When I, with some colleagues at NASA, attempted to determine how clouds behave under varying temperatures, we discovered what we called an «Iris Effect,» wherein upper -
level cirrus clouds contracted with increased temperature, providing a very strong negative climate feedback sufficient to greatly reduce the response to increasing CO2.
It relies on not simply CO2, but on feedback from increased CO2 raising the temperature which increases the water vapor in the atmosphere which the alarmist assume will actually breaking up the low level clouds and forming high
level cirrus clouds that will trap more heat.
goodsprk: It relies on not simply CO2, but on feedback from increased CO2 raising the temperature which increases the water vapor in the atmosphere which the alarmist assume will actually breaking up the low level clouds and forming high
level cirrus clouds that will trap more heat.
When I, with some colleagues at NASA, attempted to determine how clouds behave under varying temperatures, we discovered what we called an «Iris Effect,» wherein upper -
level cirrus clouds contracted with increased temperature, providing a very strong negative climate feedback sufficient to greatly reduce the response to increasing CO2.
Not exact matches
Besides SSCE, scientists have also been investigating stratospheric sulfur injections — firing sun - reflecting aerosols into the air, similar to the cooling effect after a volcanic eruption — and
cirrus cloud thinning, where you thin the top
level of
clouds, which have a warming effect on the planet.
For Horizon Zero Dawn, Guerrilla need a solution that can fill a sky with evolving and realistic results that closely match highly detailed reference images which represent high altitude
cirrus clouds and all of the major low
level cloud types, including thick billowy cumulus
clouds.
Their argument is that tropical Cumulonimbus (thunderstorm)
clouds procuce less high -
level cirrus -
cloud outflow when sea surface temperatures (SST's) are warmer and atmospheric water vapor is higher.
The most significant changes in the new D - series
cloud datasets are: 1) revised radiance calibrations to remove spurious changes in the long - term record, 2) increased
cirrus detection sensitivity over land, 3) increased low -
level cloud detection sensitivity in polar regions, 4) reduced biases in
cirrus cloud properties using an ice crystal microphysics model in place of a liquid droplet microphysics model, and 5) increased detail about the variations of
cloud properties.
Comparisons of a sequence of the fifth - generation Pennsylvania State University — National Center for Atmospheric Research Mesoscale Model (MM5) predictions and GOES
level - 2B retrievals of ice
cloud tops for the convectively active second mission period showed that the MM5
cirrus areal extent was somewhat greater than the GOES depictions.
For Horizon Zero Dawn, Guerrilla need a solution that can fill a sky with evolving and realistic results that closely match highly detailed reference images which represent high altitude
cirrus clouds and all of the major low
level cloud types, including thick billowy cumulus
clouds.