René Garduño scite author profile

On a global and annual average, we find a parameterization in which the cloud cover increase is proportional to the mid tropospheric temperature increase, with a negative proportionality factor. If the relative humidity is conserved throughout the troposphere, a 1 °C heating (cooling) of the mid troposphere, decreases (increases) the cloud cover by 1.5 percentage points (pp). But if the relative humidity is not conserved, then the cloud cover decreases (increases) by 7.6 pp. If the shortwave reflection effect of the cloud cover is dominant on a global scale, this parameterization leads to a predominant positive feedback: if the temperature increases like in the current climate change, the cloud cover decreases and more solar radiation reaches the surface increasing the temperature even more. The contribution of the present work consists in finding that the negative sign of the proportionality factor is due to the Clausius–Clapeyron equation; that is, to the magnitude of the derivative of the saturation vapor pressure at the typical standard surface temperature of 288 K. The negative sign of the factor is independent on the conservation or non-conservation of relative humidity in the troposphere under climate change.

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Solar activity cloudiness effect on NH warming for 1980–2095

Mendoza

Garduño

et al. 2016

Advances in Space Research

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Simulation of the surface temperature anomalies in the Northern Hemisphere during the last 300 years of the Little Ice Age using a thermodynamic model

Mendoza¹,

Mendoza²,

Garduño³

et al. 2010

Clim. Res.

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René Garduño

Analysis of the effects of geomagnetic storms in the Schumann Resonance station data in Mexico

Atmospheric emissivity with clear sky computed by E-Trans/HITRAN

Thermodynamics of climate change between cloud cover, atmospheric temperature and humidity

Solar activity cloudiness effect on NH warming for 1980–2095

Simulation of the surface temperature anomalies in the Northern Hemisphere during the last 300 years of the Little Ice Age using a thermodynamic model

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