The temperature did not change, so the surface temperature - dependent responses of
atmospheric radiative cooling also did not change.
Not exact matches
Small changes in oceanic or
atmospheric circulation due to small changes in
radiative equilibrium may translate in flooding here and drying there, warming here and
cooling there, etc..
Miskolczi appears to have lost his FORTRAN coding skills — there are no new improvements being made to HARTCODE (it still can't calculate cloud or aerosol
radiative effects, nor
atmospheric LW
cooling rates).
The
radiative effects of human emissions of ozone - depleting substances and greenhouse gases have driven marked
atmospheric cooling at stratospheric altitudes.
In the tropics net
radiative influx is negative, i.e. radiation
cools the
atmospheric column.
The
atmospheric heating and
cooling rates are then passed back to the atmosphere structure module that calculates how much the surface and
atmospheric temperatures would change during the 30 - minute times step given the
radiative heating and
cooling rates.
The role of
radiative gases in
atmospheric cooling and tropospheric convective circulation far out weighs their role is slowing the
cooling of the land surface.
2) «
Radiative gases are critical to tropospheric convective circulation and
atmospheric cooling.»
Your claim proven as a theorem now means basically (with some
radiative cooling at the top for the return flow) that it does not need confirmation by numerical modelling, but rather, application, to see how it plays out in real
atmospheric problems.
In the idealised situation that the climate response to a doubling of
atmospheric CO2 consisted of a uniform temperature change only, with no feedbacks operating (but allowing for the enhanced
radiative cooling resulting from the temperature increase), the global warming from GCMs would be around 1.2 °C (Hansen et al., 1984; Bony et al., 2006).
Note that this is only part of the story since, as far as we are aware, no one has yet investigated a counterintuitive parallel effect — condensation and precipitation will likely reduce the total lower
atmospheric concentration of that ubiquitous greenhouse gas, water vapor, so increasing clear sky
radiative cooling.