2015
DOI: 10.1002/qj.2553
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Solar signals in CMIP‐5 simulations: the ozone response

Abstract: A multiple linear regression statistical method is applied to model data taken from the Coupled Model Intercomparison Project, phase 5 (CMIP-5) to estimate the 11-yr solar cycle responses of stratospheric ozone, temperature, and zonal wind during the 1979-2005 period. The analysis is limited to the six CMIP-5 models that resolve the stratosphere (high-top models) and that include interactive ozone chemistry. All simulations assumed a conservative 11-yr solar spectral irradiance (SSI) variation based on the NRL… Show more

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Cited by 53 publications
(121 citation statements)
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References 93 publications
(140 reference statements)
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“…Several CMIP5 models included a stratospheric chemical scheme (Hood et al, 2015), and it seems likely that more models will have this capability in CMIP6. However, there will be CMIP6 models that do not include chemistry but which resolve the stratosphere and specify SSI, and thus have some of the major ingredients for simulating a topdown pathway for solar-climate coupling (Mitchell et al, 2015b).…”
Section: Solar-cycle Signal In Stratospheric Ozonementioning
confidence: 99%
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“…Several CMIP5 models included a stratospheric chemical scheme (Hood et al, 2015), and it seems likely that more models will have this capability in CMIP6. However, there will be CMIP6 models that do not include chemistry but which resolve the stratosphere and specify SSI, and thus have some of the major ingredients for simulating a topdown pathway for solar-climate coupling (Mitchell et al, 2015b).…”
Section: Solar-cycle Signal In Stratospheric Ozonementioning
confidence: 99%
“…Recent modeling efforts have made progress in defining the prerequisites to simulate solar influence on regional climate more realistically (e.g., Gray et al, 2013;Scaife et al, 2013;Thieblemont et al, 2015), but the lessons learned from CMIP5 show that a more process-based analysis of climate models within CMIP6 is required to better understand the differences in model responses to solar forcing (e.g., Mitchell et al, 2015b;Misios et al, 2016;Hood et al, 2015). In particular, the role of solar-induced ozone changes and the need for a suitable resolution of climate model radiation schemes to capture SSI variations is becoming increasingly evident, and will be touched upon in this paper.…”
Section: Introductionmentioning
confidence: 99%
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“…Climate model results are often used to estimate the climate responses to solar variations and to understand associated mechanisms (e.g., Haigh 1996Haigh , 2003Shindell et al 1999;Matthes et al 2006;Meehl et al 2009;Rind et al 2008Rind et al , 2013Ineson et al 2011;Frame & Gray 2010;Gray et al 2013;Misios et al 2015;Hood et al 2015;Kidston et al 2015;Mitchell et al 2015). The earlier modeling studies to assess the implication of SORCE SIM measurements mainly focused on the time scale of the 11-year solar cycle by comparing the responses to the out-of-phase SORCE SSI and the in-phase SSI (e.g., NRLSSI and SATIRE SSI).…”
Section: Introductionmentioning
confidence: 99%