The idea is to see the effect of clouds at the surface, especially the so-called Upwelling Longwave Radiation (LW_UP).
High clouds should be warming the planet, and low clouds cooling it, NASA says. Yet 16 years of their own satellite measurements don’t support the claim. Image: NASA.
High clouds supposedly warm the planet
But first, NASA tells us high clouds are much colder than low clouds and the surface and so they radiate less energy to space than low clouds do. And because high clouds absorb energy so efficiently, they have the potential to raise global temperatures.
In a world with high clouds, much of the energy gets captured in the atmosphere. High clouds make the world a warmer place.
If more high clouds were to form, more heat energy radiating from the surface and lower atmosphere toward space would be trapped in the atmosphere, and Earth’s average surface temperature would climb.
Low clouds said to cool the planet
NASA also adds that low stratocumulus clouds – on the other hand – act to cool the Earth system because they are much thicker and not as transparent. This means they do not let as much solar energy reach the Earth’s surface.
Instead, they reflect much of the solar energy back to space (their cloud albedo forcing is large).
NASA adds that stratocumulus clouds radiate at nearly the same intensity as the surface and do not greatly affect the infrared radiation emitted to space (their cloud greenhouse forcing on a planetary scale is small). The net effect of these clouds is to cool the surface.
But 16 years of satellite measurements tell a different story!
Zoe looked at 4 different types of observed LW_UP: All, Clr, AllNoAero, and Pristine. All is normal, observed sky. Clr (clear) is no clouds. AllNoAero is All minus aerosols. Pristine is Clr minus aerosols.
Since clouds are said to play an important role in Earth’s supposed greenhouse effect, and this effect leads to supposed serious warming at the surface, we should see a very large difference between all these four scenarios.
Very little difference
But when looking at the results, Zoe finds there is very little difference. The difference in surface LW_UP between a Pristine sky (no clouds, no aerosols) and All sky is just 0.82 W/m², she finds.
“I would even argue it might be ZERO. It’s only not zero because a satellite can’t measure the same scenario in the same place at the same time. They can only measure someplace nearby or same place at another time,” reports Zoe. “Even if I’m wrong on this, this value is still very unimpressive.”
Hardly changes outgoing surface radiation
Next, the former Wall Street analyst looked at downwelling longwave radiation (LW_DN) and longwave radiation at the top of the atmosphere (TOA_LW) and compares the averages side-by-side for all 3:
According to the greenhouse gas theory, infrared absorbing gases are supposed to be preventing radiation from reaching space, thus causing warming at the surface.
“Well, we clearly see that’s not the case. If clouds (water vapor + aerosols) hardly changes outgoing surface radiation, then the whole hypothesis is in error,” Zoe concludes. “Less top-of-atmosphere outgoing radiation doesn’t cause surface heating and thus more radiation from the surface, despite the increase in downwelling radiation.”
Ancient grey haired naked rebel and activist always looking to better the Human condition. Dreaming about what could be. Lifting the veil on the imposed illusion. Only a few will survive the depopulation wars fought by the (self proclaimed) 'Chosen Ones'. Only a few will survive the mindfuck. Maybe some of the stuff I write or share will be of some value (to you). I share it out of love knowing Mankind deserves so much better.
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