The cloud parameterizations of the LMDZ6A climate model (the atmospheric component of the IPSL-CM6 Earth system model) are entirely described, and the global cloud distribution and cloud radiative effects are evaluated against the CALIPSO-CloudSat and CERES observations. The cloud parameterizations in recent versions of LMDZ favor an object-oriented approach for convection, with two distinct parameterizations for shallow and deep convection and a coupling between convection and cloud description through the specification of the subgrid-scale distribution of water. Compared to the previous version of the model (LMDZ5A), LMDZ6A better represents the low-level cloud distribution in the tropical belt, and low-level cloud reflectance and cover are closer to the PARASOL and CALIPSO-GOCCP observations. Mid-level clouds, which were mostly missing in LMDZ5A, are now better represented globally. The distribution of cloud liquid and ice in mixed-phase clouds is also in better agreement with the observations. Among identified deficiencies, low-level cloud covers are too high in mid-latitude to high-latitude regions, and high-level cloud covers are biased low globally. However, the cloud global distribution is significantly improved, and progress has been made in the tuning of the model, resulting in a radiative balance in close agreement with the CERES observations. Improved tuning also revealed structural biases in LMDZ6A, which are currently being addressed through a series of new physical and radiative parameterizations for the next version of LMDZ.

AB - The cloud parameterizations of the LMDZ6A climate model (the atmospheric component of the IPSL-CM6 Earth system model) are entirely described, and the global cloud distribution and cloud radiative effects are evaluated against the CALIPSO-CloudSat and CERES observations. The cloud parameterizations in recent versions of LMDZ favor an object-oriented approach for convection, with two distinct parameterizations for shallow and deep convection and a coupling between convection and cloud description through the specification of the subgrid-scale distribution of water. Compared to the previous version of the model (LMDZ5A), LMDZ6A better represents the low-level cloud distribution in the tropical belt, and low-level cloud reflectance and cover are closer to the PARASOL and CALIPSO-GOCCP observations. Mid-level clouds, which were mostly missing in LMDZ5A, are now better represented globally. The distribution of cloud liquid and ice in mixed-phase clouds is also in better agreement with the observations. Among identified deficiencies, low-level cloud covers are too high in mid-latitude to high-latitude regions, and high-level cloud covers are biased low globally. However, the cloud global distribution is significantly improved, and progress has been made in the tuning of the model, resulting in a radiative balance in close agreement with the CERES observations. Improved tuning also revealed structural biases in LMDZ6A, which are currently being addressed through a series of new physical and radiative parameterizations for the next version of LMDZ.

KW - CMIP6

KW - climate model tuning

KW - cloud radiative effect

KW - global climate model

KW - mixed-phase clouds

KW - subgrid-scale parameterization

U2 - 10.1029/2020MS002046

DO - 10.1029/2020MS002046

M3 - Article

AN - SCOPUS:85094126543

SN - 1942-2466

VL - 12

JO - Journal of Advances in Modeling Earth Systems

JF - Journal of Advances in Modeling Earth Systems

IS - 10

M1 - e2020MS002046

ER -

Improved Representation of Clouds in the Atmospheric Component LMDZ6A of the IPSL-CM6A Earth System Model

Abstract

Keywords

UN SDGs

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