N. K. Balachandran scite author profile

Results from a global climate model including an interactive parameterization of stratospheric chemistry show how upper stratospheric ozone changes may amplify observed, 11-year solar cycle irradiance changes to affect climate. In the model, circulation changes initially induced in the stratosphere subsequently penetrate into the troposphere, demonstrating the importance of the dynamical coupling between the stratosphere and troposphere. The model reproduces many observed 11-year oscillations, including the relatively long record of geopotential height variations; hence, it implies that these oscillations are likely driven, at least in part, by solar variability.

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Climate Change and the Middle Atmosphere. Part III: The Doubled CO₂Climate Revisited

Rind¹,

Shindell²,

Lonergan³

et al. 1998

J. Climate

118

124

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Climate Change and the Middle Atmosphere. Part I: The Doubled CO₂Climate

et al. 1990

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The GISS Global Climate-Middle Atmosphere Model. Part I: Model Structure and Climatology

Rind¹,

Suozzo²,

Balachandran³

et al. 1988

J. Atmos. Sci.

158

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N. K. Balachandran

Solar Cycle Variability, Ozone, and Climate

Climate Change and the Middle Atmosphere. Part III: The Doubled CO₂Climate Revisited

Climate Change and the Middle Atmosphere. Part I: The Doubled CO₂Climate

The GISS Global Climate-Middle Atmosphere Model. Part I: Model Structure and Climatology

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N. K. Balachandran

Solar Cycle Variability, Ozone, and Climate

Climate Change and the Middle Atmosphere. Part III: The Doubled CO2Climate Revisited

Climate Change and the Middle Atmosphere. Part I: The Doubled CO2Climate

The GISS Global Climate-Middle Atmosphere Model. Part I: Model Structure and Climatology

Contact Info

Product

Resources

About

Climate Change and the Middle Atmosphere. Part III: The Doubled CO₂Climate Revisited

Climate Change and the Middle Atmosphere. Part I: The Doubled CO₂Climate